How Health Apps Promote Preventive Care and Early Disease Detection

How Health Apps Promote Preventive Care and Early Disease Detection

AI Health Tech

Health apps have become powerful tools for preventive care and early disease detection. From tracking daily habits to advanced symptom checkers, these apps have made it much easier to manage our health, putting vital information and monitoring capabilities right at our fingertips. 

Let’s see how these innovative health apps promote preventive care, empowering users to take proactive steps towards better health outcomes.

Contents

Preventive Care and App Usage

Preventive Care sign and stethoscope

Health apps play a crucial role in preventive care by empowering people to take a proactive approach to manage their health. They include features to monitor vital signs, track fitness goals, and assess disease risks–all from the convenience of a smartphone.

Before we discuss how health apps promote preventive care, let’s define and review that concept.

What is preventive care?

Preventive care refers to routine healthcare services aimed at preventing illnesses and detecting health issues before they become serious. This includes regular check-ups, vaccinations, screenings, and lifestyle counseling. 

Focusing on prevention can help people stay healthier, save money, and catch issues early when they’re more treatable. Preventing diseases is often easier and more cost-effective than treating them. 

Growth of health app market in recent years

The health app market isn’t just growing; it’s booming. With over 300,000 health apps available and about 200 new ones released daily, we have a vast array of options available anytime. 

As of 2023, there’s been over 200 million diet and nutrition app downloads, and 20% of Americans use wearable devices integrated with health and fitness apps. This growth is driven by increasing smartphone usage, rising awareness about health and fitness, and the convenience these apps offer.

The health app market has seen explosive growth in recent years. In fact, the global mHealth apps market size was estimated at USD 32.42 billion in 2023 and is anticipated to grow at a compound annual growth rate (CAGR) of 14.9% from 2024 to 2030

This surge reflects a big shift in healthcare from reactive treatment to proactive prevention.

Key features of successful preventive care apps

What makes a preventive care app successful? The most effective apps share some common features:

  • User-friendly interfaces

  • Personalized health recommendations

  • Integration with wearable devices

  • Data visualization tools

  • Social sharing capabilities

  • Regular updates based on the latest health guidelines

These features help users stay engaged and motivated in their health journey.

Woman with headphones stretching before a run outside
Source: Styled Stock Society

Who’s using these apps? While health apps appeal to a broad audience, certain demographic trends are emerging. 

A study found that 84 million people in the U.S. used healthcare apps to monitor their health-related activities in 2022. Millennials and Gen Z lead the charge in health app adoption, with a particular focus on fitness and mental health apps.

Apps for Health Monitoring and Tracking

As health apps continue to grow in popularity, let’s explore some of the most popular categories and how they’re helping users monitor their health.

Apps to track vital signs 

Purple pulse oximeter and mask

Vital sign tracking apps have become increasingly sophisticated. Many can now measure heart rate, blood pressure, and even blood oxygen levels using just a smartphone camera or with wearable devices. 

For example, the Cardiio app uses a smartphone camera to measure heart rate with 97% accuracy compared to clinical pulse oximeters.

Apps to monitor sleep patterns and quality

Older woman asleep wearing smartwatch next to cell phone

Poor sleep can increase your risk of various health issues. 

Sleep tracking apps help users understand their sleep patterns and quality. Apps like Sleep Cycle use your phone’s microphone and accelerometer to analyze your sleep stages and wake you up during your lightest sleep phase.

Apps for nutrition and diet tracking 

Measuring tape with grapes apples phone

Maintaining a healthy diet is crucial for preventive care. Nutrition apps like MyFitnessPal allow users to log their food intake, track calories, and monitor nutrient balance. These apps often include extensive food databases and barcode scanners for easy logging.

Physical activity and fitness monitoring

Fitness apps have come a long way from simple step counters. Apps like Strava or Nike Run Club can track various activities, provide workout plans, and even offer virtual coaching. Many integrate with wearable devices for more accurate data collection.

Man with sarcopenia and a cane

One study of older adults found that the Sit to Stand app can detect older adults with both frailty/pre-frailty and sarcopenia (Montemurro et al., 2024). The app was very accurate, with an 80-92% success rate. People the app identified with both frailty and sarcopenia were more likely to have other health problems like falls, hospitalization, depression, and low income. 

Early Detection: Symptom Checkers and Risk Assessment Apps

One of the most exciting developments in health apps is their potential for early disease detection. Let’s look at how these apps are helping users identify potential health issues early.

