创新技术消除非侵入性、即时护理(POC)血红蛋白和脉搏血氧仪测量中的种族偏见

IF 1.8 Q3 HEALTH CARE SCIENCES & SERVICES

BMJ Innovations Pub Date : 2022-09-26 DOI:10.1136/bmjinnov-2022-001018

Sanjay G Gokhale, V. Daggubati, G. Alexandrakis

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引用次数: 7

摘要

有一个重要的未满足临床需要可靠的点护理(POC)估计血红蛋白(Hb)的方法。目前可用的方法，特别是脉搏血氧仪，在设备的设计和方法上有一定的局限性。这些方法在检测Hb值的一系列变化时灵敏度较低，特别是在较低的范围内，并且对皮肤较黑的人是不准确的。目的研究一种新的、无创的血红蛋白和血氧饱和度测量技术。设计本研究为观察性研究。本研究由位于阿灵顿的德克萨斯大学机构审查委员会批准，招募了16名健康成人志愿者(年龄在20-40岁)。该研究装置(Shani)探针(美国专利11191460B1)由波长范围为520-580 nm的发光二极管和光敏元件组成。探针被轻轻地放在受试者的手腕后面，反射光被测量为电信号，并带有数字记录。肤色(或肤色)采用Von Luschan色度量表(VLS)评估。使用特定的黑色素计算算法(由VLS量表确定)并使用软件，结果可以在屏幕上显示为Hb值和组织氧饱和度比率。结果研究性非侵入性(Shani)装置的结果与侵入性护理点(POC)方法(iSTAT, Abbott Inc.)相当。

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Innovative technology to eliminate the racial bias in non-invasive, point-of-care (POC) haemoglobin and pulse oximetry measurements

There is a significant unmet clinical need for a reliable point-of-care (POC) estimation of the blood haemoglobin (Hb) method. Current available methods, notably pulse oximetry, have certain limitations related to design and methodology of devices. These have low sensitivity for detecting serial change in the Hb values, especially at the lower range and are inaccurate in people with darker skin. Objective This study aimed at developing a novel, non-invasive technology for the measurement of Hb and oxygen saturation. Design This was an observational study. Recruitment This was approved by the Institutional Review Board at the University of Texas at Arlington and 16 healthy adult volunteers (age 20–40 years) were recruited in this study. The investigational device (Shani) probe (United States Patent 11191460B1) consists of light emitting diodes with wavelengths ranging 520–580 nm, and a photosensor component. The probe is gently placed on the back of the subject’s wrist and reflected light is measured as an electrical signal, with digital recordings. Skin tone (or skin colour) was assessed by Von Luschan Chromatic Scale (VLS). Using a specific algorithm accounting for melanin (as determined from VLS Scale) and employing a software, the results can be displayed on screen as Hb values and ratio of tissue oxygen saturation. Results The results of the investigational non-invasive (Shani) device were comparable with the invasive, point of care (POC) method (iSTAT, Abbott Inc.).

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来源期刊

BMJ Innovations Medicine-Medicine (all)

CiteScore

4.20

自引率

0.00%

发文量

期刊介绍： Healthcare is undergoing a revolution and novel medical technologies are being developed to treat patients in better and faster ways. Mobile revolution has put a handheld computer in pockets of billions and we are ushering in an era of mHealth. In developed and developing world alike healthcare costs are a concern and frugal innovations are being promoted for bringing down the costs of healthcare. BMJ Innovations aims to promote innovative research which creates new, cost-effective medical devices, technologies, processes and systems that improve patient care, with particular focus on the needs of patients, physicians, and the health care industry as a whole and act as a platform to catalyse and seed more innovations. Submissions to BMJ Innovations will be considered from all clinical areas of medicine along with business and process innovations that make healthcare accessible and affordable. Submissions from groups of investigators engaged in international collaborations are especially encouraged. The broad areas of innovations that this journal aims to chronicle include but are not limited to: Medical devices, mHealth and wearable health technologies, Assistive technologies, Diagnostics, Health IT, systems and process innovation.