Opportunities and Challenges for Large Language Models in Primary Health Care

Health Promotion and Disease Prevention

The essence of PHC lies in promoting health and preventing diseases. The “14th Five-Year Plan for National Health” clearly proposes the implementation of comprehensive strategies for chronic disease prevention and control, emphasizing the core requirement of “health-centered” approaches. ⁴ By improving health education, personalized health management, and disease screening, LLMs can contribute to the implementation of this national strategy. They can also improve people’s health literacy and understanding of diseases, ultimately leading to better health outcomes. ¹⁶ Patients receive individualized health guidance through natural language dialogue, covering areas such as diet, exercise, and smoking cessation. This approach allows for earlier access to tailored information based on lifestyle habits and health data through patient empowerment and engagement, as well as timely reminders for patients to take intervention measures in order to prevent the onset and progression of diseases. ¹⁷

Furthermore, LLMs has the potential to assist health care institutions in conducting data analysis to identify and predict high-risk groups. For instance, by analyzing medical history, lifestyle habits, and genetic information, LLMs have the capability to identify high-risk groups with chronic diseases, issue early warnings, and provide guidance for intervention measures. At the National University Health System (NUHS), Singapore, the team has created a tool called CardioSight that can capture and showcase information on cardiovascular risk factors at both individual and geographical levels. When combined with the Chronic Disease Management Program (CHAMP), CardioSight ¹⁸ can offer targeted intervention strategies. This personalized approach to disease prevention holds promise for enhancing primary-level public health outcomes and advancing universal health coverage. ¹⁹

Medical Consultation and Health Management

Medical consultation is an important component of PHC. LLMs have the potential to function as a physician’s assistant by providing a real-time health advice and initial diagnostic support. Through interactive communication with LLMs, patients can receive symptom-based health advice, thereby addressing the limited availability of PHC resources. Acting as an intermediary between patients and physicians, LLMs streamline health consultation process and provide preliminary diagnostic recommendations ²⁰ to alleviate the shortage of qualified medical personnel in PHC.

LLMs play a crucial role in personalized health management by enabling doctors to create tailored health management plans for patients, monitor their health data in real time, and dynamically adjust management strategies based on this information. Patients can receive telemedicine advice and care guidance, improving their remote care experience and enjoying the convenience brought by telehealth services. Recently, Massachusetts Institute of Technology (MIT) collaborated with Google to develop a Health-LLM ²¹ that analyzes data collected from wearable sensors, monitors physiological parameters in real time, and reviews health records to make health predictions. This tool reminds patients to take necessary intervention measures, thereby optimizing their health management.

Diagnosis, Triage, and Referral

LLMs have the potential to significantly enhance diagnostic efficiency in PHC by assisting with routine and repetitive medical tasks, such as inputting patient data and summarizing medical information. They also provide clinical decision support by quickly analyzing a large volume of medical documents, electronic health records, and other health data. LLMs can provide preliminary diagnoses based on patients’ symptoms and medical history, enhancing the diagnostic efficiency and accuracy of primary healthcare providers. Chat Ella, ²² designed as a tool to assist doctors in diagnosing common chronic diseases, has shown excellent diagnostic capabilities and has received positive feedback regarding its usability. They also offer preliminary diagnoses based on symptoms and medical history, as well as current treatment recommendations supported by relevant medical literature, ²³ optimizing treatment plans and enhancing treatment outcomes. By attracting patients with high-quality service, timely care, and cost-effective solutions, it aims to increase the footfall in primary care clinics. Leveraging contracted family doctors services, it provides patients with continuous healthcare services.

By promptly evaluating a patient’s condition, LLMs could identify high-risk emergency and critical cases and redirect patients to appropriate specialists or health care facilities, thereby reducing instances of misdiagnosis and inappropriate referrals. Improving the information system of the medical community ensures the immediate exchange and verification of medical data. ⁵ Multimodal large language models further advance the construction of resource-sharing centers in areas such as medical imaging, medical testing, and electrocardiogram diagnosis. This aids in establishing a two-way referral order for primary examinations, advanced diagnoses, and result recognition, ²⁴ optimizing the referral process, ²⁵ and better implementing the hierarchical medical system to improve the current situation of patients facing difficulties in accessing medical care.

