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Applications of NLP in Healthcare: Enhancing Clinical Documentation

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    Posted in AI Healthcare

    Last Updated | October 9, 2024

    Natural Language Processing, also known as  NLP, has emerged as a disruptive technology in the medical field. NLP processes and interprets data related to human language using computer techniques and algorithms. Recently, we’ve seen a surge in NLP in healthcare and life sciences market conditions, further fueling its exponential growth. 

    Due to its inclusion in medical practices, significant advancements have been made in clinical documentation, decision-making, and patient care. This article explores how natural language processing is changing the healthcare environment, focusing on how NLP in healthcare might enhance clinical documentation practices.

    Applications of NLP in Healthcare

    What is NLP in Healthcare?

    Natural language processing (NLP) is an essential element of artificial intelligence (AI), which enables algorithms to comprehend, translate, and even produce human speech. Using NLP in healthcare means using various techniques to examine and extract meaningful information from enormous volumes of unorganized clinical text information. This information is found in electronic health records (EHRs), medical journals, and other publications about healthcare. Content interpreting, sentiment analysis, and listed entity identification are just a few methods that NLP in healthcare algorithms uses to effectively transform unstructured text into organized, valuable data. This transformation improves decision-making precision in the healthcare industry while streamlining the execution of healthcare services.

    NLP Applications in Healthcare and Life Sciences Market

    The use of natural language processing (NLP) in the health care and life-science domain has experienced notable expansion in the past few years, primarily due to its capacity to tackle diverse obstacles and enhance patient outcomes.

    NLP in healthcare is used in illness monitoring, medication development, customized therapy, and clinical documentation management. Its role in streamlining healthcare is especially significant in clinical documentation procedures, automating operations like coding, summarizing, and abstracting medical records.

    NLP in healthcare specializes in methods that improve the precision and thoroughness of data in Electronic Health Records (EHRs) and free up time for medical professionals to focus on patient care.

    Electronic Health Records (EHR) Overview

    Healthcare information is gathered during patient appointments and stored in electronic health records as a digital patient health data archive. Unfortunately, much of this data is unstructured, making it difficult to access and assess.

    NLP in healthcare offers a workable solution by enabling the retrieval and comprehension of relevant details from unstructured EHR data, including physician notes, pathology reports, and radiological images.

    Healthcare companies implementing NLP methodologies carefully utilize the EHR’s potential to improve patient administrative procedures and promote evidence-based decisions for efficient data processing. Because of the massive volume of healthcare data, such as health records, imaging services, and DNA data, they encounter various hurdles in setting up, assessing, and deciding on choices; however, it is no longer a problem, thanks to NLP in healthcare!

    Practical analysis guarantees quick access to reliable data for medical decision-making and care. Optimized systems may use different techniques to process information, save expenses, and enhance patient satisfaction. NLP in healthcare is essential to improving data processing in the sector because it streamlines tasks like interpreting text and retrieving information from unstructured clinical materials.  

    NLP Algorithms for Optimizing Electronic Health Records:

    NLP in healthcare is changing the management of Electronic Health Records (EHRs) by transforming unstructured clinical text data into organized and helpful information. These applications of NLP in healthcare employ advanced language and machine learning approaches to retrieve meaningful information, such as pathology reports and practitioner notes. 

    NLP in healthcare increases data correctness, comprehensiveness, and interoperability by streamlining data processing processes in EHR systems through automation, such as coding and summarization. NLP algorithms are utilized more often in medical fields to improve medical decisions, support population health management, monitor diseases, and facilitate customized medicine projects.

    Positive Impact on Clinical Decision-Making

    Algorithms for NLP in healthcare are essential for enhancing clinical judgment in hospital settings. These algorithms make it easier to quickly and accurately retrieve relevant patient data, which helps medical professionals extract crucial information from clinical notes, i.e., one of the leading NLP use cases in healthcare.

    NLP algorithms help physicians make well-informed judgments about patient diagnoses, medications, and drug records by evaluating notifications for possible medication interactions, adverse events, and inaccurate diagnoses. This ultimately improves patient safety and the standard of care given. NLP technology integration has proven to be a valuable tool for enhancing patient results and expediting decision-making processes in medical facilities.

