Davenport John J, Hickey Michelle, Phillips Justin P, Kyriacou Panayiotis A
Appl Opt. 2016 Jul 20;55(21):5603-9. doi: 10.1364/AO.55.005603.
The development and bench testing of a fiber-optic oxygen sensor is described. The sensor is designed for measurement of tissue oxygen levels in the mucosa of the digestive tract. The materials and construction are optimized for insertion through the mouth for measurement in the lower esophagus. An oxygen-sensitive fluorescence-quenching film was applied as a solution of platinum octaethylporphyrin (PtOEP) poly(ethyl methacrylate) (PEMA) and dichloromethane and dip coated onto the distal tip of the fiber. The sensor was tested by comparing relative fluorescence when immersed in liquid water at 37°C, at a range of partial pressures (0-101 kPa). Maximum relative fluorescence at most oxygen concentrations was seen when the PtOEP concentration was 0.1 g.L, four layers of coating solution were applied, and a fiber core radius of 600 μm was selected, giving a Stern-Volmer constant of 0.129 kPa. The performance of the sensor is suitable for many in vivo applications, particularly mucosal measurements. It has sufficient sensitivity, is sterilizable, and is sufficiently flexible and robust for insertion via the mouth without damage to the probe or risk of harm to the patient.
本文描述了一种光纤氧传感器的开发和实验室测试。该传感器设计用于测量消化道黏膜中的组织氧水平。其材料和结构经过优化,以便通过口腔插入,用于测量食管下段的氧水平。将对氧敏感的荧光猝灭膜以铂八乙基卟啉(PtOEP)、聚甲基丙烯酸乙酯(PEMA)和二氯甲烷的溶液形式应用,并浸涂在光纤的远端。通过比较该传感器在37°C的液态水中、一系列分压(0 - 101 kPa)下浸入时的相对荧光来进行测试。当PtOEP浓度为0.1 g.L、涂覆四层涂层溶液且选择600μm的光纤芯半径时,在大多数氧浓度下可观察到最大相对荧光,此时斯特恩 - 沃尔默常数为0.129 kPa。该传感器的性能适用于许多体内应用,特别是黏膜测量。它具有足够的灵敏度,可进行消毒,并且足够灵活和坚固,能够通过口腔插入而不会损坏探头或对患者造成伤害风险。