Development of a new laparoscopic foramen epiploicum mesh closure (FEMC) technique in 6 horses

Reasons for performing study: Epiploic foramen entrapment (EFE) is, based on the number of reports in the literature, a relatively important life-threatening cause of colic in horses that could be prevented by closing the epiploic foramen (EF) in horses at risk of developing EFE. Objectives: To describe the laparoscopic foramen epiploicum mesh closure (FEMC) technique and its outcome. Study design: Descriptive experimental study. Methods: The EF of 6 horses was closed with the FEMC technique. A diabolo-shaped constructed mesh was introduced into the omental vestibule through the EF under laparoscopic visualisation in the standing sedated horse. Clinical and laboratory parameters were recorded during the post operative period. Four weeks after the intervention, repeat laparoscopy was performed in all horses. Three horses were subjected to euthanasia one, 2 and 3 months after the intervention, and were examined on necropsy and histopathology. The remaining 3 horses were followed clinically for 6 months. Results: The 6 FEMC procedures were performed successfully in a median surgery time of 22min (range 18-27min). One horse was treated for large colon impaction in the immediate post operative period. On repeat laparoscopy at 4 weeks all 6 EFs were closed and no undesired adhesions were identified. This was confirmed on gross and histopathological examination of the 3 horses that were subjected to euthanasia. The 3 remaining horses were clinically normal in the 6-month post operative observation period. Conclusions: This FEMC technique provides a fast, simple, reliable and safe procedure to obliterate the EF and may be useful in horses at risk for EFE

Laparoscopic evaluation of the epiploic foramen after celiotomy for epiploic foramen entrapment in the horse

Objectives: To evaluate the epiploic foramen using laparoscopy in horses previously treated for epiploic foramen entrapment to determine if spontaneous epiploic foramen closure had occurred. Study Design: Non-consecutive case series. Animals: Seven horses. Methods: The epiploic foramen was inspected by right flank laparoscopy between 35 and 71 days after successful surgical treatment for epiploic foramen entrapment. Data were collected on the presence of behavior vices, details of surgery for epiploic foramen entrapment (time from colic onset to surgery, site and length of entrapped intestine, direction of entrapment, compromise of the intestine, intestine resected), the time between surgery for epiploic foramen entrapment and laparoscopy, and the laparoscopic appearance of the epiploic foramen. If the epiploic foramen was open, a mesh was introduced to obliterate the epiploic foramen (Foramen Epiploicum Mesh Closure [FEMC]). Clinical progress of the horses was followed by owner telephone interview at 1 and 4 months after laparoscopy, and a final interview between 135 and 282 days after laparoscopy. Owners were questioned on specific postoperative complications and the exercise level of the horse. Results: At laparoscopy, 3/7 horses had complete closure of the epiploic foramen by dense fibrous tissue. The FEMC was performed in 4 horses without major complications. Postoperative colic episodes were recorded in 3 horses, all of them displaying windsucking/cribbing behavior. Conclusion: Laparoscopic evaluation after celiotomy for epiploic foramen entrapment revealed spontaneous closure of the epiploic foramen in 3/7 horses. This finding could explain the reported low recurrence rate after surgical treatment for epiploic foramen entrapment

Foramen epiploicum mesh closure (FEMC) through a ventral midline laparotomy

Background: Preventive laparoscopic closure of the epiploic foramen (EF) has previously been described, but methods for EF closure during laparotomy for treatment of colic are lacking. Objectives: To describe the foramen epiploicum mesh closure (FEMC) technique through a ventral midline laparotomy in horses under general anaesthesia and its outcome. Study design: Terminal surgical experiment and in vivo study. Methods: In a pilot study, a standard ventral midline laparotomy was performed under general anaesthesia in 10 experimental horses and a three-dimensional expandable diabolo-shaped mesh construct was manually introduced through the EF into the omental vestibule. The laparotomy incision was routinely closed after which the horses were subjected to euthanasia. Subsequently, the cadavers were extensively manipulated and finally mesh position was verified during necropsy. Thereafter, a ventral midline laparotomy, with simulation of abdominal manipulations during colic surgery was performed on six experimental horses. A three-dimensional expandable diabolo-shaped mesh with a radiological marker was introduced as in the pilot study. Clinical and laboratory parameters were recorded during the post-operative period. Four weeks after the intervention, abdominal radiography and laparoscopy were performed in all six horses. Results: Insertion of all 16 diabolo-shaped mesh constructs during laparotomy was uneventful. The 10 mesh constructs of the pilot study were positioned correctly at necropsy. No post-operative clinical or laboratory parameter alterations were noticed in the other six horses, apart from a transient leucocytosis and an increase in serum amyloid A. Abdominal radiography at 4 weeks revealed consistent positioning of the mesh marker. Laparoscopy confirmed that all six EFs were closed, without intestinal adhesions. Main limitations: Mesh insertion in clinical cases and during clean contaminated surgery was not investigated. Conclusion: The FEMC technique via laparotomy provides a fast, simple and reliable procedure to obliterate the EF and may be useful during EFE surgery to prevent recurrence of the disease, avoiding a subsequent laparoscopic procedure

Operation compared with watchful waiting in elderly male inguinal hernia patients: a review and data analysis.

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