Chronic Disease Management

Chronic disease management is a crucial component of PHC, particularly in China where chronic diseases have become a major health burden. ²⁶ Leveraging long-term patient health data such as electronic health records, family history, and lifestyle information, LLMs can offer personalized chronic disease management plans to patients, along with remote monitoring of key physiological indicators such as blood pressure and blood glucose. This technology enables real-time tracking of patient progression and allows for adjustments to treatment plans based on the latest medical research and individual patient conditions, ²⁷ ultimately leading to a reduction in hospitalizations and emergency interventions. LLMs can enhance the capabilities of chronic disease care in primary healthcare. Data statistics indicate that over 80% of the disease burden in China comes from chronic care needs, and there is a significant shortage of nursing staff. ²⁸ Hippocratic AI ²⁹ has launched a chronic disease virtual nursing assistant supported by LLMs, which reminds patients to take their medications, follow care plans, schedule follow-up appointments, and review medication issues. This meets patients’ needs for care, alleviates the burden on medical personnel, and eases the pressure on nursing resources.

In addition, LLMs can predict and prevent complications of chronic diseases by analyzing data. With the help of DeepDR-LLM, ³⁰ a diabetes screening model that integrates LLMs and image-based deep learning, PHC physicians can effectively identify patients with diabetic retinopathy who are suitable for referral. Patients are more willing to follow recommendations to visit ophthalmologists and adopt healthier lifestyles. LLMs also hold the potential to provide active rehabilitation guidance and training for patients with functional impairments caused by chronic diseases, thereby improving their quality of life. ³¹

Mental Health Support

LLMs also demonstrate significant potential in mental health support. Accelerating the integration of mental health services within primary healthcare and communities is one of the best ways to improve the cost-effectiveness of PHC. ³² Through empathetic interactions, LLMs could provide emotional support to patients and aid them in managing stress, anxiety, and depression associated with their condition. It is capable of monitoring the patient’s emotional fluctuations and providing tailored psychological interventions for individuals encountering psychological challenges, including companionship, support, and even therapeutic approaches such as cognitive behavioral therapy or mindfulness training, to facilitate timely alleviation of psychological distress for patients, ³³ and provide public mental health education programs to enhance mental health literacy.

Additionally, LLMs could assist mental health professionals in identifying high-risk patients and offering early intervention recommendations. Through monitoring language patterns and emotional changes, LLMs could promptly detect mental health issues in patients, including early signs of schizophrenia or mental disorders, ³⁴ and provide further treatment or referral suggestions. Only a very small number of patients reporting depressive symptoms receive adequate treatment. ³⁵ Soulchat ³⁶ can offer humanized psychological counseling services through multi-turn empathetic dialogues, providing a convenient support avenue for those who cannot access mental health services in a timely manner.

Medical Training and Education

LLMs could serve as a valuable training tool for medical professionals, particularly in the realm of PHC where doctors frequently encounter the need to acquire new knowledge and skills in order to navigate the intricate medical landscape. The key bottleneck in building a strong PHC system is the lack of qualified healthcare personnel. ¹⁶ Interactive learning through LLMs is emerging as a viable method to provide doctors with current research findings and clinical guidelines, thereby enhancing their diagnostic and therapeutic capabilities. LLMs potentially generate personalized educational materials tailored to expedite doctors’ mastery of specific areas of expertise, such as chronic disease, traditional Chinese medicine, oncology. China’s first large language model for traditional Chinese medicine, “Zhongjing,” ³⁷ can generate diagnostic analyses, interactive stories, and explanations of disease causes and mechanisms based on data from traditional Chinese gynecological prescriptions. This can assist doctors in improving their reasoning abilities in traditional Chinese medicine consultations. By simulating case analyses and providing immediate feedback, LLMs also hold promise for augmenting doctors’ clinical decision-making abilities and elevating their professional skills. Recently, the Chinese Expert Consensus on Artificial Intelligent General Practitioner(AIGP) ³⁸ has been proposed, which is expected to assist general practitioners in fulfilling the learning requirements of their professional training. Additionally, these models can simulate clinical scenarios, providing practical training and skill development.