    Psy-LLM

    Modern natural language processing algorithm Psy-LLM was created to evaluate and interpret text data from psychiatric clinical settings, including mental health evaluations, treatment notes, and psychiatric evaluations. Psy-LLM enables mental health practitioners to extract critical information from unstructured psychiatric narratives.

    It utilizes advanced natural language processing techniques to study symptoms, diagnoses, treatment outcomes, and prognosis. These insights are critical in psychiatry’s support of evidence-based decision-making, in creating targeted therapies, and, ultimately, in improving the patient experience in psychological situations.

    Google’s LYNA (Lymph Node Assistant)

    Google Health developed LYNA (Lymph Node Assistant) to help pathologists assess lymph node biopsy slides for cancer diagnosis. LYNA allows pathologists to concentrate on essential cases and make more accurate diagnoses. It uses sophisticated deep learning algorithms and natural language processing techniques to automatically identify and classify regions of concern within histopathology pictures. 

    LYNA improves patient outcomes and the standard of healthcare by streamlining the cancer diagnostic process by integrating natural language processing for picture evaluation and analysis. LYNA can be considered one of the best examples of NLP in healthcare. 

    IBM’s Watson for Oncology

    Watson for Oncology, a medical decision-support tool, was created to help oncologists make well-informed decisions on cancer therapy. Watson for Cancer provides individualized therapy suggestions based on unique patient characteristics and preferences by sorting through cancer data from several sources, including clinical trials, medical literature, and patient records. 

    This system uses machine learning and natural language processing in healthcare to give oncologists access to the latest medical research, optimize treatment regimens, and improve patient outcomes in cancer care. Healthcare providers looking to provide the best possible treatment for cancer will benefit significantly from using Watson.

    Exploring Large Language Models (LLM)

    Large language models (LLMs) represent a significant advancement in technological advances in natural language processing because they can understand and generate writing similar to humans at scale. These machine learning techniques can understand complex language patterns and semantics because they have been trained on vast amounts of text information from internet sources.

    Google’s BERT (Bidirectional Encoder Representations from Transformers) and OpenAI’s GPT (Generative Pre-trained Transformer) series are examples of this method. LLMs can significantly improve clinical records, decision support, and patient relations in healthcare. 

    With natural language processing in healthcare, LLMs help healthcare practitioners create thorough clinical notes, summarize patient histories, and automate tedious documentation using their grasp of medical language and context. LLMs can help patients and healthcare providers communicate by creating customized health education resources, responding to medical questions, and offering language translation services. The usage of LLM technologies for healthcare is anticipated to grow as they develop further, advancing patient treatment, research in medicine, and healthcare provision.

    Benefits of Custom LLM Approaches in EHR:

    Customizing Large Language Models (LLMs) for Electronic Health Records (EHRs) can significantly improve data handling in healthcare institutions. These advanced models are better at extracting meaningful information from medical data, leading to improved patient care and decision-making. Benefits include:

    • More precise clinical documentation
    • Better patient outcomes
    • More tailored patient care

    EHRs need customization to leverage LLMs for medical records. The medical team plays a crucial role in ensuring the text produced is thorough, consistent, and compliant with clinical guidelines. Customization involves fine-tuning LLMs on healthcare data and terminology specific to the institution. This includes:

    • Specialty-specific terms
    • Coding standards
    • Documentation formats

    This personalization improves the quality of clinical documentation, reduces errors, and strengthens the reliability of patient data for various purposes.

    Enhanced Data Extraction and Analysis

    Linguistic Language Model (LLM) techniques inside Electronic Health Records (EHRs) provide a notable benefit for extracting unstructured clinical textual information by improving data extraction and analysis capabilities. By customizing LLMs to identify critical clinical information such as diagnoses, treatments, drugs, and results from various EHR sources, healthcare organizations can automate data abstraction techniques, optimize steps for data integration, and accelerate clinical studies and quality improvement initiatives. 

    Moreover, customized LLMs can support advanced data analysis tasks, including predictive modeling and natural language understanding, revealing hidden trends, sequences, and associations in EHR data. This facilitates the development of tailored patient care plans and evidence-based decision-making.

