Procedures-Medical records of equids hospitalized for > 24 hours for treatment of ocular disease between January 1997 and December 2008 were
reviewed. Information from only the first hospitalization was used for equids that were hospitalized for ocular disease on more than 1 occasion. Information gathered included the signalment, the type of ocular lesion and the treatment administered, and any colic signs recorded ABT-263 cell line during hospitalization as well as the severity, presumptive diagnosis, and treatment of the colic. Statistical analysis was used to identify any risk factors for colic in equids hospitalized for ocular disease.
Results-72 of 337 (21.4%) equids hospitalized for ocular disease had signs of colic during hospitalization.
Most equids (59.7% [43/72]) had mild signs of colic, and most (87.5% [63/72]) were treated medically. Ten of 72 (13.9%) equids with colic had a cecal impaction. Risk factors for colic in equids hospitalized for ocular disease were age (0 to 1 year and >= 21 years) and an increased duration of hospitalization (>= 8 days).
Conclusions and Clinical Relevance-There was a high incidence of colic in equids hospitalized with ocular disease in this study. Findings from this study may help identify equids at risk for development of colic and thereby help direct implementation of prophylactic measures. (J Am Vet Med Assoc 2012;240:1488-1493)”
“Objective: Nirogacestat datasheet To understand the genetic diversity of Mycobacterium avium subspecies paratuberculosis (MAP) isolates recovered from domestic and wild ruminants, click here commercial milk, and human beings in North India.
Methods: Genotyping of MAP isolates (N = 117) recovered from animals, commercial milk, and human beings in different regions of North
India between 1998 and 2007 was carried out using IS1311 PCR-restriction enzyme analysis (REA) and short sequence repeat (SSR) typing (G and GGT repeat loci).
Results: Of the 117 MAP isolates recovered from North India, bison-type was the predominant (83.8%) genotype followed by cattle-type (16.2%). Bison-type was the exclusive genotype recovered from goats, sheep, buffaloes, and blue bulls. However, both bison-type and cattle-type genotypes were recovered from cattle, humans, and commercial bovine milk samples. The relative distribution of the two genotypes was different in the different regions. Bison-type was the major genotype at the Central Institute for Research on Goats (CIRG), Akos, Ajmer, and Mathura, whereas, cattle-type was the major genotype from New Delhi and Agra. SSR typing of these isolates revealed that all MAP bison-type isolates had an identical profile (7g4ggt) with respect to G and GGT repeat SSR loci. In this study the sheep-type genotype was not found in North India.
Conclusions: This study is the first from India to report the presence of two kinds of MAP genotypes (cattle-type and bison-type).