Symptom checker apps like Ada or WebMD Symptom Checker allow users to input their symptoms and receive potential diagnoses. While these apps shouldn’t replace professional medical advice, they can help users decide whether to seek medical attention. 

A study of 22 symptom checker apps had low average diagnostic accuracy rates, highlighting the need for continued improvement in this area (Schmieding et al., 2022).

Risk assessment tools for common diseases

Many apps now offer risk assessment tools for common diseases like diabetes, heart disease, or certain cancers. These tools typically use questionnaires about lifestyle factors, family history, and sometimes integrate data from other health tracking features to provide a personalized risk assessment.

Elderly woman with pills and a walker

A UK study by Reid et al. (2024) looked at how well older adults could use a digital test for dementia risk and brain function. The test was easy for participants to complete. 

Age affected all brain tests, while gender and education only impacted verbal skills. Women and those with more education did better on word-related tasks. Age was linked to lower scores on all tests, which matches what we know about aging and brain health, and could help spot early signs of brain decline.

AI-powered apps for skin cancer detection

Skin cancer detection apps are a prime example of how AI is enhancing early detection capabilities. 

Man examining a skin lesion on his arm

Apps like SkinVision use machine learning algorithms to analyze photos of skin lesions and provide a risk assessment. A study found that SkinVision had a 95.1% sensitivity in detecting malignant skin lesions (Smak Gregoor et al., 2023).

Mental health screening and mood tracking applications

Mental health apps are playing an increasingly important role in early detection of mental health issues. Apps like Moodfit or Daylio allow users to track their mood over time, potentially identifying patterns that could indicate underlying mental health concerns.

Integrating Health Apps with Healthcare Systems

The real power of health apps lies in their ability to integrate with broader healthcare systems. This integration is transforming how we interact with healthcare providers and manage our health data.

Apps that connect users with healthcare providers

Telehealth apps like Teladoc or Doctor On Demand allow users to consult with healthcare providers remotely. These apps have become particularly valuable during the COVID-19 pandemic, providing safe access to medical advice.

Electronic health record integration capabilities

Some health apps can now integrate with electronic health records (EHRs), allowing for seamless sharing of health data between patients and healthcare providers. This integration can lead to more informed medical decisions and better continuity of care.

Telehealth features in preventive care apps

Many preventive care apps now include telehealth features, allowing users to share their health data directly with healthcare providers and receive personalized advice. This integration of tracking and consultation features creates a more comprehensive health management experience.

Data sharing and privacy considerations

With the increasing amount of health data being collected and shared, privacy concerns are paramount. 

Health apps must comply with regulations like HIPAA to protect user data. Users should always review an app’s privacy policy and understand how their data will be used and protected.

Conclusion

Health apps for preventive care and early detection are more than just trendy tools–they’re becoming essential allies in our quest for better health. Putting the power of prevention in our pockets, these apps can help users spot potential issues early, track important health metrics, and make informed decisions about their well-being. 

While health apps are valuable, they should complement professional medical advice–not replace it. Don’t wait for a health problem to arise. Start exploring these apps, and take the first step towards a healthier, more proactive lifestyle.

References

8 Types of Preventive Care to Ensure Health Life for Seniors. (2022). EliteCare Health Centers. Retrieved from https://www.elitecarehc.com/blog/8-types-of-preventive-care-to-ensure-healthy-life-for-seniors/

Deb, T. (2024). Diet and Nutrition Apps Statistics 2024 By Tracking, Health and Wellness. Market.us Media. Retrieved from https://media.market.us/diet-and-nutrition-apps-statistics/

Deb, T. (2024). Home Gyms in Your Pocket: The Fitness App Market is on Fire, Reaching USD 4.9 Billion in 2023. Market.us Media. Retrieved from https://media.market.us/fitness-app-market-news/

Grand View Research. (2023). mHealth Apps Market Size, Share & Growth Report, 2030. Retrieved from https://www.grandviewresearch.com/industry-analysis/mhealth-app-market

Gupta, I. (2024). Trends in Telemedicine App Development 2024. iMark Infotech. Retrieved from https://www.imarkinfotech.com/trends-in-telemedicine-app-development-2024/

