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The Rise and Fall of Cue Health: Market Lessons and Implications

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Cue Health, the portable COVID-19 test maker, reached its zenith during the pandemic’s peak, securing investments and contracts from both government and private sectors. The company was lauded for its user-friendly, rapid-response COVID-testing kits. At its peak, Cue Health’s products were seen as game-changers, with the potential to revamp the healthcare sector by providing accurate at-home diagnostic results within minutes. However, sales of these testing kits plummeted before Cue Health could diversify and establish other revenue streams, leading to a series of layoffs and, ultimately, the shutdown of its operations.

As the public focus shifted away from the pandemic, so did the demand for testing. For Cue Health, the COVID-19 test was essentially their sole product, and this decline in demand marked the onset of turbulent times.

In the past few years, Cue Health struggled to maintain its market position and technological edge, focusing on restructuring and streamlining its operations. The company engaged in talks with potential investors and stakeholders, which did not materialize. It also implemented several cost-cutting measures to remain afloat amid financial turbulence, but these were insufficient to counter the broader economic challenges that Cue Health faced. Its share prices declined steadily, and several rounds of layoffs followed.

The final blow came when the FDA issued a warning letter and a safety alert on May 10, 2024, asking users and healthcare providers to discard Cue Health’s product. The FDA discovered unauthorized changes made to Cue Health’s COVID-19 testing kits. This ultimately led to Cue Health’s winding down operations and filing for bankruptcy in May 2024 after laying off all its employees.

Cue Health’s business failures: A look at three critical oversights

Absence of recurring revenue streams: The company’s COVID-19 testing device was a one-time purchase, and it did not need any consumables or refills. This prevented the development of a recurring revenue model, such as subscription-based services or ongoing product sales, which is essential for financial stability and sustained revenue stream. Dependence on the one-time test kit sales implied that once its demand subsided, there was no consistent income to support operations.

Top-heavy business model: Cue Health employed many individuals in leadership positions, a common mistake that start-ups tend to make. This resulted in high salary costs, even amidst financial turbulence, eventually leading to several layoffs.

Moreover, the company struggled with financial management and strategic planning. Efforts to engage with investors and stakeholders did not yield results, further compounding the company’s financial crisis.

Narrow focus: Cue Health’s business model heavily depended on a single product, the COVID-19 testing kit, which nearly constituted its complete product portfolio. This singular focus left the company vulnerable to the declining demand for COVID-19 testing kits, and it was not able to pivot quickly to diversify product offerings. Moreover, the company was also unprepared for post-pandemic market realities, which led to its decline.

Cue Health’s wind down: Repercussions for diagnostics sector and investors

Regulatory and compliance implications: Cue Health’s regulatory challenges highlight the critical need for compliance and transparency in product modifications. Consequently, other companies in the diagnostics and medical devices sector may now encounter heightened regulatory scrutiny by the FDA. To stay afloat and avoid similar pitfalls, these companies must invest more in compliance, ensuring all products meet regulatory and quality standards. This could result in better overall product quality and safety across the industry, although at a higher cost to the device makers.

Industry lesson: Cue Health’s trajectory – from swift growth to sudden downfall – serves as a case study for industry players to understand the risks associated with over-reliance on a single product and the importance of portfolio diversification. Companies operating in the diagnostics sector should leverage the company’s experience to reevaluate business strategies and enhance risk management practices.

Investor sentiment: Cue Health’s downfall, despite the substantial funding and a successful IPO, could lead to more cautious investor behavior and diminished confidence in healthcare start-ups, particularly those with a singular product focus. For future investments, investors may demand more scrutiny and rigorous due diligence. Consequently, companies may be pressured to build diversified product portfolios and more sustainable business models to mitigate risks associated with market fluctuations and regulatory challenges.

EOS Perspective

Cue Health’s shutdown highlights the volatility and unpredictability of the MedTech sector, underlining the importance of regulatory compliance, portfolio diversification, and market adaptability. While innovation and growth are imperative for staying competitive in the diagnostics sector, striking a balance with robust financial planning and risk management practices is equally important.

For other diagnostics companies, Cue Health’s downfall serves as a cautionary tale, emphasizing the importance of building sustainable business models that can withstand market fluctuations and external pressure. For investors and stakeholders, it accentuates the requirement of stringent due diligence and risk assessment for high-stakes investments in emerging health technologies.

Despite Cue Health’s closure, its journey is important. The company leaves behind a legacy of innovations, diagnostic tools, and resourceful healthcare delivery models. Other diagnostics companies can build on Cue Health’s technological foundation, learning from its experiences to navigate the complex healthcare technology landscape.

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Denmark – A Trailblazer in Digital Health Innovation

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The COVID-19 pandemic has spurred the need to embrace new digital tools and technologies within the healthcare sector. There has been a significant increase in the use of technology to provide care, resulting in improved health outcomes. In Europe, Denmark has made significant progress and is at the forefront of the digital health transformation with a 99% digitalization rate. Over the last few years, Denmark has strived to digitalize further its healthcare infrastructure, testing and leveraging technologies such as AI and robotics to implement them at full scale across the country. In this transformation, the Danish digital health system can be a source of valuable lessons, uncovering various opportunities it presents for health tech companies.

Demark’s digital health: Harnessing power from a robust public infrastructure

Denmark’s healthcare system is among the most expensive worldwide, with 10% of GDP allotted for healthcare expenditures and 90% publicly funded through taxes. The health infrastructure is highly digitalized, with almost 99% of healthcare communication done electronically.

The national e-health portal, Sundhed.dk, launched in 2003, plays a key role in Denmark’s digitalization, offering a comprehensive platform catering to both healthcare professionals and citizens alike. Sundhed.dk provides safe and secure access to an individual’s personal health records (from hospitals), medication information, vaccinations, laboratory results, appointments, and referrals. The portal is user-friendly and is regarded as one of the superior models for public healthcare information exchange worldwide.

Over the last 20 years, the Danish government has supported and invested in various digital health initiatives, rolled out several IT services, and strengthened its digital healthcare infrastructure. In 2007, the country introduced E-record, through which individuals can access their medical information from EHR systems using the Sundhed.dk portal. The government also launched Shared Medication Record, which has records of patients’ prescriptions, details of the doctor who prescribed the medicines, and information pertaining to where the medications were picked from. During the COVID-19 pandemic, the “My Doctor” app was introduced to facilitate video consultations between GPs and patients. These digital initiatives contribute to improved care coordination and increase the patient’s trust in the system.

Denmark – A Trailblazer in Digital Health Innovation by EOS Intelligence

Denmark – A Trailblazer in Digital Health Innovation by EOS Intelligence

Unraveling the blueprint: Denmark’s digital health success story

Well-formulated digital health strategies address the needs of patients and healthcare workers

Many countries develop digital health strategies, which are frequently focused solely on technical aspects, steering away from addressing the actual needs of patients and healthcare professionals. Moreover, these policies often function as plain vision documents with no clear description of action plans or the roles and responsibilities of various stakeholders.

In contrast, Denmark’s digital health strategy is well-formulated and primarily focused on addressing the needs of patients and healthcare workers. It provides a clear vision of how digital technology can help meet their needs. In addition, the strategies highlight the importance of cross-sectoral collaboration, detailing focus areas and specific initiatives that must be jointly executed. For instance, it clearly mentions how the health and education sectors should work together to promote digital health literacy.

Denmark’s well-crafted digital health policies are a cornerstone of its successful digital health transformation. Since 1999, the country has been updating these strategies every four years, ensuring ongoing review and modernization of its digital health infrastructure.

Governance models aid in the speedy integration and implementation of digital healthcare tools

Denmark follows a regional governance model instead of the top-down approach, controlled by the state (national) government. The states and municipalities are responsible for developing and implementing their own health IT solutions in alignment with the national strategy.

Further, the government has established several steering groups to aid in implementing and disseminating digital health initiatives for rapid digital uptake. For instance, Connected Digital Health in Denmark, a cross-governmental organization, manages, coordinates, and ensures the implementation of various action plans mentioned in the national digital health strategies.

In addition, the government also regularly engages in public-private partnerships to boost its digital capabilities. The country’s strong governance is considered one of the critical success factors for the digital health transition.

Common IT standards help in effective healthcare data exchange

Many countries have deployed digital health technologies; however, integration remains sparse, resulting in a fragmented digital landscape. Integrating patient information siloed across multiple healthcare segments is crucial for establishing a high-quality digital health infrastructure. The adoption of common IT standards helps facilitate this data exchange and integration.

Denmark has been using these standards since 1990 for electronic health data communication as well as improving workflows between public hospitals, general practitioners, private healthcare entities, specialists, laboratories, and home care services. The early development of these standards significantly increased electronic communication within the healthcare sector, contributing to the high level of digitalization of the Danish healthcare sector.

Strict testing protocols ensure digital health tools are user-friendly

The user-friendliness of digital technologies is considered one of the major factors for early e-health adoption. Denmark undertakes several initiatives to ensure that digital health tools and technologies are user-friendly and easy to use. For instance, the country collects feedback from healthcare stakeholders about their experience with various digital health solutions, checks if they are user-friendly, and uses the input received to develop new solutions.

The country has also implemented strict testing protocols for telehealth solutions by evaluating their performance on mobile devices and testing the products with a range of end users, including the elderly and people with disabilities.

Government’s focus on educating and training healthcare stakeholders helps them to use digital tools effectively

Denmark educates and trains healthcare workers to use digital tools appropriately. According to a 2020 Deloitte report, nearly 76.8 % of Danish clinicians mentioned that they are well-trained and supported in using digital health tools and solutions.

Local governments and hospitals in Denmark collaborate with tech professionals to provide support, education, and training on using digital solutions such as EMRs, telemedicine platforms, and shared IT standards for healthcare data exchange. Digital health literacy of front-line healthcare workers is one of the core objectives of the country’s digital health strategy.

Unlocking opportunities: Denmark’s digital health sector for health tech companies

According to Statistics Denmark, the percentage of the Danish population aged 75 or above is expected to double from 7.8% in 2017 to 14.4% in 2047. In addition, the country faces a severe labor shortage, with projections suggesting that by 2035, Denmark might have a shortage of 14,500 healthcare workers. These factors are expected to put increased pressure on the Danish healthcare system.

In order to tackle these challenges, Denmark’s government continues to invest in advanced innovative technologies and digitalization strategies. In 2018, the country launched a digital health strategy titled “A Coherent and Trustworthy Health Network for All: 2018-2024”, aiming to modernize the healthcare infrastructure further. Under this initiative, the country aims to expand telemedicine solutions, increase virtual care visits, and automate the administrative and clinical workflows within the Danish healthcare system. This initiative is creating opportunities for startups and companies offering health tech solutions in the areas of telemedicine, video consultations, remote patient monitoring, hospital automation, and diagnostics.

