Amputation Prevention in Diabetic Patients Using Electronic Orthotics Shoe
Keywords:
Arduino, Wi-Fi (ESP 8266), Load cell, Database SystemAbstract
Most difficult challenges facing the healthcare industry is Diabetes. It is a primary affliction of diabetic patients due to peripheral neuropathy that means “loss of sensation in the foot”. So this leads to ulcer increases which in many cases lead to the action of surgically cutting off the foot. We have constituting a new stage in a changing situation to introduce a wireless electronic orthotics shoes that composed of less weighted embedded systems with flexible and non-invasive sensors which can be used by diabetic patients. Thus the resulted in the escalations of weightless embedded systems through the continuous breakthrough in transistor technology by the development in processor performance. Thus the advancement of our system is composed of wireless and implanted technology that make it possible for remote healthcare sectors and telemedicine systems. It insisting of an real- time monitoring and continuous discretely analyze of how a patient’s behavior affects his/her physiological states and if supplement symptoms suffering from numbness and pain in foot. Our suggested system monitors feet motion, foot temperature and pressure distribution beneath the feet in real-time actions and also it classier the state of the patient. It also detects the conditions that had abilities that causes foot sores. Continuous feedback mechanism enables was enabled for a instance in case of any consequence behavior or condition a serving message wirelessly to the patient and the patient’scaretakers
References
- American Diabetes Association,http://www.diabetes.org.
- N. Singh, D. Armstrong, and B. Lipsky, “Preventing foot ulcers in patients with diabetes,” JAMA: the journal of the American Medical Association, vol. 293, no. 2, pp.217–228.
- R. Macfarlane and W. Jeffcoate, “Factors contributing to the presentation of diabetic foot ulcers,” Diabetic medicine, vol. 14, no. 10, pp. 867– 870.
- A. Veves, H. Murray, M. Young, and A. Boulton, “The risk of foot k8ulceration in diabetic patients with high foot pressure prospective study,” Diabetologia, vol. 35, no. 7, pp.660–663.
- D. Lott, M. Hastings, P. Commean, K. Smith, and M. Mueller, “Effect of footwear and orthotic devices on stress reduction and soft tissue strain of the neuropathic foot,” Clinical biomechanics, vol. 22, no. 3, pp. 352– 359, 2017.
- C. Lebosse, B. Bayle, M. de MathelinIlIkirch, P. Renaud LGeCo, INSA-Strasbour, Nonlinear Modeling of Low Cost Force Sensors, in Proc. of the IEEE International Conference on Robotics and Automation.
- Sikyung Kim, Mohammad M. G. Mazumdc, A Last Design with Uniform Foot Pressure Free FormDeformation, in IEEE, pp.88-93.
- Mothiram K Patila, VasanthBhat, Mahesh M. Bhati, ParivalavanR'Narayanamurthy V. B. and Ganesan V .New Methods and Parameters for Dynamic Foot Pressure Analysis in Diabetic Neuropathy, in Proc. of the IEEE If/h International Conference, pp.1826-1829,
- DV Rai,LMAggarwal,RajBahadur,Plantar Pressure Changes in normal And Pathological Foot during bipedal standing,Indian Journal Of Orthopaedics,vol 40,pp 119-122.
Downloads
Published
Issue
Section
License
Copyright (c) IJSRST
This work is licensed under a Creative Commons Attribution 4.0 International License.