Search Results (175)

Background/Objectives: Tracheal replacement remains an unmet necessity in airway pathology treatment. We describe a decellularization and cryopreservation tracheal replacement protocol tested in vivo. Methods: A prospective experimental cohort study is conducted in which tracheas from white New Zealand rabbits (n = 32) are decellularized and cryopreserved, sterilized with gamma radiation, and tutorized with a stent. Bilateral, pedicled fasciomuscular flaps are harvested, implanting one cryopreserved and one non-cryopreserved in each of 16 rabbits, dividing them into four groups (remaining tracheas implanted at 2, 4, 8, and 12 weeks, respectively). After removal, the tracheas are both histologically and biomechanically evaluated. Results: Decellularization is effective, with minimal effects on the biomechanical characteristics of the trachea. Implantation results in a well-vascularized organ, with no inflammatory or tissular rejection cellular response. Organs achieve all basal histological and biomechanical characteristics within 8 weeks of implantation, with no differences observed between cryopreserved and non-cryopreserved scaffolds. Conclusions: The present decellularization and cryopreservation protocol yields biocompatible, well-tolerated by the host tracheas with analogous histological and biomechanical characteristics to native ones. Full article

Background: Post-traumatic osteomyelitis (PTO) of the lower extremity is among the most demanding problems in orthoplastic reconstructive surgery. It typically follows open fractures, failed osteosynthesis, or implant infection. Effective management requires coordinated infection control, stable skeletal fixation, and timely vascularized soft-tissue coverage. Methods: We conducted a retrospective case series of 20 consecutive patients with PTO of the lower limb treated between 2021 and 2024 at a tertiary orthoplastic center. All patients underwent radical debridement, culture-directed intravenous antibiotic administration, and soft-tissue reconstruction using local muscle, fasciocutaneous, or free flaps; vascularized bone flaps were used to select nonunion cases. The primary outcomes were flap survival, complications, infection resolution, and limb salvage. Exploratory analyses included descriptive subgroup summaries by flap category. Results: Among 20 patients (15 men, 5 women; mean age 53.6 years), reconstructions included reverse/pedicled sural flaps (n = 9), hemisoleus muscle flaps (n = 7), medial gastrocnemius muscle flaps (n = 2), peroneus brevis muscle flaps (n = 2), and free flaps (n = 6), which comprised anterolateral thigh (ALT), medial femoral condyle (MFC) osteoperiosteal, deep circumflex iliac artery (DCIA) osteocutaneous, and radial forearm free flaps (RFFFs). Single-flap reconstructions were performed in 13 cases, whereas multistage/multiflap strategies were used in 7. Overall flap survival was 90%. Major flap complications comprised partial necrosis in two reverse sural flaps and one complete loss of a reverse sural flap; two patients had minor wound dehiscence. Infection resolved in 18/20 patients (90%; 95% CI ≈ 0.70–0.97). One patient requested below-knee amputation due to persistent nonunion associated with a pathological fracture. At a mean 10-month follow-up, all limb-salvaged patients were ambulatory. Conclusions: Effective reconstruction of PTO is improved by using a patient-specific algorithm that considers the defect location, vascular status, and host comorbidities. Local muscle and fasciocutaneous flaps remain dependable for most defects, with free or vascularized bone flaps reserved for composite or recalcitrant cases. Early referral to high-volume centers, radical debridement, and orthoplastic collaboration are critical for optimizing limb salvage. Our findings should be interpreted in light of the study’s retrospective design and small sample size. Full article

Background: Three-dimensional (3-D) printing paired with tissue-engineering strategies promises to overcome the volume, contour, and donor-site limitations of traditional breast reconstruction. Patient-specific, bioabsorbable constructs could enable one-stage procedures that better restore aesthetics and sensation. Methods: A narrative review was conducted following a targeted PubMed search (inception—April 2025) using combinations of “breast reconstruction,” “tissue engineering,” “3-D printing,” and “scaffold.” Pre-clinical and clinical studies describing polymer-based chambers or scaffolds for breast mound or nipple regeneration were eligible. Data was extracted on scaffold composition, animal/human model, follow-up, and volumetric or histological outcomes. Results: Forty-three publications met inclusion criteria: 35 pre-clinical, six early-phase clinical, and two device reports. The predominant strategy (68% of studies) combined a vascularized fat flap with a custom 3-D-printed chamber to guide adipose expansion. Poly-lactic acid, poly-glyceric acid, poly-lactic-co-glycolic acid, poly-4-hydroxybutyrate, polycarbonate, and polycaprolactone were the principal polymers investigated; only poly-4-hydroxybutyrate and poly-lactic acid have been tested for nipple scaffolds. Bioabsorbable devices supported up to 140% volume gain in large-animal models, but even the best human series (≤18 months) achieved sub-mastectomy volumes and reported high seroma rates. Mechanical testing showed elastic moduli (5–80 MPa) compatible with native breast tissue, yet long-term load-bearing data are scarce. Conclusions: Current evidence demonstrates biocompatibility and incremental adipose regeneration, but clinical translation is constrained by small sample sizes, incomplete resorption profiles, and regulatory uncertainty. Standardized large-animal protocols, head-to-head polymer comparisons, and early human feasibility trials with validated outcome measures are essential next steps. Nevertheless, the convergence of 3-D printing and tissue engineering represents a paradigm shift that could ultimately enable bespoke, single-stage breast reconstruction with superior aesthetic and functional outcomes. Full article

