Category: Artificial Intelligence

Artificial Intelligence

Harnessing the Power of Artificial Intelligence and Machine Learning in Healthcare

In the ever-evolving landscape of healthcare, the integration of cutting-edge technology has become a game-changer. Among these technological advancements, artificial intelligence (AI) and machine learning (ML) are taking the lead in revolutionizing patient care, diagnosis, treatment, and the overall healthcare experience. Health care providers are increasingly leveraging AI and ML to enhance efficiency, accuracy, and patient outcomes. In this blog, we will explore how healthcare providers are harnessing the potential of AI and ML.

  1. Disease Diagnosis and Risk Prediction:
    One of the most significant applications of AI and ML in healthcare is disease diagnosis and risk prediction. Advanced algorithms can analyze vast datasets, such as medical images, patient records, and genetic information, to detect patterns and anomalies that may elude human experts. AI-driven diagnostic tools can assist healthcare providers in identifying diseases at an earlier stage, allowing for more effective treatment and improved patient outcomes.
  2. Personalized Treatment Plans:
    AI and ML are transforming the way treatment plans are created. By analyzing a patient’s genetic makeup, medical history, and other factors, these technologies can tailor treatment recommendations to suit individual needs. This personalized approach not only increases the likelihood of successful treatment but also minimizes potential side effects, making healthcare safer and more effective.
  3. Drug Discovery and Development:
    The drug discovery process is notoriously lengthy and costly. AI and ML have the potential to expedite this process significantly. Through the analysis of vast datasets, these technologies can identify potential drug candidates, predict their efficacy, and even simulate their effects on the human body. This not only accelerates the development of new treatments but also reduces the associated costs.
  4. Administrative Efficiency:
    AI and ML are also streamlining administrative tasks in healthcare. They can help with appointment scheduling, billing, and medical coding, reducing the administrative burden on healthcare providers. This, in turn, allows healthcare professionals to spend more time on patient care and less on paperwork.
  5. Predictive Analytics:
    Predictive analytics powered by AI and ML are aiding healthcare providers in managing resources more effectively. Hospitals can forecast patient admission rates, optimize staff allocation, and even predict disease outbreaks. This proactive approach ensures that healthcare facilities are better prepared for the challenges they may face.
  6. Remote Monitoring and Telemedicine:
    AI and ML play a pivotal role in remote patient monitoring and telemedicine. Wearable devices and health apps can collect real-time data on patients’ vital signs and health metrics. AI algorithms analyze this data to identify potential issues or changes in a patient’s condition, enabling early intervention and reducing hospital readmissions.
  7. Natural Language Processing:
    AI-driven natural language processing is enhancing medical documentation and electronic health records. These technologies can extract critical information from medical notes and convert it into structured data, improving the accuracy of medical records and facilitating research.

In conclusion, healthcare providers are embracing AI and ML as powerful allies in their mission to deliver the best possible care to patients. From early disease detection to personalized treatment plans and administrative efficiency, these technologies are transforming every facet of the healthcare industry. While the full potential of AI and ML in healthcare is still unfolding, it is clear that they are paving the way for a future where healthcare is more precise, efficient, and patient-centered. As AI and ML continue to evolve, they will undoubtedly play a pivotal role in shaping the healthcare landscape of tomorrow.

Saince announces the launch of tele-medicine feature within its clinical documentation solution

Doc-U-Scribe clinical documentation solution now comes integrated with tele-medicine workflow. Physicians and administrators can create tele-consultation sessions with patients seamlessly from within the application. This process eliminates the need for providers to use separate solutions – one for clinical documentation and another for video session.

The COVID-19 public health crisis has accelerated the use of tele-medicine solutions among healthcare provides across the nation. However, many small hospitals and physician offices do not have access to a single solution that takes care of all their needs. Physicians are forced to use multiple solutions to complete their tele-medicine workflow. They are often finding this process frustrating and cumbersome.

Doc-U-Scribe clinical documentation solution which is used by hundreds of hospitals and physician offices across the country provides an integrated and seamless workflow for clinical documentation as well as tele-medicine.   This new HIPAA compliant tele-medicine solution can cut costs, increase efficiency, and improve physician satisfaction significantly.

Saince announced that this new feature will be available to all their existing customers immediately. Saince also announced that with their plug and play model, any new hospital or physician office can be up and running with their tele-medicine program within 48 hours.

The Cost of Care: How AI is Revolutionizing Healthcare and Driving Down Prices

The cost of healthcare is once again at the center of a national debate.  With premiums rising, the baby boomers aging, and diabetes, the most expensive disease in the world, affecting 10% of the US population, the rising cost of healthcare in America is an issue that affects all of us.  In the past, the implementation of new and emerging technologies in healthcare has contributed to the climbing costs. In contrast, the application of AI into healthcare is promising to drive those costs down.

Healthcare is an enormously expensive industry and the costs are steadily climbing.  According to World Book, in 2014 healthcare made up 17.1% of the GDP of the United States– up 4% from 1995, and continuing to grow.  The application of artificial intelligence into healthcare is promising to greatly reduce these expanding expenses while improving healthcare quality and access.  By 2026, it’s estimated $150 billion could be saved annually in the US healthcare economy by AI applications. It’s no wonder that healthcare is currently the number one investor in AI.

