Peer-reviewed veterinary case report
Noninvasive breathing test helps diagnose and stage tracheal collapse
By Pardali, D et al.·Published in Journal of veterinary internal medicine·2010·Companion Animal Clinic·View original on PubMed →
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Original publication title: Tidal breathing flow-volume loop analysis for the diagnosis and staging of tracheal collapse in dogs.
- Species:
- dog
Plain-English summary
A group of 28 dogs with tracheal collapse (a condition where the windpipe weakens and narrows) was tested using a new, noninvasive breathing test called tidal breathing flow-volume loop (TBFVL). This test was able to quickly and accurately identify dogs with tracheal collapse and even determine how severe the condition was. The results showed that TBFVL could differentiate between healthy dogs and those with varying degrees of tracheal collapse with a high level of accuracy. This method could be a safer alternative to traditional tests that require anesthesia and can irritate the airway.
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Abstract
BACKGROUND: Tracheoscopy is generally used for the diagnosis of tracheal collapse (TC) in dogs; yet, it is costly, requires anesthesia, and can irritate the airway. The tidal breathing flow-volume loop (TBFVL) is a safe, quick, and noninvasive pulmonary function test currently used in humans. HYPOTHESIS: TBFVL will differentiate dogs with TC from healthy controls and contribute to disease grading. ANIMALS: Twenty-eight dogs with naturally occurring TC and 10 healthy controls. METHODS: Cross-sectional, prospective clinical study: The 38 dogs were assigned to one of 4 groups based on tracheoscopy results: group A (n=10, healthy controls), group B (n=10, grade I TC), group C (n=10, grade II TC), and group D (n=8, grade III TC). The TBFVL measurement was performed on all dogs and loops were assessed for their shape. Forty-four TBFVL parameters were calculated. RESULTS: Two types of TBFVL shapes were identified: Type I, representative of the 10 healthy controls, and Type II, representative of the 28 dogs with TC. Statistical analysis showed the dogs could be differentiated into healthy or affected by TC by 3 indices, TE/TI (expiratory time divided by inspiratory time), TI/TTOT (inspiratory time divided by total respiratory time), and EF75/IF75 (expiratory flow at end tidal volume plus 75% end tidal volume divided by inspiratory flow at end tidal volume plus 75% end tidal volume). The TC could also be graded as mild-moderate (grades I and II) or severe (grade III), showing a diagnostic value of 97.4%. CONCLUSION AND CLINICAL IMPORTANCE: TBFVL is accurate, quick, noninvasive, and safe and can contribute to the diagnosis of TC in dogs.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/20412439/