Background and Clinical Significance: Mucormycosis is a rare but potentially fatal opportunistic fungal infection with high morbidity and mortality rates despite aggressive treatment. Rhinocerebral mucormycosis represents the most common form, requiring prompt recognition and multidisciplinary management. Case Presentation: We report a 60-year-old female with glucose intolerance who developed extensive rhinocerebral mucormycosis involving the right maxillary sinus, orbit, and skull base. Despite initial antifungal therapy with amphotericin B, rapid disease progression necessitated radical surgical intervention including complete right hemimaxillectomy, orbital enucleation, and partial sphenoid bone resection with carotid siphon exposure. Initial reconstruction using a free scapular osteocutaneous flap failed due to vascular compromise, requiring salvage coverage with a temporalis muscle flap. Postoperatively, the patient recovered without cerebrovascular complications. Long-term rehabilitation involved implant-supported prosthetic reconstruction with osseointegrated implants placed in the remaining maxilla and fabrication of a custom obturator prosthesis to restore facial support and masticatory function. Conclusions: This case demonstrates the aggressive nature of mucormycosis requiring extensive surgical resection and highlights the challenges of reconstruction in infected tissues. While free flap reconstruction offers theoretical advantages, local tissue options provide reliable coverage when microvascular procedures fail. Comprehensive multidisciplinary care including prosthetic rehabilitation can achieve satisfactory functional outcomes following radical resection. Full article

In reconstructive surgery, usage of different flaps is essential to cover tissue defects. Twisting, stretching or damaging the vascular pedicle may jeopardize the flaps’ viability. The aim of our experiment was to monitor tissue perfusion parameters of local versus rotated musculocutaneous flaps. In rats, musculus cutaneus maximus-based muscle–skin flaps were prepared bilaterally: one was sutured back to its original position, while the other flap was rotated to the ventral chest region (Flap group). In the Control group, flaps were not prepared. Tissue microcirculation was monitored intraoperatively, and on the 7th and 14th postoperative days. Blood samples were taken for testing hematological and hemorheological parameters. At the end of the observation period, biopsies were taken for biomechanical (tensile strengths) and histological investigations. We found that leukocyte and platelet counts significantly increased in the Flap group, while erythrocyte deformability decreased and aggregation increased. Although both local and rotated flaps survived and wound healing progressed well, in microcirculatory recordings, hypoperfusion and visible red blood cell aggregates were seen mostly in the rotated flaps. The rotated flaps were biomechanically weaker compared to local flaps or intact skin regions. This new model seems to be suitable for studying further flap pathophysiology focusing on tissue perfusion. Full article

Background: Propeller perforator flaps (PPFs) have gained increasing popularity in lower limb reconstruction. While their use in elective settings is well described, their role in acute post-traumatic reconstruction remains less defined. Methods: A systematic review was conducted following PRISMA 2020 guidelines. PubMed, Scopus, and Cochrane Library were searched on 2 June 2025, for studies reporting on the use of propeller flaps in lower limb reconstruction after trauma. Only studies rated as “good” quality using the NIH quality assessment tool were included. Data on anatomical location, flap survival, complications, reinterventions, and functional and patient-reported outcomes were extracted and analyzed descriptively. Results: Twenty-eight studies published between 2008 and 2024 were included, accounting for 619 propeller flaps in a population of 838 patients. The majority of flaps were fasciocutaneous, with the posterior tibial artery being the most commonly used source vessel. Among the flaps included, 422 (68.2%) achieved complete survival without necrosis, 84 (13.6%) developed partial necrosis, and 23 (3.7%) failed completely. Considering all flaps that remained viable after any required revisions or conservative management, the overall survival rate was 97%. Venous congestion was the leading cause of flap compromise. The overall complication rate was 21.8%, increasing to 35.1% in acute trauma cases. A statistically significant correlation was found between wide rotation angles (≥150°) and higher complication rates (p = 0.015). The mean follow-up duration was 12.5 months. Functional and aesthetic outcomes were poorly reported, but when available, they were generally favorable. Conclusions: PPFs represent a valuable option for lower limb reconstruction, providing reliable coverage while preserving major vascular axes. Their application in acute trauma settings appears promising, although current evidence is limited by small verified cohorts and predominantly retrospective study designs. Despite higher complication rates in acute cases, flap survival remains consistently high, supporting their use in carefully selected patients. Further prospective studies with standardized outcome reporting are needed to clarify long-term functional results and refine selection strategies. Full article

