A 3-Dimensional Printed Patient-Specific Surgical Guide to Facilitate Transsphenoidal Hypophysectomy in Dogs

Leticia Escauriaza; Joe Fenn; John McCue; Darren Roper; Helene Vandenberghe; George Nye; Bill Oxley; Nicolas Granger

doi:10.3389/fvets.2022.930856

A 3-Dimensional Printed Patient-Specific Surgical Guide to Facilitate Transsphenoidal Hypophysectomy in Dogs

Front Vet Sci. 2022 Jun 20:9:930856. doi: 10.3389/fvets.2022.930856. eCollection 2022.

Authors

Leticia Escauriaza¹, Joe Fenn², John McCue³, Darren Roper¹, Helene Vandenberghe¹, George Nye¹, Bill Oxley⁴, Nicolas Granger¹

Affiliations

¹ Neurology Department, Bristol Veterinary Specialists at Highcroft, CVS Referrals, Bristol, United Kingdom.
² Department of Clinical Science and Services, Royal Veterinary College, Hertfordshire, United Kingdom.
³ Animal Medical Centre, New York, NY, United States.
⁴ Vet3D, Kendal, United Kingdom.

Abstract

Objective: Hypophysectomy in dogs is a difficult surgery that requires specific learning and training. We aimed to evaluate the accuracy of a 3-dimensional printed patient-specific surgical guide to facilitate choosing the entry point in the basisphenoid bone before approaching the sella turcica during transsphenoidal hypophysectomy in dogs.

Methods: Two canine cadavers and 8 dogs undergoing transsphenoidal hypophysectomy for Cushing's disease treatment, involving design and fabrication of a 3-dimensional printed guide. The ideal entry point in the basisphenoid bone outer cortical layer was determined in each dog pre-operatively; its anatomical location was described with a set of measurements then compared to post-operative computed tomography measures describing the location of the outer cortical window created in the basisphenoid bone.

Results: Several guide designs were proposed, and a consensus reached based on surgeons' experience performing hypophysectomy. The device chosen could be applied to the size and shape of skulls encountered in this case series. The pre-planned measurements were comparable to post-operative measurement (there was also no statistical difference), with median of differences <0.1 mm, which we judged as clinically acceptable.

Clinical significance: Hypophysectomy in dogs is a challenging procedure that has a learning curve and needs to be performed by specialist neurosurgeons. We propose that a low-profile 3-dimensional printed surgical guide can aid the specialist neurosurgeon to locate the burring site of the outer cortical layer of the basisphenoid bone at a pre-defined location and with good accuracy. It does not alleviate the need to understand the anatomy of the region and to know how to create a slot within the basisphenoid bone, which remains essential to enter the sella turcica. This device could help specialist veterinary neurosurgeons wishing to be trained to perform hypophysectomy.

Keywords: 3D printing; companion dogs; computed tomography; hypophysectomy; neurosurgery; pituitary dependent hyperadrenocorticism.