Blood pressure Device
BloodAcute
BloodAcute
BloodAcute
This innovative product reimagines the gold standard of blood pressure measurement by transforming traditional Korotkoff sound-based monitoring into a fully automated and accurate era, redefining healthcare technology.
Category
Product Design
Individual
skills
Medical Research, Arduino sensors, Coding, Fusion360
Medical Research, Arduino sensors, Coding, Fusion360
DUration
5 Weeks
5 Weeks
5 Weeks
01
Problem Statement
Problem Statement
Problem Statement
1.28 billion adults
aged 30–79 years worldwide have hypertension, underlining the value of accurate blood pressure monitoring.
How might we design a smart cuff technology that revolutionizes traditional Korotkoff sound-based blood pressure measurement and enables continuous health monitoring with substantially enhanced accuracy?
1.28 billion adults
aged 30–79 years worldwide have hypertension, underlining the value of accurate blood pressure monitoring.
How might we design a smart cuff technology that revolutionizes traditional Korotkoff sound-based blood pressure measurement and enables continuous health monitoring with substantially enhanced accuracy?
1.28 billion adults
aged 30–79 years worldwide have hypertension, underlining the value of accurate blood pressure monitoring.
How might we design a smart cuff technology that revolutionizes traditional Korotkoff sound-based blood pressure measurement and enables continuous health monitoring with substantially enhanced accuracy?
Conducted thorough research from credible sources on medical procedures and technology, consulted doctors to validate information, and studied current blood pressure monitors, causes of errors in measurement and areas for intervention.
Conducted thorough research from credible sources on medical procedures and technology, consulted doctors to validate information, and studied current blood pressure monitors, causes of errors in measurement and areas for intervention.
Conducted thorough research from credible sources on medical procedures and technology, consulted doctors to validate information, and studied current blood pressure monitors, causes of errors in measurement and areas for intervention.
This blood pressure monitor concept utilizes automated auscultation technology for precise Korotkoff readings and error elimination. It features high sensitive sensors for continuous health monitoring, real-time alerts, and a comfortable cuff. With seamless app integration, it promotes early hypertension detection and proactive health management, redefining healthcare technology.
This blood pressure monitor concept utilizes automated auscultation technology for precise Korotkoff readings and error elimination. It features high sensitive sensors for continuous health monitoring, real-time alerts, and a comfortable cuff. With seamless app integration, it promotes early hypertension detection and proactive health management, redefining healthcare technology.
Experimented with Arduino sensors to explore various functionalities for the prototype, replicating some features and assessing sensor placement in the cuff. This involved coding all sensors to work together seamlessly, enhancing the overall design and effectiveness of the prototype.
Experimented with Arduino sensors to explore various functionalities for the prototype, replicating some features and assessing sensor placement in the cuff. This involved coding all sensors to work together seamlessly, enhancing the overall design and effectiveness of the prototype.
Experimented with Arduino sensors to explore various functionalities for the prototype, replicating some features and assessing sensor placement in the cuff. This involved coding all sensors to work together seamlessly, enhancing the overall design and effectiveness of the prototype.
Designed app screens to visualize the user flow for measuring blood pressure, incorporating a checklist feature to eliminate errors in the measurement process.
Designed app screens to visualize the user flow for measuring blood pressure, incorporating a checklist feature to eliminate errors in the measurement process.