Jayani, P. (n.d.). The Ultimate Guide to EHR Integration for Mobile Health Apps. Blue Whale Apps. Retrieved from https://bluewhaleapps.com/blog/the-ultimate-guide-to-ehr-integration-for-mobile-health-apps

mHealth Apps Market Size | share and Trends 2024 to 2034. (2024). Precedence Research. Retrieved from https://www.precedenceresearch.com/mhealth-apps-market

Montemurro, A., Rodríguez-Juan, J. J., Martínez-García, M., & Ruiz-Cárdenas, J. D. (2024). Validity of a video-analysis-based app to detect prefrailty or frailty plus sarcopenia syndromes in community-dwelling older adults: Diagnostic accuracy study. DIGITAL HEALTH. doi.org/10.1177/20552076241232878

Reid, G., Vassilev, P., Irving, J., Ojakäär, T., Jacobson, L., Lawrence, E. G., Barnett, J. Tapparel, M., & Koychev, I. (2024). The usability and reliability of a smartphone application for monitoring future dementia risk in ageing UK adults. The British Journal of Psychiatry; 224(6):245-251. doi:10.1192/bjp.2024.18

Schmieding, M., Kopka, M., Schmidt, K., Schulz-Niethammer, S., Balzer, F., Feufel, M. (2022).

Triage Accuracy of Symptom Checker Apps: 5-Year Follow-up Evaluation. Journal of Medical Internet Research; 24(5):e31810, doi.org/10.2196/31810

Smak Gregoor, A. M., Sangers, T. E., Bakker, L. J., Hollestein, L., A., C., Nijsten, T., & Wakkee, M. (2023). An artificial intelligence based app for skin cancer detection evaluated in a population based setting. Npj Digital Medicine, 6(1), 1-8. doi.org/10.1038/s41746-023-00831-w

What is Preventive Care? (2018). ConnectiCare. Retrieved from https://www.connecticare.com/live-well/blog/wellness-and-prevention/whats-preventive-care

AI Health Chatbots for Patient Engagement

AI Health Chatbots for Patient Engagement

AI Health Tech

Have you ever wished you could get instant medical advice without waiting for a doctor’s appointment? Or maybe you’ve found yourself wondering about a symptom in the middle of the night? Well, you’re not alone, and that’s where AI health chatbots come in. 

The market segment for chatbots is expected to grow from $196 million in 2022 to approximately $1.2 billion by 2032 (Clark & Bailey, 2024). These digital health assistants are changing the game in healthcare, offering support and information around the clock. But what exactly are they, and how do they work? 

Contents

What Are AI Health Chatbots?

AI health chatbots are smart computer programs that help patients with health-related information and support. These virtual health assistants use advanced technologies like natural language processing (NLP) and machine learning (ML). NLP and ML allows them to understand context and emotions in conversations, and respond to user queries in a human-like manner (Karlović, 2024).

Think of the virtual health assistant as your personal health companion to (Laranjo et al., 2018):

  • Answer basic health questions
  • Provide information about symptoms and conditions
  • Offer medication reminders
  • Guide you through simple diagnostic processes

Some popular AI health chatbots include:

Now that we understand the concept of AI health chatbots, let’s explore the various advantages they bring to healthcare.

Benefits of AI Health Chatbots

AI health chatbots have several advantages for both patients and healthcare providers. 

24/7 availability

One of the most significant advantages of AI health chatbots is their round-the-clock availability. Have a health concern at 2 AM? Your chatbot is there to help, providing instant support when you need it. 

Cost reduction

Chatbots are mostly free for patients. Some apps are covered by insurance when prescribed by a health provider (Clark & Bailey, 2024).

By handling routine inquiries and preliminary assessments, chatbots can significantly reduce healthcare costs, especially when the patient does not have to see a health provider in person. They free up health providers for more complex tasks, leading to more efficient resource allocation.

For example, GlaxoSmithKline launched 16 virtual assistants within 10 months, resulting in improved customer satisfaction and employee productivity (Winchurch, 2020).

Improved patient engagement and satisfaction

Chatbots make it easier for patients to engage with their health–even for older adults (Clark & Bailey, 2024). They provide a low-barrier way to ask questions and learn about health topics, improving overall health literacy (Bickmore et al., 2016). They’re also easier to use than a traditional patient portal or telehealth system, which saves time.

Faster triage 

In an emergency, every second counts. AI chatbots can quickly assess symptoms and help determine the urgency of a situation, potentially saving lives by ensuring rapid response to critical cases (Razzaki et al., 2018).

