Peer-reviewed veterinary case report
Using infrared thermography to detect nasal disease in dogs
By Lee-Fowler, Tekla et al.·Published in PloS one·2023·Department of Clinical Sciences, United States·View original on PubMed →
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Original publication title: Detection of canine obstructive nasal disease using infrared thermography: A pilot study.
- Species:
- dog
Plain-English summary
A group of dogs with nasal disease showed symptoms like sneezing, nosebleeds, and discharge. Researchers used infrared thermography, a technique that detects heat variations, to see if it could identify these issues. The study found that dogs with nasal disease had significantly higher temperatures in their affected nasal passages compared to healthy dogs. This method could help veterinarians diagnose nasal problems without invasive procedures.
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Abstract
Infrared thermography detects variations in heat signature and is utilized in other species to non-invasively identify respiratory disease. This study aimed to determine if infrared thermography could be used to detect nasal disease in dogs. Eight dogs presenting for nasal disease (ND group) and ten healthy control dogs (C group) were enrolled. Dorsal and rostral images of the nose were acquired using a Fluke TiX580 60Hz thermal imaging camera. Images were analyzed using the accompanying software. Regions of interest were defined over the right and left nasal passages to determine the maximum (max), average (avg), and minimum (min) temperatures. Temperatures were compared between ND and C groups, and correlation to disease state (ND or C) was evaluated. Temperature differences and imaging patterns were subjectively compared with diagnosis based on computed tomography (CT) and histopathology. The ND group consisted of 5 spayed females and 3 neutered males. Clinical sings included unilateral epistaxis (n = 4); bilateral serous discharge and sneezing (n = 1); bilateral mucopurulent discharge, epistaxis, and sneezing (n = 1); unilateral mucoid discharge, epistaxis and sneezing (n = 1); and sneezing and unilateral epistaxis (n = 1). Temperatures were significantly different between ND and C groups on dorsal (max p = <0.001, avg p = 0.001, min p = <0.001) and rostral (max p = <0.001, avg p = <0.001, min p = 0.005) images. Temperature positively correlated to disease status (ND vs C group) in both dorsal and rostral images. Subjective analysis of images allowed correct identification of abnormal or normal 27/36 times. Obstructive nasal disease results in a local temperature increase in the affected nasal passage that can be non-invasively detected by infrared thermography.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/37699012/