Wireless implantable bio-electronic device for chronic pain management, has communication module that operates using Bluetooth low-energy protocol, where biofeedback comprises physiological parameters such as nerve signal amplitude, tissue impedance, or patient-reported outcomes
	PALIWAL K K
	2024-12-14
专利权人	PALIWAL K K (PALI-Individual)
申请日期	2024-12-14
专利号	IN202411099027-A
成果简介	NOVELTY - The device has a neuro-modulation unit provided with electrodes configured to interface with neural pathways. A wireless power receiver harvests energy from an external transmitter. A communication module realizes bidirectional data exchange. A control unit is configured to process real-time biofeedback and dynamically adjust stimulation parameters. The wireless power receiver utilizes inductive coupling to harvest energy from an external wearable transmitter, where the device comprises artificial intelligence-based adaptive algorithm for analyzing biofeedback signals and customizing neuro-modulation patterns for patient-specific requirements. The communication module operates using a Bluetoothlow energy protocol to minimize power consumption, where the biofeedback comprises physiological parameters such as nerve signal amplitude, tissue impedance, or patient-reported outcomes. USE - Wireless implantable bio-electronic device for chronic pain management. ADVANTAGE - The device utilizes the wireless power receiver that harvests energy from an external transmitter, eliminates need for battery replacements, incorporates an adaptive control unit that adjusts stimulation parameters based on biofeedback, and thus reducing need for maintenance and enhancing patient's overall experience, ensures personalized and effective pain relief, offers a minimally invasive, long-lasting, and convenient solution for chronic pain management based on biocompatible materials. The device improves efficacy and comfort of treatment through wireless power harvesting and real-time adaptability, ensures optimal pain management based on adaptive functionality, and real-time physiological changes. The device is customized t patient's individual pain management needs, provides the communication module that allows for bidirectional data exchange between the implantable device and external devices, and thus enabling healthcare providers to monitor and adjust treatment remotely, offers greater convenience for both a patient and medical professionals, facilitates data collection for long-term treatment optimization based on wireless communication, and provides a biocompatible and durable implantable device, constructed using materials that ensure safety and longevity within the human body. The device can focus on minimizing risk of rejection or inflammation based on design, and ensures that the device can be implanted for extended periods with minimal discomfort or complication, and improves overall patient experience by enabling a minimally invasive implantation procedure. The device is small and light in weight, and allows for simpler, less traumatic implantation techniques and quicker recovery times compared to traditional devices, and advances chronic pain management by offering a comprehensive solution that integrates power-harvesting, adaptive neuro-modulation, and wireless communication, and ease of use, and thus providing novel, long-lasting, and effective solution for individuals suffering from chronic pain conditions. DETAILED DESCRIPTION - The electrodes are made of biocompatible materials selected from a group consisting of titanium, platinum, or conductive polymers. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic flow diagram illustrating components with a sequential process flow of a wireless implantable bio-electronic device for chronic pain management.
IPC 分类号	A61B-005/00 ; A61N-001/05 ; A61N-001/36 ; A61N-001/372 ; A61N-001/378
国家	印度
专业领域	化学化工
语种	英语
成果类型	专利
文献类型	科技成果
条目标识符	http://119.78.100.226:8889/handle/3KE4DYBR/14079
专题	中国科学院新疆生态与地理研究所
作者单位	PALIWAL K K (PALI-Individual)
推荐引用方式 GB/T 7714	PALIWAL K K. Wireless implantable bio-electronic device for chronic pain management, has communication module that operates using Bluetooth low-energy protocol, where biofeedback comprises physiological parameters such as nerve signal amplitude, tissue impedance, or patient-reported outcomes. IN202411099027-A[P]. 2024.

条目包含的文件
条目无相关文件。

除非特别说明，本系统中所有内容都受版权保护，并保留所有权利。