Objective To summarize the latest development of the oral and maxillofacial reparative and reconstructive surgery. Methods The literature at home and abroad was reviewed and the main creative concepts in this field were summarized and analyzed. Results In the terms of the oral and maxillofacial reparative and reconstructive surgery, the significant achievements were made in the following aspects: transplantation of revascularized tissues, artificial materials, plateletrich plasma, distraction osteogenesis, microsurgery on fracture, arthroplasty, dynamic repair, and computerassisted design. Conclusion Based on the previous achievements, the oral and maxillofacial reparative and reconstructive surgery will have a further development, especially in the individualized treatment.
OBJECTIVE: To explore the pluripotential and possible clinical application of adult stem cells. METHODS: The original articles on adult stem cells were extensively reviewed and the recent advances were summed up. RESULTS: Adult stem cells were located at different tissues of human beings and had the pluripotentiality of self-renewal and differentiation. Some adult stem cells, such as in marrow, nerve, muscle, fat, skin, liver, tissues, had the ability to differentiate into the unrelated cell type. CONCLUSION: The pluripotential, ubiquitous distribution and plasticity of adult stem cells offered a new way in regeneration medicine, such as cell therapy and tissue engineering.
Objective
To review the mechanism and effects of cell autophagy in the pathophysiology changes of peripheral nerve injury.
Methods
The recent literature about cell autophagy in peripheral nerve injury and regeneration was extensively reviewed and summarized.
Results
The researches through drugs intervention and gene knockout techniques have confirmed that the Schwann cell autophagy influences the myelin degeneration, debris clearance, inflammatory cells infiltration, and axon regeneration through JNK/c-Jun pathway. To adjust autophagy process could slow down the Wallerian degeneration, maintain the integrity of injured nerve, while the effect on axon regeneration is still controversial.
Conclusion
The Schwann cell autophagy plays a key role in the pathophysiology changes of peripheral nerve injury, the further study of its mechanism could provide new methods for the therapy of peripheral nerve injury.
This study aimed to investigate biomechanical properties of synthetic implants for reconstructive surgery of pelvic floor dysfunction. In this dissertation, we chose four synthetic implants, i.e. total pelvic floor repair system (PROLIFT), gynecone TVT obtutator system (TVT-O), intra-vaginal sling placement device (IVS) and acellular dermal matrix (Renov), for tensile test respectively. The biomechanical properties of four synthetic implants were measured and analyzed using a material testing machine (Instron 4302 versatile material testing machine). The biomechanical parameters included ultimate stress strength, modulus of elasticity, maximum load and maximum elongation. The results showed that the maximum load of the four symthetic implants was TVT-O > IVS > PROLIFT > Renov, and the maximum load of TVT-O was significantly higher than PROLIFT and Renov ( P < 0.05). The ultimate stress strength was TVT-O > IVS > PROLIFT > Renov, with no significant differences among them ( P > 0.05). The maximum elongation of the four implants was TVT-O > PROLIFT > IVS > Renov, and the maximum elongation of TVT-O and PROLIFT were both significantly higher than Renov ( P < 0.05). The modulus of elasticity was IVS > Renov > TVT-O > PROLIFT, with no significant differences among them ( P > 0.05). Taken together, the present study demonstrates that the modulus of elasticity of IVS was the highest in the four synthetic implants; TVT-O had the highest mechanical strength; The maximum load, ultimate stress strength and maximum elongation of Renov were all the lowest; The mechanical properties of PROLIFT was the most stable, and its modulus of elasticity was the lowest in the four synthetic implants, which had good extensibility and elasticity. Therefore, it is necessary to pay attention to the biomechanical properties of new pelvic reconstructive materials for the clinical pelvic reconstructive surgery.
Objective To expound the progress of the reparative and reconstructive surgery (RRS), especially in the recent 20 years, and the developmental direction in the future. Methods We reviewed the information from many books, journals, and conference compilations concerned with RRS. Results RRS emerged with modern surgery. After its development for 20 years, distinguished achievements were obtained in technologies, e.g., biological fixation of bone fracture, bioactive materials, stem cells, tissue engineering, bioactive factor, and induction/ derivation regeneration of tissues and organs. Moreover, ideas were continuously refreshed in RRS, such as emphasis on the equal importance of donor and recipient in autologous transplantation, and of structural and functional restoration in dentofacial surgery. Conclusion Further research programs should be conducted, especially in the fields of creative theories, innovative techniques, and rehabilitation engineering.
Hypospadias is a common congenital external genital structural malformation in the males, where significant deviations in appearance primarily affect the psychosocial health of the entire family during childhood, ultimately harming the patient’s social integration, leading to high expectations for normal appearance from the patients and their families. The anatomical abnormalities of hypospadias exhibit considerable individual differences, and the difficulty of surgical repair largely depends on the experience of the surgeon, with high rates of complications and reoperations. Therefore, surgeons’ expectations for surgical outcomes are more focused on functional reconstruction and reducing complication rates, creating a gap between the expectations of both doctors and patients. By measuring anatomical abnormalities, it may be a feasible approach to set normal appearance goals to achieve normal appearance outcomes. This article introduces the use of anthropometric assessment methods to accurately describe the anatomical abnormalities of hypospadias and proposes specific morphological goals for the reconstruction of various parts, implementing surgical operations in a goal-oriented manner. The aim is to establish a unified baseline decision-making system for hypospadias surgery, shorten the learning curve, improve the quality of clinical research, and achieve integrated reconstruction of structure, function, and aesthetics for patients.
Objective To investigate the currently-used biomaterials in reparative and reconstructive surgery and to clarify the relationship between the development of biomaterials and the progress of reparative and reconstructive surgery. Methods Based on the author’s many years’ scientific researches and combined with the literature available at home and abroad, the biomaterials used in the clinical practice, and their kinds and application fields were summarized. Results Based on the sufficient knowledge of the component structure of biomaterials and the patient’s pathological status, the matching biomaterials could be designed and developed. According to the analysis on some common defects occurring in the skin, bone, cartilage, vocalcord, nerve, and drum membrane, the methods of repairing the defects with biomaterials that we had developed, such as collagen, chitosan, and hyaluronate, achieved good results. Conclusion The rapid development of biomaterials can greatly promote progress of reparative and reconstructive surgery andthere exists a dependence relationship between the two. The related histological responses and the importance of biological estimation after implantation of biomaterials should be emphasized.
Reconstructive surgery is fundamentally dedicated to restoring tissues and organs damaged by trauma, disease, or congenital anomalies, with the goal of re-establishing both physiological function and anatomical form. Facial reconstruction, as one of the most representative and technically demanding areas of the discipline, embodies the evolution of its concepts and technological progress. Using facial reconstruction as the point of departure, this article systematically delineates the scientific underpinnings and developmental frontiers of the field. Centered on four core elements—donor construction, vascular reconstruction, precision transplantation, and functional recovery, this article articulates the internal logic and technical considerations of both autologous and allogeneic reconstructive methods. Further, from the perspectives of regenerative donor fabrication, the digital and intelligent transformation of reconstructive surgery, breakthroughs in immune tolerance strategies, and the integration of engineering technologies to enhance functional outcomes, the article envisions potential paradigm shifts that may redefine the discipline. By leveraging facial reconstruction as a highly integrated lens, this work aims to elucidate the key drivers of innovation and chart the future directions of reconstructive surgery.
