Abstract
Medical microcontrol machines represent a groundbreaking advancement in modern healthcare, combining precision engineering with biomedical science. These devices leverage microcontrollers for efficient data acquisition, real-time analysis, and controlled therapeutic interventions. This paper presents an in-depth analysis of their design, applications, and implications for healthcare. A prototype system for glucose monitoring and insulin delivery was developed and tested. Results indicate significant improvements in diagnostic accuracy, therapeutic outcomes, and patient satisfaction. Future prospects include integration with artificial intelligence (AI), miniaturization for wearables, and broader applications in personalized medicine.
Keywords :
- Medical microcontrol machines
- Microcontrollers in healthcare
- Glucose monitoring systems
- Insulin delivery devices
- Embedded systems in medicine
- Precision healthcare technology
- Biomedical sensors
- IoT in medical devices
- Real-time patient monitoring
- AI in healthcare devices
- Wearable medical devices
- Personalized medicine
- Chronic disease management
• Medical device innovation
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Corresponding Author
Sultan Owaid Alanazi
Medical Devices Specialist, PSMMC, Riyadh
DOI: https://dx.doi.org/10.18535/jmscr/v13i01.07
