Biomedical AI Basics
Learn the concepts ,tools and application of Artficial Intelligence in Biomedical Imaging, signal processing and Biomedical Data analysis. Subscribe us and make an impact !
Biomedical AI Basics
Learn the concepts ,tools and application of Artficial Intelligence in Biomedical Imaging, signal processing and Biomedical Data analysis. Subscribe us and make an impact !
Biomedical AI Basics
MCPs essentially standardize how LLMs connect with external tools and services. While LLMs alone can only predict text, connecting them to tools makes them more capable, but this integration has been cumbersome. MCPs create a unified layer that translates between LLMs and services, making it easier to build more powerful AI assistants.
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Biomedical AI Basics
How to remember Recall and Precision. 'Re'call denominator is 'Real positives' while 'Pre'cision diameter is 'Predicted positives'
Real positive = TP+FN
Predicted Positive= TP +FP
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Biomedical AI Basics
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Biomedical AI Basics
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Biomedical AI Basics
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Biomedical AI Basics
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Biomedical AI Basics
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Biomedical AI Basics
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Biomedical AI Basics
Positive quotes from Steve Jobs
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Biomedical AI Basics
The invention of the cardiac pacemaker is a story of ingenuity, innovation, and perseverance. The device was developed in the mid-20th century by a team of medical professionals and engineers, led by Dr. Paul Zoll, who was inspired by a patient who had suffered from cardiac arrest.
In the 1940s, the only treatment for patients with cardiac arrest was manual resuscitation. However, Dr. Zoll believed that electrical stimulation could be used to stimulate the heart and restore its rhythm. He and his team worked tirelessly to develop a device that could deliver these electrical impulses to the heart.
The team faced numerous challenges, including technical difficulties and limited resources. However, they refused to give up on their vision, driven by a deep sense of purpose and a desire to improve the lives of their patients.
Finally, in 1952, the first cardiac pacemaker was implanted in a human patient. The device successfully regulated the patient's heartbeat, and it paved the way for further research and development in the field of cardiac electrophysiology.
Today, cardiac pacemakers are used to treat a wide range of cardiac conditions, including arrhythmias and heart failure. They have saved countless lives and improved the quality of life for millions of people around the world.
The story of the cardiac pacemaker is a powerful reminder of the importance of innovation and perseverance in the face of adversity. Dr. Zoll and his team were driven by a deep sense of purpose and a desire to make a difference in the world, and their determination and hard work led to one of the most important medical inventions of the 20th century. Their legacy continues to inspire medical professionals and researchers today, as they work to develop new treatments and technologies to improve human health.
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