Peer-reviewed veterinary case report
How chloride affects acid-base balance in puppies with parvovirus
By Burchell, Richard K et al.·Published in Veterinary journal (London, England : 1997)·2014·Department of Companion Animal Clinical Studies·View original on PubMed →
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Original publication title: The central role of chloride in the metabolic acid-base changes in canine parvoviral enteritis.
- Species:
- dog
Plain-English summary
A group of puppies with canine parvovirus (CPV) enteritis showed significant changes in their body's acid-base balance, which can affect their health. The study found that chloride levels played a crucial role in these changes, with severely affected puppies often having low chloride levels leading to alkalosis (a condition where the body becomes too alkaline), while mildly affected puppies had high chloride levels causing acidosis (too much acid). Understanding these disturbances can help veterinarians better manage the treatment of puppies suffering from CPV enteritis.
People also search for: puppy parvovirus treatment · dog acid-base balance · canine parvovirus symptoms · puppy dehydration from parvo
Abstract
The acid-base disturbances in canine parvoviral (CPV) enteritis are not well described. In addition, the mechanisms causing these perturbations have not been fully elucidated. The purpose of the present study was to assess acid-base changes in puppies suffering from CPV enteritis, using a modified strong ion model (SIM). The hypothesis of the study was that severe acid-base disturbances would be present and that the SIM would provide insights into pathological mechanisms, which have not been fully appreciated by the Henderson-Hasselbalch model. The study analysed retrospective data, obtained from 42 puppies with confirmed CPV enteritis and 10 healthy control dogs. The CPV-enteritis group had been allocated a clinical score, to allow classification of the data according to clinical severity. The effects of changes in free water, chloride, l-lactate, albumin and phosphate were calculated, using a modification of the base excess algorithm. When the data were summated for each patient, and correlated to each individual component, the most important contributor to the metabolic acid-base changes, according to the SIM, was chloride (P<0.001). Severely-affected animals tended to demonstrate hypochloraemic alkalosis, whereas mildly-affected puppies had a hyperchloraemic acidosis (P=0.007). In conclusion, the acid-base disturbances in CPV enteritis are multifactorial and complex, with the SIM providing information in terms of the origin of these changes.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/24613416/