Faculty Bibliography

Current evidence suggests that achieving the desired level of osseointegration necessitates a hierarchical approach to implant design. This is particularly relevant for osseointegration around implant systems such as those presenting vertical decompression chambers and acid-etched surfaces which could further be augmented by non-thermal plasma (NTP) treatment. Three implant systems were compared in this study: (i) ND (GM Helix Acqua Implant; Neodent^®, Curitiba, PR, Brazil-hybrid, acid-etched thread design treated with isotonic sodium chloride solution), (ii) Sin (Epikut Plus; S.I.N. Implant System, São Paulo, Brazil-V-shaped, acid-etched thread design treated with nano-hydroxyapatite), and (iii) Mp (Maestro; Implacil De Bortoli, São Paulo, Brazil-buttress, acid-etched thread design with decompressing vertical chambers). The ND and Sin implants were used directly as supplied by the manufacturer. For the Mp implants, the manufacturer-supplied surface was subjected to supplemental acid etching with 37% hydrochloric acid followed by Argon-based NTP treatment administered with a pulsed plasma generator prior to implantation into the iliac crest of n = 12 adult female sheep. Histomorphometric analysis was conducted at 3- and 12-week post-implantation (n = 6 sheep per time point) to assess bone-to-implant contact (BIC) and bone area fraction occupancy (BAFO). After 3 weeks in vivo, the healing chambers of all implant groups consisted predominantly of newly forming woven bone. By 12 weeks, bone maturation was observed, with the presence of remodeling sites and some areas of well-organized lamellar structures occupying the healing chambers. At both 3 and 12 weeks, the Mp implants demonstrated significantly higher BAFO values relative to ND (p = 0.015 and p = 0.008, respectively). The combination of vertical healing chambers, acid etching, and NTP treatment promoted early vascular infiltration and sustained bone deposition.

To evaluate the effect of graded glass infiltration on the fatigue behavior and mechanical reliability of translucent 4Y-PSZ zirconia before and after hydrothermal aging, disc-shaped specimens were fabricated by uniaxial pressing and divided into control and glass-graded groups (n = 36/group). Glass infiltration was performed on pre-sintered specimens followed by final sintering, and half of the specimens from each group underwent hydrothermal aging (134°C, 2.2 bar, 20 h). Microstructure and phase composition were assessed by scanning electron microscopy and x-ray diffraction. Mechanical performance was evaluated using step-stress accelerated life testing, with Weibull statistics, reliability analysis, and inverse power-law modeling. Glass-graded specimens demonstrated higher reliability and characteristic strength (≈330 MPa increase) with similar Weibull modulus compared to controls. The inverse power-law parameter α₀ was higher for the glass-graded group, indicating extended fatigue life, whereas comparable α₁ values suggested similar life-stress relationships. Hydrothermal aging did not significantly affect mechanical performance, although phase transformation occurred in the control group. Fractography revealed surface-initiated failures in controls and interface-related crack initiation in glass-graded specimens. Graded glass infiltration improved the fatigue reliability and characteristic strength without compromising hydrothermal stability of 4Y-PSZ. These results suggest that glass-graded 4Y-PSZ may expand the clinical applicability of translucent zirconia for long-span (≥4-unit) prosthetic reconstructions.

Infants with complete bilateral cleft lips and a significantly protruded premaxilla present considerable challenges for the surgeon during the primary lip and nasal reconstruction. Current presurgical infant orthopedics (PSIOs) methods to reduce cleft severity-such as lip adhesion surgery, the Latham appliance, and nasoalveolar molding-often increase the burden of care. Presurgical lip, nose alveolar approximation (PLANA) therapy offers an alternative that effectively reduces this burden. This case report describes the use of PLANA therapy in two infants with bilateral cleft lip and palate, one with mild and one with a significantly protruded premaxilla. PLANA utilizes medical adhesive lip taping and a prefabricated series of nasal silicone devices to retract the premaxilla while promoting nasal tip projection and gradual controlled columellar elongation. The combined action of hydrocolloid lip tapes and nasal devices supports early presurgical objectives and minimizes caregiver demands and prepares patients for primary reconstruction surgery. These two-case reports also address the variations in premaxillary retraction among infants with and without protruded premaxilla.

