What it does
To address fingertip pain, data fragmentation and delayed intervention in blood glucose management, the product uses a "non-invasive + dynamic" dual-mode architecture
Your inspiration
Inspiration: The inspiration for this product stems from the prevalent challenges in traditional blood glucose management. Fingertip blood sampling, the conventional method, often causes pain and discomfort, leading to poor patient compliance. Additionally, the fragmented data from separate devices for measurement, diet tracking, and exercise monitoring make it difficult to obtain a comprehensive view of health status, resulting in delayed and ineffective interventions. Witnessing the struggles of diabetes patients and the limitations of existing solutions, we aimed to create an integrated, user-friendly system.
How it works
How it works: Our product leverages a "non-invasive + dynamic" dual-mode architecture to revolutionize blood glucose management. The multi-spectral non-invasive glucose measurement technology emits near-infrared light of different wavelengths through the device's sensor. These light waves penetrate the skin and interact with glucose molecules in subcutaneous tissue. Based on the unique absorption and scattering characteristics of glucose, the sensor captures the reflected light signals. Advanced algorithms then analyze these signals to calculate the blood glucose concentration, eliminating the need for painful fingertip blood sampling.
Design process
The design process of our blood glucose management product has gone through several key stages from concept to perfection. First inspired by the pain points of traditional blood glucose management, we aimed to develop an integrated application solution. We carried out in-depth market research, including online and offline aspects, as well as questionnaires and interviews with diabetic patients and medical staff to understand their needs and pain points, and identified the three major challenges of fingertip blood collection pain, data fragmentation, and delayed intervention. Based on the research results, we brainstormed in the design conception, explored various technical solutions, and finally decided to adopt a "non-invasive + dynamic" dual-mode architecture. By applying multi-spectral non-invasive glucose measurement technology in the product and combining it with continuous glucose monitoring (CGM), precise and painless monitoring can be achieved, and a friendly user interface is integrated for convenient operation
How it is different
What sets it apart: Our blood glucose management product stands out due to its innovative combination of technology, user - centric design, and comprehensive functionality, addressing multiple pain points simultaneously. Most existing glucose monitors rely on invasive fingertip blood sampling or single - mode non - invasive methods with limited accuracy. Our "non - invasive + dynamic" dual - mode architecture is a game - changer. The multi - spectral non - invasive glucose measurement eliminates the pain of finger pricks, while the integration with CGM provides dynamic calibration, ensuring medical - grade accuracy. This dual - mode approach not only improves user compliance but also offers more reliable data compared to single - technology devices. In terms of data analysis, while many products simply record glucose levels, our AI algorithm goes a step further.
Future plans
Future plans: Our future vision for this product centers on holistic enhancement and broader impact. We envision integrating more advanced optical and sensor technologies into the non-invasive measurement module, leveraging emerging scientific discoveries to refine accuracy and minimize external interferences like skin temperature variations. The AI algorithm is set to evolve into a more intelligent decision - maker.
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