Background: Reconstruction of oral cavity defects following oncologic surgery presents both functional and esthetic challenges. While microvascular free flaps remain the gold standard for large defects, local flaps based on facial vessels offer effective solutions for small-to-medium-sized reconstructions. This narrative review evaluates the clinical utility of three commonly used facial vessel-based flaps: facial artery musculomucosal, submental, and nasolabial flaps. Methods: A literature search was conducted using PubMed, targeting studies from 1981 to 2025 that described the anatomical basis, harvesting techniques, modifications, indications, advantages, disadvantages, complications, limitations, and outcomes of these flaps. A total of 73 full-text articles were included based on predefined inclusion criteria. Results: The FAMM flap provides versatile intraoral coverage with low donor site morbidity. The submental flap is effective in select patients, particularly those unfit for microvascular surgery, though its oncologic safety in neck-positive cases is limited. The nasolabial flap offers good esthetic and functional results with minimal external scarring. Each flap presents unique attributes regarding reach, vascularity, and complication profiles. Conclusions: Facial vessel-based flaps are viable and effective options for oral cavity reconstruction in appropriate clinical scenarios. Thorough knowledge of flap anatomy, indications, and oncologic considerations is essential for optimal outcomes. Full article

Objectives: Ameloblastoma is a locally aggressive odontogenic tumor of the jaws characterized by a high recurrence rate. This work aims to present our clinical experience in managing patient oral rehabilitation following an extensive mandibular ameloblastoma, with a specific focus on mandibular reconstruction using a fibula free flap, followed by dental implant placement and prosthetic rehabilitation in a female patient. Additionally, we provide a comprehensive review of the current evidence on surgical management, reconstruction techniques, and long-term outcomes in ameloblastoma treatment. Methods: A 44-year-old female patient presented with a painless swelling in the left mandible. Orthopantomography (OPG) and computed tomography (CT) demonstrated a well-defined radiolucent lesion extending from the canine to the second premolar. An incisional biopsy was performed, and histopathological examination confirmed the diagnosis of mandibular ameloblastoma. The patient underwent segmental resection of the left mandibular body, followed by immediate reconstruction using a vascularized fibular free flap. Eighteen months postoperatively, four dental implants were placed. One implant failed during the osseointegration phase and was removed. Due to residual hard and soft tissue deficiency, prosthetic rehabilitation was achieved with a metal-reinforced resin overdenture, restoring both function and aesthetics. Results: At the three-year follow-up, clinical and radiographic examinations revealed no evidence of tumor recurrence. The patient remained asymptomatic, reporting neither pain nor functional discomfort. Prosthetic rehabilitation with the metal-reinforced resin overdenture was successfully completed, achieving satisfactory masticatory function and aesthetics. Conclusions: The use of the fibula free flap for mandibular reconstruction after ameloblastoma resection provides excellent flexibility, enabling effective bone integration of dental implants. Full article