Danish government seeks to expand telemedicine solutions for various segments of the patient population

Denmark has been using telemedicine services since 2012, beginning with home monitoring solutions for Chronic Obstructive Pulmonary Disease (COPD) patients. The country seeks to further expand the rollout of telemedicine solutions for patients with COPD, chronic diseases, heart failure, comorbid conditions, and pregnant women facing complications. In December 2023, the government of Denmark invested about US$72 million to expand telemedicine solutions for these patients, offer digital rehabilitation courses, and increase the number of virtual consultations through GPs.

Various governmental organizations in Denmark have been looking to partner with companies providing innovative remote monitoring and virtual care solutions to facilitate home treatment.

For instance, in 2021, in collaboration with the local government, Trifork, a Denmark-based digital health company, developed a telemedicine solution called Telma for severe COPD patients. The solution provides COPD patients with medication, measuring tools, and devices to track pulse and oxygen levels at home. The Telma app transmits this data in real time and facilitates communication between healthcare professionals and patients through video consultations, thus lessening the need for frequent hospital visits.

Similarly, in 2022, two Denmark-based health tech companies, Copenhagen Center for Health Technology (CACHET) and Cortrium, forged a research collaboration to develop a novel technology to monitor a patient’s heart rhythm remotely. This allows heart failure patients to receive prompt medical care without visiting a hospital.

The Danish government is also looking to provide telerehabilitation services amidst the rising mental health issues across the country. In 2021, the government established the Centre for Digital Psychiatry to develop, test, and implement several nationwide digital services. In March 2023, the Center initiated a research project with Monsenso, a Danish mobile health company, to provide personalized digital treatment for patients with depression.

A rise in telemedicine programs catering to various segments of the patient population is expected in the forthcoming years. This surge in demand fuels the growth of companies offering telehealth solutions nationwide.

AI presents several opportunities for innovation and collaboration within the healthcare segment

Denmark actively seeks to integrate AI into its healthcare system, especially in diagnostics, presenting numerous opportunities for AI-based health companies to thrive. The country has established research and innovation centers across the country focusing on AI for uses such as identifying at-risk stroke patients, helping radiologists interpret scans, and assisting in other diagnostics.

In 2021, Denmark established the Radiology AI Test Center (RAIT) to accelerate the development and implementation of medical AI applications in the country. Through RAIT, private companies can test and validate their AI-based technologies in Denmark. For example, in 2021, through the RAIT program, several Danish hospitals in Copenhagen partnered with US-based imaging AI startup Enlitic to evaluate an AI-based algorithm to read chest X-rays. Similarly, in 2023, RAIT partnered with Cerebriu, a Denmark-based health tech company, to use AI to improve MRI imaging of the brain.

Investments in advanced digital technologies modernize healthcare infrastructure

As Denmark endeavors to digitalize its hospitals, ample opportunities arise for companies specializing in robotics and mobile health to improve hospital and clinical workflows, among other areas.

Some steps have been taken to digitalize hospitals. For instance, the Centre for Clinical Robotics (CCR), a research and innovation center for healthcare robotic technology in Denmark, aims to leverage robotic technology for various hospital processes, such as food service, cleaning, medication dispensing, clinical sample collection, etc.

Another interesting instance is the pilot project between Systematic, a Denmark-based software company, and physicians at the Aalborg University Hospital. Systematic has developed a communication platform called Columna Flow Clinical Tasking, which facilitates direct communication among the physicians at the Aalborg Hospital. The solution offers a real-time overview of the patients, including their medical conditions and the workload of hospital clinicians on duty. This empowers physicians to prioritize patients and efficiently allocate tasks during peak hospital hours.

EOS Perspective

The Danish health system is poised for an even more profound digital transformation in the coming years, aiming to improve patient accessibility and convenience. Denmark’s healthcare market is already highly digitalized, which provides a robust foundation for further digital transformation and innovation.

Home care and telemedicine, health data interoperability, AI-based diagnosis, healthcare automation, personalized medicine, and preventative health are likely the key focus areas for the next phase of digital health transformation.

Further, the country is looking to elevate patient care through its super hospital program, which involves consolidating smaller hospitals into larger, higher-capacity units. The aim is to provide superior medical care at lower costs. Technology will play a key role in improving healthcare delivery and patient outcomes in these hospitals, with applications across logistics, clinical decision support tools, diagnostic tools management, and patient engagement, among other areas.

These initiatives can be expected to make the Danish health system even more robust. The system is expected to move from a doctor-centric to a patient-centric care model, where patients would be actively involved in taking care of their own health. The country’s meticulously crafted digital health strategies, well-established digital infrastructure, and technology-proficient population lay a solid foundation to usher in the next wave of innovation.

As Denmark persists in its commitment to build a healthcare system fit for the future, there are abundant opportunities for health tech companies to thrive and drive innovation within the Danish healthcare industry.

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An Era of Innovation: Novel Drugs Redefining Multiple Sclerosis Treatment Paradigm

Since the approval of the first drug, interferon beta 1b (IFNβ-1b), in 1993, the treatment landscape of multiple sclerosis (MS) has significantly changed. Currently, there exist more than 20 disease-modifying therapies (DMTs) to treat MS, encompassing orals, injectables, and infusions. These drugs, however, can cause adverse side effects such as toxicity, pregnancy-related complications, and gastrointestinal symptoms, among others. Moreover, about 5-10% of the patient population still develops disability. Despite the wide range of therapeutic options available, patients experience relapses and worsening disease symptoms, which significantly reduce their quality of life.

The ongoing challenges have driven pharmaceutical companies to develop and launch drugs that offer greater efficacy and safety, enhancing patients’ health outcomes in the longer term. In particular, significant efforts are geared towards treating the progressive forms of MS, such as Primary Progressive MS (PPMS) and Secondary Progressive MS (SPMS), for which therapies are currently limited.

Several emerging therapies are in various stages of development, targeting distinct mechanisms of the underlying disease etiology. Among all the emerging therapeutic approaches, Bruton Tyrosine Kinase Inhibitors (BTKIs) emerge as the most promising, currently in later stages of clinical trials, poised for approval. The potential advantage of BTKI agents is that they can treat both relapsing and progressive forms of MS.

Remyelination is another equally promising therapeutic approach, as it has the potential to promote myelination, restore axonal and neuronal health, and prevent disability; however, extensive clinical trials are essential to develop these drugs and fully integrate them into clinical practice.

On the other hand, monoclonal antibodies (mAbs) are becoming the most common therapeutic option due to their higher selectivity for B-cells (a type of immune cell), a fact that plays a crucial role in MS disease pathogenesis. The higher selectivity of mAbs allows to efficiently target these cells and reduce inflammation.

An Era of Innovation Novel Drugs Redefining Multiple Sclerosis Treatment Paradigm by EOS Intelligence

An Era of Innovation Novel Drugs Redefining Multiple Sclerosis Treatment Paradigm by EOS Intelligence

Pharma companies place high hopes on BTKI

Following the success of B-cell depleting therapies in treating MS, there has been a notable surge in interest in utilizing a novel class of medications called BTKI. BTK is an enzyme crucial for the functioning of B-lymphocytes, which elucidates the autoimmune response in MS patients. Unlike B-cell depleting therapies, which directly reduce the number of B-cells, BTKIs alter B-cell function, preventing relapse or slowing disease progression in MS patients.

These BTKIs can be taken orally, offering a convenient and easy way of administration. Another potential advantage is that BTKIs can cross the complex blood-brain barrier, which other MS drugs fail to do. Due to this potent efficacy, researchers believe that BTK inhibition can even act as a cure for MS.

Over the past few years, top pharma companies such as Roche, Sanofi, InnoCare, and Novartis have betted big on BTKI to treat MS patients. There are currently four BTKI agents that are being investigated for MS treatment – Sanofi’s Tolebrutinib, Roche’s Fenebrutinib, Novartis’ Remibrutinib, and InnoCare’s Orelabrutinib. Among these, Sanofi is ahead in the race, looking to submit its BTKI drug Tolebrutinib to treat Relapsing-Remitting Multiple Sclerosis (RRMS) for FDA approval in 2024. The company is also currently evaluating Tolebrutinib in a phase 3 trial for treating PPMS, which is expected to be completed in August 2024. If successful, Sanofi would become the first pharmaceutical company to offer BTKIs for both RRMS and PPMS. At present, Roche’s Ocrevus (Ocrelizumab) is the only DMT approved for treating PPMS. Sanofi’s approval of BTKIs would set the stage for direct competition between Roche and Sanofi in the treatment of PPMS. However, Roche’s Ocrevus patent expires in 2029, hence the company remains focused on its BTKI drug Fenebrutinib.

Similar to Sanofi, Roche is testing Fenebrutinib for treating both RRMS and PPMS patients. Roche is slated to complete its phase 3 studies investigating the drug to treat RRMS in November 2025 and PPMS in December 2026.

Novartis and InnoCare are slightly trailing in the competition. Novartis is currently evaluating its BTKI drug, Remibrutinib, in phase 3 clinical trials to treat people with RRMS, expected to be completed in 2029. On the other hand, InnoCare is currently evaluating Orelabrutinib in phase 2 trials for RRMS treatment. Both Remibrutinib and Orelabrutinib cannot be used to treat PPMS, which is a major limitation.

The development of BTKI fosters hope for the next era of MS treatment, as the therapy treats both relapsing and progressive MS. However, the safety and efficacy of each drug still needs to be understood.

Results from BTKI clinical trials indicate that these drugs differ in the strength of BTKI inhibition, BTK enzyme binding mechanism, and central nervous system (CNS) penetration. For instance, Sanofi’s Tolebrutinib showed greater CNS penetrance than the other BTKI agents, making the drug a potential candidate for treating PPMS. On the other hand, Roche’s Fenebrutinib is the only reversible BTK inhibitor that does not cause drug resistance, thus offering a better and safer treatment compared to the rest of the BTKI agents.

It is too early to predict the timeline and extent to which these drugs will be incorporated into the MS treatment paradigm. Until then, pharmaceutical companies in this space will persist in vying to accelerate the launch of their therapies in the fiercely competitive MS market.

Therapies targeting remyelination nearing clinical trials

In MS, myelin, a fatty tissue that surrounds the nerve cells, gets damaged, impairing the nerve’s ability to send electrical signals. At present, no therapies can promote myelin repair in MS patients. The current treatments focus primarily on reducing immune system activity and stopping immune cells from entering the CNS to reduce relapse rates and improve symptoms. The emergence of remyelination therapies holds extensive promise by protecting and restoring neuronal function, and preventing clinical disability in MS patients.

Remyelination works by either removing myelin debris or by creating a type of cells called oligodendrocytes to repair and replace the damaged myelin sheaths.

Over the last few years, pharmaceutical companies have shown heightened interest in evaluating and developing drugs that could promote remyelination. Some of these drugs are in later stages of development, nearing clinical trials.