    Build Next Generation Healthcare Solutions with NLP

    Famous NLP Libraries Used in the Healthcare Industry

    Natural language processing (NLP) libraries are critical to the medical field because they enable the development and deployment of advanced NLP apps for various tools and structures offered by these libraries. They facilitate the processing, analysis, and valuable knowledge extraction from medical textual information found in electronic health records (EHRs), medical journals, and other health publications. 

    The Stanford NLP libraries are widely utilized in the medical field and contain spaCy, NLTK, and CoreNLP.  Here is a description for each example of natural language processing in healthcare:

    spaCy

    Due to its well-known quick and efficient computing capabilities, SpaCy is a well-liked option for several duties in healthcare usage, including dependencies parsing, part-of-speech labeling, and identified entity identification. It is an excellent tool for industry experts because of its built-in models and adaptable pipelines, especially for operations.

    The Natural Language Toolkit, or NLTK

    Evaluation of sentiment, stemming, and tokenization are just a few of the many use cases for natural language processing that NLTK may support. Its use in the medical sector is noteworthy, especially in speech-processing tasks like document categorization data retrieval.

    Stanford NLP

    Stanford CoreNLP and Gensim are valuable NLP tools but serve different purposes. Stanford CoreNLP offers a powerful toolbox for various NLP tasks like entity recognition and sentiment analysis. It shines in pre-trained models and building custom workflows, making it an excellent choice for complex projects. Gensim, on the other hand, specializes in topic modeling and efficient text representations. While not specifically designed for medical devices, its text analysis capabilities can be valuable for various NLP applications.

    It utilizes word-embedding methods like Word2Vec and Doc2Vec, making it robust for modeling topics, document comparison analysis, and even tasks specific to the healthcare sector. Gensim is essential for task set grouping, semantic similarities analysis of medical documents, and clinical term retrieval. Because of its many features, it’s a valuable tool for deriving insights from and evaluating healthcare data.

    Transformers (Hugging Face)

    Hugging Face’s Transformers library provides state-of-the-art models for BERT, GPT, and RoBERTa, among other natural language tasks. These models are widely used in the medical field for tasks including translating languages, questioning responding, and medical text categorization.

    NLP libraries are valuable resources companies may use to accelerate the creation and deployment of NLP-enabled apps. This innovation extracts significant information from medical data. Healthcare professionals may use these technologies to expedite procedures, enhance decision-making, and offer individuals better treatment.

    Challenges and Considerations of NLP in Healthcare

    The necessity for a reliable collection of information that effectively captures the complexity of medical vocabulary is one of the biggest obstacles to the widespread use of natural language processing in healthcare.

    Furthermore, patient confidentiality and data safety must be guaranteed to maintain people’s faith in technological devices. Resolving these issues will be necessary to leverage NLP’s anticipated advantages in enhancing medical results and patient treatment.

    Data Privacy and Security Concerns

    In implementing NLP methods, healthcare businesses must contend with the difficulty of complying with strict standards and norms around patient data security and confidentiality. Maintaining patients’ privacy and avoiding unwanted disclosure of confidential medical data need strict adherence to standards such as HIPAA

    To secure patient information at all stages throughout the NLP processes, from gathering information to preservation and transmission, medical professionals must put first the execution of implementation, restricting anonymously used methods and adhering to legal obligations. Healthcare is busy implementing these procedures and using NLP technology to improve patient care and results while adhering to the strictest confidentiality and security of data regulations by implementing Challenges with Existing Systems.

    Integrating natural language processing in healthcare with current electronic health record services may present operational challenges. For NLP solutions to be interoperable and user-friendly, they must seamlessly interface with medical decision-support systems, EHR platforms, and other healthcare IT infrastructures. 

    When adding NLP technologies to their present clinical studies, healthcare companies may encounter issues while integrating data formats and simplifying workflow. To design and execute specific strategies that satisfy clinical criteria and corporate goals, healthcare information technology teams, NLP programmers, and end users must work together to overcome these integration issues.

    The Future of NLP in Healthcare

    Natural language processing (NLP) in healthcare has a bright future as technological developments revolutionize patient care, clinical research, and treatment provision. Improved clinical decision-making, more accurate medical records, and enhanced patient involvement via tailored encounters are some of the primary goals of emphasis for NLP in the healthcare industry. NLP has the potential to influence significantly how medication is received and how medical personnel provide care as it develops.

