Hand degloving injury represents one of the most severe forms of hand trauma, characterised by challenging treatment and a complex prognostic outcome. It is crucial to effectively utilise the degloved tissues in emergency or primary repair of a hand degloving injury. This consensus provides a comprehensive review of the existing literature on definition, classification, emergency assessment, debridement, judgment of skin viability, in situ repair of the degloved skin, and adjunctive treatment for degloving injury of hand. Based on conclusion of both domestic and international experiences, this expert consensus on the classification of hand degloving injury and the emergency repair with the avulsed skin is established, aiming to provide a guidance to surgeons on standardised treatment strategy and improve the management of hand degloving injury.

Liver transplantation (LT) has become a standard treatment for end-stage liver diseases, and graft injury is intricately associated with poor prognosis. Granzyme B (GZMB) plays a vital role in natural killer (NK) cell biology, but whether NK-derived GZMB affects graft injury remains elusive. Through the analysis of single-cell RNA-sequencing data obtained from human LT grafts and the isolation of lymphocytes from mouse livers following ischemia-reperfusion injury (IRI), we demonstrated that 2NK cells with high expression of GZMB are enriched in patients and mice. Both systemically and liver-targeted depletion of NK cells led to a notable reduction in GZMB⁺ cell infiltration, subsequently resulting in diminished graft injury. Notably, the reconstitution of Il2rg ^-/- Rag2 ^-/- mice with purified Gzmb-KO NK cells demonstrated superior outcomes compared to those with wild-type NK cells. Crucially, global knockout of GZMB and pharmacological inhibition exhibited remarkable improvements in liver function in both mouse IRI and rat LT models. Moreover, a phosphorylated derivative of FDA-approved vidarabine was identified as an effective inhibitor of mouse GZMB activity by molecular dynamics, which could provide a potential avenue for therapeutic intervention. Therefore, targeting NK cell-derived GZMB during the LT process suggests potential therapeutic strategies to improve post-transplant outcomes.

Objective:To investigate the effect of donor blood lipid levels and the degree of fat deposition on the pancreatic surface on the outcome of islet isolation.Method:A retrospective analysis was conducted on 171 cases of islet isolation data from organ donors between May 2015 and December 2024. According to the percentage of fat deposition area on the surface of the pancreatic capsule after trimming, the samples were divided into three groups: mild surface fat group (<30%, 60 cases) , moderate surface fat group (30%–70%, 55 cases) , and severe surface fat group (>70%, 56 cases). The modified Ricordi method was used to digest pancreatic tissue, and islets were purified by continuous density gradient centrifugation. The digestion efficiency, digestion time, islet yield (islet equivalent/quantity) , purity, score, and size were analyzed and compared among groups. One-way ANOVA was used for inter-group comparisons, and Pearson correlation analysis and multiple linear regression analysis were used to explore the relationship between blood lipid levels and islet isolation parameters.Result:The severe surface fat group had significantly higher pre-purification and post-purification islet equivalents, islet number, amount of digested pancreatic tissue, donor triglyceride levels, and low density lipoprotein (LDL) levels than the other groups (all P<0. 05) . Correlation analysis showed that LDL level was positively correlated with pre-purification islet equivalents (62 cases, r=0. 298, P=0. 019) and islet number (58 cases, r=0. 285, P=0. 030) . Donor high density lipoprotein (HDL) level was negatively correlated with post-purification islet equivalents (54 cases, r= – 0. 282, P=0. 039) ; donor triglyceride level was positively correlated with the amount of digested tissue (56 cases, r=0. 268, P=0. 046) and negatively correlated with purity (51 cases, r= - 0. 297, P=0. 035) ; donor very low density lipoprotein (VLDL) level was positively correlated with the amount of digested tissue (67 cases, r=0. 337, P=0. 005) and negatively correlated with purity (61 cases, r=- 0. 348 , P=0. 006) ; donor total cholesterol level was negatively correlated with pancreatic digestion efficiency (34 cases, r= - 0. 370, P=0. 032) , and the above differences were all statistically significant. Conclusion:Pancreata with heavier surface fat deposition can yield a higher number of islets. Meanwhile, donor blood lipid levels are correlated with islet isolation outcomes and can serve as important indicators for donor pancreas selection.