For instance, in March 2024, Convelo Therapeutics, a US-based biotechnology company, announced that its two oral therapies showed promising evidence in myelin repair in animal models. Similarly, in the same month, the FDA granted a breakthrough device designation to a neurostimulator, for treating RRMS. The device is developed by SetPoint Medical, a US-based healthcare company, to slow myelin damage in RRMS patients. Both these companies have been working to begin clinical trials soon to test their remyelinating agents.

Numerous other companies across the world are also conducting extensive research on remyelination therapies for MS. Additionally, studies are underway to explore the potential of existing drugs, such as Metformin, Ibudilast, and Clemastine, among others, in promoting myelin repair. Encouraging results from preclinical trials and ongoing research studies foster growing optimism that this approach will become viable in treating MS patients in the future.

However, work on remyelination to treat MS patients has just begun, and there is still a long way to go. Defining the optimal clinical criteria for evaluating myelin repair appears largely undefined. There is also an urgent need to develop tools to measure the remyelination achieved and assess the drug’s effectiveness. That said, recent discoveries shedding light on remyelination processes and the functions of oligodendrocyte cells inspire hope that these issues will be effectively addressed in the coming years. Companies are also developing advanced imaging techniques to quantify myelination.

Overall, remyelination emerges as the sole therapy focused on repairing the neuro damage and improving the neurodegenerative conditions in MS patients, which is not currently fulfilled by existing treatments. This underscores remyelination as an inevitable treatment approach for both RRMS and PPMS.

Monoclonal antibodies continually transforming the MS treatment landscape

In recent years, mAbs have emerged as the indispensable treatment option for managing the relapsing forms of MS. These therapeutic agents offer high efficacy in managing symptoms while providing additional advantages such as ease of dosing and lower side effects compared to traditional therapies.

Given the promising potential of this therapeutic approach, pharma companies strive to introduce novel mAbs targeting different cells, molecular pathways, or molecules. Interestingly, new mAbs are also being developed to help repair the damage or disability that has already occurred. Thus, mAbs aim not only to alleviate symptoms but also repair the damage caused by MS, potentially reversing disability – a critical unmet need in the MS treatment landscape.

Among all the mAbs approved, antibodies that target the CD20 molecule (a protein found on the surface of B-cells) have gained significant interest lately. In recent years, the FDA has approved various therapies targeting anti-CD20 molecule. Currently, anti-CD20 mAbs such as Ocrelizumab, Natalizumab, Ofatumumab, Ublituximab, and Rituximab are used for the treatment of MS. Ocrelizumab, developed by Roche, stands out as the only mAb approved for treating both RRMS and PPMS. Ublituximab, developed by TG Therapeutics, is the latest addition to this group, approved by the FDA in 2022.

The mAb market is highly competitive. Hence, companies have been increasingly seeking to differentiate their products based on parameters such as efficacy, safety, and dosing convenience to capture larger market shares. For instance, Novartis considers the ease of administration to be the primary differentiating factor to help drive its mAb sales. The company launched Ofatumumab in 2020, the only mAb that can be administered via injection for treating RRMS. Similarly, Roche is developing Ocrevus subcutaneous injection version similar to the IV infusion. Phase 3 trials are currently underway to evaluate the drug to treat both RRMS and PPMS.

Companies have also been looking to differentiate their drugs in terms of safety. The common side effect of MS therapies is lymphopenia, i.e., lymphocyte depletion, which can pose risks, such as increased vulnerability to infections. To address this, Sanofi is developing a CD40-based mAb named Frexalimab to treat RRMS and SPMS. CD40L is a protein that activates the innate and adaptive immune systems in humans. Sanofi’s phase 2 trials investigating Frexalimab rapidly reduced the disease activity up to 89% without depleting the lymphocytes, thus offering a safer treatment option. Sanofi already has a strong MS pipeline with its BTK drug, Tolebrutinib, to be approved in 2024. Frexalimab, once approved, is expected to further boost the company’s market share.

While mAbs are promising, factors such as high prices hinder their market penetration. Consequently, companies have been looking to develop biosimilar compounds for mAbs, aiming to lower drug prices while simultaneously maintaining and expanding their market share. For instance, in August 2023, the FDA approved Tyruko, a monoclonal antibody that is a biosimilar version of Biogen’s Natalizumab, for treating RRMS. Overall, an increased interest in R&D, coupled with the number of clinical trials underway indicate that mAbs will remain a favored approach in MS treatment for the foreseeable future.

EOS Perspective

The MS treatment market is expected to witness significant growth, reaching a value of US$39 billion by 2032. The increasing prevalence of MS and the demand for highly effective therapies are driving pharma companies to investigate and develop novel drugs. Extensive R&D efforts and the high unmet needs for treating PPMS and SPMS are the other key factors fueling market growth. In addition, governments worldwide are actively supporting drug research with substantial funding.

To gain higher market shares in the competitive MS market, pharma companies are fiercely focusing on innovation and differentiation. They are conducting extensive clinical trials to demonstrate their drugs’ efficacy and superiority. Additionally, these companies are striving to innovate in other aspects, such as drug safety, tolerability, ease of dosing, and convenient routes of administration.

The primary challenge slowing market growth is the high cost of drugs. MS drugs are very expensive, with prices consistently rising each year. According to a 2019 survey published by the National Multiple Sclerosis Society, 40% of respondents terminated their treatment due to the high costs of DMTs. Hence, companies must navigate reimbursement processes and negotiate drug prices with payers to ensure broad patient access and increased market penetration.

Other challenges inhibiting the market growth include patent expiration and the complex nature of MS. Patent expiration allows low-priced generics to enter the market, negatively impacting drug sales. Additionally, the disease’s high heterogeneity limits companies’ ability to develop therapies for the long term.

However, despite these challenges, the MS treatment market looks promising and is continually evolving. In recent years, the treatment landscape has shifted towards introducing highly efficient and safer therapies earlier in the disease course to prevent complications in the longer term. Consequently, companies demonstrating higher drug efficacy are expected to gain a significant foothold in the market. In addition, substantial opportunities exist for companies that address neuroprotection, as the majority of the existing treatments primarily target the inflammatory part of the disease.

by EOS Intelligence EOS Intelligence No Comments

FemTech: A Game-Changer in Women’s Healthcare

Women’s healthcare is one of the most neglected and understudied fields in the healthcare sector. Despite substantial advances in medical sciences in recent years, there still exists a huge gap in the treatment of diseases that are specific to women. FemTech focuses on addressing some of these gaps and offers the potential to help tackle the longstanding issues of women’s health.

FemTech developed as an answer to inadequate healthcare for women

According to a 2018 article published in Our World in Data, a UK-based online scientific publication, human life expectancy has increased tremendously from 30 to 73 years during the last two centuries (1800–2018). But this leap has not been reflected in women’s life quality. A 2024 report published by the World Economic Forum and the McKinsey Health Institute indicated that women live 25% longer in poor health than men, although they typically outlive males.

FemTech, a group of technology-enabled solutions such as diagnostic tools, wearables, products, software, and services, aims to tackle women’s health issues, such as maternal, reproductive, menstrual, and sexual health, as well as menopause. An example is the UK-based Flo Health app that tracks ovulation and the menstrual cycle, offers customized health insights and tips, and a closed community for sharing concerns and queries. US-based Natural Cycles is another example. This application provides personalized insights based on each user’s menstrual cycle patterns. This novel approach to improving women’s health and well-being has been gaining more importance in recent years.

Several challenges slow down progress and widespread acceptance

While FemTech offers promising solutions to help diagnose and manage many health issues affecting women that were previously overlooked, several challenges are awaiting interested players.

One major bottleneck players face is the scarcity of investments. Many investors still consider FemTech a niche sector and shy away from investing compared to other healthcare fields. This situation is slightly improving, as the industry has seen an increase in investment in recent years. Data from Dealroom, an Amsterdam-based provider of data and insights on start-ups and tech ecosystems, indicated that the venture capital (VC) funding into FemTech startups reached US$2.1 billion in 2021, an all-time high.

Despite this increase in investment in FemTech, the total funding for this sector still trails other sectors, especially if it is female-led. The CEO of a leading US-based fertility tracker Mira, said in an interview with Forbes that though 70% of FemTech startups are female-founded, male-owned businesses tend to raise more capital.

Investors and lenders often have unconscious biases against female entrepreneurs, affecting their willingness to invest in female-led businesses, according to a 2020 study published in the Journal of Financial Economics, a peer-reviewed financial journal. Also, women might only have restricted access to male-dominated fundraising sources, including crowdfunding websites, angel investors, and VC firms. Similarly, the traditional male dominance in some areas, such as technology and finance, can also lead to power imbalances in fundraising and limit the options available to women.

Insufficient R&D support is another major challenge faced by players in the FemTech sector. This can be seen from the fact that a significant proportion of the funding allocated to healthcare R&D is not focused on issues that directly impact women’s health and well-being, with a meager 4% dedicated to this area according to a 2018 article published in Forbes. This insufficient funding can cause innovation stagnation, set back product development, and reduce market opportunities.

The inadequate representation of women in clinical trials is another difficulty faced by FemTech companies. This lack of representation has created a knowledge gap in understanding important facets of women’s health, such as female anatomy, physiology, health issues, etc. A 2022 study published in Contemporary Clinical Trials, a peer-reviewed journal, showed that though women constitute 50.8% of the US population, just 41.2% of those involved in clinical trials were female. This creates a certain lack of awareness of how women’s bodies work, making it challenging for FemTech businesses to develop effective solutions.

Cybersecurity issues are also creating challenges in the development of FemTech. A joint study by Newcastle University, Royal Holloway, University of London, and ETH Zurich found serious privacy, security, and safety concerns that could put users at risk. The research indicated the danger of leaking sensitive information, such as fertility, medical data, etc., to third parties.

Cultural and social taboos are another bottleneck faced by FemTech companies. Female-specific issues such as postpartum depression and premenstrual syndrome are rarely openly discussed. This makes bringing societal focus to FemTech products a difficult task.

FemTech A Game-Changer in Women's Healthcare by EOS Intelligence

FemTech A Game-Changer in Women’s Healthcare by EOS Intelligence

FemTech industry is seeing significant development in some segments

Though confronting numerous challenges, FemTech remains a promising industry for interested players with its projected market growth. The FemTech market, estimated at US$40.2 billion in 2020, is expected to reach US$75.1 billion in 2025, according to a 2021 report by the US-based market research agency Arizton Advisory & Intelligence.

General health and wellness is the fastest-growing segment

FemTech offers several solutions for improving women’s health across various segments, with general health and wellness companies attracting the most VC investment, followed by reproductive health and contraception.

The general health and wellness segment combines digital health clinics, mental health services, and direct-to-consumer products. Since companies in this segment focus on broad-ranging solutions that address multiple issues, demand for them is expected to rise.

An example is Maven, a New York-based company offering a holistic solution encompassing pre- and post-pregnancy care. This virtual clinic provides 24/7 access to healthcare professionals, including mental health therapists, relationship consultants, and sleep coaches. In 2022, Maven attracted US$300 million in funding from prominent investors and individual strategic partners.

