Michael R. Bykowski scite author profile

Three-dimensional (3D) surface imaging using stereophotogrammetry has become increasingly popular in clinical settings, offering advantages for surgical planning and outcome evaluation. The handheld Vectra H1 is a low-cost, highly portable system that offers several advantages over larger stationary cameras, but independent technical validation is currently lacking. In this study, 3D facial images of 26 adult participants were captured with the Vectra H1 system and the previously validated 3dMDface system. Using error magnitude statistics, 136 linear distances were compared between cameras. In addition, 3D facial surfaces from each system were registered, heat maps generated, and global root mean square (RMS) error calculated. The 136 distances were highly comparable across the two cameras, with an average technical error of measurement (TEM) value of 0.84mm (range 0.19-1.54mm). The average RMS value of the 26 surface-to-surface comparisons was 0.43mm (range 0.33-0.59mm). In each case, the vast majority of the facial surface differences were within a ±1mm threshold. Areas exceeding ±1mm were generally limited to facial regions containing hair or subject to facial microexpressions. These results indicate that 3D facial surface images acquired with the Vectra H1 system are sufficiently accurate for most clinical applications.

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The Rate of Oronasal Fistula following Primary Cleft Palate Surgery: A Meta-Analysis

Bykowski

Naran

Winger

et al. 2015

The Cleft Palate Craniofacial Journal

114

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Using 11 studies comprising 2505 children, we find the rate of reported fistula occurrence to be 4.9%. Furthermore, patients with a Veau IV cleft are significantly more likely to develop an oronasal fistula. When fistulae do occur, they do so most often at the soft palate-hard palate junction. A deeper understanding of fistula formation will help cleft palate surgeons improve their outcomes in the operating room and will allow them to effectively communicate expectations with patients' families in the clinic.

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The Epidemiology of Mandibular Fractures in the United States, Part 1: A Review of 13,142 Cases from the US National Trauma Data Bank

Afrooz

Bykowski

James

et al. 2015

Journal of Oral and Maxillofacial Surgery

139

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Assessing the Impact of Antibiotic Prophylaxis in Outpatient Elective Hand Surgery: A Single-Center, Retrospective Review of 8,850 Cases

Bykowski¹,

Sivak²,

Cray³

et al. 2011

The Journal of Hand Surgery

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Inkjet-Based Biopatterning of Bone Morphogenetic Protein-2 to Spatially Control Calvarial Bone Formation

Cooper

Miller

DeCesare

et al. 2010

Tissue Engineering Part A

111

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The purpose of this study was to demonstrate spatial control of osteoblast differentiation in vitro and bone formation in vivo using inkjet bioprinting technology and to create three-dimensional persistent bio-ink patterns of bone morphogenetic protein-2 (BMP-2) and its modifiers immobilized within microporous scaffolds. Semicircular patterns of BMP-2 were printed within circular DermaMatrix human allograft scaffold constructs. The contralateral halves of the constructs were unprinted or printed with BMP-2 modifiers, including the BMP-2 inhibitor, noggin. Printed bio-ink pattern retention was validated using fluorescent or (125)I-labeled bio-inks. Mouse C2C12 progenitor cells cultured on patterned constructs differentiated in a dose-dependent fashion toward an osteoblastic fate in register to BMP-2 patterns. The fidelity of spatial restriction of osteoblastic differentiation at the boundary between neighboring BMP-2 and noggin patterns improved in comparison with patterns without noggin. Acellular DermaMatrix constructs similarly patterned with BMP-2 and noggin were then implanted into a mouse calvarial defect model. Patterns of bone formation in vivo were comparable with patterned responses of osteoblastic differentiation in vitro. These results demonstrate that three-dimensional biopatterning of a growth factor and growth factor modifier within a construct can direct cell differentiation in vitro and tissue formation in vivo in register to printed patterns.

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