Patient Voice in RWE: generating evidence that will impact payer and HTA decision-making

Patient Voice in RWE: generating evidence that will impact payer and HTA decision-making

With the rise of patient-centered medicine and accelerated approvals, health technology assessment (HTA) bodies and payers are looking to real-world evidence (RWE) to strengthen evidence packages and reduce uncertainties at the time of launch.

Increasingly, stakeholders are recognizing the importance of RWE that incorporates patients’ real-world experiences in understanding what treatments work, and for whom, in clinical practice.

Real-world evidence is generated through applying data science to real-world data (RWD), or data “relating to patient health status or the delivery of healthcare routinely collected from EHRs, claims, registries, patient-reported outcomes, devices/applications, etc.” Decision-makers are exploring how this evidence can supplement clinical trials and provide additional context on the effectiveness of therapies.

There is some overlap between patient experience data, which provides information about a patient’s experience with a disease or condition, and real-world data (RWD), however, they are not one and the same. For example, patient-reported outcomes (PROs) collected in an electronic health record (EHR) would be considered both RWD and patient experience data, however, lab test results in the medical record would be considered only RWD. As personalized medicine continues to gain traction, decision-makers like ICER, FDA, NPC, EMA, EUNetHTA, and EHDEN are calling for patients’ voices to be included in the drug development and assessment process. Such information – direct input from patients on how they feel and function is often lacking from RWD sources, and FDA and EMA identified such missing data as problematic for interpretation.

We spoke with Ashley Jaksa MPH, Scientific Partnerships Lead, Aetion and Chung Yen Looi, DPhil Partnerships Director, Monsenso, about the evolving landscape of patient experience data and how biopharma organizations can incorporate the patient voice into their RWD and RWE programs.

Q: Ashley, can you tell our readers a little more about what Aetion does? 

AJ: Aetion is a healthcare technology company that uses routinely collected health care data to generate RWE on the safety and effectiveness of medical treatments and technologies. We were founded by Harvard epidemiologists to develop a way to conduct scalable and transparent RWD analyses at the highest level of scientific rigour. Our RWE analytics platform helps biopharma organizations, regulators, HTAs, payers, and other researchers generate RWE to inform decisions on the safety, effectiveness, and value of medical interventions across the product lifecycle. Our platform is data fluent, meaning it can analyze almost any type of RWD, and we often work with our customers and partners to identify the most fit-for-purpose data set for their research question.

Q: Why is the patient experience important for biopharma to understand, and where in the drug development lifecycle is it most important to integrate patients’ voices? 

CL: I think we can all agree that pharma and its stakeholders want to develop safe and effective drugs and bring them to market, to improve patients’ lives. As such, asking patients directly about how a drug impacts their lives is critical. Without the patient voice, we will never know how patients experience therapies in the real world, and how medical interventions could make a meaningful difference to their lives. Capturing and incorporating the patient voice across the product lifecycle can help biopharma companies to better understand the real-world impact of their drug, treatment responders, and meaningful endpoints based on a wider, representative population, in a quick and cost-effective way. 

AJ: Similar to RWE, patient experience data is important in almost all stages of the product lifecycle—not just as a post-marketing exercise. For example, understanding the treatment pathways and patient experiences on first-line therapies can help shape what comparators and outcomes should be captured in future randomized controlled trials to differentiate the drug in the market.

Q: How can incorporating the patient voice improve market access?

CL: Patient voice is a powerful way to demonstrate the impact of a drug on patients’ quality of life to payers and HTA bodies, particularly for cost-effectiveness evaluations. Some biopharma organizations have used PRO measures on daily functioning and health-related quality of life as their primary and secondary endpoints in clinical and real-world studies, while others have directly linked PROs to their drug reimbursement contracts. Patient voice contributions can help biopharma companies differentiate their product from similar drugs for coverage, especially for payers who are tying reimbursement to the value to patients based on outcomes and have longer-term responsibilities for their populations.  Some of the common myths are that “payers don’t care about PRO evidence, PROs only matter if they make it to the label, and that PROs should only be collected in Phase IV.” The facts are that not all payers are alike. Some pay a lot of attention to PRO evidence. Payers will consider all data from pivotal trials, whether or not it is on the package insert, and coverage decisions will be made on pivotal trials, so waiting until Phase IV to collect PROs would be too late.