The benefits we’ve discussed here come from a range of key features that AI health chatbots offer. Let’s take a closer look at these capabilities.

Key Features of AI Chatbots in Healthcare

AI health chatbots come packed with features designed to support various aspects of healthcare. Some of the uses of health chatbots include (Clark & Bailey, 2024):

  • Physical wellbeing
  • Chronic conditions
  • Mental health
  • Substance use disorders
  • Pregnancy 
  • Sexual health
  • Public health

Let’s discuss some of the use cases and applications for AI health chatbots.

Appointment scheduling

AI chatbots can manage appointments, allowing patients to easily book, reschedule, or cancel appointments without human intervention. It’s usually easier than doing so in a patient portal.

Symptom checking and preliminary diagnosis

Many chatbots offer an online symptom checker. You input your symptoms, and the chatbot asks follow-up questions to provide a preliminary assessment. While this doesn’t replace a doctor’s diagnosis, it can help you decide if you need to seek immediate medical attention (Semigran et al., 2015).

Medication reminders and management

Pink pill box

Forget to take your pills? AI chatbots can send timely reminders, helping you stay on top of your medication schedule. Some even track your medication history and can alert you to potential drug interactions (Brar Prayaga et al., 2019).

Post-op care and chronic disease management

After an operation or minor surgery, a chatbot can guide the patient through the recovery process at any time, day or night. It can also answer questions about symptoms and concerns related to a chronic illness (ScienceSoft, n.d.). 

Mental health support 

AI chatbots are increasingly being used to provide mental health support. They can offer coping strategies, mood tracking, and even cognitive behavioral therapy exercises. While they don’t replace professional help, they can be a valuable first line of support (Fitzpatrick et al., 2017).

Health tracking and personalized recommendations 

Woman checking iphone with Apple watch

AI chatbots can track your health data over time by integrating with wearable devices and apps. They can then provide personalized health recommendations based on your activity levels, sleep patterns, and other health metrics (Stein & Brooks, 2017).

Healthcare systems can successfully implement AI chatbots by following a careful approach, as we’ll discuss next.

How to Integrate AI Chatbots in Healthcare Systems

Hand holding phone with AI health chatbot conversation

Integrating AI health chatbots into existing healthcare systems requires careful planning and execution. Here’s a roadmap for successful implementation (Palanica et al., 2019 & Nadarzynski et al., 2019):

  1. Assess Needs and Set Goals: Before implementing a chatbot, healthcare providers should clearly define what they hope to achieve. Is the goal to reduce wait times, improve patient engagement, or streamline triage processes?
  1. Choose the Right Solution: Not all chatbots are created equal. Select a solution that aligns with your goals and integrates well with your existing systems.
  1. Ensure Data Security: Implement robust security measures to protect patient data. This includes encryption, secure authentication processes, and regular security audits.
  1. Train Healthcare Providers: It’s crucial to train your staff on how to work alongside these AI systems. They should understand the chatbot’s capabilities and limitations.
  1. Educate Patients: Clear communication with patients about the role and capabilities of the chatbot is essential. Set realistic expectations and provide guidance on how to use the system effectively.
  1. Start Small and Scale: Begin with a pilot program, gather feedback, and make improvements before rolling out the chatbot more broadly.
  1. Continuous Monitoring and Improvement: Regularly assess the chatbot’s performance. Are patients finding it helpful? Are there common issues or misunderstandings? Use this data to continually refine and improve the system.
  1. Measure Impact: Track key performance indicators (KPIs) to measure the impact of the chatbot. This might include metrics like patient satisfaction scores, reduction in wait times, or cost savings.

While AI health chatbots offer impressive features and benefits, it’s important to acknowledge and address the challenges that come with using them in healthcare.

Addressing Concerns and Limitations of AI Health Chatbots

While AI health chatbots offer numerous benefits, they also come with their fair share of challenges and limitations. It’s important to be aware of these as we continue to integrate these technologies into our healthcare systems.

Accuracy concerns 

One of the primary concerns with AI health chatbots is the potential for misdiagnosis. While these systems are becoming increasingly sophisticated, they’re not infallible. A chatbot might misinterpret symptoms or fail to consider important contextual information that a human doctor would catch (Fraser et al., 2018).

