Morphological Analysis of Nose in Patients of Tessier No. 0 Cleft With a Bifid Nose in China

Objective: Facial cleft involves complex malformations. No study assessed the facial deformity of Tessier No. 0 cleft with a bifid nose. Thus, we used anthropometric measurements to access the nose in patients.Methods: A total of 24 bifid nose deformities underwent surgery at our institution between 2010 and 2019. Standardized photographs were taken preoperatively and postoperatively. Landmarks were identified on these images; measurements for nasal analysis were performed and compared with the established Chinese norms. Surgical method differences were also analyzed.Results: The median follow-up time was 2.51 years. Postoperatively, there is a significant difference in comparison with preoperative in the nasal index, medial canthus and nose width index, nasolabial angle, nasofacial angle, ala length and nasal bridge length index, nasal tip protrusion and nasal width index, and nasal width and ala length index. Furthermore, the medial canthus and nose width index, and nasal width and ala length index were significantly larger in ordinary people, while ala length and nasal bridge length index and nasal tip protrusion and nasal width index were smaller. After surgery, most angles and index were standard except the nasolabial angle in the females, and ala length and nasal bridge length index in the males. Moreover, as for the group of costal cartilage transplantation, most index and angles have improved after surgery including nasolabial angle, nasofacial angle, ala length and nasal bridge length index, nasal tip protrusion and nasal width index, and nasal width and ala length index. However, only nasal tip protrusion and nasal width index, columella length and nasal tip protrusion index, and nasal width and ala length index in the silicone prosthesis group implantation has significance. Costal cartilage transplantation can also better improve ala length and nasal bridge length index than the silicone prosthesis implantation.Conclusion: Most defects can be repaired with surgery, but the outcome has a lack of evaluation. Thus, anthropometric assessment can serve as a material for nasal and reconstructive surgery.

Clinical Observations of a Surgical Method Comprising a Combination of Cross Flap and Autologous Auricular Cartilage Transplantation in the Treatment of Type I to III Congenital Concha-Type Microtia

Objectives: The present study attempted to investigate the clinical efficacy of a surgical method involving a combination of cross flap with autologous auricular cartilage transplantation in the treatment of type I to III congenital concha-type microtia. Methods: The present retrospective study was conducted on the clinical and postoperative data of 50 patients with unilateral type I to III concha-type microtia treated with a combination of cross flap and autologous auricular cartilage transplantation at the Plastic Surgery Hospital of Chinese Academy of Medical Sciences from January 2018 to December 2021. Results: The postoperative perimeters of malformed ears were significantly larger than the preoperative perimeters ( P < .05). Of the total, 2 patients exhibited incision dehiscence, 3 patients exhibited incision infection, 2 patients exhibited flap hematoma, and 1 patient exhibited ischemic necrosis at the flap tip. The satisfaction rate of the patients and their families was 100%. Conclusions: The surgical method involving a combination of cross flap and autogenous auricular cartilage transplantation was effective in treating patients with type I to III congenital concha-type microtia, and therefore, this surgical approach can be applied widely to correct this deformity.

Magnetic nanocarriers as a therapeutic drug delivery strategy for promoting pain-related motor functions in a rat model of cartilage transplantation

Cartilage is an avascular tissue with low cellularity and insufficient self-repair response. In clinical practice, a large articular cartilage defect is usually fixed by cartilage transplantation. Importantly, the fast repair process has been demanded postoperatively in the area between the host cartilage and the transplanted cartilage. In the past few years, magnetic nanoparticles have drawn great attention due to their biocompatible, biodegradable, and nontoxic properties. In addition, the nanoparticles can easily pass through the cell plasma membrane and increase the cellular uptake efficiency. Here, a therapeutic drug delivery strategy was proposed for cartilage repair. The prepared kartogenin (KGN)-conjugated magnetic nanocarriers (KGN@NCs) promoted the viability of chondrocytes in vitro. In a rat model of cartilage transplantation, intra-articularly delivered KGN@NCs generated cartilage with a flat surface and a high level of aggrecan in vivo. Notably, KGN@NCs were also capable of improving the pain-related motor functions. They promoted the motor functional parameters including the print area and intensity to restore to a normal level compared with the single KGN. Therefore, these therapeutic drug nanocarriers provided the potential for cartilage repair.

Clinical Study of Autologous Cartilage Transplantation Based on Nano-Hydroxyapatite in the Treatment of Talar Osteochondral Injury

Talus osteochondral damage is one of the common symptoms of chronic ankle pain in people’s lives. The cartilage regeneration and self-repair ability are extremely limited, the joint cartilage lesions are often accompanied by the lesions of the subchondral bone, and the subchondral bone lesions can affect the metabolism of the cartilage above it, which brings certain difficulties to clinical treatment. Traditional methods of treating cartilage damage include microfractures and drilling. Due to large trauma, inconsistent clinical efficacy reports, poor tissue repair results, and limited donor sources, etc., the application of traditional treatment methods in the clinic has been largely limited. Therefore, finding an ideal treatment method for bone injury has been a hot spot in clinical research in orthopedics. Studies have shown that autologous cartilage transplantation via nano-hydroxyapatite has become a new treatment model, providing new ideas for clinical treatment of talar osteochondral damage. Nano-hydroxyapatite and its composites have good histocompatibility, biological activity, and bone conductivity. They are an ideal bone defect repair material, and have been initially applied in clinical practice. The preparation of nano-hydroxyapatite, its biological characteristics and the repairing effect on the composite defect of osteochondral bone were studied experimentally, and its feasibility for repairing osteochondral damage was discussed. In this paper, the unique structure and properties of natural cartilage layers are studied. In combination with bionics theory and methods, nano-hydroxyapatite micro-particle composite samples are prepared by the gel method, and the bone-forming properties of nano-composites are measured by in vitro drug release experiments. To establish a model of infectious bone injury in New Zealand white rabbits, and nano-hydroxyapatite composites were implanted into local lesions of New Zealand white rabbit models by autologous cartilage transplantation, and evaluated by imaging, blood biochemistry, histology, infection control and bone repair. The experimental results show that using the unique physical and chemical and biological properties of nano-hydroxyapatite materials. It is innovatively introduced into the treatment of talar osteochondral defects caused by open fractures. It has been proven in vitro and in vivo experiments that nano-hydroxyapatite materials can be used. As an ideal tissue engineering scaffold for the treatment of talar osteochondral defects, this provides a new way to solve clinical orthopedic problems using new nanomaterials.