Q: What are the common barriers in generating high-quality, patient-centric RWE?

AJ: I think the common barriers to generating RWE and patient-centric RWE are very similar; researchers must ensure that the data exists, that the data is capturing the relevant underlying medical concept, and that it is generated in a way that limits bias and confounding. Traditional RWD sources, like claims and EHRs, often have limited patient-centric data. This is a challenge for researchers attempting to incorporate this information into their studies. However, groups like Friends of Cancer Research and data providers like Monsenso are working to ensure this information is being collected. Once it is collected, it is essential to validate that these data and algorithms are actually measuring what we are intending to measure. Finally, researchers must be cognizant of bias and confounding and control for this as much as possible through study design and analytic methods. 

CL: Adding to Ashley’s points, I think data privacy and security, patients’ burden of contributing to research, and standardized methodology to analysis and interpretation are common barriers. It may seem like a no-brainer to ensure that patient data is managed in a secure way, but a recent study showed that almost a third of health apps out there collect patient data without privacy policy, and about one in five data transmissions occurred on insecure communication protocols. Furthermore, as patients are already suffering from their disease or conditions, contributing to research could add to their burden, which is why data capture platforms should be designed in a way that is easy-to-use and that provides valuable insights to patients. Finally, there is a lack of standardization in analysis and interpretation—which is why companies like Aetion are important to ensure that critical questions are answered, data sets are relevant, and standards are followed to derive and present meaningful insights that will inform decision-making.

Q: How can biopharma generate high-quality, patient-centric RWE for decision-makers? 

AJ: In addition to addressing the common barriers mentioned above, we think it is important to follow a principled approach to study design and execution. The main reasons why decision-makers like regulators and HTAs/payers dismiss RWE are due to deficient data selection and insufficient methodology. Following principled epidemiologic methods of selecting fit-for-purpose data, avoiding common methodological mistakes, and ensuring the protocol and results are clearly communicated are essential to ensuring the decision-makers trust the evidence. This planning and execution of RWE studies is not easy; it takes forethought. Biopharma manufacturers should be considering RWE at every stage of the product lifecycle, and proactively planning for how RWE studies will be incorporated into each product’s launch. 

Q. What is the cost-benefit for biopharma of generating patient-centric RWE? 

CL: Relative to the costs of bringing a new drug to market – which could go up to billions of dollars and take over a decade, with limited success ratesthe costs associated with collecting patient-centric RWE is insignificant. In return, patient-centric evidence could provide significant savings and valuable insights as early as possible to ensure that new drugs are truly driven by patients’ unmet needs, that they impact outcomes that matter to patients, and, ultimately, that they have the greatest chance of reaching the market and making a meaningful difference to patients. 

AJ: RWE can provide value for biopharma organizations across the product lifecycle—from eliminating costs typically incurred during clinical trials to accelerating time to market. Using a validated RWE platform can take this a step further, allowing companies to run more efficient, credible studies and reach insights faster than they could with traditional line programming. By ensuring patient-centric outcomes are collected in clinical data sources, then incorporating patient-centric RWE across drug development and commercialization programs, biopharma organizations can unlock insights that deliver value not only for their company but for patients as well. 

Q: Lastly, for our readers who are not familiar with Monsenso, Looi can you kindly tell a little more about what Monsenso does? 

CL: of course, Monsenso is a digital health company that enables patient-centric care and research. We’re a spinout from the IT University of Copenhagen based on the groundbreaking research of Professor Lars Kessing and Dr. Mads Frost on bipolar disorder and depression. We were founded in 2013 and have been listed on Nasdaq First North in Denmark since 2020. Our solution enables pharma companies to collect self-reported and device-generated data directly from patients in a simple, scalable, secure, and cost-effective way. Our cloud-based platform connects patients and investigators via an app and a web portal, respectively, to collect data in real-time across clinical development, post-market studies, and clinical practice to inform decision-making. Our platform can integrate with wearable devices and sensors, and combine with other RWD sources to provide a more holistic view of the impact of a drug on patients’ lives.

mHealth solutions can improve health outcomes in a cost-efficient way

mHealth solutions can improve health outcomes in a cost-efficient way

MHealth solutions can improve health outcomes in a cost-efficient and scalable way. They assist healthcare professionals with the management and documentation of medical records, help improve productivity and allow access to information.

