Objective To review the research progress in the construction strategy and application of bone/cartilage immunomodulating hydrogels. Methods The literature related to bone/cartilage immunomodulating hydrogels at home and abroad in recent years was reviewed and summarized from the immune response mechanism of different immune cells, the construction strategy of immunomodulating hydrogels, and their practical applications. Results According to the immune response mechanism of different immune cells, the biological materials with immunoregulatory effect is designed, which can regulate the immune response of the body and thus promote the regeneration of bone/cartilage tissue. Immunomodulating hydrogels have good biocompatibility, adjustability, and multifunctionality. By regulating the physical and chemical properties of hydrogel and loading factors or cells, the immune system of the body can be purposively regulated, thus forming an immune microenvironment conducive to osteochondral regeneration. ConclusionImmunomodulating hydrogels can promote osteochondral repair by affecting the immunomodulation process of host organs or cells. It has shown a wide application prospect in the repair of osteochondral defects. However, more data support from basic and clinical experiments is needed for this material to further advance its clinical translation process.
Postoperative stability reconstruction following spinal tumor resection is a critical step to ensure functional recovery and quality of life for patients. This article systematically reviews the current status of anterior and posterior column reconstruction techniques after spinal tumor resection, including strategies such as bone cement augmentation, titanium mesh cage and artificial vertebral body implantation, and three-dimensional-printed personalized prostheses. It emphasizes the need for individualized treatment plans based on tumor type, anatomical location, and the patient’s overall condition. The article also highlights the importance of restoring sagittal balance, multidisciplinary collaboration, and complication prevention for long-term outcomes. In the future, innovations in biomaterials, along with the minimally invasive and intelligent evolution of surgical techniques, will further advance the goal of achieving stable, pain-free, and functionally effective spinal reconstruction for each patient, ultimately enhancing their quality of life.
Tetralogy of Fallot (TOF) is the most common cyanotic congenital heart disease. As a critical component of surgical repair, reconstruction of the right ventricular outflow tract (RVOT) serves as a primary determinant of postoperative hemodynamics and long-term prognosis. With advancements in surgical techniques, early postoperative survival rates for TOF have significantly improved, shifting clinical focus toward addressing long-term complications such as right ventricular dysfunction and reduced exercise tolerance. However, challenges persist regarding optimal timing of surgery in relation to adverse long-term outcomes, balancing RVOT reconstruction strategies, and selecting appropriate repair materials for RVOT reconstruction, with a lack of unified high-level evidence-based guidelines. To address these issues and standardize the application of radical corrective surgery for TOF to better serve patients, the National Society for Congenital Heart Diseases has systematically reviewed existing high-level evidence. Consequently, we have registered and formulated the "Protocol for Chinese expert consensus on right ventricular outflow tract reconstruction in tetralogy of Fallot (2026 edition)", which details the methodology and development process of this upcoming consensus.
Tetralogy of Fallot (TOF) is the most common cyanotic congenital heart disease. Right ventricular outflow tract (RVOT) reconstruction, as the core technical step of radical surgery, plays a decisive role in postoperative hemodynamics and long-term quality of life. With the substantial improvement in early survival after TOF repair, clinical focus has progressively shifted toward the prevention and management of late complications, including right ventricular dysfunction, impaired exercise capacity, and the need for reintervention. However, RVOT reconstruction strategies and the selection of repair materials remain controversial. To standardize the clinical practice of definitive TOF repair, the National Society for Congenital Heart Diseases developed this expert consensus, focusing on three domains: postoperative outcomes after TOF repair, RVOT reconstruction strategies, and the reconstructive materials.