Holistic regulation of the diabetic osteo-microenvironment via NIR-II nanocarriers with dual NO/pH responsiveness for enhanced bone regeneration.

Diabetic conditions impair bone regeneration due to dysregulated macrophage polarization and inflammatory imbalance. Current therapies often fail to address systemic immune homeostasis. Herein, a bone-targeted nanoplatform (abbreviated as AgSr-MSNs) is engineered to scavenge excess nitric oxide (NO) and respond to the acidic diabetic microenvironment based on upregulated inducible nitric oxide synthase (iNOS) expression in M1 macrophages residing within both the diabetic bone marrow and localized osteolytic regions in our study.

The Potential of Photoacoustic Imaging in Detecting and Managing Complex Wounds.

Photoacoustic imaging (PAI) is a promising emerging technology in biomedical imaging, particularly in wound healing. This review summarizes the applications of PAI in the detection and management of complex wounds, emphasizing its advantages in providing high-contrast, high-resolution deep tissue imaging. PAI integrates optical imaging's high contrast with ultrasound's deep penetration, facilitating the monitoring of vital physiological parameters like blood flow, oxygen saturation, and tissue regeneration in wounds.

Kinsenoside-Loaded Microneedle Accelerates Diabetic Wound Healing by Reprogramming Macrophage Metabolism via Inhibiting IRE1α/XBP1 Signaling Axis.

Continuously bacterial infection, undue oxidative stress, and inflammatory responses in the skin tissue microenvironment determine the delayed healing outcome of diabetic wounds, which remain a tough clinical challenge and need multifaceted therapeutic strategies. In this work, HA-ADH/HA-QA-ALD-based hydrogel microneedle (HAQA-MN) with antimicrobial and antioxidative activities incorporating kinsenoside (KD) coated with macrophage membrane (M-KD) targeting inflammation relief is developed to improve the cutaneous micro-niche. KD is observed to trigger trimethylamine N-oxide-irritated proinflammatory macrophages repolarization from M1 state to anti-inflammatory M2 phenotype, and the underlying mechanism is due to drug-induced IRE1α/XBP1/HIF-1α pathway suppression, accompanied by diminution of glycolysis and enhancement of oxidative phosphorylation, resulting in proinflammatory cascade inhibition and anti-inflammatory signaling enhancement.

Novel cocktail therapy based on multifunctional supramolecular hydrogel targeting immune-angiogenesis-nerve network for enhanced diabetic wound healing.

Diabetes-associated chronic skin wounds present a formidable challenge due to inadequate angiogenesis and nerve regeneration during the healing process. In the present study, we introduce a groundbreaking approach in the form of a novel cocktail therapy utilizing a multifunctional supramolecular hydrogel. Formulated through the photo-crosslinking of gelatinized aromatic residues and β-cyclodextrin (β-CD), this injectable hydrogel fosters weak host-guest interactions, offering a promising solution.

Lipid nanoparticle: advanced drug delivery systems for promotion of angiogenesis in diabetic wounds.

Diabetic wound is one of the most challenge in healthcare, requiring innovative approaches to promote efficient healing. In recent years, lipid nanoparticle-based drug delivery systems have emerged as a promising strategy for enhancing diabetic wound repair by stimulating angiogenesis. These nanoparticles offer unique advantages, including improved drug stability, targeted delivery, and controlled release, making them promising in enhancing the formation of new blood vessels.

Neddylation suppression by a macrophage membrane-coated nanoparticle promotes dual immunomodulatory repair of diabetic wounds.

Oxidative stress, infection, and vasculopathy caused by hyperglycemia are the main barriers for the rapid repair of foot ulcers in patients with diabetes mellitus (DM). In recent times, the discovery of neddylation, a new type of post-translational modification, has been found to regulate various crucial biological processes including cell metabolism and the cell cycle. Nevertheless, its capacity to control the healing of wounds in diabetic patients remains unknown.

3D Inception U-net with Asymmetric Loss for Cancer Detection in Automated Breast Ultrasound.

Purpose: Breast cancer is the most common cancer and the leading cause of cancer-related deaths for women all over the world. Recently, automated breast ultrasound (ABUS) has become a new and promising screening modality for whole breast examination. However, reviewing volumetric ABUS is time-consuming and lesions could be missed during the examination.

Biomechanical Analysis of a Novel Syndesmotic Plate Compared With Traditional Screw and Suture Button Fixation.

Many lateral malleolus fractures have been found to have syndesmosis injuries after anatomic reduction. The main methods for the treatment of syndesmosis injuries are screw fixation and suture-button flexible fixations. In pursuit of innovation, we have designed a novel syndesmotic plate (NSP) for simultaneous fixation of lateral malleolus fractures and distal tibiofibular syndesmosis injuries.

Low-Rank Based Image Analyses for Pathological MR Image Segmentation and Recovery.

The presence of pathologies in magnetic resonance (MR) brain images causes challenges in various image analysis areas, such as registration, atlas construction and atlas-based segmentation. We propose a novel method for the simultaneous recovery and segmentation of pathological MR brain images. Low-rank and sparse decomposition (LSD) approaches have been widely used in this field, decomposing pathological images into (1) low-rank components as recovered images, and (2) sparse components as pathological segmentation.

The improved oval forceps suture-guiding method for minimally invasive Achilles tendon repair.

Objective: To discuss the effect and advantage of the improved oval forceps suture-guiding method combined with anchor nail in the treatment of acute Achilles tendon rupture.

Methods: A retrospective research was performed on 35 cases of acute Achilles tendon rupture treated with the improved oval forceps suture-guiding method from January 2013 to October 2016. Instead of the Achillon device, we perform the Achillon technique with the use of simple oval forceps, combined with absorbable anchor nail, percutaneously to repair the acute Achilles tendon rupture.

Comparison of three fixation methods in treatment of tibial fracture in adolescents.

Background: Tibial fractures are the most common musculoskeletal injury in adolescents. The optimal management of tibial fractures in adolescents is controversial. In this study, we compared the outcomes including complications of three fixation methods in tibial fractures of adolescents and explored the factors associated with the complications.

Distal tibial nonunion using a contralateral anterior L-shaped locking compression plate through a posterior-lateral approach: A retrospective case series.

Background: Distal tibial nonunion is usually due to severe open distal tibial fractures with high energy injury. The best surgical treatment is not well established because of the poor soft tissue condition. We retrospectively analyzed a series of patients with distal tibial nonunion after severe open distal tibial fractures; our purpose was to introduce a treatment using a contralateral anterior L-shaped locking compression plate through a posterior-lateral approach with Iliac crest bone graft and evaluate the outcomes of patients.

Effect of Hypoxia on Self-Renewal Capacity and Differentiation in Human Tendon-Derived Stem Cells.

BACKGROUND Hypoxic conditions play roles in functioning of human tendon-derived stem cells (hTSCs). The goal of this study was to investigate the effect of various hypoxic conditions in self-renewal capacity and differentiation of TSCs. MATERIAL AND METHODS hTSCs was obtain from supraspinatus tendon donors.