Background: Chronic wounds represent a persistent clinical challenge and impose a considerable burden on healthcare systems. These lesions often require multidisciplinary management due to underlying factors such as microbial colonization, impaired immunity, and vascular insufficiencies. Regenerative therapies, particularly autologous approaches, have emerged as promising strategies to enhance wound healing. Adipose tissue-derived stem cells (ADSCs) and platelet-rich plasma (PRP) may improve outcomes through paracrine effects and growth factor release. Methods: A prospective observational study was conducted on 31 patients with chronic wounds that were unresponsive to conservative treatment for over six weeks. Clinical and photographic evaluations were employed to monitor healing. All patients underwent surgical debridement, with adjunctive interventions—negative pressure wound therapy, grafting, or flaps—applied as needed. PRP infiltration and/or autologous adipose tissue transfer were administered based on wound characteristics. Wound area reduction was the primary outcome measure. Results: The cohort included 17 males and 14 females (mean age: 59 years). Etiologies included venous insufficiency (39%), diabetes mellitus (25%), arterial insufficiency (16%), and trauma (16%). Most lesions (84%) were located on the lower limbs. All patients received PRP therapy; five underwent combined PRP and fat grafting. Over the study period, 64% of the patients exhibited >80% wound area reduction, with complete healing in 48.3% and a mean healing time of 49 days. Conclusions: PRP therapy proved to be a safe, effective, and adaptable treatment, promoting substantial healing in chronic wounds. Autologous adipose tissue transfer did not confer additional benefit. PRP may warrant inclusion in national treatment protocols. Full article

A skin flap is a composite tissue unit comprising skin and subcutaneous fat with an intact vascular supply. Skin flaps are commonly employed for wound reconstruction, transplantation of damaged tissues, and cosmetic procedures. However, flap necrosis resulting from ischemia/reperfusion injury (IRI) is a frequent complication, leading to surgical failure. Therefore, This review systematically summarizes the mechanisms and therapeutic interventions targeting specific modalities of programmed cell death (PCD) in the context of IRI compromising flap survival. These interventions encompass a range of strategies, including preconditioning, systemic administration, and local drug delivery. Furthermore, we summarize key therapeutic targets for various types of PCD, along with shared pathways and therapies applicable across multiple PCD modalities. The findings presented in this review validate the feasibility of targeted therapies against PCD to prevent post-reconstructive flap necrosis. These findings provide novel strategies, such as targeting common pathways in PCD and leveraging diverse biomaterials, to enhance therapeutic outcomes. Further clinical investigations are warranted to target PCD pathways for the treatment of flap necrosis. Full article

Several postmastectomy breast reconstruction techniques and procedures have been implemented, although with limited evaluation of benefits and adverse effects. We conducted a systematic review on the plane and timing of reconstruction, and on the use of nipple-sparing mastectomy, acellular dermal matrix, and autologous fat grafting as the evidence base for an updated clinical practice guideline on breast reconstruction for Ontario Health (Cancer Care Ontario). Both immediate and delayed reconstruction may be considered, with preferred timing depending on factors such as patient preferences, type of mastectomy, skin perfusion, comorbidities, pre-mastectomy breast size, and desired reconstructive breast size. Immediate reconstruction may provide greater psychological or quality of life benefits. In patients who are candidates for skin-sparing mastectomy and without clinical, radiological, and pathological indications of nipple-areolar complex involvement, nipple-sparing mastectomy is recommended provided it is technically feasible and acceptable aesthetic results can be achieved. Surgical factors including incision location are important to reduce necrosis by preserving blood supply and to minimize nerve damage. There is a role for both prepectoral and subpectoral implants; risks and benefits will vary, and decisions should be made during consultation between the patient and surgeons. In patients who are suitable candidates for implant reconstruction and have adequate mastectomy flap thickness and vascularity, prepectoral implants should be considered. Acellular dermal matrix (ADM) has led to an increased use of prepectoral reconstruction. ADM should not be used in case of poor mastectomy flap perfusion/ischemia that would otherwise be considered unsuitable for prepectoral reconstruction. Care should be taken in the selection and handling of acellular dermal matrix (ADM) to minimize risks of infection and seroma. Limited data from small studies suggest that prepectoral reconstruction without ADM may be feasible in some patients. Autologous fat grafting is recommended as a treatment for contour irregularities, rippling following implant-based reconstruction, and to improve tissue quality of the mastectomy flap after radiotherapy. Full article