These tools also help healthcare professionals to communicate findings and reduce error rates, not to mention the reduction of overall healthcare costs. Mobile solutions can also facilitate the treatment process, automate management systems and manage patient experience.

They use sophisticated data analytics and mobile technologies to help provide the best care possible, at a lower cost, anytime, anywhere. Cloud-based solutions are gaining prominence as data is stored on the internet for easy access, removing the need for storing the data locally. New mobile applications integrate patient data with geo-location information stored on the cloud.

Mobile apps facilitate better and easier health management through simple applications like exercise trackers, diet, and calorie-counting, among others.

Now more than ever, due to budget constraints and a shortage of qualified personnel, healthcare providers are looking for new ways to reduce administrative processes, improve productivity, and enable clinicians to spend more time on patient care rather than processing paperwork. With this in mind, organisations are looking into migrating from paper-based to paperless systems.

Mobile data-capturing solutions are beneficial for healthcare professionals and patients alike since they improve workflows and enable clinicians to spend more time seeing patients.

MHealth solutions enable healthcare professionals to access patient information more efficiently, ensuring patients receive better care, even if their primary clinician is not available.

Furthermore, communities are looking to form multi-sector collaborations that support their ability to better understand and tackle the social determinants of health. There is a growing need to build capacity beyond the healthcare sector and to find new ways to integrate data from multiple areas to improve community health.

MHealth solution help provide coordinated care

For people with complex health issues, such as those with a severe mental illness, the coordination of medical and community services can significantly improve their quality of life.

These individuals often require the most costly treatment and care. Therefore, many communities are aiming to link the available data between social services and clinical services to provide more comprehensive care.

Using aggregated data to improve community health

Linking aggregated data from different sources may reveal information about a particular population group, enabling healthcare providers to develop a more comprehensive understanding of the health factors in a specific community.

 Measuring health at a more detailed level allows decision-makers from the public healthcare system to recognise differences, plan more effective interventions, and monitor a particular group over time.

MHealth solutions enable the re-use of research health data to drive healthcare initiatives

Academic institutions and non-profit organisations continuously conduct research on specific patient-groups. Since these organisations collect and analyse health-and-behavioural-related data on vulnerable populations, this data could be re-used to address related issues and to drive new healthcare initiatives and policies.

 In addition to these points, data encryption ensures that all patient information is kept strictly private and protected at all times. International laws require that every organisation accessing patient information should adhere to strict confidentiality conditions.

Reference:

Mobile Health (mHealth) Market – Industry, Trends, Opportunities and Forecasts.

Transforming healthcare with technology-enabled care

Transforming healthcare with technology-enabled care

Connected health or technology-enabled care (TEC) is the collective term used for telecare, telehealth, telemedicine, mHealth, digital health, and eHealth services. TEC is now seen as a fundamental part of the solution to solve many healthcare challenges.

TEC helps people self-manage their health and wellbeing, alert healthcare professionals in case of any changes in an individual’s condition and support medication adherence.

It also helps clinicians and care providers deliver more efficient and cost-effective care.

Digital technology is advancing exponentially, and its cost is becoming more affordable. The need for more cost-effective healthcare is rising. Now more than ever, healthcare authorities need to adopt new technologies to help meet this demand.

Key trends

An aging population

The population is increasing, and people are living longer. These two factors, in addition to a rise in chronic conditions, present new healthcare challenges.

In the United States, population projection reports that older adults currently make up about 15% of the population, and by the year 2060 is estimated to amount to 23.5%.

There are similar numbers reported for Europe, where the group of 65-year old or older make up 19% of the population and is predicted to amount to 29% of the total population by the year 2080.

Use of mobile devices is increasing amongst all age groups

A 2019 report conducted by Provision Living, a senior living community in the U.S.,  revealed that on average, Baby Boomers (born between 1946 and 1964) and millennials (born between 1981 and 1995) spend on average, five hours a day on their smartphones.