Diabetes mellitus is a chronic metabolic disorder, currently affecting more than 530 million people worldwide. Based on differences in pathogenesis, it is classified into type 1 diabetes mellitus (T1DM) and type 2 diabetes mellitus (T2DM). T1DM is primarily caused by autoimmune destruction of pancreatic β cells, whereas T2DM results from insulin resistance due to β cell failure and dysfunction. Current treatments for diabetes include insulin injections, oral medications, and islet transplantation. As a curative therapy, islet transplantation still faces challenges such as limited donor cell availability, systemic immunosuppression-related side effects, and low long-term survival of transplanted islets. Transplantation of stem cell-derived islet organoids is expected to replace primary human islet cells and overcome these issues, making it one of the most promising therapies for T1DM and advanced-stage T2DM. This review provides an in-depth overview of the development of islet transplantation, with a focus on recent progress in stem cell differentiation into islet organoids and the engineering of islet organoids. Meanwhile, we also discuss the current opportunities and future challenges in islet organoid transplantation. These explorations and efforts lay the groundwork for future clinical applications and offer hope for a potential cure for diabetes.

Portal vein tumor thrombus(PVTT)is a common manifestation of advanced hepatocellular carcinoma(HCC),associated with poor prognosis and significant treatment challenges.Although various therapeutic options-including surgery,systemic therapies,and local treatments such as interventional procedures and radiotherapy-are available for HCC with PVTT,monotherapies often yield limited efficacy,highlighting the need for combined treatment strategies.With the advancement of radiotherapy technologies,stereotactic body radiation therapy(SBRT)has gained increasing recognition due to its high precision,ablative doses,and fewer treatment fractions.SBRT plays a crucial role in palliative care,conversion therapy,neoadjuvant,and adjuvant settings.Recent studies have demonstrated that SBRT,either alone or in combination with other modalities,significantly improves overall survival and local control rates in patients with HCC and PVTT.This review summarizes the current research progress of SBRT in the management of HCC with PVTT,emphasizing both monotherapy and combined approaches with surgery,interventional therapy,targeted agents,and immunotherapy,aiming to provide insights for clinical decision-making.

Portal vein tumor thrombus(PVTT)is a common manifestation of advanced hepatocellular carcinoma(HCC),associated with poor prognosis and significant treatment challenges.Although various therapeutic options-including surgery,systemic therapies,and local treatments such as interventional procedures and radiotherapy-are available for HCC with PVTT,monotherapies often yield limited efficacy,highlighting the need for combined treatment strategies.With the advancement of radiotherapy technologies,stereotactic body radiation therapy(SBRT)has gained increasing recognition due to its high precision,ablative doses,and fewer treatment fractions.SBRT plays a crucial role in palliative care,conversion therapy,neoadjuvant,and adjuvant settings.Recent studies have demonstrated that SBRT,either alone or in combination with other modalities,significantly improves overall survival and local control rates in patients with HCC and PVTT.This review summarizes the current research progress of SBRT in the management of HCC with PVTT,emphasizing both monotherapy and combined approaches with surgery,interventional therapy,targeted agents,and immunotherapy,aiming to provide insights for clinical decision-making.

Hand degloving injury represents one of the most severe forms of hand trauma, characterised by challenging treatment and a complex prognostic outcome. It is crucial to effectively utilise the degloved tissues in emergency or primary repair of a hand degloving injury. This consensus provides a comprehensive review of the existing literature on definition, classification, emergency assessment, debridement, judgment of skin viability, in situ repair of the degloved skin, and adjunctive treatment for degloving injury of hand. Based on conclusion of both domestic and international experiences, this expert consensus on the classification of hand degloving injury and the emergency repair with the avulsed skin is established, aiming to provide a guidance to surgeons on standardised treatment strategy and improve the management of hand degloving injury.