Another reason chatbots could share inaccurate information is that AI health chatbots use fixed datasets, which may not include the latest medical info. Unlike doctors who can access current data, chatbots might give outdated advice on health topics (Clark & Bailey, 2024).

Data privacy and security 

Hacker in a red hoodie

Healthcare data is highly sensitive, and the use of AI chatbots raises important questions about data privacy. How is patient data stored and protected? Who has access to the information shared with these chatbots? These are critical issues that need to be addressed to ensure patient trust and comply with regulations like HIPAA (Luxton, 2019).

Federated learning is a new way to train AI models that keeps data private. It lets different groups work together on an AI model without sharing their actual data. Instead, each group trains the model on their own computers using their own data. They only share updates to the model, not the data itself. Hospitals and researchers can team up to create better AI models while keeping patient information safe and private (Sun & Zhou, 2023). 

Ethical considerations 

The use of AI in healthcare raises several ethical questions. For instance, how do we ensure that these systems don’t perpetuate biases in healthcare? There’s also the question of accountability – who’s responsible if a chatbot provides incorrect advice that leads to harm (Vayena et al., 2018)?

Bias in AI Algorithms

Illustration of a smiling chatbot

AI chatbots in healthcare raise concerns about bias and fairness. If the data used to train these chatbots isn’t diverse or has built-in biases, the chatbots might make unfair decisions. This could lead to some groups getting worse healthcare.

Bias can come from many sources, like choosing the wrong data features or having unbalanced data. Sometimes, chatbots might learn the training data too well and can’t handle new situations.

To fix these problems, we need to be aware of possible biases, work to prevent them, and keep checking chatbots after they’re in use. This helps ensure AI chatbots benefit everyone equally in healthcare (Sun & Zhou, 2023). 

Integration challenges 

Implementing AI chatbots into existing healthcare systems isn’t always straightforward. There can be technical challenges in integrating chatbots with electronic health records (EHRs) and other healthcare IT systems. Ensuring seamless data flow while maintaining security is a complex task (Miner et al., 2020).

Patient trust 

Building and maintaining patient trust is crucial for the success of AI health chatbots. Some patients may be hesitant to share personal health information with a machine, preferring the human touch of traditional healthcare interactions.

Trustworthy AI (TAI) helps explain how AI chatbots work, balancing complex math with user-friendly results. It’s important for building trust in AI systems. While progress has been made, more work is needed to make AI chatbots more transparent and trustworthy (Sun & Zhou, 2023).

Doctors and nurses do more than diagnose–they offer comfort and build trust with patients. AI chatbots can’t replace this human touch or handle complex medical issues that need deep expertise.

It’s not all doom and gloom! Exciting trends are shaping the future of AI health chatbot technology.

AI chatbots are useful medical tools, especially where healthcare access is limited. The combo of AI efficiency and human empathy can improve healthcare. The future likely involves doctors handling complex cases and emotional care, with chatbots supporting them, depending on tech advances, acceptance, and regulations (Altamimi et al., 2023). Here are some exciting trends to watch.

Advanced NLP 

Future chatbots will likely have an even better understanding of context and nuance in language. They might be able to detect subtle cues in a patient’s language that could indicate underlying health issues.

Integration with IoT and wearables 

man checking fitness watch with cell phone

As the Internet of Things (IoT) expands in healthcare, chatbots will likely become more integrated with wearable devices and smart home technology. Imagine a chatbot that can access real-time data from your smartwatch to provide more accurate health advice.

Personalized medicine 

AI chatbots could play a crucial role in the move towards personalized medicine. By analyzing vast amounts of patient data, they could help tailor treatment plans to individual genetic profiles and lifestyle factors.

Enhanced diagnostic capabilities 

While current chatbots are limited to preliminary assessments, future versions might have more advanced diagnostic capabilities. They could potentially analyze images or audio recordings to aid in diagnosis.

Support for clinical trials 

AI chatbots could streamline the process of clinical trials by helping to recruit suitable participants, monitor adherence to trial protocols, and collect data.

Conclusion

AI health chatbots are making healthcare easier to access, more personal, and more efficient. They offer 24/7 support, lower costs, and get patients more involved in their health. But there are still issues to solve, like making sure they’re accurate, keeping data private, and fitting them into current healthcare systems.

As tech improves, these chatbots will get smarter and play a bigger role in healthcare. It’s important for everyone – doctors and patients – to keep up with these changes.