INTRODUCTION/BACKGROUND:Press-fit acetabular components achieve long-term fixation through osseointegration, yet the extent of bone ingrowth necessary for durable stability in well-functioning implants remains unclear. Postmortem retrievals provide a unique opportunity to directly assess the bone-cup interface in clinically successful total hip arthroplasties (THAs). This study evaluated osseointegration and biomechanical fixation strength in deceased-donor acetabular components to better define the characteristics of stable long-term fixation. METHODS:Cadaver pelvis specimens containing uncemented THAs from a single institution were evaluated. There were 29 acetabular components that underwent axial pull-out testing using a universal testing machine. A total of seven of these were additionally processed for histologic evaluation, including dehydration, acrylic embedding, thin-sectioning, staining, and digital imaging. Osseointegration was quantified by bone-area fraction occupancy (%BAFO), representing the proportion of bone occupying the porous thread spaces of the cup. RESULTS:All 29 specimens failed through fracture of the ilium rather than at the bone-cup interface, indicating that the mechanical integrity of the osseointegrated construct exceeded that of the surrounding bone under axial tension. Among the seven histologically analyzed components, %BAFO ranged from 4.2 to 27.0% (mean 15.1%), despite all implants being clinically stable at the time of death. There were no significant linear correlations observed between %BAFO and time implanted, fracture load, or body mass index. A significant quadratic relationship between %BAFO and age was identified, peaking near 81 years. CONCLUSIONS:Cementless acetabular components exhibited strong fixation despite modest osseointegration, with failure occurring through host bone on axial testing. Durable biological fixation appears achievable with limited, but mechanically favorable bone ingrowth.

Vascularized composite allotransplantation (VCA) is increasingly recognized as a reconstructive option that offers substantial benefits for patients with severe tissue loss, including injuries affecting the face and hand. Despite its clinical promise, VCA remains limited by surgical complexity, the need for long-term immunosuppression, and associated morbidity. Preclinical models are therefore essential for refining surgical techniques, testing novel immunomodulatory approaches, and investigating ischemia/reperfusion injury. Compared with large-animal models, rodent models offer advantages in accessibility and cost while adhering more closely to the 3Rs principles of Replacement, Reduction, and Refinement. Among them, the mouse offers unique advantages, including the availability of humanized strains, a broad panel of well-characterized antibodies, and compatibility with advanced immunological assays. These features make the mouse particularly valuable for translational VCA research. Murine VCA, however, requires demanding supermicrosurgical skills, as vascular anastomoses are performed on vessels measuring approximately 0.3-0.5 mm in diameter. To enhance reproducibility, we provide technical tips that have proven critical to the success of these procedures. These include the insertion of a nylon filament into the vessel lumen to stabilize the anastomosis, careful separation of the artery and vein over a sufficient distance along the pedicle, precise anesthetic dosing, and specific maneuvers to prevent pedicle twisting. We also highlight common pitfalls and errors, offering practical guidance to improve outcomes. Here, we describe a comprehensive, stepwise protocol for mouse heterotopic hindlimb-to-neck transplantation, accompanied by instructional video material. This non-functional model minimizes postoperative morbidity compared with orthotopic transplantation while providing robust and reproducible results. It is ideally suited for training in supermicrosurgery and for addressing key experimental questions in VCA, including immune tolerance, graft preservation, and ischemia/reperfusion mechanisms. This methodology provides investigators with a reliable murine platform to advance translational VCA research and to develop innovative strategies aimed at improving outcomes in reconstructive transplantation.

Breast-conserving therapy (BCT), consisting of lumpectomy followed by adjuvant radiation, provides oncologic outcomes equivalent to mastectomy for many patients with breast cancer. As survivorship increases, the demand for aesthetic restoration after BCT has grown; however, reconstructive strategies in this setting remain less standardized than those following mastectomy. Reconstruction after BCT presents distinct challenges due to partial tissue loss, nonuniform radiation injury, progressive fibrosis, and wide variability in patient expectations and tolerance for revision surgery. Consequently, mastectomy-based reconstructive algorithms are often insufficient for guiding care in this population. This review synthesizes contemporary reconstructive options following BCT through a personalized medicine framework, emphasizing patient-specific risk factors that influence technique selection, timing, and long-term outcomes. Key determinants include radiation exposure, breast morphology, comorbid conditions, prior breast surgery, and psychosocial preferences. Oncoplastic volume displacement, implant-based augmentation, fat grafting, and autologous reconstruction each demonstrate distinct risk profiles in the post-BCT tissue environment and require individualized application. Timing of reconstruction and willingness to undergo staged procedures play a central role in outcome durability and patient satisfaction. Across reconstructive strategies, revision burden emerges as a clinically meaningful, patient-centered outcome that is not adequately captured by traditional short-term complication metrics. A risk-informed approach that integrates individualized risk assessment with transparent counseling and shared decision-making may improve alignment between reconstructive planning and patient goals. Personalized reconstruction after BCT requires moving beyond technique-driven paradigms toward flexible, longitudinal care pathways. Future efforts should focus on developing BCT-specific predictive models and incorporating patient-reported outcomes to advance personalized reconstructive care.

