Equine castration: review of anatomy, approaches, techniques and complications in normal, cryptorchid and monorchid horses

• Published in: Australian veterinary journal Vol. 77; no. 7; pp. 428 - 434
• Main Authors: Searle, D, Dart, A.J, Dart, C.M, Hodgson, D.R
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.07.1999
• Subjects: animal anatomy; Animals; castration; complications; cryptorchid; cryptorchidism; Cryptorchidism - surgery; Cryptorchidism - veterinary; disease diagnosis; embryogenesis; equine; Horse; Horse Diseases - surgery; horses; Horses - surgery; literature reviews; Male; monorchid; Orchiectomy - methods; Orchiectomy - veterinary; reproductive disorders; surgery; Testis - abnormalities; Testis - embryology; Testis - pathology; treatment
• ISSN: 0005-0423; 1751-0813
• DOI: 10.1111/j.1751-0813.1999.tb12083.x

Complications associated with equine castration are the most common cause of malpractice claims against equine practitioners in North America. An understanding of the embryological development and surgical anatomy is essential to differentiate abnormal from normal structures and to minimise complications. Castration of the normal horse can be performed using sedation and regional anaesthesia while the horse is standing, or under general anaesthesia when it is recumbent. Castration of cryptorchid horses is best performed under general anaesthesia at a surgical facility. Techniques for castration include open, closed and half‐closed techniques. Failure of left and right testicles to descend occurs with nearly equal frequency, however, the left testicle is found in the abdomen in 75% of cryptorchid horses compared to 42% of right testicles. Bilateral cryptorchid and monorchid horses are uncommon. Surgical approaches described for the castration of cryptorchid horses include an inguinal approach with or without retrieval of the scrotal ligament, a parainguinal approach, or less commonly a suprapubic paramedian or flank approach. Laparoscopic castration of cryptorchid horses has recently been described but the technique has limited application in practice at this time. A definitive diagnosis of monorchidism can only be made after surgical exploration of the abdomen, removal of the normal testis and hormonal testing. Hormonal assays reported to be useful include analysis of basal plasma or serum testosterone or oestrone sulphate concentrations, testosterone concentrations following hCG stimulation, and faecal oestrone sulphate concentrations. Reported complications of castration include postoperative swelling, excessive haemorrhage, eventration, funiculitis, peritonitis, hydrocele, penile damage and continued stallion‐like behaviour.