Smartphone adoption among Americans:

  • Aged 50 to 59 is 86%
  • Aged 60 to 69 is 81%
  • Aged 70+ is 62%

Other market drivers

The demand for apps and wearable devices is also being driven by an increased focus on personalised care. Large pharmaceutical companies are now using apps and wearables to gather valuable health-related patient data, support their research, and provide an holistic service to patients.

In 2014, the leading pharmaceutical companies had an increase of 63 % in unique apps compared to 2013. In just one year, the total number of downloads of pharmaceutical apps increased by 197% as shown in Figure 1. These apps deliver education and training, can titrate medication and monitor compliance.

Figure 1. The number of apps published by leading pharmaceutical companies, 2013 and 2014.

There has also been an increase in online patient communities, using social media as a platform to exchange experiences with patients and carers.

Increasing patient trust in health apps

There is strong evidence that patients are now more than ever concerned about self-care, and they are interested in boosting their health and wellbeing. In addition to this, health technology companies are working to improve the quality of apps, increase user confidence and trust, and launch informed decision-making in app selection for health professionals, patients and the public.

Agencies like the US Food and Drug Administration (FDA), or NHS Choices and its NHS Health Apps Library have developed criteria that judge apps for safety and technical proficiency. For example, for apps to be included on the NHS Choices search website, which in early 2015 lists around 150 apps, they must be reviewed by a technical team (testing relevance, legal compliance and data protection), then by a clinical team (to test scientific rigour).

PatientView is an independent organisation that has developed a systematic method of appraising health apps. Until April 2015, there were 363 apps recommended for the Apple platform and 236 for Android, with smaller numbers recommended for use on other platforms.

In 2014, PatientView undertook a survey of 1,130 patient group members to identify what people want from health apps as shown in Figure 2.

Figure 2. What do patients and carers want from health apps?

References:

Connected Health: How Digital technology is transforming health and social care. Deloitte Health.

Forget Generational Stereotypes, Baby Boomers Are Just As Addicted To Smart Phones As Millennials. 

Older Adults Keep Pace on Tech Usage.

An Aging Population, Larger Chronic Disease Burden, and Reliance on Digital Self-Management Tools Require Contributions from Nurse Informaticians.

What Is the difference between a health app and an mhealth solution?

What Is the difference between a health app and an mhealth solution?

Over the past few years, mHealth solutions have begun to solve some of the problems that are ailing healthcare. MHealth is paving the way for better data management, doctor-patient communication, reduced hospital admissionsmedication adherence, and remote patient monitoring. 

MHealth solutions are improving outcomes in measurable, repeatable ways by connecting patients with their doctors.

In 2017 mHealth captured $23 billion in revenues, with an estimated growth rate of 35% annually over the next several years.

What is the difference between a health app and an mHealth solution?

Health apps are application programmes that offer health-related services for smartphones, tablets, PCs, and other communication devices.

The most popular categories of health/wellness apps are: 

  • Sports and fitness activity tracking
  • Diet and nutrition
  • Weight loss coaching
  • Medication tracking
  • Sleep cycle
  • Stress and relaxation
  • Meditation
  • Menstrual period tracking
  • Pregnancy
  • Hospital selection and appointment tracking

Health apps can provide valuable information to users. However, it may be hard to determine the accuracy of the information provided and may not be easy to share this data with the user’s doctor.

MHealth or mobile health refers to the practice of medicine and public health supported by mobile devices such as mobile phones, tablets, personal digital assistants and wireless infrastructure. It encompasses all applications of telecommunications and multimedia technologies for the delivery of healthcare and health information.

Why is mHealth used?

  • Provides education and awareness
  • Assists with diagnostic and treatment support
  • Enables remote data collection
  • Facilitates remote monitoring
  • Enables telemedicine
  • Supports chronic disease management
  • Support medication compliance

Numerous mHealth initiatives across the world have demonstrated the efficacy of using mobile devices to deliver better care in a cost-effective manner.

Many mHealth solutions offer different types of information sharing, such as data collection through patient self-assessments, electronic questionnaires, and sensor data. They can also offer emergency action plans and an encrypted messaging system that allows direct communication with the clinic.

