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Healthcare & Data Science: Ways EHR with AI Can Work Together
Healthcare & Data Science: Ways EHR with AI Can Work Together

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Healthcare plus data science were meant to be together. Patient data that is easily accessible and useful is crucial to quality care. Electronic health records (EHRs)are the product of combining healthcare with data science. EHR makes use of data science to improve medical treatments and operations. Furthermore, healthcare is an ideal source of artificial intelligence (AI) and machine learning (ML) techniques. When AI/ML and EHR collaborate, they can achieve streamlined workflow, improved database upkeep, and more accurate result reporting.

 

Electronic Health Records (EHR) Explained 

EHR are computerized compilations of all sources of information on such a patient that are gathered into a single database. These include medical history, treatment data, diagnoses, prescriptions, immunization records, drug or food allergies, radiological pictures, and laboratory or test findings.

 

Once HIPAA was developed and signed in 1996, EHR adoption in the healthcare business occurred late in the 1990s. Because of restricted technology, the integration process was delayed. The passing of the HITECH Act in 2009 provided a considerable boost, as did the clarification of the what, why, or how of EHR implementation. The primary goal of EHR implementation is and was to expand care delivery with the objective of boosting treatment efficiency.

 

EHRs work like paper charts, but they grow digitally through an interactive science dashboard that refreshes in real time. Physicians can study the patient's medical records and undertake various analytical tasks.

 

Important components of EHR are as follows:

 

  • Availability: EHRs are updated and organized in real-time, enabling the application of data science tasks such as diagnostics and analytics for both descriptive and prescriptive reasons. The data is accessible at all times and is shared with all parties involved in the patient's care (Laboratories, specialty doctors, radiologists, pharmacies, hospitals, and so forth.)

 

  • Security: Only authorized users can access and transform EHR data, which is securely kept using an intricate access management system, data encryption, anonymization, and data loss prevention processes.

 

  • Workflow optimization: EHR can simplify routine operations in providers' workflows. By commencing the data processing protocol, EHR automation can also manage health data processing requirements (HITECH, HIPAA, and PIPEDA).

What role Does AI/ML play in EHR?

Data availability is one of the most advantageous aspects of EHR deployment in healthcare operations. Besides having knowledge at hand for medical experts at all times, the way data is presented in EHR makes it an ideal fit for many ML-powered data science activities.

 

ML is an excellent choice for several aspects of EHR, including:

 

  1. Data mining: A large amount of data is required to gain insights into medical practice. It takes a really long time to collect all of this information. The amount of data generated by medical facilities is growing, as is the complexity of that data. This necessitates the employment of ML algorithms for processing and evaluating data during data mining. The application of data mining for EHR involves two methodologies with varying scopes:

 

  1. Obtaining Data : (About The patient & the treatment) In this case, ML is used to extract relevant information from the medical records and treatment records to aid in decision-making. Doctor data mining is used to evaluate treatments and outcomes by studying similar instances from the expanded EHR database.

 

  1. Data extraction: In this scenario, an ML app is utilized to gather relevant data from the EHR database based on terms and outcomes. Determining whether the medication was demonstrated to be effective for various conditions and the conditions under which it was delivered is one example. The same technologies that may alter available data to satisfy specific objectives, such as assessing lipid profiles using test result patterns, can be used for exploratory research.

 

  1. The processing of natural languages (NLP): Natural language processing is employed in one form or another in EHR operations. The majority of medical information is in text format with charts and graphs.

 

 


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