Another example is Stockholm-based Grace Health, acquired by Penda Health, a Kenyan medical care chain in 2023. It uses an automated health assistant called Grace to monitor and understand women’s sexual and reproductive well-being and receive timely reminders and notifications. The company is also expanding its local footprint in key African markets, including Nigeria, Kenya, and Ghana, to solidify its position as a market leader in these regions.

Reproductive health segment is also seeing strong demand

The reproductive health segment and menstruation care are also expected to continue holding the interest of investors and customers alike. According to the NIH, in the USA, 20% of women are now having their first child after turning 35, owing to a greater emphasis on education and career. With increasing age, some women may experience difficulty before, during, or after pregnancy. Women will also need to effectively and accurately track their fertility to make informed reproductive choices. This is likely to greatly contribute to in increased demand for FemTech reproductive health solutions.

An example is the Clue App, a Germany-based fertility tracker that leverages user data to compute and predict individuals’ periods and PMS. In 2023, the company raised US$7.6 million in funding and partnered with global universities such as the University of Exeter to bridge the diagnosis gap for women’s health conditions. This collaboration is expected to create new trends in managing female health issues.

Oncology products are now aimed at individuals and medical professionals

Development is also underway in the oncology segment. An example is Nevada-based Cyrcadia Health developing a breast monitor that tracks changes in breast tissue temperature over time to aid in the detection and risk management of breast cancer. The monitor consists of two patches that track temperature changes and send the data anonymously to the Cyrcadia Health core lab. This data is analyzed using machine learning (ML) algorithms and predictive analytics software to identify and categorize abnormal circadian patterns in healthy breast tissue. The results are then delivered to healthcare providers. This solution, when it becomes available in the market, is expected to enable women to take more proactive control of their breast health.

Cancer continues to be a leading cause of women’s death both in middle-income and high-income countries, according to a 2017 article published in Cancer Epidemiology, Biomarkers & Prevention, a peer-reviewed journal. Therefore, the focus on FemTech oriented at breast cancer and cancer in general is expected to gain momentum in the future.

Stigmatized conditions and marginalized subpopulations are increasingly addressed

Many FemTech companies are now exploring areas beyond menstrual and reproductive care and addressing stigmatized and unmet conditions such as preterm birth, endometriosis, pelvic care, and sexual health.

An example is London-based Elvie, a company that addresses pelvic floor dysfunction, a common and often overlooked health issue affecting many women. According to the NIH, 27% of women aged 40-59 and 37% of women aged 60-79 experience some form of pelvic floor dysfunction. Elvie has developed a Kegel trainer that uses biofeedback technology to improve pelvic and sexual health through five-minute workouts. The development of these solutions is expected to persuade more women to seek treatment and improve the diagnosis of these health conditions.

Similarly, apps are also being introduced for different sections of the population such as LGBTQ+, black women, and women from low and middle-income societies. US-based InovCares, an app designed to address the crisis of maternal mortality affecting Black women, is an example. This virtual OB-GYN platform connects users with culturally sensitive healthcare professionals who cater to various health needs, including fertility, childbirth, and breastfeeding.

Solutions are being developed in various geographies

While FemTech solutions development is concentrated in the USA and Europe, it is also visible in developing geographies such as Africa and Southeast Asia. An example is Indonesia’s BukuBumil which provides information on various aspects of pregnancy, including fertility, maternal health, baby immunizations, family planning, and post-pregnancy care in the Indonesian language. The platform also allows users to track a baby’s development and milestones.

Another one is Ethiopia-based YeneHealth, a multilingual and culturally responsive platform with AI-powered trackers for menstrual cycle, pregnancy, and medication management.

AI and ML are expected to shape the future of FemTech

Technological advancements are creating waves in the FemTech industry. Many companies are developing smart wearables and AI-powered solutions. Zurich-based Ava Women has developed a wearable, the Ava bracelet (available without prescription), to track hormonal changes. It allows users to monitor their ovulation and detect potential health issues. Ava’s technology uses big data and AI to provide accurate and personalized insights.

Similarly, Ovum, an Australia-based health management app, currently in its pilot phase, offers an AI health assistant designed for women to generate a dataset to improve treatments and diagnostics of various conditions. The app integrates and stores medical records, allowing users to track their health and receive personalized recommendations. This comprehensive data repository is crucial for complex or chronic conditions such as endometriosis, where a diagnosis can take years.

Experts believe the widespread use of AI and ML in FemTech apps will help players provide more accurate and data-driven solutions to users. AI can also analyze large datasets and use predictive analytics to anticipate health risks, such as gestational diabetes or pre-eclampsia.

EOS Perspective

The FemTech landscape, though still developing, is expected to expand more and grow quickly, especially with the increasing discussion around female health, Amazon CTO Werner Vogels commented at the 2023 AWS re:Invent conference, the largest conference in the cloud computing community. He has highlighted the significant potential of FemTech to transform the female healthcare system, specifically considering that women make up 50% of the population and account for 80% of consumer healthcare decisions.

FemTech has also the potential to significantly impact the healthcare sector and the global economy as a whole in the coming years. A 2024 report by the McKinsey Health Institute indicated that improving women’s health could boost the world economy by at least US$1 trillion annually.

The market is expected to see FemTech players widen their business scope, offer multiple services, and address a broader set of health issues. An example of this trend is UK-based Peppy, which initially helped organizations better support their women staff members after they had a baby, but now also deals with menopausal issues. This shift demonstrates a broader approach to women’s health under a single solution and reflects a development towards more comprehensive and inclusive offerings within FemTech.

Since FemTech is still developing, extensive R&D can be expected in the coming years. Experts believe health issues affecting older women also offer interested parties a research investment opportunity. Even now, in discussions and debates regarding FemTech, the diseases suffered by older women get overlooked. This makes it a promising area for future developments.

As the FemTech market expands, it is likely to attract collaborations from players operating outside the healthcare sector. One of the first examples of this was seen in August 2021, when the French cosmetic giant L’Oréal partnered with Clue to research the connection between the menstrual cycle and skin health to improve its skincare products. Such collaborations, whether just publicity stunts for cosmetic companies or not, can help put FemTech solutions on the map of legitimate tools close to women’s health. Considering that FemTech is still considered a niche sector, this can draw attention to the relevance of this market and its players and, consequently, stimulate investment.

Over the long term, women-led companies are expected to create more effective FemTech solutions that identify and cater to women’s unique healthcare requirements. The key factor behind it is that women are better placed to understand the health issues affecting women. A 2022 study published in Harvard Business School’s digital research publication Working Knowledge has also indicated that female-led research teams are more likely to study conditions that impact both genders than male-led ones. With more women stepping into STEM (science, technology, engineering, and mathematics) roles and female-led FemTech start-ups emerging, there is a promise of a more comprehensive scope of FemTech solutions.

A 2023 article published in Harvard Business Review noted an important trend that may positively affect the FemTech market: female investors are more likely to invest in and support female entrepreneurs. This suggests the potential for more capital flowing into women-led businesses, including in FemTech. As more women take on senior leadership roles in both FemTech startups and VC firms, this could substantially propel the industry growth.

by EOS Intelligence EOS Intelligence No Comments

Gut Matter: Will FMT Change How We Look at Disease Treatments?

Converting poop to pills was something unimaginable a few years ago, but now Fecal Microbiota Transplant (FMT) is taking the medical world by storm. This revolutionary technique, which promises to treat a wide range of diseases, from GI disorders to mental health issues, is becoming popular due to its success in treating recurrent clostridioides difficile infection (CDI), a serious infection that can damage the colon. FMT offers tremendous opportunities but also has challenges that players should consider if they want to thrive in this industry.

FMT is a procedure in which feces from a screened, healthy donor are transplanted into a recipient to balance the gut microbiota. This procedure can help treat certain infections and lessen the severity of some gut health issues.

Gut infections are usually treated using antibiotics, which can occasionally destroy beneficial bacteria. A 2000 study published in the Journal of Microbiology, a delayed open-access journal of the American Society for Microbiology, indicated that CDI recurring in around 15% to 35% of people is caused by antibiotics disrupting the gut microbiota and its balance (gut dysbiosis). Dysbiosis has been linked to several chronic illnesses, such as cardiovascular disease, inflammatory bowel disease (IBD), diabetes, and colorectal cancer (CRC).

FMT is highly efficient in treating recurrent CDI, with a cure rate of 90%, according to a 2015 study published in the American Journal of Gastroenterology. Numerous trials to understand the efficacy of FMT in treating conditions such as obesity, liver disease, ulcerative colitis, Crohn’s disease, Parkinson’s disease (PD), and IBS are underway. There are also some pre-clinical studies in progress to understand the potential of FMT in treating illnesses such as diabetes, skin issues, lung diseases, and autism.


This article is the second in EOS Perspectives' coverage 
of Fecal Microbiota Transplantation in animals and humans.

Read our related Perspective:
 Poop to Pills: Is FMT the Future of Veterinary Medicine?

FMT is showing promising growth

The human FMT sector is expected to grow at a CAGR of 5.1% and reach US$3.15 billion by 2031, according to a 2023 report published by India-based market research company The Brainy Insights.

The key factor influencing this growth is the rising incidence of GI disorders. According to the GI Alliance, a US-based network of gastroenterology providers, around 20 million Americans have chronic digestive disorders. Similarly, the CDC estimates that there are around 500,000 cases of CDI reported annually in the USA, and about 9% of elderly patients die within a month of contracting healthcare-associated CDI. All these have influenced the growth of FMT, which offers a promising solution to several conditions.

Other factors influencing the FMT sector growth are the rising patient awareness and interest in preventive healthcare and the emergence of effective probiotic strains.

There are several biotechnology companies currently involved in R&D and product development. Australia-based BiomeBank became the first company to get approval from a competent authority to market its FMT-based CDI solution called Biomictra Faecal Microbiota (colonoscopic, enema, and upper GI delivery) in November 2022. This was followed by the FDA approval of US-based Rebiotix-Ferring Pharmaceuticals’ REBYOTA (rectally administered) in the same month. Seres Therapeutics, a US-based company, has also received FDA approval for its orally delivered product Vowst (SER-109) for treating CDI in April 2023. Following Seres’ footsteps, Rebiotix-Ferring is now conducting trials to develop an oral alternative, RVX7455.

US-based Finch Therapeutics is another major company developing solutions presently undergoing phase-3 studies for diseases such as chronic hepatitis B and autism. Its solution, CP101, for treating CDI, has been discontinued.

Gut Matter Will FMT Change How We Look at Disease Treatments by EOS Intelligence

Gut Matter Will FMT Change How We Look at Disease Treatments by EOS Intelligence

The FMT sector is grappling with a multitude of pressing challenges

The FMT sector has the potential to treat numerous GI and other related disorders effectively. However, the business landscape is still marred by several challenges that players must consider.

