Christopher A. Derderian

Wise-pattern breast reconstruction: modification using AlloDerm and a vascularized dermal-subcutaneous pedicle.

Immediate implant-based breast mound reconstruction offers many advantages over staged implant reconstruction techniques. For large volume breast reconstruction, a Wise-pattern skin resection may provide very good aesthetic results; however, the submuscular implant pocket is inadequate to cover the inferior pole of the breast. In this patient population, the risk of implant exposure from T-point breakdown is significant. We present our technique of Wise-pattern breast reconstruction using AlloDerm (LifeCell, Branchburg, NJ) and a vascularized dermal-subcutaneous pedicle (DSP) to augment the volume and quality of immediate breast implant coverage, particularly in the area of the T-point suture lines. We reviewed a series of 20 consecutive patients with large breasts who were treated with an immediate implant reconstruction of greater than 400 mL volume using the Wise-pattern with DSP. Preoperative and postoperative 3-dimensional surface scan studies were performed to evaluate breast symmetry. The average volume of breast reconstruction in this study group was 458 mL. T-point breakdown occurred in 5 patients (25%). These patients were treated with local wound care and healed with an excellent aesthetic result. None of these patients required implant removal, implant exchange, or operative debridement. Pre- and postoperative 3-dimensional surface scan analysis of these patients demonstrated comparable differences between the affected and unaffected sides in women undergoing immediate breast implant reconstruction when compared with a matched group of patients undergoing 2-stage breast reconstruction with tissue expanders. Wise-pattern skin-reducing mastectomy is an excellent strategy to provide an aesthetically pleasing, immediate implant breast reconstruction. This technique provides breast symmetry that is at least comparable to that of tissue expander-based, staged implant reconstructions. The reliability of the Wise-pattern technique is significantly improved with the addition of AlloDerm to the muscular pocket and a vascularized DSP to preserve the integrity of the reconstruction in the presence of T-point breakdown.

Mechanical strain alters gene expression in an in vitro model of hypertrophic scarring

Fibroblasts represent a highly mechanoresponsive cell type known to play key roles in normal and pathologic processes such as wound healing, joint contracture, and hypertrophic scarring. In this study, we used a novel fibroblast-populated collagen lattice (FPCL) isometric tension model, allowing us to apply graded biaxial loads to dermal fibroblasts in a 3-dimensional matrix. Cell morphology demonstrated dose-dependent transition from round cells lacking stress fibers in nonloaded lattices to a broad, elongated morphology with prominent actin stress fibers in 800-mg-loaded lattices. Using quantitative real-time RT-PCR, a dose dependent induction of both collagen-1 and collagen-3 mRNA up to 2.8- and 3-fold, respectively, as well as a 2.5-fold induction of MMP-1 (collagenase) over unloaded FPCLs was observed. Quantitative expression of the proapoptotic gene Bax was down-regulated over 4-fold in mechanically strained FPCLs. These results suggest that mechanical strain up-regulates matrix remodeling genes and down-regulates normal cellular apoptosis, resulting in more cells, each of which produces more matrix. This “double burden” may underlie the pathophysiology of hypertrophic scars and other fibrotic processes in vivo.

Posterior cranial vault expansion using distraction osteogenesis

PurposePosterior vault expansion using distraction osteogenesis has become a vital instrument in our institution, particularly as a first-line treatment in syndromic craniosynostosis. In this review, we highlight the several advantages, diverse utility, and technicalities of the operative procedure.MethodsA review of the literature and explanation of the technical details of the procedures were described in this manuscript.Results/conclusionPosterior cranial vault distraction offers several benefits over traditional expansion procedures.

Volumetric changes in cranial vault expansion: comparison of fronto-orbital advancement and posterior cranial vault distraction osteogenesis.

