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- Author or Editor: Ellen R. Singer x
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Objective
To determine, in a population of young horses, whether a variation exists among neonates, sucklings, weanlings, and yearlings regarding recovery from anesthesia, short- and long-term survival rates, and postoperative adhesion formation following exploratory laparotomy.
Design
Retrospective study.
Animals
102 horses < 25 months old that underwent exploratory laparotomy.
Procedure
Pre-, intra-, and postoperative information was retrieved from medical records, conversations with referring veterinarians, owners, or trainers, and race records. Survival rates (recovery from anesthesia and short- and long-term survival) were compared with age, lesion type, lesion location, surgical procedure, and development of clinically important postoperative intestinal adhesions.
Results
Of the 73 horses that recovered from anesthesia, 69 were available for follow-up. Of the 69 horses, 7 (10%) died of complications associated with formation of intestinal adhesions. Age did not affect incidence of adhesion formation, lesion type, lesion location, or surgical procedure performed. Long-term survival rate after surgery for correction of a small-intestinal lesion was 34%, whereas that after surgery for correction of a large-intestinal lesion was 65%.
Clinical Implications
Surgical treatment of colic in young horses resulted in survival rates that are similar to those reported for mature horses. The incidence of clinically important postoperative adhesions was greater than that found for young horses in earlier studies. This may be the result of the younger age of our study population. Alternatively, improvements in operative techniques and postoperative management may allow a larger percentage of horses to survive long term and develop complications such as adhesion formation. (J Am Vet Med Assoc 1997;211:1158–1162)
Abstract
Objective—To determine cellular changes associated with secondary epidermal laminae (SEL) in forefeet and hind feet of ponies with insulin-induced laminitis.
Animals—8 ponies.
Procedures—Laminitis was induced in 4 ponies by IV administration of insulin and glucose; 4 control ponies received saline (0.9% NaCl) solution IV. Laminar tissue samples obtained from the dorsal aspects of the hooves were histologically evaluated. Primary epidermal lamina (PEL) length and width and SEL length, width, and angle were determined. Numbers of epidermal cell nuclei per micrometer and per total length of SEL and numbers of apoptotic and proliferative cells in axial, middle, and abaxial laminar regions were determined.
Results—SEL in treatment group ponies were significantly longer, were significantly narrower, and had a smaller angle relative to PEL in all laminar regions versus control ponies. In treatment group ponies, the number of epidermal cell nuclei per SEL was typically higher and the number of cells per micrometer of SEL was lower in laminar regions, apoptotic cell numbers were higher in abaxial and middle regions in forefeet and hind feet, and proliferating cell numbers were higher in axial laminar regions in forefeet and all laminar regions in hind feet, versus control ponies.
Conclusions and Clinical Relevance—Results indicated SEL elongation, narrowing, and alteration in orientation developed in all feet of ponies with insulin-induced laminitis. This was primarily attributable to cell stretching that developed at the same time as an accelerated cell death–proliferation cycle; differences in cell cycle responses among laminar regions between forefeet and hind feet may have been attributable to differences in load bearing.