Peer-reviewed veterinary case report
How breathing patterns show lower airway disease in cats
By Lin, Chung-Hui et al.·Published in Journal of feline medicine and surgery·2014·Graduate Institute of Veterinary Medicine·View original on PubMed →
PetCaseFinder translated the abstract of this peer-reviewed paper into plain English so pet owners can read it. We do not publish original research — every detail traces back to the citation above. How we work →
Original publication title: Functional assessment of expiratory flow pattern in feline lower airway disease.
- Species:
- cat
Plain-English summary
A group of 23 cats with feline lower airway disease (FLAD) showed breathing problems, specifically a concave shape in their breathing patterns, indicating lower airway obstruction. Researchers used a special device to measure how these cats breathed and found that 74% had this abnormality. They discovered that certain measurements could help distinguish between healthy cats and those with FLAD, with a specific value indicating a high level of accuracy. This study suggests that monitoring breathing patterns can be a helpful, non-invasive way to assess respiratory issues in cats.
People also search for: cat breathing problems · feline lower airway disease symptoms · how to treat cat respiratory issues
Abstract
Feline lower airway disease (FLAD) is a chronic respiratory disease of which there is a lack of information on functional assessment in current veterinary medicine. The purposes of this study were to investigate expiratory pattern and evaluate the diagnostic utility of functional parameters in cats with FLAD. Thirty-three client-owned cats (23 FLAD cats and 10 control cats) were studied. Under quiet tidal breathing, pseudo-tidal breathing flow-volume loop (pTBFVL) was obtained from a barometric whole body plethysmography (BWBP) device. There were significant differences in the shapes of expiratory, but not inspiratory, curves between FLAD and control cats. The incidence of the presence of concave expiratory curve indicating lower airway obstruction was 74% in FLAD cats. To assess the diagnostic utility of pTBFVL indices in cats with FLAD, area under the receiver-operator curve was 0.86 for PEF/EF50 (peak expiratory flow divided by expiratory flow at end expiratory volume plus 50% tidal volume); a cuff-off value of PEF/EF50 >1.51 distinguished normal from FLAD (73.9% sensitivity, 100% specificity). There were no significant differences in traditionally measured BWBP parameters (ie, enhanced pause) between cats with and without FLAD in the present study. In conclusion, underlying change on expiratory flow pattern during natural tidal breathing existed in FLAD cats, and selected pTBFVL indices were useful in discriminating FLAD from normal cats. Tidal breathing pattern depicted by pseudoflow-pseudovolume loops from a BWBP system could be a non-invasive tool for functional assessment in client-owned cats.
Find similar cases for your pet
PetCaseFinder finds other peer-reviewed reports of pets with the same symptoms, plus a plain-English summary of what was tried across them.
Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/24327372/