    Personalized Medicine

    Individualized healthcare projects benefit significantly from applying Natural Language Processing (NLP) in healthcare, which may leverage particular patients’ information gathered from many sources, including wearables, genetic data, Electronic Health Records (EHRs), and patient-generated medical records. 

    Healthcare professionals can tailor treatment programs to every patient’s interests, health patterns, and patient-powered technology. This customized strategy would improve the accuracy and effectiveness of healthcare treatments, eventually enhancing patients’ lives and raising the standard of care.

    Clinical Decision Support

    Natural Language Processing (NLP) algorithms have the potential to continue transforming systems for clinical decision-support in medicine. At the initial stage of care, these computerized systems are designed to provide immediate accessibility to relevant medical information, evidence-based practices, and recommended therapy courses.

    The next generation of NLP models will be strengthened by advanced machine learning techniques like reinforcement learning and deep learning to improve the accuracy and reliability of systems for clinical decision support. This progression is expected to provide healthcare practitioners the tools to make educated decisions, eventually improving patients’ health standing and reasoning.

    As natural language processing (NLP) in healthcare advances, future systems can go beyond simple language comprehension tasks and explore more complex semantic comprehension and reasoning skills. According to this development, NLP algorithms can explain clinical judgments, derive causal linkages through clinical information, and interpret complicated medical ideas. 

    NLP systems will combine these features to enable transparent and understandable artificial intelligence in healthcare by combining the quality of care for patients and increasing the effectiveness and precision of medical procedures.

    Multimodal Healthcare Data Analysis

    As natural language processing develops, subsequent systems will be capable of investigating more sophisticated semantic understanding and reasoning abilities in addition to fundamental understanding of language tasks. This research will enable natural language processing (NLP) computers to comprehend complex medical concepts, rationalize medical decisions, and determine causal relationships from clinical data.

    By merging these characteristics, NLP in healthcare algorithms will be crucial in providing accessible and intelligible artificial intelligence in medicine. This would increase the accuracy of medical processes and improve the quality of patient treatment.

    Ethical and Regulatory Considerations

    It is critical to take action on the ethical, permissible, and legislative problems that arise as the usage of natural language processing in healthcare and biomedicine grows. Concerns such as data protection, biased prevention, and transparency must be considered appropriately to safeguard patients’ privacy and overall health. 

    To encourage the ethical and just application of NLP techniques to healthcare, scientists and engineers must prioritize creating moral frameworks, rules, and systems for governance going ahead. By doing this, we can respect the most significant norms of morality and uprightness in the healthcare sector while utilizing NLP to its fullest extent. 

    NLP in healthcare has a bright future since it prioritizes innovation, teamwork, and bettering patients’ lives. By utilizing NLP technology, healthcare workers may improve interaction, expedite procedures, and eventually progress in the medical field. This use of NLP in healthcare shows a commitment to giving patients the best treatment possible and bringing about positive change in the sector.

    Developing Natural Language Processing Tools With Folio3 Digital Health

    Have you wondered what is NLP in healthcare and want to learn about the role of natural language processing in this sector? Luckily, Folio3 Digital Health and its designers, developers, and marketers have much experience with NLP in healthcare to help you out. 

    If you’re looking to build a HIPAA-compliant healthcare NLP tool using HL7 and FHIR interoperability standards or learn about AI healthcare applications, Folio3 is the way to go.

    Applications of NLP in Healthcare

    Conclusion

    NLP in healthcare is a transformative innovation that enhances patient interaction, judgment assistance, and medical records. Natural Language Processing techniques can revolutionize healthcare by improving clinical decision-making and optimizing Electronic Health Records (EHRs). 

    NLP in healthcare can be leveraged to streamline workflows, extract valuable data, and provide medical staff with reliable information. However, companies must address data confidentiality, integration issues, and ethical considerations to fully harness NLP’s potential and advance patient treatment and healthcare provision.

    About the Author

    Saba Pervez

    Saba Pervez

    With over 5 years of experience in software development, I am a skilled full-stack developer who specialises in both web and mobile application development. My expertise is in designing strong, scalable, and user-friendly applications using the MEAN/MERN stack (MongoDB, Express.js, Angular/React.js, Node.js) and mobile technologies(React Native and Ionic).