Transparency and Interpretability

The internal mechanism of LLMs, as deep learning models, is usually considered a “black box,” making them challenging to explain the reasoning process in complex medical scenarios. The lack of transparency has a direct impact on the interpretability of models, particularly in the context of medical diagnosis and decision support. It is essential for both doctors and patients to comprehend how the models arrive at specific conclusions. In China, many patients have low trust in primary-level healthcare institutions and weak understanding of the primary care first diagnosis system. The outputs of the model must provide reasonable explanations to enhance trust and guide patients’ healthcare beliefs and habits. However, most of the current LLMs, especially commercial models such as GPT-4, have not yet disclosed their specific training data or internal mechanisms. ³⁹

The research has shown that the use of techniques such as Chain of Thought (CoT) can enhance the interpretability of models in PHC, elucidating the reasoning process and facilitating users’ comprehension of the logic behind the models’ output. Additionally, advancements in more transparent and traceable LLMs contribute to their increased adoption rate in medical settings. ⁴⁰ However, despite these technological advancements offering some solutions, further research and improvement are necessary to advance the interpretability of LLMs beyond their current exploratory stage.

Hallucinations

LLMs exhibit a proclivity for generating content that is seemingly reasonable but ultimately inaccurate or unverified, commonly referred to as “hallucinations.” ⁴¹ This inaccurate information may have a substantial impact on patient health in medical environments, especially when utilized without the supervision of professional medical personnel. Depending solely on LLMs diagnostic recommendations may also pose potential risks. Primary-level healthcare institutions bear the important responsibility of the primary care first diagnosis system, ⁵ which is the core of the hierarchical medical system. This system affects the patients’ subsequent initial treatment, triage, and referral, as well as their overall sense of trust. Therefore, it is imperative in PHC to meticulously verify and debug LLMs to ensure the accuracy and reliability of the information they provide.

One approach to mitigate the risk of “hallucinations” is to curate datasets tailored for medical scenarios during the pre-training phase of the model and regularly update these datasets to align with the latest medical research findings. ⁴² Furthermore, integrating an external knowledge retrieval system to enhance the accuracy of LLMs could effectively reduce distortions and bolster the credibility of LLMs in health care. ⁴³ In resource-scarce western and remote rural areas, developing high-quality LLMs that are suitable for the local primary healthcare system faces significant challenges. These challenges include difficulties in attracting professional talent and collecting and updating training data. To achieve these goals, it is essential to establish effective collaboration and resource sharing with higher-level hospitals, as well as to get government financial incentives and policy support to retain the necessary technical talent. The application of artificial intelligence in healthcare at the grassroots level is continuously being advanced for better and more widespread use.

Data Privacy and Security Concerns

During the training process, LLMs require a significant amount of patient data, including electronic health records (EHR), which contain highly sensitive personal privacy information. Improper use or leakage of this data may result in serious harm to patient rights, particularly as LLMs increasingly support personalized medical services and have the potential to infer specific individual information, thereby posing privacy risks. ⁴⁴

To address these issues, the World Health Organization (WHO) ⁴⁵ supports the enforcement of data protection regulations, requiring that the collection and processing of data must be conducted legally. Additionally, some researchers have proposed the use of privacy-enhancing technologies (PETs) like differential privacy and federated learning while safeguarding personal information. Differential privacy guarantees that the model maintains anonymity when analyzing patient data, while federated learning enables secure sharing and updating of model parameters across multiple distributed devices. ⁴⁴ Meanwhile, primary-level healthcare institutions must obtain informed consent from patients and adhere strictly to data privacy regulations before utilizing LLMs in order to safeguard the security of patient information. ⁴⁶

Bias and Fairness

The training data for LLMs usually reflects societal prejudices based on race, gender, and geographical location, potentially leading to unfairness in medical applications. For instance, certain social groups may lack access to high-quality health advice due to insufficient data or may receive unconsciously biased recommendations from LLMs. ⁴⁷ This issue is particularly significant in PHC, where the emphasis is on health equity and ensuring equal access to quality medical services for all individuals. ⁴⁸ China has a diverse cultural background with multiple ethnic groups and is experiencing a significant aging population. It is essential to ensure that minority groups and the elderly have equal access to high-quality healthcare services.

To address these challenges, researchers have proposed deep reinforcement learning techniques to mitigate model bias and align it with social ethics. ⁴⁷ Additionally, it is necessary to introduce cross-cultural datasets and provide intelligent models that cater to dialects and the elderly, ensuring that the models can meet the diverse healthcare needs of patients and avoid injustice stemming from cultural or racial differences. ⁴⁹ Currently, multimodal large models are placed in “paid access areas,” ⁴⁵ raising the urgent issue of how to improve the accessibility of these models to cover a broader range of populations.

