Abstract. The islets of Langerhans is the endocrine function region of pancreas, which exist in five cell types. The majority of endocrine cells are insulin-secreting β cells, mixed up with glucagon-secreting α-cells. The islets of Langerhans are highly vascularized, and the capillary network around the islet is about five times denser than that in the exocrine tissues. It guarantees endocrine cells adequately contact with the capillary networks. Above mentioned is the basis of deep study the interaction between β cells and capillary. Increasing number of studies contribute to the consensus that endothelial cells have positive effects in the islet microenvironment. Endothelial cells can act as endocrine cells which release many active substances, such as hepatocyte growth factors (HGF), thrombospondin-1(TSP-1), laminins, and collagens by means of different molecule pathways, inducing β cells differentiation, proliferation, survivor, and insulin release next to the vessels. Apart from the effect of endothelial cells on β cells by paracrine fashion, the islets can utilize VEGF-A, angiopoietin-1 and insulin signaling to increase the interaction with endothelial cells. As the endocrine role of endothelial cells to β cells, it may be a novel target to stimulate β cells regeneration, promote vascularization post islet transplantation strategy in the treatment of diabetes mellitus.
Background Large-scale maxillocervical scars impair face and neck function and damage appearance. The forehead expanded bilateral superficial temporal pedicled flap is a good treatment strategy for this area; however, the traditional cutaneous pedicled flap damages the temporal hair area. This impairs aesthetics and causes alopecia; furthermore, requires an additional pedicle-cut operation. Methods A retrospective study was performed on 7 patients with large-scale maxillocervical scars from January 2014 to August 2018. Forehead expanders were implanted in the first-stage operation for all patients. After the injection and rest period, patients were treated using the forehead expanded bilateral superficial temporal vascular fascial pedicled flap. Superficial temporal vascular fascia pedicles were carefully harvested. The use of an intralesional or hidden retrotragus incision was determined by the presence of a preauricular scar. Patient satisfaction with postoperative neck activity and the incision scar was evaluated. Results Intralesional and retrovagus incisions were used in 4 and 3 cases, respectively. One flap developed hematoma, which recovered completely after conservative treatment; all other cases had no complications. All flaps healed well. The neck mobility of the patients was significantly improved with no visible scar in the temporal region. Six cases reported being “very satisfied” and one was “relatively satisfied” with their improvement in neck mobility. All cases reported being “very satisfied” with frontotemporal morphology. Conclusions The forehead expanded bilateral superficial temporal vascular fascial pedicled flap is a good choice for patients with large-scale maxillocervical scars. This technique can maintain the aesthetics of temporal hair and reduce patients extra surgical injury.
Chest wall ulcer induced by postmastectomy radiation therapy (PRMT) remains challenging for plastic surgeons because of the reduced blood supply, fibrosis, and impaired cellular potential in the irradiated area. In this study, chest wall ulcer was treated with negative pressure wound therapy (NPWT) and the latissimus dorsi myocutaneous (LDM) flap reconstruction in 2 stages. A retrospective study was performed on consecutive patients with chronic radiation-induced ulcers in chest wall from June 2012 to June 2017. Surgical debridement and NPWT were performed in the first stage and the chest wall reconstructed by the LDM flap transplantation after extensive debridement in the second stage. There were 10 female patients with chest wall ulcers with a mean age of 60.3 years. The average duration of the ulcers was 21.2 months and the ulcers varied from 1 × 2 to 5 × 7 cm2. Histological examination denied any recurrent breast cancer or radiation-related malignancy. Negative pressure wound therapy was applied with 100 to 125 mm Hg negative pressure during a period of 5 to 7 days in the first stage. The LDM flap varied from 11 × 15 to 15 × 20 cm2. The mean follow-up was 25.9 months. All the flaps survived well with satisfactory appearance and there was no donor-site morbidity or ulcer recurrence during the follow-up period. The staged treatment of the chest wall radiation ulcer incorporated the benefits of NPWT and LDM flap. It is beneficial in increasing the blood and nutrient supply to the irradiated tissue, enhancing the debridement and promoting tissue healing, thus improving the flap survival and decreasing the ulcer recurrence.