Objective:To investigate the effect of donor blood lipid levels and the degree of fat deposition on the pancreatic surface on the outcome of islet isolation.Method:A retrospective analysis was conducted on 171 cases of islet isolation data from organ donors between May 2015 and December 2024. According to the percentage of fat deposition area on the surface of the pancreatic capsule after trimming, the samples were divided into three groups: mild surface fat group (<30%, 60 cases) , moderate surface fat group (30%–70%, 55 cases) , and severe surface fat group (>70%, 56 cases). The modified Ricordi method was used to digest pancreatic tissue, and islets were purified by continuous density gradient centrifugation. The digestion efficiency, digestion time, islet yield (islet equivalent/quantity) , purity, score, and size were analyzed and compared among groups. One-way ANOVA was used for inter-group comparisons, and Pearson correlation analysis and multiple linear regression analysis were used to explore the relationship between blood lipid levels and islet isolation parameters.Result:The severe surface fat group had significantly higher pre-purification and post-purification islet equivalents, islet number, amount of digested pancreatic tissue, donor triglyceride levels, and low density lipoprotein (LDL) levels than the other groups (all P<0. 05) . Correlation analysis showed that LDL level was positively correlated with pre-purification islet equivalents (62 cases, r=0. 298, P=0. 019) and islet number (58 cases, r=0. 285, P=0. 030) . Donor high density lipoprotein (HDL) level was negatively correlated with post-purification islet equivalents (54 cases, r= – 0. 282, P=0. 039) ; donor triglyceride level was positively correlated with the amount of digested tissue (56 cases, r=0. 268, P=0. 046) and negatively correlated with purity (51 cases, r= - 0. 297, P=0. 035) ; donor very low density lipoprotein (VLDL) level was positively correlated with the amount of digested tissue (67 cases, r=0. 337, P=0. 005) and negatively correlated with purity (61 cases, r=- 0. 348 , P=0. 006) ; donor total cholesterol level was negatively correlated with pancreatic digestion efficiency (34 cases, r= - 0. 370, P=0. 032) , and the above differences were all statistically significant. Conclusion:Pancreata with heavier surface fat deposition can yield a higher number of islets. Meanwhile, donor blood lipid levels are correlated with islet isolation outcomes and can serve as important indicators for donor pancreas selection.

Diabetes mellitus is a chronic metabolic disorder, currently affecting more than 530 million people worldwide. Based on differences in pathogenesis, it is classified into type 1 diabetes mellitus (T1DM) and type 2 diabetes mellitus (T2DM). T1DM is primarily caused by autoimmune destruction of pancreatic β cells, whereas T2DM results from insulin resistance due to β cell failure and dysfunction. Current treatments for diabetes include insulin injections, oral medications, and islet transplantation. As a curative therapy, islet transplantation still faces challenges such as limited donor cell availability, systemic immunosuppression-related side effects, and low long-term survival of transplanted islets. Transplantation of stem cell-derived islet organoids is expected to replace primary human islet cells and overcome these issues, making it one of the most promising therapies for T1DM and advanced-stage T2DM. This review provides an in-depth overview of the development of islet transplantation, with a focus on recent progress in stem cell differentiation into islet organoids and the engineering of islet organoids. Meanwhile, we also discuss the current opportunities and future challenges in islet organoid transplantation. These explorations and efforts lay the groundwork for future clinical applications and offer hope for a potential cure for diabetes.

Hepatocellular carcinoma (HCC) is one of the most common malignancies and is a major cause of cancer-related mortalities worldwide (Forner et al., 2018; He et al., 2023). Sarcopenia is a syndrome characterized by an accelerated loss of skeletal muscle (SM) mass that may be age-related or the result of malnutrition in cancer patients (Cruz-Jentoft and Sayer, 2019). Preoperative sarcopenia in HCC patients treated with hepatectomy or liver transplantation is an independent risk factor for poor survival (Voron et al., 2015; van Vugt et al., 2016). Previous studies have used various criteria to define sarcopenia, including muscle area and density. However, the lack of standardized diagnostic methods for sarcopenia limits their clinical use. In 2018, the European Working Group on Sarcopenia in Older People (EWGSOP) renewed a consensus on the definition of sarcopenia: low muscle strength, loss of muscle quantity, and poor physical performance (Cruz-Jentoft et al., 2019). Radiological imaging-based measurement of muscle quantity or mass is most commonly used to evaluate the degree of sarcopenia. The gold standard is to measure the SM and/or psoas muscle (PM) area using abdominal computed tomography (CT) at the third lumbar vertebra (L3), as it is linearly correlated to whole-body SM mass (van Vugt et al., 2016). According to a "North American Expert Opinion Statement on Sarcopenia," SM index (SMI) is the preferred measure of sarcopenia (Carey et al., 2019). The variability between morphometric muscle indexes revealed that they have different clinical relevance and are generally not applicable to broader populations (Esser et al., 2019).
Humans ; Aged ; Sarcopenia/diagnostic imaging* ; Carcinoma, Hepatocellular/diagnostic imaging* ; Muscle, Skeletal/diagnostic imaging* ; Deep Learning ; Prognosis ; Radiomics ; Liver Neoplasms/diagnostic imaging* ; Retrospective Studies