Human Participation and Ethics Concerns

While LLMs boast powerful automation capabilities, human involvement remains crucial in medical settings. LLMs cannot fully replace doctors, especially in scenarios involving complex ethical decisions or the emotional needs of patients. Some patients may feel uneasy about relying on artificial intelligence for diagnosis or treatment, particularly in critical moments concerning their health and well-being. ⁵⁰

Moreover, it is essential to emphasize the role of LLMs as a supplementary tool rather than a replacement for human decision-making. Researchers have proposed techniques such as reinforcement learning from human feedback (RLHF) and direct preference optimization (DPO) to align the output of LLMs more closely with human values and preferences, thereby bolstering patient satisfaction and trust. ⁵¹ In China, the economic returns for healthcare providers depend on the quantity of medical services provided. ¹⁶ As a new type of artificial intelligence technology, how LLMs can encourage healthcare professionals to engage in training and active learning, and how to educate them to correctly handle information from LLMs without relying solely on it, requires further solutions.

Legal and Regulatory Frameworks

The widespread use of LLMs in PHC requires robust legal and regulatory backing. Currently, there is a lack of consistent laws and regulations globally to govern the use of LLMs in health care, which poses potential risks due to the high-stakes nature of medical care. In the context of PHC, the patient harm caused by the use of LLMs cannot be clearly attributed to any party, and there is a lack of regulatory accountability. Therefore, it is essential for LLMs developers, medical institutions, and government regulatory agencies to establish clear lines of responsibility and implement stringent regulatory measures. ⁵²

Due to issues related to interpretability and safety, some companies’ LLMs are unable to comply with existing legal regulations, which restricts their formal operation. This year, the World Health Organization released guidelines on the ethics and governance of large multi-modal models for health to further regulate and standardize the development and application of LLMs, particularly when integrated into the high-risk field of healthcare. ⁴⁵ The updates and iterations of LLMs are dynamically evolving processes that brings new risks and challenges. Moving forward, global cooperation must be strengthened to ensure that the applications of LLMs align with ethical norms, prioritize patient safety, and promote responsible usage in health care settings.

Interdisciplinary Collaboration and Data Integration

The multimodal capabilities of LLMs are poised to play a transformative role in revolutionizing health care applications. In the future, LLMs will increasingly integrate with various digital health technologies, including wearable devices, electronic health records, genomics, to achieve comprehensive health management that covers the entire population and the entire life cycle of individuals. This necessitates close collaboration between medical institutions and technology companies, as well as interdisciplinary cooperation in medicine, data science, and ethics to develop model products for PHC that genuinely meet the requirements of patients and healthcare providers, resulting in the integration of “code to bedside”. ⁵³

The integration of services from primary care to tertiary care, as well as the collaboration between public and private healthcare providers is of crucial significance. ⁵⁴ The potent data analysis capability of LLMs can facilitate the sharing and standardization of patient health information, and LLMs may turn into the hub of medical data, providing comprehensive clinical care pathways and enabling patients to obtain more convenient 2-way referral services, thereby alleviating the complex care challenges posed by chronic diseases and geriatric diseases.

It is recommended to staff primary-level healthcare institutions with a diverse range of professionals, including medical workers like dentists, traditional Chinese medicine practitioners, and rehabilitation doctors, as well as non-medical personnel such as psychological consultants and community workers. As a mediator for multi-disciplinary cooperation, LLMs can incorporate public services such as elderly care, disability care, and mental health care into primary healthcare services. In rural and remote areas, the addition of multi-disciplinary roles may mitigate the shortage of qualified general practitioners, and the combination of multidisciplinary teams and LLMs can assist in establishing a comprehensive healthcare service centering on primary-level medical services, coordinating the healthcare needs of patients and residents. ⁵⁵

Continuous Improvement in Health Equity

The use of LLMs in PHC should prioritize tackling social biases and health disparities. In the future, as more cross-cultural and diverse data are incorporated, LLMs will be better positioned to deliver equitable health services, preventing unfair treatment of specific groups due to constraints of the training data. ⁵⁶ Furthermore, developers should further enhance the bias correction mechanism of the model to ensure that LLMs offer consistent quality of care to patients from various backgrounds.

