Body temperature is one of the key vital signs for determining a disease’s severity, as it reflects the thermal energy generated by an individual’s metabolism. Since the first study on the relationship between body temperature and diseases by Carl Reinhold August Wunderlich at the end of the 19th century, various forms of thermometers have been developed to measure body temperature. Traditionally, methods for measuring temperature can be invasive, semi-invasive, and non-invasive. In recent years, great technological advances have reduced the cost of thermographic cameras, which allowed extending their use. Thermal cameras capture the infrared radiation of the electromagnetic spectrum and process the images to represent the temperature of the object under study through a range of colors, where each color and its hue indicate a previously established temperature. Currently, cameras have a sensitivity that allows them to detect changes in temperature as small as 0.01 °C. Along with its use in other areas of medicine, thermography has been used at the ocular level for more than 50 years. In healthy subjects, the literature reports that the average corneal temperature ranges from 32.9 to 36 °C. One of the possible sources of variability in normal values is age, and other possible sources of variation are gender and external temperature. In addition to the evaluation of healthy subjects, thermography has been used to evaluate its usefulness in various eye diseases, such as Graves’ orbitopathy, and tear duct obstruction for orbital diseases. The ocular surface is the most studied area. Ocular surface temperature is influenced by multiple conditions, one of the most studied being dry eye; other diseases studied include allergic conjunctivitis and pterygium as well as systemic diseases such as carotid artery stenosis. Among the corneal diseases studied are keratoconus, infectious keratitis, corneal graft rejection, the use of scleral or soft contact lenses, and the response to refractive or cataract surgery. Other diseases where thermographic features have been reported are glaucoma, diabetic retinopathy, age-related macular degeneration, retinal vascular occlusions, intraocular tumors as well as scleritis, and other inflammatory eye diseases.
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机译:体温是确定疾病严重程度的关键生命体征之一,因为它反映了个体新陈代谢产生的热能。自 19 世纪末卡尔·莱因霍尔德·奥古斯特·温德利希 (Carl Reinhold August Wunderlich) 首次研究体温与疾病之间的关系以来,已经开发了各种形式的温度计来测量体温。传统上,测量温度的方法可以是侵入性、半侵入性和非侵入性。近年来,巨大的技术进步降低了热像仪的成本,从而扩大了它们的使用范围。热像仪捕获电磁波谱的红外辐射并处理图像,通过一系列颜色表示所研究物体的温度,其中每种颜色及其色调都表示先前建立的温度。目前,相机的灵敏度使其能够检测到低至 0.01 °C 的温度变化。 除了用于其他医学领域外,热成像技术在眼部水平上的应用已有 50 多年的历史。在健康受试者中,文献报道平均角膜温度在 32.9 至 36 °C 之间。 正常值变异的可能来源之一是年龄,其他可能的变异来源是性别和外部温度。除了评估健康受试者外,热成像还被用于评估其在各种眼病中的有用性,例如 Graves 眼眶病和眼眶疾病的泪管阻塞。眼表是研究最多的领域。眼表温度受多种条件影响,其中研究最多的一种是干眼症;研究的其他疾病包括过敏性结膜炎和翼状胬肉,以及颈动脉狭窄等全身性疾病。研究的角膜疾病包括圆锥角膜、感染性角膜炎、角膜移植物排斥反应、巩膜或软性隐形眼镜的使用以及对屈光或白内障手术的反应。其他已报道热成像特征的疾病包括青光眼、糖尿病性视网膜病变、年龄相关性黄斑变性、视网膜血管阻塞、眼内肿瘤以及巩膜炎和其他炎症性眼病。
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