Development of AI-Based Diagnostic Algorithm for Nasal Bone Fracture Using Deep Learning.

Facial bone fractures are relatively common, with the nasal bone the most frequently fractured facial bone. Computed tomography is the gold standard for diagnosing such fractures. Most nasal bone fractures can be treated using a closed reduction. However, delayed diagnosis may cause nasal deformity or other complications that are difficult and expensive to treat. In this study, the authors developed an algorithm for diagnosing nasal fractures by learning computed tomography images of facial bones with artificial intelligence through deep learning. A significant concordance with human doctors' reading results of 100% sensitivity and 77% specificity was achieved. Herein, the authors report the results of a pilot study on the first stage of developing an algorithm for analyzing fractures in the facial bone.

Bionic artificial skin with a fully implantable wireless tactile sensory system for wound healing and restoring skin tactile function.

Tactile function is essential for human life as it enables us to recognize texture and respond to external stimuli, including potential threats with sharp objects that may result in punctures or lacerations. Severe skin damage caused by severe burns, skin cancer, chemical accidents, and industrial accidents damage the structure of the skin tissue as well as the nerve system, resulting in permanent tactile sensory dysfunction, which significantly impacts an individual's daily life. Here, we introduce a fully-implantable wireless powered tactile sensory system embedded artificial skin (WTSA), with stable operation, to restore permanently damaged tactile function and promote wound healing for regenerating severely damaged skin. The fabricated WTSA facilitates (i) replacement of severely damaged tactile sensory with broad biocompatibility, (ii) promoting of skin wound healing and regeneration through collagen and fibrin-based artificial skin (CFAS), and (iii) minimization of foreign body reaction via hydrogel coating on neural interface electrodes. Furthermore, the WTSA shows a stable operation as a sensory system as evidenced by the quantitative analysis of leg movement angle and electromyogram (EMG) signals in response to varying intensities of applied pressures.

Salvage percutaneous transluminal angioplasty of the superficial femoral artery in the diabetic foot with deteriorating limb ischemia.

INTRODUCTION: PAD frequently co-occurs with diabetes, often leading to chronic nonhealing wounds. Foot gangrene and amputation are common outcomes of untreated CLI. CASE REPORT: A 67-year-old male with diabetes and deteriorating limb ischemia following surgical stress underwent successful surgical repair after emergency PTA of the SFA for extensive heel necrosis. After surgical debridement of necrotic heel tissue, the ABI on the affected side suddenly reduced to 0.36, but it improved to 1.06 at 4 weeks following stenting angioplasty, allowing the subsequent flap surgery to repair the heel defect. At the 1-year follow-up visit, the patient exhibited durable heel coverage and the restoration of weightbearing function. No signs or symptoms indicative of restenosis were evident in the blood vessel treated with stent angioplasty. CONCLUSION: This case highlights the importance of proper evaluation of critical ischemic conditions and the need for prompt endovascular interventions in preserving the at-risk diabetic foot.

Early-Stage Pilomatricoma with Cystic Features: A Case Report and Literature Review.

A conventional pilomatricoma presents as an asymptomatic, firm, subcutaneous nodule, commonly in the head, neck, and extremities of the paediatric population. However, its variants show diverse clinical features, which often pose a diagnostic challenge to clinicians. We recently treated an unusual case of pilomatricoma with cystic features in the upper chest of a 9-year-old girl, which manifested as a single solid tumour floating in a serous-filled sac formed by thick fibrous tissue. Herein, we present novel clinicopathological features of an early-stage pilomatricoma that should be clinically differentiated from a cutaneous abscess.

Masson Tumor of the Heel Fat Pad.

ABSTRACT: Intravascular papillary endothelial hyperplasia (Masson tumor) is an uncommon benign vascular lesion characterized by a reactive proliferation of endothelial cells. This lesion commonly occurs in the head, neck, and upper extremities. Although it can be found anywhere in the body, the lesion has never affected the heel fat pad. This report presents a rare case of Masson tumor of the heel fat pad to facilitate the recognition of this uncommon lesion and also suggests other conditions to be considered when diagnosing heel lesions.

Implantable micro-scale LED device guided photodynamic therapy to potentiate antitumor immunity with mild visible light.

BACKGROUND: Photodynamic therapy (PDT) is a promising strategy to promote antitumor immunity by inducing immunogenic cell death (ICD) in tumor cells. However, practical PDT uses an intense visible light owing to the shallow penetration depth of the light, resulting in immunosuppression at the tumor tissues. METHODS: Herein, we propose an implantable micro-scale light-emitting diode device (micro-LED) guided PDT that enables the on-demand light activation of photosensitizers deep in the body to potentiate antitumor immunity with mild visible light. RESULTS: The micro-LED is prepared by stacking one to four micro-scale LEDs (100 µm) on a needle-shape photonic device, which can be directly implanted into the core part of the tumor tissue. The photonic device with four LEDs efficiently elicits sufficient light output powers without thermal degradation and promotes reactive oxygen species (ROS) from a photosensitizer (verteporfin; VPF). After the intravenous injection of VPF in colon tumor-bearing mice, the tumor tissues are irradiated with optimal light intensity using an implanted micro-LED. While tumor tissues under intense visible light causes immunosuppression by severe inflammatory responses and regulatory T cell activation, mild visible light elicits potent ICD in tumor cells, which promotes dendritic cell (DC) maturation and T cell activation. The enhanced therapeutic efficacy and antitumor immunity by micro-LED guided PDT with mild visible light are assessed in colon tumor models. Finally, micro-LED guided PDT in combination with immune checkpoint blockade leads to 100% complete tumor regression and also establishes systemic immunological memory to prevent the recurrence of tumors. CONCLUSION: Collectively, this study demonstrates that micro-LED guided PDT with mild visible light is a promising strategy for cancer immunotherapy.

Cellular behavior controlled by bio-inspired and geometry-tunable nanohairs.

A cicada wing has a biocidal feature of rupturing the membrane of cells, while the cactus spine can transmit a water drop to the stem of the plant. Both of these properties have evolved from their respective unique structures. Here, we endeavor to develop geometry-controllable nanohairs that mimic the cicada's wing-like vertical hairs and the cactus spine-like stooped hairs, and to quantitatively characterize the cell migration behavior of the hairy structures. It was found that the neuroblastoma cells are highly sensitive to the variation of surfaces: flat, vertical, and stooped nanohairs (100 nm diameter and 900 nm height). The cells on the vertical hairs showed significantly decreased proliferation. It was found that the behavior of cells cultured on stooped nanohairs is strongly influenced by the direction of the stooped pattern of hairs when we quantitatively measured the migration of cells on flat, vertical, and stooped structures. However, the cells on the flat structures showed random movement and the cells on the vertical nanohairs restricted the nanohair movement. Cells on the stooped structure showed higher forward migration preference compared to that of the other structures. Furthermore, we found that these cellular behaviors on the different patterns of nanohairs were affected by intracellular actin flament change. Consistent with these results, the vertical and stooped structures can facilitate the control of cell viability and guide directional migration for biomedical applications such as organogenesis.