Besides, many mHealth solutions are considered certified medical devices that have a proven record of helping healthcare professionals in the monitoring and treatment of their patients.

Both, health apps and mHealth solutions can both be used on-the-go. However, the main difference is that health apps are for consumers-only and mHealth solutions improve the collaboration between patients and healthcare professionals.

References:

mHealth (Mobile Healthcare) Ecosystem Market: 2017-2030 – $23 Billion Opportunities, Challenges, Strategies & Forecasts.

Health apps definition.

What is mHealth?

 

Can mHealth technology be used to save costs ?

Can mHealth technology be used to save costs ?

According to an article published on Harvard Business Review, digital health tools have the potential to provide effective, low-cost ways to prevent and treat chronic illnesses. The article states that these technology-based solutions that have a clinical impact on disease are comparable to the effectiveness of a drug, and they use consumer-grade technology such as mobile devices and big data analytics that can be deployed in real-time and at scale, which is critical for the management of chronic diseases.

From the chronic diseases, mental illnesses account for five of the ten leading causes of disability worldwide [1]. Therefore, prevention as well as the the early identification and treatment of mental illness represents a high priority since it promotes recovery, independence, self-sufficiency, as well as facilitating social activities and employment opportunities [2].

In fact, in the UK alone, depression and anxiety accounted for 11.7 million lost working days last year [3].  Moreover, according to the American Medical Association, stress accounts for 60% of all human illness and disease [4], which means that clinically-tested health apps can help government authorities, corporations and insurance companies reduce their costs by monitoring individuals remotely and intervening at an early stage.

Nowadays, the majority of large employers that offer health benefits also offer a wellness programme in an effort to promote employee health and productivity as well as to reduce health-related costs.

We live in an era where certified and clinically-tested health apps, or mobile health solutions (as they are widely known), are readily available, or are being developed for most chronic diseases.

Most of these digital tools are extremely easy to use, and can be obtained by downloading an application from iOS or Google Play, signing-up, and sharing your information with a coach. The clear advantages of this technology are scalability and low-cost, since an effective health app bundled up with a telehealth can provide affordable support to either 50 or 5 million users.

The Monsenso mHealth solution can be used by insurance companies and large corporations to reduce costs by offering a preventive mental wellness programme. Individuals can use the Monsenso smartphone app to enter their daily levels of stress, anxiety, irritability, physical activity and number of hours they slept. This information is gathered and stored electronically so it can be accessed by a healthcare professional anytime, anywhere. However, the coach only needs to take action when the web portal indicates that certain individuals present any triggers or warning signs. For example, the coach will be notified when anyone in the system indicates a high level of stress, anxiety and irritability for more than five consecutive days or when someone sleeps less than six hours for more than three consecutive days. These two actions would be considered indicators that the individual needs to be contacted for a “wellness check” and implement the necessary measures to prevent the person from going on stress-leave or from becoming affected by other physical conditions such as heart disease.

References:

[1] Prevention of Mental Disorders. Effective Interventions and policy options. World Health Organisation in collaboration with the Prevention Research Centre of the Universities of Nimegen and Maastricht. http://www.who.int/mental_health/evidence/en/prevention_of_mental_disorders_sr.pdf

[2] Early intervention and recovery for young people with early psychosis: consensus statement. J. Bertolote and P. McGorry. British Journal of Psychiatry (2005). http://bjp.rcpsych.org/content/bjprcpsych/187/48/s116.full.pdf

[3] Stress in the City: ‘At first, I thought my depression was a heart attack’. The Telegraph. Peter Stanford. (2017, January 7)
http://www.telegraph.co.uk/men/health/stress-city-first-thought-depression-heart-attack/

[4] How Stress Affects the Body (INFOGRAPHIC). Huffington Post. (2013, January 10)
http://www.huffingtonpost.com/heartmath-llc/how-stress-affects-the-body_b_2422522.html

Simple Digital Technologies Can Reduce Health Care Costs.
Harvard Business Review. Alexander L. Fogel, Joseph C. Kvedar. (2016, November 14).
https://hbr.org/2016/11/simple-digital-technologies-can-reduce-health-care-costs