Background: The chin and submental regions are located at the junction of the face and neck. Its function and aesthetic appearance can be seriously affected when scar deformities cause the cervicomental angle to disappear. The expanded forehead flap pedicled with superficial temporal vessel(s) is a surgical treatment for chin and submental scar deformities. Different transfer types have developed for this flap based on individual situations. At present, there is no unified treatment strategy for applying this forehead flap to treat different regions and ranges of chin and submental scar deformities. Methods: Ninety one cases were collected from patients with chin and submental scar deformities that were treated using the expanded forehead flap pedicled with superficial temporal vessels from January 2008 to December 2018. The authors divided the chin and submental scar deformities into 4 types according to different regions and ranges, and summarized flap survival and complications of 5 different transfer forms used to treat scars for creating feasible treatment strategies. We followed up 76 cases, investigating the satisfaction of appearance and texture of the flaps, improvement of neck movement, and scar recurrence. Results: Expanded forehead flaps were used to repair 91 cases of chin and submental scar deformities. According to the postoperative flap survival and complications of flap blood supply, the treatment strategies are as follows: Bilateral cutaneous and subcutaneous pedicled forehead flaps are applied to treat scars in bilaterally symmetrical large-scale scars in Zone LCL. Unilateral pedicled forehead flaps are applied to treat small-scale scars in Zone C and Zone L. Unilateral pedicled plus contralateral vascular anastomosis and unilateral pedicled plus contralateral super thin forehead flaps are applied to treat the moderate-scale scars of Zone LC. Mean follow-up period was 81 months (range 28-131), 93.4% (71/76) was satisfied with appearance and texture of the flaps, 97.4% (74/ 76) was satisfied with the improvement of neck movement, and 2.6% (2/76) occurred scar recurrence. Conclusions: Five different types of expanded forehead flaps pedicled with superficial temporal vessels can be used to repair differential scar deformities of the chin and submental regions and achieve good therapeutic effects.
Cervical burn contracture is one of the burn contractures with the highest incidence and severity, and there is no effective method to predict the risk of neck contracture. This study aimed to investigate the effect of combined cervicothoracic skin grafting on the risk of neck contracture in burn patients and to develop a nomogram to predict the risk of neck contracture after skin grafting in burn patients. Data from 212 patients with burns who underwent neck skin grafting were collected from three hospitals, and the patients were randomly divided into training and validation sets. Independent predictors were identified through univariate and multivariate logistic regression analyses and incorporated into a prognostic nomogram. Its performance was assessed using the receiver operating characteristic area under the curve, calibration curve, and decision curve analysis. Burn depth, combined cervicothoracic skin grafting, graft thickness, and neck graft size were significantly associated with neck contractures. In the training cohort, the nomogram had an area under the curve of 0.894. The calibration curve and decision curve analysis indicated good clinical applicability of the nomogram. The results were tested using a validation dataset. Combined cervicothoracic skin grafting is an independent risk factor for neck contracture. Our nomogram demonstrated excellent performance in predicting neck contracture risk.
Neurological disorders cause untold human disability and death each year. For most neurological disorders, the efficacy of their primary treatment strategies remains suboptimal. Microglia are associated with the development and progression of multiple neurological disorders. Targeting the regulation of microglia polarization has emerged as an important therapeutic strategy for neurological disorders. Their pro-inflammatory (M1)/anti-inflammatory (M2) phenotype microglia are closely associated with neuronal apoptosis, synaptic plasticity, blood-brain barrier integrity, resistance to iron death, and astrocyte regulation. LncRNA, a recently extensively studied non-coding transcript of over 200 nucleotides, has shown great value to intervene in microglia polarization. It can often participate in gene regulation of microglia by directly regulating transcription or sponging downstream miRNAs, for example. Through proper regulation, microglia can exert neuroprotective effects, reduce neurological damage and improve the prognosis of many neurological diseases. This paper reviews the progress of research linking lncRNAs to microglia polarization and neurological diseases.
BackgroundThe expanded forehead flap pedicled with superficial temporal vessel(s) is a common method to treat facial scar deformity. However, local bulkiness and hair retention have limited the use of this flap.MethodsFive cadavers were used for anatomy to confirm the forehead “safety zone.” A retrospective study was performed on 15 patients with facial scar deformity who were undergoing the expanded forehead superthin flap (without the expanded capsule, frontalis muscle, and with less hair follicles) pedicled with superficial temporal vessel(s) to transfer and repair the deformity.ResultsThrough cadaver anatomy, the range where the subdermal vascular network laid superficial to the hair follicle level was named the “safety zone,” whose average distance between the bilateral penetrating points was 10.2 cm (8.7–11.6 cm). Fifteen patients with facial scar deformity were treated with the superthin flap technique. The trimming size of the safety zone flap was (6–10) × (12–20) cm. The median time of thinning the safety zone was 35 minutes (range, 25–40 minutes). All flaps healed well. The median residual ratio of the hair follicle was 39.8% (29.9%–50.5%). All patients were satisfied with the contour of the flap.ConclusionWe firstly proposed a concept of forehead safety zone and used the superthin flap without the frontalis muscle and less hair follicles to treat facial scar deformity, and obtained an improved therapeutic effect. We think this is an appealing technique that can manifest facial concave and convex in the fine part, improve compliance of the flap, and reduce the times of laser hair removal.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.