Lack of consensus about policies is making development challenging

Regulatory hurdles are one major roadblock players face. The FDA currently regulates FMT as an unapproved biologic medicine. There is a lack of uniform guidelines for FMT, causing variations in processes, such as donor screening and processing.

The FDA took its first step toward FMT regulation in 2013. It released a set of guidelines removing the need for investigational new drug (IND) applications when FMT is used for treating CDI unresponsive to standard treatments if medical practitioners secure informed consent. However, this application is needed when FMT is used for other reasons, including safety studies.

The FDA drafted new guidance in 2016, which was finalized in November 2022. In this guidance, the FMTs acquired from stool banks are exempt from regulatory discretion. Also, the IND requirements will be waived if some conditions are fulfilled, such as getting informed consent from patients or authorized representatives and screening and testing stool under the supervision of competent healthcare professionals. There should also be no known potentially serious safety concerns, such as issues with improper handling or storage, or issues with administering product collection without the proper testing or screening. All these increase the procedural burden for healthcare practitioners. However, the FDA has indicated no regulatory policies for stool banks to reduce the administrative burden of private practice settings without the support of research staff.

Due to the significant variation in gut microbial composition among samples, FMT fails to satisfy EU drug classification requirements. Also, since human cells are not an active component of fecal matter, FMT is not covered by EU Directive 2004/23, which deals with the safety and quality of human tissues and cells. Therefore, the European Medicines Agency (EMA) has authorized the member states to regulate FMT however they see fit.

This lack of consensus has led to diverging regulatory policies, causing uncertainties for interested players and making developmental activities challenging, particularly in Europe. But despite this, many companies, such as Rebiotix-Ferring Pharmaceuticals, are making leaps in R&D.

Donor selection has social, ethical, and financial challenges

Another bottleneck that needs to be addressed is the availability and selection of suitable donors. There is a debate regarding whether the patient should know the donor or not. Also, the ideal donor should be free from chronic illnesses or infections and willing to donate. The donor is screened for obesity, antibiotic resistance, microbiome diversity, oncogenic potential, a history of antibiotic use, and risky behaviors such as drug abuse.

Stool banks require donors to follow several restrictions, such as maintaining BMI, abstaining from unhealthy eating habits such as spicy foods or saturated fatty acids, and avoiding travel to infection-prone tropical regions for an extended period. With that, donor dropout is high due to the considerable commitment needed, according to a 2019 study published in Gastroenterology, the official journal of the American Gastroenterological Association (AGA).

FMT implementation is also facing several social and ethical challenges with questions such as donor compensation, gender of the donor, donor and patient vulnerability, and commercial use of fecal matter.

Companies can launch educational drives targeted at patients and ideal donors to raise their awareness about FMT, tackle social resistance towards the procedure, and build trust with prospective donor candidates and patients. This can help reduce people’s reluctance to participate in FMT procedures.

The procedure remains risky, especially for vulnerable population

FMT is associated with an increased risk of transmitting infections such as Shiga toxin-producing E. coli (STEC) and enteropathogenic E. coli (EPEC) from the donor to the receiver. Immunocompromised patients are at a higher risk of developing side effects, according to a 2020 study published in Digestive Diseases and Sciences, a peer-reviewed journal. Similarly, a 2019 case study published in the New England Journal of Medicine, a journal of the Massachusetts Medical Society, showed a fatal infection contracted by an elderly immunocompromised individual following an FMT procedure.

Another challenge is the very few pediatric clinical trials, which makes it difficult for physicians to make the best judgments for when to initiate FMT therapy in children.

To tackle safety-related challenges, the FDA released safety advice in 2019 and 2020 regarding the possible risk of severe, potentially fatal infections associated with the procedure. Companies such as Boston-based OpenBiome have promptly modified their sample screening methodology to identify such infections.

Lack of studies on long-term effects

The lack of understanding of the long-term changes FMT can cause in a patient’s microbiota is another challenge. Several studies reveal that liver diseases, cancer, cardiovascular diseases, etc., can develop due to microbiota dysbiosis. Investment in R&D by interested and capable players can help medical professionals understand the long-term implications and complications of FMT and identify feasible solutions, which can pave the way for widespread treatment acceptance.

The sector’s future appears bright, underpinned by extensive development

FMT is a highly effective treatment for recurrent CDI. New developments have been taking place in many areas, such as administration modes, stool collection, and storage, and interested players can find opportunities in these areas. The FDA is also becoming more accepting of FMT-based treatments that show good results. This is shown by the approval of Rebyota and Vowst, both of which were more effective in reducing recurrent CDI compared to placebo in randomized controlled trials.

Stool banking and processing is another area ripe with opportunities for interested players. Conventionally, fresh stool is used for FMT, but this can increase the cost of the procedure. Stool banks are being developed to facilitate cost-effective and safe treatment. An example is OpenBiome, the USA’s first and biggest public stool bank. Stool banks can also make the standardization of stool processing and donor selection easier, according to a 2019 report published by the European Helicobacter and Microbiota Study Group.

Players can also form collaborations with healthcare professionals and research institutions to offer FMT treatments and support microbiome research. Many government organizations are also showing interest in the development of FMT therapies. The GBP500,000 grant awarded by the Biotechnology and Biological Sciences Research Council (BBSRC), a part of UK Research and Innovation, in 2022 to Norwich-based Quadram Institute (QI) to build and equip a new FMT research facility is an indication of this.

Investing in the development of FMT treatments can revolutionize the treatment of several diseases, and companies that can invest in research can gain a head start in the competition. Rigorous R&D is going on to develop FMT solutions for conditions such as obesity, depression, cancer, pediatric diseases, and autoimmune disorders such as Crohn’s disease.

A 2023 trial conducted by the US-based Emory University School of Medicine also showed that FMT can reduce the colonization of multidrug-resistant organisms in kidney transplant patients. Investigators believe more research in this field can help improve transplant success rates and decrease the chances of infection. Individual case studies have shown great improvement in cure rates for certain diseases, including mental health conditions, but more research is needed to present a solid case for product development.

EOS Perspective

FMT is gradually establishing itself as a promising solution for recurrent CDI and is expected to create waves in the treatment of numerous physical and mental health conditions despite facing several challenges.

Improvements in donor selection, early identification of certain conditions with better risk assessment, and increased treatment efficiency can be expected with ongoing research expanding the knowledge base of the medical community.

Experts are also looking into FMT’s potential as an adjunct therapy in treating diseases such as tuberculosis, and it is expected to open the door to interested players to create personalized and targeted FMT-based treatments for various diseases.

Studies are also being done to understand and substantiate the potential of gut microbiota to anticipate diseases such as IBD and CRC using AI (Artificial Intelligence) and ML (Machine Learning). ML can be used to identify biomarkers in the gut microbiota to aid in the early detection of CRC. These studies, when extended to FMT, are expected to help medical professionals identify ideal donors and improve treatment efficiency.

The Brainy Insights, in its 2023 report, predicts a growth in the probiotic infusion segment owing to the increasing studies on diabetes management. Therefore, competitive players interested in FMT can also diversify their portfolios by including consortia (multi-population systems with a broad spectrum of microbial species) and probiotic products that have the potential to offer regulated, standardized treatments. This can help them get an edge over their competitors.

Several oral FMT solutions are currently in phase-1 and phase-2 clinical trials, and many are geared toward treating conditions other than recurrent CDI. For example, US-based Vedanta Biosciences is developing FMT therapeutics for IBD, food allergies, solid tumors, etc. As research continues, it is expected that investigators will be able to identify the bacterial strains that can treat different diseases and isolate and mass-produce them, leading to a decrease in stool collection and processing and a reduction in stool transplant-related infections, but this development is expected to occur very far in the future.

Although marred by several challenges, FMT is well-positioned in the microbiome industry to obtain FDA approval and (with time) widespread acceptance. Right now, interested players can expect good returns by investing in oral FMT development, stool banking, and R&D.

by EOS Intelligence EOS Intelligence No Comments

A New Era of Vaccines – Will It Solve the African Malaria Issue?

Malaria, a treatable and preventable yet potentially fatal disease, is yesterday’s news in many developed nations. But this disease is still wreaking havoc in several developing countries, including the African continent. With the release of a new vaccine, many medical experts are examining whether this initiative will solve Africa’s malaria problem.

Africa’s crippling malaria burden has severe and lasting implications

Malaria is still a severe health issue in several countries, with the African region accounting for the lion’s share of the cases. WHO reported that in 2022, there were 249 million malaria cases, of which 94% were concentrated in Africa. Similarly, the number of deaths due to malaria was estimated to be 608,000, with 95% in Africa.

In the African region, about 78% of malaria-related deaths occurred in children under the age of five. Approximately half of malaria-related deaths were recorded in four African nations, namely Mozambique (4.2%), Uganda (5.1%), Nigeria (26.8%), and the Democratic Republic of the Congo (12.3%).

Malaria is mainly treated using artemisinin-based medicines. However, according to the WHO, partial artemisinin resistance is becoming a challenge in treating the disease in areas such as Tanzania, Rwanda, Uganda, and Eritrea. This has made developing a new solution to the malaria issue even more paramount.

New vaccines offer hope for eradicating malaria

In a significant effort to eradicate malaria from Africa, a new malaria vaccine has been introduced in the West African region in a first-ever routine vaccination program. Cameroon started the drive on January 22, 2024, by vaccinating children below the age of five with the RTS,S vaccine. Following the footsteps of Cameroon, many other countries have also opened their doors to this vaccine. Burkina Faso started the campaign on February 5. Similarly, Sierra Leone, Niger, and Liberia will also begin deploying the vaccine in late 2024.

UK-based pharmaceutical company GlaxoSmithKline (GSK) and PATH, a US-based NPO, developed the RTS,S vaccine after long clinical trials and tests. The initial version, which was developed in 1987 in GSK labs, underwent the Phase 3 trial between 2009 and 2014.

The RTS,S vaccine, commercially named Mosquirix, is designed to act against Plasmodium falciparum, a deadly malaria strain very common in the African continent, and prevent it from infecting the liver by targeting the circumsporozoite protein on the sporozoite surface. It was made by combining genes from the repeat (‘R’) and T-cell epitope (‘T’) of the pre-erythrocytic circumsporozoite protein (CSP) of the Plasmodium falciparum parasite with a hepatitis B virus surface antigen (‘S’). GSK researchers also used their expertise from developing the Energix-B vaccine against Hepatitis B to develop the RTS,S vaccine.

WHO has also pre-qualified another vaccine, R21/Matrix-M, developed by UK-based Oxford University and manufactured by Pune-based Serum Institute of India (SII), to prevent malaria. This vaccine is expected to be deployed in May or June 2024.

R21/Matrix-M functions similarly to RTS,S vaccine, but it is formulated to reduce anti-hepatitis B surface antigen antibody responses and raise anti-circumsporozoite protein antibody responses. Its initial focus was to induce a high degree of T-cell responses against pre-erythrocytic malaria antigens in the liver. But now, its focus also includes triggering high-level antibodies against the sporozoite stage of the parasite’s life cycle.