Background: Posterior cranial vault distraction osteogenesis has recently been introduced to treat patients with multisuture syndromic craniosynostosis and is believed to provide greater gains in intracranial volume. This study provides volumetric analysis to determine the gains in intracranial volume produced by this modality. Methods: This was a two-center retrospective study of preprocedure and postprocedure computed tomography scans of two groups of 15 patients each with syndromic multisuture craniosynostosis treated with either fronto-orbital advancement or posterior cranial vault distraction osteogenesis. Scan data were analyzed volumetrically with Mimics software. Volumetric gains attributable to growth between scans were controlled for. Results: The mean advancements were 12.5 mm for fronto-orbital advancement and 24.8 mm for distraction osteogenesis. The mean difference in volume between the preoperative and postoperative scans was 144 cm3 for fronto-orbital advancement and 274 cm3 for (p = 0.009). After controlling for growth, the corrected mean volume difference was 66 cm3 for fronto-orbital advancement and 142 cm3 for distraction osteogenesis (p = 0.0017). The corrected mean volume difference per millimeter of advancement was 4.6 cm3 for fronto-orbital advancement and 5.8 cm3 for distraction (p = 0.357). Conclusions: In this retrospective study, posterior cranial vault distraction osteogenesis provided statistically greater intracranial volume expansion than fronto-orbital advancement. The volume gains per millimeter advancement were similar between groups, with a trend toward greater gains per millimeter with distraction osteogenesis. Gradual expansion of the overlying soft tissues with posterior cranial vault distraction osteogenesis appears to be the primary mechanism for greater volume gains with this technique. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, III.

Differential closure of the spheno-occipital synchondrosis in syndromic craniosynostosis

Background: The spheno-occipital synchondrosis is a driver of cranial base and facial growth. Its premature fusion has been associated with midface hypoplasia in animal models. The authors reviewed computed tomographic scans of patients with Apert and Muenke syndrome, craniosynostosis syndromes with midface hypoplasia, to assess premature fusion of the spheno-occipital synchondrosis when compared with normal controls. Methods: Ninety head computed tomographic scans of Apert syndrome patients and 31 head scans of Muenke syndrome patients were assessed, in addition to an equal number of control scans. Spheno-occipital synchondrosis fusion on axial images was graded as open, partially closed, or closed. Analysis focused on ages 7 to 14 years, as no control patient fused before age 7 or had failed to fuse after age 14. Results: All 38 Apert syndrome patients aged 7 to 14 had some degree of spheno-occipital synchondrosis closure, compared with 29 of 38 matched controls (p = 0.0023). Seventeen of 20 Muenke syndrome patients showed closure, compared with 14 of 20 matched controls (p = 0.4506). Partial fusion was seen as early as age 2 in Apert syndrome and age 6 in Muenke syndrome patients; the earliest fusion was seen at age 7 in the control group. Conclusions: Compared with matched controls, the spheno-occipital synchondrosis closes significantly earlier in patients with Apert syndrome but not Muenke syndrome. This correlates well to reported incidences of midface hypoplasia in these syndromes. Although causality cannot be concluded from this study, an association exists between midface phenotype and degree of spheno-occipital synchondrosis closure. CLINICAL QUESTION/LEVEL OF EVIDENCE: Risk, II.

The temporal region in unilateral coronal craniosynostosis: a volumetric study of short- and long-term changes after fronto-orbital advancement.

Background: The temporal region is significantly affected by both restricted and compensatory growth in unilateral coronal craniosynostosis. Recurrent deformity in this region after fronto-orbital advancement often requires a revision operation in adolescence. The authors performed a three-dimensional analysis of the temporal region in patients with unilateral coronal craniosynostosis to define the baseline deformity and the immediate and long-term changes after fronto-orbital advancement. Methods: A retrospective analysis of patients with nonsyndromic unilateral coronal craniosynostosis who underwent reconstruction with fronto-orbital advancement or revision cranioplasty after fronto-orbital advancement between 2005 and 2010 was performed. Volumetric and craniometric computed tomographic data were obtained from the bilateral temporal regions and analyzed using the appropriate statistical tests. Results: Fifteen patients immediately before and after fronto-orbital advancement and 14 precranioplasty patients were included. In all groups, the supraorbits on the synostotic sides were significantly constricted in the transverse dimension. The temporal fossa volume on the synostotic side was displaced and significantly smaller than the nonsynostotic side in all groups. The temporalis muscle of the synostotic side was smaller but disproportionately large for the temporal fossa. Conclusions: In unilateral coronal craniosynostosis, there is a baseline and persistent deficiency in the transverse dimension of the supraorbit on the synostotic side. The temporalis muscle is smaller on the synostotic side but is disproportionately large for the temporal fossa of the affected side, which is inferolaterally displaced and smaller because of compensatory growth. These subtle abnormalities in the relationships between the bony dimensions and soft tissues appear to contribute to the temporal hollow deformity often observed after fronto-orbital advancement. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, III

Open cranial vault remodeling: the evolving role of distraction osteogenesis.