Currently, the uneven distribution of medical resources and the imbalanced development between regions and urban-rural areas remain significant challenges hindering the advancement of healthcare in China. Medical artificial intelligence is an effective means to empower primary healthcare. ²⁴ The applications of LLMs are anticipated to significantly enhance telemedicine services, including remote consultations and chronic disease management. This will ensure that primary-level healthcare institutions are accessible across all regions and provide real-time service support, while also fostering remote collaboration with higher-level hospitals. Additionally, it is essential to fully leverage the role of county-level medical communities to promote the descent of high-quality medical resources. By integrating Large Language Model-assisted diagnosis and treatment technologies, the clinical decision-making capabilities of PHC physicians can be enhanced, ultimately improving the quality of medical services.

Furthermore, an effective PHC system requires community outreach. ⁵⁴ It is crucial to strengthen health promotion efforts beyond medical institutions. Through real-time and convenient health monitoring and education enabled by LLMs, we can enhance health awareness among more residents and encourage them to actively adopt healthy lifestyles. This involves promoting family-based and technology-supported self-health management to proactively prevent diseases and promote health equity.

Construct Ethical and Legal Frameworks

As LLMs continue to be integrated into PHC, enhancing ethical and legal frameworks becomes more vital. At present, major countries and regions around the world are accelerating the improvement of legal supervision related to LLMs to ensure that their development and applications adhere to ethical standards and legal frameworks. For instance, the European Union promulgated the first comprehensive legislation on artificial intelligence, the “Artificial Intelligence Act”, ⁵⁷ which has become the core of the supervision and governance of large models. Combined with other acts in the fields of personal data protection strategies and market supervision, they jointly constitute the supervision system. In the United States, the regulatory framework for large models and the artificial intelligence systems they support is primarily comprised of various legislation at both the federal and state levels. This framework emphasizes the need to balance the rights and interests of enterprises with those of users. ⁵⁸ The current supervision system for large models in China mainly adopts a strategy of parallel vertical regulations and horizontal supervision tools, reflecting the balance between government leadership and collective interests. ⁵⁹ In the development of digital medical technologies, including LLMs, there are differences in research transparency, privacy, and medical device approval mechanisms between China and other countries and regions. ⁶⁰ When the government collects biological data, it may infringe on the privacy of individual patients. However, these privacy data can only be utilized domestically in accordance with compliance regulations. Additionally, there are issues related to the unclear responsibilities of various entities and the absence of regulatory accountability.

In the future, the accountability mechanism will be a significant topic. The government, developing companies, and primary-level healthcare institutions need to clearly define responsibilities to ensure that timely remedial actions can be taken when issues arise during the utilization of LLMs. Collaborative efforts should be made to develop and refine relevant technical and compliance standards. Furthermore, it is advocated to establish flexible and adaptive governance pathways for LLMs to address the new opportunities and challenges brought about by the rapid development of LLMs, adapt to diverse medical scenarios in different socioeconomic backgrounds, continuously monitor and provide feedback in practical applications, and update relevant ethical acts in a timely manner Lastly, issues such as model transparency, privacy, and fairness are universally applicable and require international cooperation and consensus to promote the establishment of a safe, effective, and equitable compliance framework for LLMs.

Continuous Innovation and Long-Term Development

The applications of LLMs in PHC are still evolving, with future innovations aiming to enhance the intelligence of LLMs and expand their range of applications. Ongoing updates and iterations are anticipated to improve the reliability and adaptability of LLMs in handling more complex medical tasks. Develop large models of traditional Chinese medicine with Chinese characteristics, fully leveraging the advantages of traditional Chinese medicine in disease prevention, control, diagnosis, and treatment. Meanwhile, integrate local ethnic medical services in minority regions to better serve the local population. The development of LLMs also requires addressing its flexible application in diverse medical scenarios and promoting it to rural and remote areas. It’s critical to identify the health needs of residents in low-resource areas, provide them with information-based infrastructure, and offer policy incentives and economic guarantees to the researchers and medical personnel who develop and use LLMs locally, enabling this new technology to a broader population.

The sustainable development of LLMs necessitates a substantial amount of clinical practice data and long-term follow-up studies. Therefore, further research should prioritize the assessment of the long-term effectiveness of LLMs in PHC, monitoring their impact on patient outcomes, and identifying areas for continuous updates and improvements to ensure their genuine benefit to patients.