INTRODUCTION/BACKGROUND:Nasoalveolar molding (NAM) is a presurgical technique used to improve nasolabial cleft severity prior to repair. This study ascertains the rates of revision surgery in a large cohort of patients with a cleft who underwent NAM and were followed to facial maturity. METHODS:A single-institution retrospective review of all patients with a cleft who underwent NAM from 1995 to 2005 was performed. Operative reports were queried to record intervnetions to the lip and nose performed through facial maturity. Patients with incomplete medical records prior to reaching skeletal maturity were excluded. Pearson correlation coefficient and two-paired student t-tests were employed for data analysis. RESULTS:A total of 81 patients were studied, 46 male and 35 female, with 52(64%) unilateral and 29(36%) bilateral clefts. Average age at last follow-up was 18.8 years. Revision to the lip was carried out in 36(44%) of patients, and only 3(3.7%) prior to reaching facial maturity. Re-repair was performed in 10(12%) patients. No significant difference of lip revisions rates were seen among patients with a bilateral and unilateral cleft (48% v. 37.9%, p=0.38).Immature cleft rhinoplasty was performed in 3(4%) patients, and more commonly among patients with a unilateral (23%) than bilateral cleft (10%), p=0.18. Mature rhinoplasty was performed in 46(57%) patients, similarly between unilateral (58%) and bilateral clefts (55%). Nasal revision following mature rhinoplasty was performed in 8(10%) patients. CONCLUSIONS:Nasoalveolar molding is an effective adjunct to surgical management in reducing the burden of operative revisions as patients reach facial maturity, namely for bilateral clefts.

Vascularized composite allotransplantation (VCA) involves immunologically heterogeneous tissues with a high incidence of acute rejection. Reliable and timely detection of rejection onset remains a major unmet challenge in VCA management. This longitudinal exploratory case study assessed blood- and tissue-derived biomarkers for acute rejection monitoring in a full-face and bilateral hand transplant recipient over 4.6 years. Of these biomarkers, donor-derived cell-free DNA (dd-cfDNA) and short tandem repeats (STR) showed trends toward elevated recipient levels during acute rejection, though differences were not statistically significant. CD8⁺ T-cell percentages increased before acute rejection onset, highlighting a temporal association. Anti-angiotensin II type 1 receptor antibody (AT1R-Ab) levels did not differ significantly between acute rejection and non-rejection episodes, possibly due to prophylactic immune cell depletion. While dd-cfDNA and STR levels correlate with rejection episodes and reflect key graft cellular events, CD8⁺ T-cell dynamics demonstrated the strongest temporal association with rejection episodes in this patient, though no biomarker showed statistically significant differences. These exploratory findings support the need for further longitudinal, multi-patient studies to validate emerging biomarkers and refine rejection monitoring strategies in VCA.

BACKGROUND AND OBJECTIVE/UNASSIGNED:Personalized medicine tailors interventions to a patient's unique anatomy and physiology. Three-dimensional printing (3DP) enables this precision for complex airway disease, including tracheal stenosis, tracheobronchomalacia, aerodigestive fistulas, and segmental defects, where conventional silicone or metallic stents and surgical reconstruction often fail to provide durable, anatomically congruent solutions. Tissue engineering and 3DP promise patient-specific devices and regenerative scaffolds that maintain patency, resist collapse, and minimize immunogenicity. This review synthesizes clinical and preclinical progress, highlighting materials, design strategies, biologic integration, and translational barriers. METHODS/UNASSIGNED:implantation. Pediatric (<18 years), egg/mouse/rat preclinical studies, review articles, and abstracts were excluded. Data extracted included publication details, participant characteristics, device materials and printing methods, and outcomes. KEY CONTENT AND FINDINGS/UNASSIGNED:From 808 records, 16 clinical and 56 preclinical studies were analyzed. Clinically, indirect 3DP with silicone or metallic alloys predominated, creating Y-stents or straight stents for post-lung transplant (LTx) stenosis, tracheobronchomalacia, granulomatosis with polyangiitis, malignant obstruction, and aerodigestive fistulas. 3DP technologies facilitate the synthesis of customized stents that can better conform to individual airway geometries, offering more precise therapeutic options than conventional one-size-fits-all devices. In parallel, preclinical studies aim to address the limitations observed within clinical settings by focusing on long-term, regenerative solutions. Preclinical studies focused on biodegradable scaffolds, commonly polycaprolactone (PCL), enhanced through surface modification or hybridization with hydrogels such as gelatin methacryloyl (GelMA) or silk fibroin and bioactive factors like transforming growth factor-β (TGF-β) or stromal cell-derived factor-1 (SDF-1). Bilayer constructs with epithelial and chondrogenic components supported epithelialization, cartilage formation, and vascularization. Advanced strategies such as exosome use, ferroptosis inhibition, and heterotopic preconditioning improved integration. CONCLUSIONS/UNASSIGNED:3DP enables anatomically tailored airway implants and promising regenerative scaffolds. Translation is limited by technical variability, regulatory complexity, and sparse long-term data. Standardized protocols, rigorous trials, and multidisciplinary collaboration are essential to bring 3DP airway reconstruction into clinical practice.