One of the areas in healthcare that will be most significantly impacted by the application of artificial intelligence is clinical documentation. AI applications in medical workflow management are estimated to accumulate $18 billion in annual savings for the healthcare industry by 2026, the third largest estimated savings from AI technology in healthcare after robotic surgery and virtual assistants.  Modern healthcare AI is capable of learning and comprehending and can perform clinical healthcare functions in much the same way as a human, minus human error.

Physician error in clinical documentation is an understandable yet costly complication in healthcare, and AI is able to streamline the tedious clinical documentation process and automatically generate accurate and complete reports.  Many AI healthcare programs are capable of fully augmenting human behavior and can perform tasks from risk analysis to patient diagnosis. Physician engagement in clinical documentation is a critical component to the quality and costs of healthcare, and AI applications are proving to increase physician engagement and improve clinical documentation quality.

With so much potential to improve not only healthcare costs, but also access and quality, the AI health market is currently experiencing a boom, and is expected to grow into a $6.6 billion dollar industry by 2021. This growth makes sense when you consider that the nation and the world are currently facing a shortage of doctors and healthcare personnel, and AI offers hospitals and physician practices a way to combat their rising operational and labor costs, while enabling them to better perform critical administrative functions quickly, accurately, and cost effectively.

Artificial Intelligence seems like the wave of the future, but the reality is, the future is here. In today’s medical environment of value-based care, appropriate reimbursements are incumbent upon accurate, high quality clinical documentation. As AI continues to grow and evolve, AI enabled clinical documentation improvement technology will continue to transform the healthcare industry, improving patient outcomes and optimizing revenue.

Rise of the Machines: Artificial Intelligence in Healthcare

Artificial intelligence in Clinical Documentation

When we think of artificial intelligence, the images that come to mind for many of us are probably somewhere along the lines of Rosie from The Jetsons or Arnold in Terminator.  While we’re still most likely several years from sentient household or murder robots, AI is playing an increasingly large role in our everyday lives.

One area that is beginning to see a significant increase in the applications of artificial intelligence systems is healthcare.  Massive amounts of clinical health data are becoming increasingly available through clinical documentation, electronic health records, and online medical interactions, as well as new and evolving academic health data which is constantly being generated and updated. This increase in available data coupled with the emergence of new, sophisticated algorithms and software has begun a revolutionizing trend in the healthcare industry that is changing the way we’re diagnosed and treated, how we interact with physicians, and how physicians operate within a clinical setting.

Artificial intelligence is a computing system engineered to allow digital devices to perform tasks without being directly instructed by a human. By utilizing multiple algorithms to sort and analyze data, these systems are able to recognize patterns, make decisions, and even change the way they “learn” when presented with new information. Ultimately, AI is designed to emulate the human cognitive process at an exponentially accelerated rate. In healthcare, essentially this means teaching a computer system to learn and think like a doctor.

Diagnosis and Treatment

One of the most practical yet profound applications of AI in healthcare is in patient diagnosis. Using algorithms that are capable of scouring enormous databases of both structured data from clinical trials and unstructured data from medical journals, AI systems can search for a patient’s symptoms while also considering the patient’s own medical history to come up with the most likely diagnoses. It can then generate a list of probable diagnoses and assist in structuring highly personalized treatment plans based on the patient’s medical history, and considering the latest advancement in medical treatments and their success rates across broad population spectrums.

In a clinical trial of 1000 cancer patients, Watson, a technology being developed by IBM which uses an AI system to diagnose and treat cancer, concluded the same diagnoses and treatment recommendations as oncologists 99% of the time.  The far reaching implications of this are particularly important for rural and remote communities where finding a doctor who specializes in a particular kind of disease may be impossible. For example, if there are only two doctors in the country who specialize in a rare, genetic kidney disorder and they are both located in Manhattan while the patient with the kidney disorder lives in Honolulu, using AI diagnoses and treatment plans, a local doctor who is not an expert in the kidney disorder can treat that patient with all of the expertise of the specialist available to them.        

Personal Assistants and Remote Access

Personal health assistant apps operate by asking the patient a series of pointed questions about their symptoms and medical history to reach a diagnosis. The apps can then recommend treatments or suggest that the patient see a doctor in person. As this technology becomes more widely available, it could help to see a significant decrease in doctor’s office traffic since patients with minor illnesses or injuries who only require rest, over the counter medication, or home remedies won’t need to make the trip, freeing up doctor’s time to focus on more critical patients.

These “pocket doctors” can also essentially function as a live-in doctor and health coach for chronically sick patients who require round the clock care. By periodically entering their health data like blood pressure, heart rate, blood glucose, weight, activity, temperature etc, and answering questions regarding physical and mental functions like appetite, energy levels, and sleep patterns, medical personal assistants can track a patient’s health and treatment plan, recommend changes to things like diet and exercise to improve outcomes, and monitor for warning signs that something more serious that requires a visit to an IRL physician is occurring.  

Clinical Documentation Improvement

Clinical documentation in and of itself is an important aspect in the development and accuracy of medical AI technology because it is the data from clinical documentation that is fed into EMR and EHR systems that produce the robust structured databases AI uses to “learn”. In our next post, we’ll be taking a closer look at the pragmatic applications of artificial intelligence in clinical documentation and how they are maximizing appropriate reimbursements and alleviating physician burnout.

Only for about the last two years has the technology and the data that are driving the AI revolution in healthcare been available, and already the results are awe inspiring and the potential seemingly limitless.  While AI still has some obstacles to overcome in the healthcare field the artificial intelligence movement is likely to continue to grow in healthcare, and help improve upon the human endeavor of providing the most comprehensive and effective healthcare possible.