Uploaded byAnton Panfilov
In motion vitals proactive-monitoring and diagnostics support
The document discusses a company that develops non-invasive biosensors for monitoring vital signs during physical activity. The company's products are aimed at rehabilitation, fitness, sports and home telemedicine. The company is developing a portable smart biosensor platform that integrates data from multiple sensors and monitors vital signs like ECG, blood pressure, and lactic acid levels during physical activity. The company is also developing a wireless, highly selective lactic acid biosensor and a noise-free blood pressure sensor for sports medicine and rehabilitation applications. Funding of $1 million is required for further development and clinical trials of their multi-sensor wearable platform.
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In motion vitals proactive-monitoring and diagnostics support
- 1. Preventive vital signalsmonitoring during strenuous physical activities
- 2. Company οΌ Skolkovoresident; οΌ Nominated top 100 in Russia`s fast-growing high-tech companies national rating Main area of activity: οΌ Development of non-invasive biosensors for dynamic monitoring of vital signals and health control; οΌ Development of object recognition methods and 3D vision technology; οΌ Development of training systems for rehabilitation of the musculoskeletal system. Companyβs products are aimed at home and professional application in REHABILITATION FITNESS SPORTS and HOME TELEMEDICINE All vital signals received are integrated into one cloud environment.
- 3. Personal medical assistant A portable smart preventive monitoring biosensor platform that allows to correlate data received from a variety of sensors in a noisy environment (βon-the-goβ mode). οΌ Product: wearable t-shirt/cuff with a set of biosensors and a smartphone; οΌ Service: non-invasive diagnostics βon-the-goβ οΌ Linked with the cloud service with access to userβs personal cabinet; οΌ Notifications sent to personal doctor/relatives in case of critical state; οΌ Patient condition prediction based on the changes in vital signals. οΌ Vital signals: include cardiogram, level of lactic acid/glucose, blood pressure
- 5. Wireless highly selectivelactic acid biosensor based on a nanostructured catalyst οΌ Allows to solve the problem of untimely or inaccurate diagnosis often leading up to DISABILITY and/or DEATH; οΌ "Prussian Blueβ is used as the catalyst with polymer immobilization of the organic enzyme; οΌ βPrussian Blueβ is nanostructred on the electrode surface, which greatly improves the biosensor sensitivity and selectivity; οΌ Mechatronic, microfluidic design of the sweat collector with micropumps analysis and wireless data transmission to a smartphone; οΌ The biosensor can be used as part of a at-home musculoskeletal rehabilitation system for control of the critical levels of physical activity. Competitive Advantages: Non-invasive Autonomous Ease to use Personal health management
- 6. Noise-free blood pressuresensor for application in sports medicine and rehabilitation οΌ Based on the discovery of under the cuff pulse wave* a new noise-free blood pressure measuring method was developed, which is insensitive to a patientβs movements during the measurement of blood pressure; οΌ Innovation is patented in Russia and going through the patenting process in USA and Europe; οΌ The idea behind this method is to place a hard plate in-between the cuff and the skin in the place where the artery passes. The pulse wave sensor is inbuilt into the plate, the presence of which leads to the appearance of pulse wave pressure on the side pressed against the skin, which in turn is effectively converted into an output signal; οΌ A model sensor of the pulse wave pressure has been constructed weighing 2,5 g and size 20Ρ 10Ρ 4 mm; οΌ Both the model and methods have been successfully tested at the Institute for medical and biological problems of the Russian Academy of Sciences. *Inventors: Π.Π. Romanovskaya, V.F. Romanovskiy Plate Artery Pulse wave pressure sensor Pulse wave The spot where in blood the pulse wave pressure appears Cuff
- 7. Rehabilitron: a musculoskeletal rehabilitation and training system οΌ 3D vision & motion capture technology; οΌ Biomechanical analysis of patientβs movements; οΌ All deviations from the given trajectory are visualized; οΌ Health risks are under control with the help of biosensors. Advantages: Moderate price Safe Easy to Use Mass application
- 8. Competitive advantages οΌMultiparameter evaluation of a bodyβs vital signals; οΌ Real-time functionality, preventive approach in diagnostics (monitoring, analysis and extrapolation); οΌ Use of leading biosensor methods, nanosensors. Financing required The funds are required for Development and clinical trials β from $1 million: οΌ A multi-sensor wearable platform (t-shirt/cuff) including filtration and data correlation instruments; οΌ An expert diagnostic prediction service based on a trainable artificial neural network and methods of fuzzy logic; οΌ Production and marketing β from $1,5 million.