Feline adult adipose tissue-derived multipotent stromal cell isolation and differentiation

The cat, as a species, is somewhat new to the field of adult multipotent stromal cells. Despite the relative phylogenetic distance between the domestic cat, Felis silvestris catus, and humans, they share some similar health challenges like diabetes, kidney disease and asthma. There is a plethora of current investigative efforts focused on adult adipose tissue-derived multipotent stromal cell (ASC) therapies to address these and other conditions. Given the small size of domestic cats, particular attention to optimize cell isolation from relatively little tissue is a necessary condition of feline ASC studies and therapies. Additionally, there are some unique features of culture conditions to test and confirm feline ASC plasticity. This chapter contains a few of the novel aspects of feline ASC isolation and culture

Noninvasive Recognition and Biomarkers of Early Allergic Asthma in Cats Using Multivariate Statistical Analysis of NMR Spectra of Exhaled Breath Condensate

<div><p>Asthma is prevalent in children and cats, and needs means of noninvasive diagnosis. We sought to distinguish noninvasively the differences in 53 cats before and soon after induction of allergic asthma, using NMR spectra of exhaled breath condensate (EBC). Statistical pattern recognition was improved considerably by preprocessing the spectra with probabilistic quotient normalization and <i>glog</i> transformation. Classification of the 106 preprocessed spectra by principal component analysis and partial least squares with discriminant analysis (PLS-DA) appears to be impaired by variances unrelated to eosinophilic asthma. By filtering out confounding variances, orthogonal signal correction (OSC) PLS-DA greatly improved the separation of the healthy and early asthmatic states, attaining 94% specificity and 94% sensitivity in predictions. OSC enhancement of multi-level PLS-DA boosted the specificity of the prediction to 100%. OSC-PLS-DA of the normalized spectra suggest the most promising biomarkers of allergic asthma in cats to include increased acetone, metabolite(s) with overlapped NMR peaks near 5.8 ppm, and a hydroxyphenyl-containing metabolite, as well as decreased phthalate. Acetone is elevated in the EBC of 74% of the cats with early asthma. The noninvasive detection of early experimental asthma, biomarkers in EBC, and metabolic perturbation invite further investigation of the diagnostic potential in humans.</p></div