Whether you work in healthcare or you’re just curious, now’s the time to try out these chatbots. By staying informed, we can use technology to make healthcare better, without losing the human connection.

Have you used AI health chatbots before? What are your thoughts on them? 

References

AI-Powered Chatbots for Healthcare. (n.d.) ScienceSoft. Retrieved from https://www.scnsoft.com/healthcare/chatbots

Altamimi, I., Altamimi, A., Alhumimidi, A. S., Altamimi, A., & Temsah, H. (2023). Artificial Intelligence (AI) Chatbots in Medicine: A Supplement, Not a Substitute. Cureus, 15(6). doi.org/10.7759/cureus.40922

Bickmore, T. W., Utami, D., Matsuyama, R., & Paasche-Orlow, M. K. (2016). Improving access to online health information with conversational agents: a randomized controlled experiment. Journal of Medical Internet Research, 18(1), e1.

Brar Prayaga, R., Jeong, E. W., Feger, E., Noble, H. K., Kmiec, M., & Prayaga, R. S. (2019). Improving refill adherence in Medicare patients with tailored and interactive mobile text messaging: pilot study. JMIR mHealth and uHealth, 7(1), e11429.

Clark, M. & Bailey, S. (2024). Chatbots in Health Care: Connecting Patients to Information. CADTH Horizon Scans. Canadian Agency for Drugs and Technologies in Health. Retrieved from https://www.ncbi.nlm.nih.gov/books/NBK602381/

Fitzpatrick, K. K., Darcy, A., & Vierhile, M. (2017). Delivering cognitive behavior therapy to young adults with symptoms of depression and anxiety using a fully automated conversational agent (Woebot): a randomized controlled trial. JMIR Mental Health, 4(2), e19.

Fraser, H., Coiera, E., & Wong, D. (2018). Safety of patient-facing digital symptom checkers. The Lancet, 392(10161), 2263-2264.

Karlović, M. (2024). 14 ways chatbots can elevate the healthcare experience. Infobip. Retrieved from https://www.infobip.com/blog/healthcare-ai-chatbot-examples

Laranjo, L., Dunn, A. G., Tong, H. L., Kocaballi, A. B., Chen, J., Bashir, R., … & Coiera, E. (2018). Conversational agents in healthcare: a systematic review. Journal of the American Medical Informatics Association, 25(9), 1248-1258.

Luxton, D. D. (2019). Ethical implications of conversational agents in global public health. Bulletin of the World Health Organization, 97(4), 254.

Miner, A. S., Laranjo, L., & Kocaballi, A. B. (2020). Chatbots in the fight against the COVID-19 pandemic. NPJ Digital Medicine, 3(1), 1-4.

Nadarzynski, T., Miles, O., Cowie, A., & Ridge, D. (2019). Acceptability of artificial intelligence (AI)-led chatbot services in healthcare: A mixed-methods study. Digital Health, 5, 2055207619871808.

Palanica, A., Flaschner, P., Thommandram, A., Li, M., & Fossat, Y. (2019). Physicians’ Perceptions of Chatbots in Health Care: Cross-Sectional Web-Based Survey. Journal of Medical Internet Research, 21(4), e12887.

Razzaki, S., Baker, A., Perov, Y., Middleton, K., Baxter, J., Mullarkey, D., … & Majeed, A. (2018). A comparative study of artificial intelligence and human doctors for the purpose of triage and diagnosis. arXiv preprint arXiv:1806.10698.

Semigran, H. L., Linder, J. A., Gidengil, C., & Mehrotra, A. (2015). Evaluation of symptom checkers for self diagnosis and triage: audit study. BMJ, 351, h3480.

Stein, N., & Brooks, K. (2017). A fully automated conversational artificial intelligence for weight loss: longitudinal observational study among overweight and obese adults. JMIR Diabetes, 2(2), e28.

Sun, G., & Zhou, H. (2023). AI in healthcare: Navigating opportunities and challenges in digital communication. Frontiers in Digital Health, 5. doi.org/10.3389/fdgth.2023.1291132

Vayena, E., Blasimme, A., & Cohen, I. G. (2018). Machine learning in medicine: Addressing ethical challenges. PLoS Medicine, 15(11), e1002689.

Winchurch, E. (2020). How GlaxoSmithKline launched 16 virtual assistants in 10 months with watsonx Assistant. IBM. Retrieved from https://www.ibm.com/products/watsonx-assistant/healthcare