Your search keyword '"Dean Preston"' showing total 4 results

1. PD15-11 COMPREHENSIVE REVIEW OF A LARGE COHORT OF OUTPATIENT VERSUS INPATIENT OPEN RENAL AND BLADDER SURGERY IN CHILDREN

Author

Dean Preston Smith, Andrew Wofford, Jackson Powers, and Winston Crute

Subjects

medicine.medical_specialty, business.industry, Urology, General surgery, Medicine, Bladder surgery, business, Large cohort

Published

2021

2. Treatment of Posttraumatic Ocular Dysmotility Using Autogenous Buccal Fat Grafts in a Porcine Model

Author

Dean Preston, Maribeth H. Johnson, Jack C. Yu, and Steven E. Brooks

Subjects

Diplopia, Periorbita, medicine.medical_specialty, genetic structures, business.industry, Eye disease, Adhesion (medicine), Buccal administration, Fascia, medicine.disease, Extraocular muscles, eye diseases, Surgery, medicine.anatomical_structure, medicine, sense organs, medicine.symptom, business, Orbit (anatomy)

Abstract

Diplopia occurring after orbital trauma is a complex and difficult clinical problem. Numerous potential mechanisms exist by which it may occur. Restrictive ocular dysmotility caused by intraorbital scarring is a major component in diplopia's pathogenesis. The current large animal study was conducted to develop an experimental model of restrictive ocular dysmotility that would quantitatively characterize the biomechanical properties of the globe rotations. Using this model, a novel method of restoring the low-friction milieu within the orbit by interposing a buccal fat graft was tested. In the initial stage, the baseline force duction was measured in 20 pig eyes using a highly sensitive, digital tensiometer. Traumatic violation of Tenon's fascia with electrocautery into the extraconal fat and the periorbita was followed by direct suturing of the extraocular muscle to the nearest orbital periosteum. After 6 weeks, the measurements (again in the field of the traumatized muscle) were repeated, and the eyes were divided into two treatment groups (n = 10 eyes per group). The left eye received the standard lysis of adhesion, whereas the right eye received lysis and buccal fat interposition grafting. The third and final force measurements were performed 6 weeks after treatment. The results showed a baseline linear load-displacement curve of 0 to 8 mm, with the globe rotating 400 microm for every 1000 mg of tensile load. Surgical trauma increased the slope as defined by load/displacement but, surprisingly, the relationship remained linear in the entire range from 2 to 8 mm. This linear relationship was seen in all stages: baseline, after trauma to Tenon's fascia, after surgical lysis alone, and after lysis with buccal fat interposition. The difference was in the slope, or stiffness. Lysis alone partially reduced the slope, but it was still higher than baseline. Lysis and buccal fat grafting returned the slope to near baseline. This, however, did not reach the level of statistical significance. It seems that a focal intervention along the course of an extraocular muscle altered the composite behavior of orbital resistance to globe rotation. Although buccal fat grafting did not significantly improve motility, it did not worsen it.

Published

1999

3. Quantitative forced ductions in an animal model—Characterization of passive forces

Author

Maribeth H. Johnson, Dean Preston, Jack C. Yu, and Steven E. Brooks

Subjects

medicine.medical_specialty, Eye Movements, Rotation, genetic structures, Swine, Muscle Relaxation, medicine.medical_treatment, Anesthesia, General, Models, Biological, Smooth pursuit, Animal model, medicine, Animals, Humans, business.industry, Force gauge, Eye movement, Traction (orthopedics), Isoquinolines, eye diseases, Surgery, Highly sensitive, Mivacurium, Ophthalmology, Oculomotor Muscles, Neuromuscular Depolarizing Agents, Pediatrics, Perinatology and Child Health, Forced ductions, business, Biomedical engineering

Abstract

Purpose: Our purpose was to characterize the passive tissue forces involved in ocular rotation in a controlled animal model and to evaluate the influence of manual versus mechanized ductions, repeated measurements, speed of rotation, and the influence of the nondepolarizing muscle relaxant mivacurium. Methods: Forced ductions were performed under general anesthesia on 20 eyes of 10 pigs, with or without mivacurium, with use of a highly sensitive force gauge attached to the eye by a traction suture. The eye was moved either manually or at constant speed with a motorized platform. Eyes were rotated a total of 8 mm from their resting position under anesthesia. The force-displacement relationship was analyzed and compared between groups. Results: A linear (elastic) relationship between force and displacement was noted, with a slope of 0.4 g per degree with use of the mechanized technique. Neither speed of rotation, use of mivacurium, nor repeated ductions significantly influenced the shape or slope of the relationship. Hysteresis averaged 2 to 4 g. Measurements performed with use of the motorized platform showed significantly improved reliability over those made manually. Conclusions: The passive length-tension data correlate well with data reported by others in humans. Within a wide range of eye movement, this force is elastic in nature. For relatively low angular velocities, such as might be produced in smooth pursuit, the passive forces do not change appreciably with changes in velocity. The nondepolarizing muscle relaxant mivacurium has no effect on accurate performance of passive forced ductions under general anesthesia. Studies collecting quantitative data on passive orbital forces should be performed, when feasible, with an automated duction and recording apparatus.

Published

1998

4. Restricted ocular motility after orbital trauma—Studies with an animal model

Author

Maribeth H. Johnson, Jack C. Yu, Dean Preston, and Steven E. Brooks

Subjects

medicine.medical_specialty, Fat Adherence Syndrome, Eye Movements, genetic structures, Swine, Tissue Adhesions, Eye Injuries, Ocular Motility Disorders, Orbital trauma, medicine, Animals, Intraoperative Complications, Periorbita, business.industry, Ocular motility, Medial rectus muscle, medicine.disease, eye diseases, Surgery, Disease Models, Animal, Ophthalmology, Duction, medicine.anatomical_structure, Adipose Tissue, Oculomotor Muscles, Pediatrics, Perinatology and Child Health, Soft tissue injury, sense organs, business, Orbit, Orbit (anatomy)

Abstract

Objective: Our purpose was to develop a quantitative model of restricted ocular motility (fat adherence syndrome) in the pig orbit to facilitate research into pathogenesis and treatment. Methods: Twenty eyes of 10 pigs were used in an attempt to create a fibrous adhesion between either the inferior rectus or the medial rectus muscle and the adjacent periorbita. Quantitative forced ductions were performed preoperatively and 6 weeks postoperatively with an electronic force gauge. Results: Forced ductions displayed a linear relationship to displacement over the range tested, both preoperatively and postoperatively. Although increased resistance to forced ductions was produced in 10 of the 20 (50%) eyes, the average changes were not statistically significant. The absolute change in force (Postoperative — Preoperative) was linearly related to the amount of ocular rotation. Reproducibility of measurements was markedly improved by the use of a motorized forced duction apparatus compared with manual rotation. Conclusions: The results from this study, and those from previous work, suggest that the classic fat adherence syndrome is an uncommon event, even after significant soft tissue injury in the orbit. Further studies are needed to more completely define the risk factors and pathogenesis of the fat adherence syndrome and the suitability of the pig orbit as a model.

Published

1998