This vaccine also has the Matrix-M from US-based Novavax, a saponin-based adjuvant that boosts immune responses, enhances vaccine presentation in lymph nodes near the injection site, and increases vaccine durability and efficiency. This technology was successfully used in the COVID-19 vaccine produced by Novavax.

The new vaccines are effective in preventing malaria

Large-scale clinical trials have assessed the efficacy and safety of both vaccines. Also, in 2019, after the WHO accepted its advisory bodies’ counsel on malaria immunization, RTS,S was rolled out in a pilot program and closely observed within the initial Malaria Vaccine Implementation Programme (MVIP) in Malawi, Kenya, and Ghana. Around 2 million children were immunized during this drive. This helped experts assess the on-ground efficacy of the vaccine. A 2023 article published in Malaria Journal, a peer-reviewed open-access journal of BioMed Central, indicated that the pilot rollout of the vaccine demonstrated a roughly 30% reduction in the risk of developing severe malaria. R21/Matrix-M has a slightly higher efficacy. A 2022 study published in The Lancet, a peer-reviewed journal, indicated that R21/Matrix-M was 75% effective against both first and recurrent malaria cases following three vaccine doses over a 24-month follow-up period.

While both these vaccines are considered safe by experts, they have some side effects. In the case of the RTS,S vaccine, the incidence of serious adverse events (SAEs) and fatal SAEs was 24.2%–28.4% and 1.5%–2.5%, respectively, across all study groups, according to a 2019 article published in Human Vaccines & Immunotherapeutics, a peer-reviewed journal of Taylor & Francis. Also, 0.0%–0.3% of individuals self-reported experiencing SAEs as a result of vaccination. The common adverse effects reported in clinical studies were upper respiratory tract infections, pneumonia, and gastroenteritis.

In the case of the R21/Matrix-M vaccine, the common side effects reported in phase 3 trials included site pain (19%) and fever (47%). The phase 3 trial was conducted on around 4,800 children in Tanzania, Kenya, Mali, and Burkina Faso.

Some challenges await players willing to invest in the African vaccine landscape

Though the introduction of the new vaccines offers a glimmer of hope to eradicate malaria from African nations, several challenges are waiting for companies willing to invest in this sector.

The complex religious and social beliefs in Africa make vaccine acceptance difficult

One major bottleneck many players can face is the reluctance in African societies to accept the vaccines. This hesitancy is caused by numerous misconceptions and rumors spreading about both vaccines’ side effects, especially in rural areas. A similar issue happened in 2003 when five states in northern Nigeria refused the polio vaccine due to the fear that it rendered women sterile.

A senior immunization officer at Cameroon-based Value Health Africa said that conspiracies and myths regarding the malaria vaccines can be expected. In his opinion, understanding such dynamics in different communities and creating immunization drives accordingly will lead to a larger acceptance of the malaria vaccines.

Many African countries also lack the capability to track and record vaccine side effects, creating concerns about their safety and efficacy. This can also discourage people from receiving the shots.

Players can tackle this challenge by conducting awareness camps and education drives focusing on the positive effects of the vaccine and debunking the myths. Companies should partner with trusted community leaders, religious figures, and healthcare workers to address concerns directly. Also, developing culturally appropriate educational materials in local languages explaining the benefits and safety of vaccines can help build trust and encourage vaccine acceptance. Collaborations with international agencies such as WHO, UNICEF, and Gavi, the Vaccine Alliance, an international organization focused on improving vaccine access to children in poverty-stricken countries, can also increase the authority of these drives.

Infrastructural deficits in the African continent hinder vaccination storage and deployment

Vaccine storage and distribution are another bottleneck players can face. Many African countries face frequent power outages, poor road networks, and inadequate cold chain facilities, making it difficult to get vaccines and vaccinators to target communities. Lack of proper storage facilities can also severely hamper the potency of vaccines.

Also, neither of the malaria vaccines used in Africa are produced in the continent as of now. This adds to the transportation and logistics costs of the companies. Current market players are evaluating many strategies to reduce these costs to make immunization drives more profitable.

GSK, the producer of the RTS,S vaccine, is currently in talks with India-based manufacturer Bharat Biotech for technology transfer, owing to the country’s cost-effective vaccine production.

Similarly, SII is in talks with Nigeria and Ghana to produce the R21 vaccine locally. However, the lack of proper infrastructure and technical expertise makes it extremely difficult for the company to set up vaccine-producing plants in these countries. Currently, it is still profitable for players to mass produce malaria vaccines in other countries, such as India, and then transport them to Africa, even with the additional logistics costs.


Read our related Perspective:
 Vaccines in Africa: Pursuit of Reducing Over-Dependence on Imports

Financial challenges are creating roadblocks to immunization drives

Funding is also an issue in vaccination drives. Substantial funding is typically needed for these programs. For example, according to a 2016 report published in Vaccine, a peer-reviewed medical journal published by Elsevier, the cost of the DTaP vaccine (diphtheria, tetanus, and pertussis) for a child in Africa can range from US$25 to US$45, without including other logistics costs and requirements. Also, in many African countries, the expenses of vaccination drives are typically paid for by outside donors and organizations. This can make the widescale rollout much more challenging.

EOS Perspective

The malaria vaccination drive is expected to dramatically change the way the African continent fights this deadly disease, especially with 30 countries expressing high interest in adopting the vaccine, according to the chief program officer at Gavi. Till now, the focus of companies and organizations such as WHO has been more on treating the disease, but with the release of the new vaccine, the focus has shifted towards preventing and eradicating the disease from the African continent.

With international organizations and NGOs pushing to expand the vaccination drives to cover the entire continent, the currently competing market players focusing on immunization are in for a huge profit. Players such as GSK, which started research on the vaccine in the 1980s, have years of research behind product development, placing them miles ahead of their competitors. Other interested and capable companies will have to put more effort into R&D to compete with these veteran players.

While only two vaccines have currently received WHO recommendation, several more candidates are in the pipeline, with many in their phase I-IV development. According to the WHO, 133 vaccines are currently under clinical development, and 38 out of them are in active status. An example is US-based biotechnology company Sanaria’s PfSPZ Vaccine, which proved to be easy to administer, well-tolerated, and safe in a small trial on Malian adults. Similarly, Germany-based BioNTech hopes to use its mRNA technology to create a malaria vaccine and launched the early-stage clinical trials in 2022.

Several competitive players now understand the investment potential in the malaria vaccine industry. Since 2002, 221 trials involving malaria vaccines have either been initiated or completed, according to the WHO. This means that competitive and able players who can make early investments in the market might become strong competitors in the near future.

Gavi has reported that, as of February 2024, just 18 million units of the RTS,S vaccine will be available to reach 12 nations through 2025. Though the actual vaccine requirement numbers are not yet known, since the continent is home to over 207 million children under the age of four, it can be safely assumed that the demand for effective vaccination will not decrease anytime soon.

Also, with the establishment of the African Medicines Agency (AMA) set up to create a uniform regulatory framework across the continent, it is likely to become easier for vaccine producers to enter the market, as the requirements, which currently vary from country to country, are expected to be more unified. Currently, 37 out of 55 African countries have ratified or signed the AMA Treaty, and this is likely to increase soon.

Studies are now being initiated to create an effective single-dose vaccine. A preprint of a study by European researchers from Germany, The Netherlands, and Switzerland jointly researching the single-dose vaccine and its effectiveness was released in bioRxiv, an open-access preprint repository owned by the Cold Spring Harbor Laboratory. However, this study is yet to be evaluated by the medical community.

All in all, joint efforts from international organizations such as WHO and pharmaceutical companies are expected to not only decrease the disease burden but also serve as a foundation for future research into more potent and long-lasting vaccines.

by EOS Intelligence EOS Intelligence No Comments

Anti-Obesity Drugs – Pharma Companies Race to Grab a Bite of the Pie

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For many years, bariatric surgery has been the go-to option for people struggling with obesity and obesity-induced conditions. However, for the last couple of years, another easier option has become available in the form of GLP-1-based weight loss drugs. This class of medicine mimics a hormone that helps reduce food intake and control appetite. These drugs have revolutionized the weight loss market, which was previously dominated by gimmicky and fad-based OTC solutions. Due to GLP-1’s proven effectiveness, there is soaring demand for these drugs, outstripping its current supply capacity. While only two players operate in this market, several leading drugmakers have been racing to develop their own version of the drug. Moreover, with additional proven merits of the drug beyond just weight loss, it has become more appealing for pharma players to invest in.

GLP-1 anti-obesity drugs make big waves in the pharmaceutical sector

Over the past few years, anti-obesity drugs have received immense attention from healthcare professionals, pharmaceutical companies, and the general public. A new class of medication that stands out is glucagon-like peptide-1 (GLP-1) agonists, traditionally used for treating Type 2 diabetes. But along with managing diabetes, these drugs also suppress appetite and lower calorie intake by mimicking the GLP-1 hormone (a gastrointestinal hormone), which causes the patient to feel fuller longer and thereby prevents overconsumption. Regular intake of such drugs is deemed to result in a weight loss of about 15-25% of body weight in obese people.

GLP-1 agonists received FDA approval as anti-obesity drugs in 2021. Given their promising results, the demand for these drugs has increased immensely. However, despite the patient’s high out-of-pocket price of US$1,000 plus, there are severe shortages in the market.

Anti-Obesity Drugs – Pharma Companies Race to Grab a Bite of the Pie by EOS Intelligence

Anti-Obesity Drugs – Pharma Companies Race to Grab a Bite of the Pie by EOS Intelligence

Only two players operate in this highly-coveted market

The GLP-1-based medication is now marketed in two categories – one for managing diabetes and blood sugar levels and the other as a weight loss drug. The GLP-1-based weight loss drug market is highly consolidated, as only two players operate in this space. These are Denmark-based Novo Nordisk and US-based Eli Lilly.

Novo Nordisk, the market leader, received FDA approval for its weight loss injectable, Wegovy, in June 2021. This drug uses the same active ingredient as Novo Nordisk’s diabetes drugs, Ozempic and Rybelsus (oral); however, it has a different dosage and can also be used for weight loss in patients who do not have diabetes. That being said, Ozempic has also been used off-label for weight loss.

On the other hand, Eli Lilly’s injectable drug for weight loss, Zepbound, received FDA approval in November 2023. Eli Lilly’s glucose-dependent insulinotropic polypeptide – GIP/GLP-1 injectable drug for diabetes, Mounjaro, has the same composition and dosage as Zepbound and is often prescribed off-label for weight loss as well.

While Novo Nordisk’s drugs, which use semaglutide as an active ingredient, result in weight loss of about 13 to 22 lbs, the drugs by Eli Lilly have tirzepatide as an active ingredient. They are stated to result in a weight loss ranging between 15 and 28 lbs.

