Russell B. Stokes scite author profile

Russell B. Stokes

2Publications

70Citation Statements Received

0Citation Statements Given

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Affiliations

University of California, Santa Barbara, University of California Davis Medical Center, Center For Reconstructive Urethral Surgery

Publications

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Transantral Endoscopic Orbital Floor Exploration: A Cadaver and Clinical Study

Saunders

Whetzel

Stokes

et al. 1997

Plastic & Reconstructive Surgery

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A cadaver and clinical study was performed to determine the value of transantral endoscopy in diagnosis and treatment of orbital floor fractures. Six fresh cadaver heads were dissected using a 30 degree, 4-mm endoscope through a 1 cm2 antrotomy. In the cadaver, the orbital floor and the course of the infraorbital nerve were easily identified. The infraorbital nerve serves as a reference point for evaluation of fracture size; three zones of the floor are described that are oriented relative to the infraorbital nerve. In the clinical study, nine patients with orbital floor fracture initially underwent endoscopy at the time of fracture repair: three patients had comminuted zygomatico-orbital fractures, five had monofragmented tetrapod fractures, and one had an isolated orbital blowout fracture. Endoscopic dissection of the orbital fractures revealed seven fractures with an area > 2 cm2 and two fractures with an area of < 2 cm2. The isolated orbital floor blowout fracture had entrapped periorbital tissue, which was completely reduced endoscopically. A separate patient with a < 2 cm2 displaced fracture also had stable endoscopic reduction. In the remaining seven patients, the endoscopic technique assisted with the floor reconstruction by identifying the precise fracture configuration as well as identifying the stable posterior ledge of the orbital floor fracture. There have been no complications in any of our patients to date. We conclude: (1) Transantral orbital floor exploration allows precise determination of orbital floor fracture size, location, and the presence of entrapped periorbita. The information obtained through endoscopic techniques may be used to select patients who would not benefit from lid approaches to the orbital floor and may possibly eliminate nontherapeutic exploration. (2) Transantral endoscopic orbital floor exploration assists the reduction of complex orbital floor fractures and allows precise identification of the posterior shelf for implant placement. (3) Transantral endoscopic techniques can completely reduce entrapped periorbital tissue caught in a trapdoor type of fracture.

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Arterial Fasciocutaneous Vascular Territories of the Lower Leg

Whetzel

Barnard

Stokes

1997

Plastic and Reconstructive Surgery

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The purpose of this study was to analyze the fasciocutaneous arterial circulation of the lower extremity to provide a quantitative guide to design reliable fasciocutaneous flaps. Thirty-one fresh cadaver limbs were studied using the techniques of dissection of latex injected specimens, selective ink injections, and barium latex radiographs. Fasciocutaneous perforator locations were recorded according to fascial septum of origin and distance relative to bony landmarks between the knee and the ankle. Selective ink injections of the trifurcation vessels identified four anterior tibial, three peroneal, and three posterior tibial fasciocutaneous territories. Although perforator site locations were randomly distributed along the trifurcation vessel within any vascular territory, the separate cutaneous regions that make up the fasciocutaneous territories occur in predictable locations with a measurable standard deviation. The transverse section radiographs confirmed the transverse dimensions of the vascular territories. Additionally, the summation of any two vascular territories calculated from the anatomical data conforms to the clinically observed 2.5:1 to 3:1 length-to-width ratios for fasciocutaneous flap viability as reported by Ponten and by Barclay et al. This study provides a quantitative anatomical framework using primary fasciocutaneous vascular territories to design potentially reliable fasciocutaneous flaps in the lower extremity.

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Russell B. Stokes

Transantral Endoscopic Orbital Floor Exploration: A Cadaver and Clinical Study

Arterial Fasciocutaneous Vascular Territories of the Lower Leg

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