Abstract In this article, we review some of the traditional techniques used to treat craniosynostosis. In addition to sharing our current approach to treating craniosynostosis with open techniques, we discuss our opinions on the evolving roles of newer modalities such as spring-assisted cranioplasty and cranial vault expansion using distraction osteogenesis.

Reconstruction of a large mandibular defect utilizing temporary zygomatic-ramal fixation and bilateral Risdon incisions.

Ameloblastoma is a benign, invasive, odontogenic tumor of the jaws that predominantly affects the mandible. Despite the benign nature of these lesions, there is a high rate of local recurrence after curettage, which usually requires resection. The traditional surgical approach for resection of ameloblastomas, via either mandibulotomy or mandibulectomy, has been through lower lip-splitting incisions, which are associated with significant functional and esthetic sequelae. A case is presented here in which less invasive Risdon and intraoral degloving incisions were used in combination with temporary zygomatic-ramal fixation to maintain occlusion after resection of a large mandibular ameloblastoma. The bilateral Risdon approach provided wide access to the mandible, allowing an angle-to-angle resection to be performed. This approach also provided adequate exposure for an osteocutaneous fibula free flap reconstruction to be performed, with 100% flap survival. At 1 year of follow-up, there were minimal functional and esthetic defects. This approach represents a less invasive alternative that provides access to the mandible for curative resection of benign tumors with minimal postoperative sequelae.

Remediation as a Road to Competency: Strategies for Early Identification of the Struggling Resident and Generating the Remediation Plan.

8 is consistently among P lastic surgery the most competitive specialties to match into for postgraduate training. Whenever interview season arrives, we consistently find an increasingly impressive group of individuals applying to our programs. It seems that today’s average applicant has higher board scores and more research experience and publications than we had when we applied and often appear more well rounded to boot. Given this rich pool of intellect and talent and a high level of past performance, one might think we should very rarely find ourselves with a plastic surgery trainee who is not meeting our performance expectations. As it turns out, 7% to 28% of medical trainees, regardless of their level of training or specialty will require some form of remediation to achieve competence. These statistics may be surprising but they are real and consistent across specialties, demonstrating that remediation is an inevitable process for any training program. As educators, we must become proficient in both identifying trainees who need remediation and providing them with an individualized, structured, and effective program to address their deficiencies. Developing effective remediation programs is necessary for us to fully meet our responsibility as educators to train these struggling residents and allow them to reach their potential. Effective remediation is also essential for us to maintain the quality of care for our patients, the reputations of our training programs, and the integrity of plastic surgery. Likewise, if a systematic and welldocumented plan for remediation has been executed and the trainee fails to improve his/her performance, we can in good conscience move toward ending our obligation to train the individual. Surgery. Due to processing delays, we were unable to fit it in on time in the group. MBH

Three-Dimensional Printing for Craniofacial Surgery: A Single Institution’s 5-Year Experience

Background: As 3-dimensional (3D) printers and models become more widely available and increasingly affordable, surgeons may consider investing in a printer for their own cleft or craniofacial center. To inform surgeons considering adoption of this evolving technology, this study describes one multi-surgeon center’s 5-year experience using a 3D printer. Methods: This study included 3D models printed between October 2012 and October 2017. A 3D Systems ZPrinter 650 was used to create all models. Models were subclassified by type (craniofacial vs noncraniofacial) and diagnosis, and the cost of consumable materials was recorded. A survey was distributed to craniofacial team members who used the printed models. Likert scales and free texts were used for responses about lessons learned and the usefulness of the printer for different craniofacial indications. Results: A total of 106 models were printed at this institution during the 5-year time period. Printing times were 7.4 ± 1.9 hours for complete skulls and 6.0 ± 1.7 hours for maxillofacial prints. The average cost for a complete skull was about US