دكتوراه
هندسة
University of Nottingham
مجال التميز | تميز دراسي وبحثي |
البحوث المنشورة |
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البحث (1): | |
عنوان البحث: | Optical Fibre-Based Pulse Oximetry Sensor with Contact Force Detection |
رابط إلى البحث: | Click here |
تاريخ النشر: | 26/010/2018 |
موجز عن البحث: | A novel optical sensor probe combining monitoring of blood oxygen saturation (SpO2) with contact pressure is presented. This is beneficial as contact pressure is known to affect SpO2measurement. The sensor consists of three plastic optical fibres (POF) used to deliver and collect light for pulse oximetry, and a fibre Bragg grating (FBG) sensor to measure contact pressure. All optical fibres are housed in a biocompatible epoxy patch which serves two purposes: (i) to reduce motion artefacts in the photoplethysmogram (PPG), and (ii) to transduce transverse loading into an axial strain in the FBG. Test results show that using a combination of pressure measuring FBG with a reference FBG, reliable results are possible with low hysteresis which are relatively immune to the effects of temperature. The sensor is used to measure the SpO2 of ten volunteers under different contact pressures with perfusion and skewness indices applied to assess the quality of the PPG. The study revealed that the contact force ranging from 5 to 15 kPa provides errors of <2%. The combined probe has the potential to improve the reliability of reflectance oximeters. In particular, in wearable technology, the probe should find use in optimising the fitting of garments incorporating this technology. |
البحث (2): | |
عنوان البحث: | Optical Fibre Sensor for Simultaneous Measurement of Capillary Refill Time and Contact Pressure |
رابط إلى البحث: | Click here |
تاريخ النشر: | 03/03/2020 |
موجز عن البحث: | The widely applied capillary refill time (CRT) measurement is currently performed by manually applying pressure and using a stopwatch to record the time taken for the skin to recover its normal colour after a blanching pressure is applied. This method is highly subjective and observer-dependent. This paper presents a new, integrated optical sensor probe, combining monitoring of the capillary refilling process with the blanching pressure applied. The sensor consists of an optical fibre-based reflectance photoplethysmography (PPG) sensor to measure the reflected light signal, as well as a fibre Bragg grating (FBG) to measure the applied blanching pressure and to indicate the time when pressure is released. This sensor was applied to calculate the CRT (1.38 ± 0.66 s) of 10 healthy adult volunteers with (55.2 ± 21.8 kPa) blanching pressures. The form of the capillary refilling data was investigated by fitting using an exponential regression model (R2 > 0.96). The integrated probe has the potential to improve the reliability of CRT measurements by standardising the optimum duration and magnitude of the pressure. |
البحث (3): | |
عنوان البحث: | A Textile Sleeve for Monitoring Oxygen Saturation Using Multichannel Optical Fibre Photoplethysmography |
رابط إلى البحث: | Click here |
تاريخ النشر: | 17/11/2020 |
موجز عن البحث: | Textile-based systems are an attractive prospect for wearable technology as they can provide monitoring of key physiological parameters in a comfortable and unobtrusive form. A novel system based on multichannel optical fibre sensor probes integrated into a textile sleeve is described. The system measures the photoplethysmogram (PPG) at two wavelengths (660 and 830 nm), which is then used to calculate oxygen saturation (SpO2). In order to achieve reliable measurement without adjusting the position of the garment, four plastic optical fibre (POF) probes are utilised to increase the likelihood that a high-quality PPG is obtained due to at least one of the probes being positioned over a blood vessel. Each probe transmits and receives light into the skin to measure the PPG and SpO2. All POFs are integrated in a stretchable textile sleeve with a circumference of 15 cm to keep the sensor in contact with the subject’s wrist and to minimise motion artefacts. Tests on healthy volunteers show that the multichannel PPG sensor faithfully provides an SpO2 reading in at least one of the four sensor channels in all cases with no need for adjusting the position of the sleeve. This could not be achieved using a single sensor alone. The multichannel sensor is used to monitor the SpO2 of 10 participants with an average wrist circumference of 16.0 ± 0.6 cm. Comparing the developed sensor’s SpO2 readings to a reference commercial oximeter (reflectance Masimo Radical-7) illustrates that the mean difference between the two sensors’ readings is −0.03%, the upper limit of agreement (LOA) is 0.52% and the lower LOA is −0.58%. This multichannel sensor has the potential to achieve reliable, unobtrusive and comfortable textile-based monitoring of both heart rate and SpO2 during everyday life. |
المؤتمرات العلمية |
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المؤتمر (1): | |
عنوان المؤتمر: | BioMedEng18 |
تاريخ الانعقاد: | 06/09/2018 |
مكان الانعقاد: | London .UK |
طبيعة المشاركة: | Poster presentation |
عنوان المشاركة: | An optical sensor probe measuring blood volume and skin contact pressure |
ملخص المشاركة: | Photoplethysmography (PPG) is used extensively in clinical care. It provides information about blood volume changes while also monitoring the oxygen saturation (SpO2) levels. This technology is a non-invasive way to measure the oxygen saturation of arterial blood [1]. However, it is known that contact pressure of the probe affects the SpO2 value [2] and so a probe that could measure both contact pressure and SpO2 would be beneficial. The aim of this project is to develop an optical fibre measurement system for detecting of the PPG from two different wavelengths in order to calculate the oxygen saturation of the human body. In addition, the pressure applied by the SpO2 sensor during operation is measured using a fibre Bragg grating (FBG) technique. |
الرابط: | Click here |