From a price-point perspective, Wegovy has an out-of-pocket cost of US$1,349 per month, compared to Zepbound, which has an out-of-pocket cost of US$1,060 per month. Thus, while Novo Nordisk’s Wegovy has the first-mover advantage, Eli Lilly’s Zepbound is considered more effective and better priced.

Currently, both weight loss drugs by Novo Nordisk and Eli Lilly come in the form of injectables. However, both companies are developing oral versions of the drug as they are easier to administer and more convenient to prescribe. They may also help ease supply constraints currently impacting the injectables. In June 2023, Novo Nordisk conducted Phase 3 trials for its once-daily oral Wegovy drug, according to which the drug helped obese adults lose about 15% of their body weight. Similarly, in June 2023, Eli Lilly conducted Phase 2 trials for its oral GLP-1 receptor for weight loss. The drug helped obese adults lose up to 14.7% of their body weight. Both companies are optimistic about the outcomes of their trials; however, the expected launch timelines for these drugs have yet to be determined.

Leading drugmakers race to compete in the growing anti-obesity drug market

Currently, Novo Nordisk and Eli Lilly are the only two players operating in this market. However, several other leading pharmaceutical players have joined the race and are working towards developing their own version of the drug, either through in-house R&D or through strategic acquisitions.

Moreover, they are targeting their research towards developing and marketing a new generation of GLP-1-based medications that are administered orally, are longer lasting, and have additional health benefits and limited side effects.

In February 2024, US-based biopharmaceutical company Amgen successfully completed a Phase 1 clinical trial for its GLP-1 agonist drug, MariTide. As per the trials, the drug produced a 14.5% weight loss in patients administered the highest dose. Moreover, the company claims that the trial indicates that patients may need to take less frequent doses of MariTide (compared with current competition), and the weight loss achieved stays significantly longer. The company has begun its Phase 2 trial, with results expected by late 2024.

In December 2023, Swiss-pharmaceutical giant Roche acquired US-based Carmot for US$3.1 billion (US$2.7 billion upfront cash and US$400 million on certain milestones). This acquisition has helped put Roche on the map for obesity drug development. Carmot has two GLP-1 agonist molecules for weight loss, which are currently being tested in the mid to advanced stages of clinical trials. The first drug, CT-388, is a once-weekly injectable and has completed Phase 1 clinical trial, while the other drug, CT-996, is an oral drug currently undergoing Phase 1 trials.

In November 2023, UK drugmaker AstraZeneca entered into an agreement with Shanghai-based Eccogene, wherein the former licensed an oral once-daily GLP-1 receptor agonist called ECC5004 for the treatment of obesity, Type 2 diabetes, and other cardiometabolic conditions. For this, AstraZeneca agreed to pay Eccogene an upfront fee of US$185 million for the drug and a further payment of US$1.83 billion in future clinical, regulatory, and commercial milestones and tiered royalties. The drug is currently in Phase 1 development, and the company hopes to enter Phase 2 of clinical studies by the end of 2024. In the past, AstraZeneca stopped the development of two GLP-1 agonist drugs that were being developed in-house. The development of an injectable called Cotadutide was halted in April 2023, and an oral drug called AZD0186 was halted in June 2023 after their respective Phase 2b and Phase 1 clinical trials did not yield the desired results.

Pfizer, one of the most active companies in this regard, has faced multiple failures in their endeavor to develop a competitive obesity drug. In 2020, it started a clinical trial for its GLP-1 agonist weight loss drug, Lotiglipron. However, in June 2023, the company stopped developing the drug after its Phase 1 and Phase 2 drug interaction studies indicated a rise in liver enzymes in patients who took the drug once a day. In 2021, the company simultaneously began working on another GLP-1 receptor agonist, Danuglipron, which was to be taken twice daily. While the Phase 2a trial for the drug in June 2023 showed promise, the company halted the development of the drug post its Phase 2b trial in December 2023. The drug was scrapped as, despite significant weight loss, the trial patients experienced high rates of common gastrointestinal and mechanism-based adverse side effects. The company is now conducting a pharmacokinetic study with a once-daily version of the Danuglipron drug that will provide guidance on future development plans.

Pfizer’s failure with these two drugs demonstrates the struggle the leading pharma companies face to develop a safe, effective, and tolerable GLP-1 agonist for weight loss.

GLP-1 agonist drugs have benefits beyond diabetes and weight loss

Despite multiple setbacks, leading pharma companies are investing heavily in this space, as they understand the potential of these drugs. While currently, GLP-1 agonists are poised as diabetes and weight loss drugs, they have far more benefits. Data from ongoing clinical trials and independent studies suggest that GLP-1 agonists also help improve cardiovascular health and kidney function and help treat addiction and dementia.

In March 2024, Novo Nordisk’s Wegovy received FDA approval for reducing the risk of serious cardiovascular complications in adults with obesity and heart disease. This is based on the results shared from the company’s three-phase trial SELECT, which indicated that Wegovy reduced patients’ risk of major cardiovascular problems by about 20% during the five-year trial period.

Similarly, in 2019, the company started another clinical trial, FLOW, to determine the impact of GLP-1 agonists on kidney function. As per the interim results in October 2023, the trial displayed that Ozempic (Wegovy’s diabetes counterpart) reduced the risk of kidney disease progression and kidney and cardiovascular death in diabetes patients by 24%. Given its success, the company has halted the trial at the interim stage.

An initial study conducted on animals in March 2023 reportedly showed positive results for curbing addictive tendencies, such as drinking and smoking, with Ozempic. Currently, two trials are being undertaken to validate the use of GLP-1 agonists in humans to manage drug and alcohol addiction. Given the testimonies from current users of the drug, it is indicative that the drug has been helping users curb their addictions.

In addition to this, several researchers are also suggesting that GLP-1 could be used in the treatment of dementia and other cognitive disorders. This is based on the claim that GLP-1 agonists reduce the build-up of two proteins, amyloid, and tau, in the brain. These two proteins are known to be responsible for Alzheimer’s disease, which is the most common form of dementia. In February 2022, a new trial at the University of Oxford was initiated to test people with high levels of amyloid and tau and at risk of developing dementia to determine if the use of GLP-1 agonists would result in a reduction in tau accumulation and brain inflammation. The interim results from the study have not yet been disclosed.

High prices and limited coverage pose as speedbumps for obesity drug adoption

While these obesity drugs have exploded in popularity in recent times and are only expected to grow further as their case use increases, they do have certain shortcomings and challenges that are important to address.

These drugs are known to cause several side effects, such as nausea, diarrhea, vomiting, constipation, and ulcers. They can also lead to severe complications, such as pancreatitis, in some extreme cases. While most of the common side effects of the drugs are manageable and justifiable given the risk-benefit ratio, one of the key issues with the drugs is that they need to be taken in perpetuity to keep the weight off. In other words, once a patient stops taking the drugs, the weight comes back. Given that these drugs are priced at more than US$1,000 per month at the moment, taking them constantly becomes a considerable challenge for patients.

Moreover, considered as ‘vanity-use’, these drugs are currently not covered by most medical insurance policies, and thus, patients have to pay for them out-of-pocket. While several employers in the USA are considering including these drugs in their health plans, they are still debating their merit. Employers acknowledge the benefits of these drugs as they help employees who battle with obesity improve their health and, in turn, improve overall performance and employee satisfaction. However, high costs and long-term use act as definite barriers, which make both employers and insurers reluctant to cover these drugs.

Insurers are slowly warming up to the inclusion of GLP-1 drugs in their plans

In March 2024, leading insurance company Cigna stated that it would expand insurance coverage to include weight loss drugs but would limit how much health plans and employers spend on the drug each year. As per Cigna’s benefits management unit, Evernorth Health Services, spending increases for these weight loss and diabetes drugs would be limited to a maximum of 15% annually. The plan offers a financial guarantee and enables employers and health plans to have greater predictability and control over their GLP-1 spending by offering clients (employers) a guarantee that the cost of weight loss and diabetes drugs would not increase by more than 15% annually.

As a part of the effort to limit how much employers spend on GLP-1-based drugs annually, Evernorth has entered into an agreement with Novo Nordisk and Eli Lilly. However, the details of the agreement have not been disclosed.

While this is a good start, the drug would need better coverage by many other insurance players to reach a wider audience.

EOS Perspective

Given that about 12% of the global population and more than 40% of the American population grapple with obesity (as per WHO and 2022 statistics by the National Institute of Diabetes and Digestive and Kidney Diseases, USA, respectively), weight loss drug manufacturers Novo Nordisk and Eli Lilly are sitting on pharma goldmines. The weight loss drugs market, expected to reach US$100 billion by 2030, is poised as one of the most promising sectors for the pharma sector. Thus, it is no surprise that several leading players are investing heavily to join Novo Nordisk and Eli Lilly at the top, either through in-house R&D or through acquisitions.

However, developing these drugs proves to be challenging for drugmakers, as evidenced by the failures of several companies in creating their own versions. We can expect the sector to consolidate further as larger pharma companies look to acquire niche players with their trials being in advanced stages.

Moreover, in a bid to find their footing in this promising sector, pharma players are trying to develop advanced versions of the drug that have benefits beyond just weight loss and offer long-term benefits. This is also because, at the moment, these drugs are not approved by most insurance companies, which makes them extremely expensive for the wider population to afford. This, in turn, is withholding these drugs from becoming mainstream and is thereby preventing them from tapping into their true growth potential. That being said, Wegovy’s recent FDA approval for reducing cardiac complications in people with obesity and heart disease will likely tip the insurers’ coverage scales. Insurance companies are likely to cover the drug in the near future.

Since no other drug in the market offers proven cardiac benefits along with weight loss (including Eli Lilly’s), it is safe to say that Novo Nordisk is way ahead in the race and will dominate the market for the foreseeable future. Thus, to be able to compete in the market, it is not enough for drugmakers to develop obesity drugs offering just weight benefits. They would need to develop drugs that offer higher efficiency or additional therapeutic benefits along with weight loss and price them competitively.

by EOS Intelligence EOS Intelligence No Comments

PFA – A Potential Paradigm Shift in Atrial Fibrillation Ablation Landscape

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Pulsed Field Ablation (PFA) is an emerging technology for treating atrial fibrillation (AFib), a form of irregular heartbeat affecting 40 million heart patients worldwide as of 2023. As the prevalence of AFib is increasing, all eyes are on this novel, minimally invasive technology that offers improved effectiveness, safety, and shorter procedure and recovery time compared to the existing thermal ablation procedures.

PFA applies short, high-voltage pulses of energy to cardiac tissue and is proven to be more precise and safe than the thermal ablation methods, which come with the risk of damaging collateral tissues.

A clinical trial conducted by Medtronic across North America, Europe, Australia, and Japan during 2022-2023 revealed that the efficacy performance of its PFA system PulseSelect stood at 66% in paroxysmal and 55% in persistent AFib patients against the pre-specified performance goals of >50% (paroxysmal) and >40% (persistent). Performance goals were set based on multiple studies conducted on thermal ablation procedures that evaluated efficacy based on the freedom from acute procedural failure and arrhythmia recurrence in one year.