Background: Steal syndrome in the setting of microvascular reconstruction refers to a phenomenon whereby blood flow is diverted from the native tissue to the free flap, leading to ischemia and potential limb loss. In the present study, we aim to comprehensively evaluate the occurrence and management of steal syndrome in free flap reconstruction of the lower extremities. Methods: A thorough literature search was conducted across the MEDLINE, Embase, Cochrane Library, and Scopus databases up to 29 January 2025. Studies were selected based on predefined inclusion criteria focusing on free flap microvascular reconstruction in the lower extremities with a focus on steal syndrome. Two independent reviewers assessed and extracted data. Results: Three studies were included, involving seven patients, with a mean age of 65.66 ± 5.89 years, who developed steal syndrome following free flap microvascular reconstruction. The most common revision involved below-the-knee amputation (BKA) due to ischemic complications. Comorbidities such as peripheral vascular disease (PVD), diabetes, and hypertension were present in all cases. The majority of anastomoses (85.7%) were end-to-side (ETS), with only one case utilizing a flow-through configuration. The majority of cases (n = 5, 71.4%) were reconstructed using latissimus dorsi (LD) flaps, with the remaining two cases using rectus abdominis (n = 1) and gracilis (n = 1) flaps. The recipient vessel was the anterior tibial artery in two patients (28.6%), the dorsalis pedis artery in two patients (28.6%), and the popliteal artery in three patients (42.9%). The most common salvage procedure was below-the-knee amputation (BKA), performed in four patients (57.1%). One patient required revision of the venous anastomosis and flap debridement, followed by a Chopart amputation (n = 1, 14.3%). Conclusions: The occurrence of steal syndrome in free flap microvascular reconstruction of the lower extremities is rare but can lead to significant complications, including amputation. The findings indicate that steal syndrome is more likely in patients with pre-existing vascular conditions such as PVD and diabetes. While surgical technique and flap type may influence its development, further studies are needed to identify specific anatomical and clinical predictors. The absence of a unified treatment guideline underscores the need for further investigation into effective management strategies to prevent amputation and optimize patient outcomes. Full article

In Maxillofacial Reconstruction Applications (MRA), nonunion is one of the critical complications after the reconstruction process and fracture treatment, including bone grafts and vascularized flap. Nonunion describes the failure of a fractured bone to heal and mend after an extended period. Different systems and methods have been developed to monitor bone regeneration and fracture healing during and after the treatment. However, the developed systems have limitations and are yet to be used in MRA. The proposed smart reconstruction plate is a microdevice that could be used in MRA for wireless monitoring of fracture healing by measuring the forces applied to the reconstruction plate. The device is wireless and can transmit the acquired data to a human–machine interface or an application. The designed system is small and suitable for use in MRA. The results of finite element analysis, as well as experimental verification, showed the functionality of the proposed system in measuring small changes on the surface strain of the reconstruction plate and determining the corresponding load. By using the proposed system, continuous monitoring of bone regeneration and fracture healing in oral and maxillofacial areas is possible. Full article

Background/Objectives: The rehabilitation of severely resorbed anterior alveolar ridges presents significant clinical challenges due to esthetic demands and the limited bone volume in this region. Basal cortical implants, which are designed to engage dense basal bone, could offer an alternative by providing stable anchorage in compromised sites. Methods: This report evaluates the ARi^® Implant System, which features cortical anchorage and a calcium-incorporated nanostructured surface (XPEED^®) in two anterior ridge defect cases. Soft tissue augmentation using a vascularized interpositional periosteal (VIP) flap was applied in one case, and biphasic calcium phosphate (BCP) grafting and collagen membranes were employed for ridge contouring in both cases. Results: At a two-year follow-up, both cases showed stable peri-implant tissues and satisfactory esthetic results. Conclusions: Although basal cortical implants provide good primary stability, their use does not eliminate the need for bone augmentation, especially in the anterior esthetic region. Future clinical studies are required to substantiate long-term outcomes and broader applicability. Full article

Aortic dissection (AD) is a highly lethal cardiovascular emergency, and clinical studies have found that a high percentage of AD patients are hypertensive. In previous studies, the AD model was simplified, such as by treating the vessel wall as a single-layer rigid material, ignoring the complex biomechanical factors of the vascular lumen. This study elucidates key biomechanical mechanisms by which hypertension promotes primary AD progression using multiscale modeling. First, based on experimental data from longitudinal and circumferential uniaxial tensile testing of porcine aortic walls (5–7-month-old specimens), a constitutive model of the aortic wall was developed using the Holzapfel–Gasser–Ogden (HGO) framework. The material parameters were calibrated via inverse optimization in ABAQUS-ISIGHT, achieving close alignment with mechanical properties of the human aorta. Using this validated model to define the hyperelastic properties of the aortic wall, a multiphysics coupling platform was constructed in COMSOL Multiphysics 6.2, integrating computational fluid dynamics (CFD) and fluid–structure interaction (FSI) algorithms. This framework systematically quantified the effects of blood pressure (bp) fluctuations on compressive stresses, von Mises stresses, and deformation of the intimal flap within the AD lesion region. With constant blood rheology, elevated blood pressure enhances wall stresses (compressive and von Mises), and intima-media sheet deformation, this can trigger initial rupture tears, false lumen dilation, and branch arterial flow obstruction, ultimately deteriorating end-organ perfusion. Full article