Despite promising results, the first-generation PFA technology still needs improvement in targeting the tissue of interest, and players in the field are developing supportive systems such as mapping systems to improve performance.

PFA emerges as a better alternative to conventional ablation methods

PFA is viewed as the best evolution within the electrophysiology (EP) space (comprises ablation catheters, diagnostic catheters, laboratory devices, and access systems used to treat arrhythmia). The tissue-targeting approach of PFA overcomes the drawbacks of thermal ablation methods, such as extensive scarring and the risks of injuring nearby organs. Along with improving clinical outcomes, this transformative technology will significantly improve patient experience and reduce the cost of care by lowering procedure and recovery time.

Being safer than other ablation methods, PFA is set to become the preferred modality

Only about 2% of the eligible patients with AFib globally and 15% of the eligible patients in the USA were treated with ablation as of February 2023, according to a MedTech analyst at Bank of America. This is because thermal ablation comes with the risk of damaging nearby issues, which can lead to damage to the esophagus, phrenic nerve, and pulmonary veins.

A study published by the European Heart Rhythm Association in January 2024 comparing the outcomes of PFA and thermal ablations stated that the risk of injury from PFA was 3.4% compared to 5.5% in thermal ablation. PFA, being safer than thermal ablation, can be expected to reach many more eligible patients. After the launch of Boston Scientific’s Farapulse in Europe in January 2021, 38,000 AFib patients were treated there with the Farapulse PFA system during 2022-2023, compared to 2,000 patients Farapulse treated in 2021. Moreover, Boston Scientific predicts the global AFib ablation market will grow from US$5 billion in 2023 to US$11 billion in 2028, driven by the increase in the number of PFA procedures.

The growing adoption indicates that PFA has the potential to become the preferred method for treating AFib over the existing treatments, such as thermal catheter ablation and surgical ablation procedures.

Initial clinical trials indicate PFA results in better patient outcomes

With this new technology, patients will experience an improved quality of life with a significantly lower risk of complications and post-procedural discomfort.

This finds evidence in some of the studies performed by the industry. In January 2024, the European Heart Rhythm Association published a study comparing the performance of Boston Scientific’s Farapulse PFA system against thermal ablation systems in 1,572 patients across Europe. The study showed that 85% of patients who underwent PFA experienced overall freedom from AFib after one year, compared to 77% of patients who underwent thermal ablation procedures.

Reduced time of post-procedure care is PFA’s major advantage

With a duration of about 2 hours, the PFA procedure is shorter than thermal ablation, which takes 3-4 hours. More importantly, PFA requires a few hours of hospitalization post the procedure, while thermal ablation is typically associated with one day of hospitalization after the procedure.

Shorter hospital stays improve patient experience by minimizing stress and discomfort from longer hospitalization hours. They also enable faster scheduling, as hospitals can perform more procedures and minimize scheduling delays.

As PFA does not require in-patient admissions, PFA procedures will not be disrupted by hospital bed shortages. This is a considerable advantage, as many developed countries such as the USA and the UK lack adequate hospital bed capacity. As of 2021, there were 2.8 hospital beds per 1,000 population in the USA and 2.4 in the UK, below the WHO’s recommendation of 3.4 beds per 1,000 population.

Moreover, reducing the length of hospital stays yields significant cost savings for patients as well as the payers. Reducing a hospital stay by a day or several hours translates to savings that cannot be ignored. For instance, in the USA, the average cost of per-hour hospital observation is US$600 in 2024, as per the healthcare pricing transparency platform Turquoise Health. The average cost of per-day hospitalization was US$2,883 in 2021, as per a study by the Kaiser Family Foundation (Medicare patients are eligible for $1,632 reimbursement). In the UK, the average cost of per-hour hospital observation is US$100, and the cost of per-day hospitalization is US$442 as of 2022, according to the National Health Service.

Short learning curve and procedure time facilitate performing more procedures

A short learning curve equips more cardiologists and trainees with the skills required to perform and support the procedure faster. Cardiologists typically get comfortable with PFA procedures after 5-10 cases, which allows to expand the pool of specialists performing this treatment relatively quickly and easily. This, in turn, can significantly improve PFA accessibility.

As the shortage of physicians continues to worsen globally, particularly in the USA, which represented 50% of the ablation market in 2023, PFA can play a crucial role in facilitating an increase in the number of procedures performed at a hospital within the same timeframe. With an expected shortage of 120,000 cardiologists in the USA by 2030, according to a 2021 report by the Association of American Medical Colleges, performing quicker procedures can help to partially offset the lack of specialists. Since PFA takes 30-50% less time than conventional ablation methods, it has the potential to significantly increase the number of procedures performed.

MedTech companies grow their ablation market share by offering PFA devices

With increased health screening efforts that detect more patients with arrhythmias, the number of cardiac ablation procedures performed globally doubled between 2013 and 2023 to reach about 650,000 procedures in 2023.

Boston Scientific expects the global AFib ablation market to more than double to US$11 billion during 2023-2028, with PFA predicted to grow to more than 80% of procedures (from under 5% in 2023). PFA technology is expected to be adopted quickly. As seen in Europe, PFA devices were launched in 2021, and already about 12% of the ablation procedures in the region in 2023 were done using PFA technology.

J&J, Medtronic, and Boston Scientific take the lead in the PFA field

Eyeing the potential of this emerging market, MedTech giants such as Johnson&Johnson (J&J), Medtronic, and Boston Scientific (accounting for 55%, 10%, and 5% share of the global thermal ablation market in 2023, respectively) have entered the market with their newly developed PFA devices. Being early entrants, these companies have the potential to expand their market shares in the cardiac ablation market by grabbing shares from thermal ablation procedures.

Boston Scientific was the first company to commercialize PFA devices with the launch of the Farapulse PFA system in Europe in January 2021. Boston Scientific enjoyed a two-year monopoly in the European market until Medtronic launched an integrated mapping and PFA system called Affera in March 2023. Later, the company launched another PFA system, PulseSelect, in December 2023. In February 2024, J&J’s Varipulse PFA system also received approval in Europe.

In the USA, Medtronic was the first company to receive FDA approval for its PFA system PulseSelect in December 2023, followed by Boston Scientific in January 2024. Medtronic also received FDA approval for Affera in March 2024.

J&J is the only company with a presence in Asia, as the company received approval for its PFA system in Japan in January 2024. Abbott is currently conducting clinical trials for its PFA system Volt in Australia and expects to start clinical trials in the USA this year.

The companies work to enhance and improve their systems. For instance, Medtronic’s integrated mapping and PFA system Affera offers enhanced procedure performance supported by real-time mapping. The integrated system includes an ablation catheter Sphere-9 and mapping software to facilitate real-time mapping. Sphere-9 catheter can perform high-density mapping and ablation simultaneously to allow cardiologists to deliver wide-area focal ablation lesions quickly. Affera can also work with the PulseSelect PFA system to provide real-time mapping. Similarly, J&J has a 3D mapping system called Carto 3 (in the market since 2009), which integrates well with its PFA system and generates real-time 3D mapping that aids in better cell targeting. Boston Scientific has not developed an exclusive mapping system for its PFA system, however, the company claims that any catheter mapping system will work well with Farapulse.

Comparing the PFA systems’ performance in the clinical trials, all systems, including Boston Scientific’s Farapulse, Medtronic’s PulseSelect, Medtronic’s Affera, and J&J’s Varipulse proved to be effective in over 70% of patients in terms of freedom from arrhythmia recurrence in one year.

Currently, PFA devices are only available in the USA, Europe, and Japan, with Boston Scientific dominating in Europe. Boston Scientific has witnessed high adoption rates in Europe so far, and the company has been able to serve 40,000 patients in three years since its entry into the European market in 2021. The company expects an overall organic sales growth of 8-10% during 2024-2026, driven by its PFA devices. Medtronic and J&J have just launched their PFA systems in the USA and Europe, and how these companies perform has yet to be seen. Analysts from BTIG financial services firm predict that Medtronic’s PulseSelect will secure 9% and Boston Scientific’s Farapulse will secure 14% of the cardiac ablation market (which comprises PFA and two other forms of thermal ablation procedures – radiofrequency and cryoablation) in the USA by 2025.

With competent technologies, the market is expected to witness stiff competition from these companies. Analysts from BTIG financial services firm predict that by 2027, PFA will grab 48% of the US cardiac ablation market, while the radiofrequency ablation market will have a 42% share and cryoablation a 10% share. The expected PFA’s 48% market share is likely to be split amongst the leading PFA systems – Boston Scientific’s Farapulse, J&J’s Varipulse, Medtronic’s PulseSelect, and Medtronic’s Affera, at 16%, 13%, 10%,7%, respectively, followed by others with 2% share.

While these companies have already entered the PFA space, Abbott’s wait-and-see approach to PFA may backfire on its performance in the EP market. The company aims to commercialize its PFA system Volt in the USA by 2027 or 2028. However, PFA’s fast adoption threatens Abbott’s US$1.9 billion EP business and its 15% global thermal ablation market share (as of 2023). Growing PFA adoption could also threaten Abbott’s diagnostic catheter and mapping systems, as healthcare providers using PFA systems would prefer buying mapping systems linked to PFA.

New entrants to drive innovation and further improve PFA technology

Apart from the large players, there are a few smaller players, such as Canada-based Kardium, US-based Adagio Medical, and US-based Pulse Biosciences, that are developing PFA systems. These companies are investing in improving the PFA using nanotechnology and supportive systems such as 3D mapping systems. For instance, Pulse Biosciences developed Nanosecond PFA (nsPFA) technology that uses superfast nanosecond pulses of electrical energy that can regulate cell death, which spares adjacent noncellular tissue. The company expects FDA approval for this system in 2024.

EOS Perspective

Over the years, MedTech companies have been actively pursuing the development of minimally invasive procedures that have shorter recovery periods, offer improved patient outcomes and reduced post-procedure discomfort. As the limitations of the existing ablation methods became apparent, PFA poses a vast growth potential, as it is a safer, more convenient, and more effective alternative.

On the other hand, the pulsed-field waveform is significantly more complex than the energy modalities that preceded it, with numerous variables determining the dose targeted at the tissues and the quality of the resulting lesion. While a variety of PFA systems have demonstrated effective ablation procedures, these systems have yet to advance in overcoming all limitations of targeting the tissue of interest and rare but potentially serious complications.

In the coming years, we can expect companies to develop multiple catheter configurations that allow cardiologists to configure the energy delivery to achieve the desired energy dose and lesions. This includes the development of multi-configurable ablation catheters that can shift shapes to create circular, linear, or focal ablation lesions without performing catheter exchanges.

As the technology advances, we can expect PFA to dominate the AFib ablation market and democratize AFib ablation procedures by improving accessibility to all eligible patients.

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