Customized Reconstruction of Lower Eyelid Defects.

BACKGROUND: A lower eyelid defect is a loss of skin, muscle, and underlying structures that can occur due to trauma, malignant or benign tumors, burns, or other causes. The conventional surgical treatment of lower lid defects has several limitations, including visible scarring, narrowing of the eye, and ectropion. Here, we combined the use of a customized mid-face lift with a free mucochondral graft to overcome the disadvantages of existing methods. METHODS: Forty patients underwent reconstructive surgery using a customized mid-face lift with or without a free mucochondral graft for a lower lid defect between April 2013 and October 2020. Patients were discharged shortly after surgery and were expected to visit the outpatient clinic periodically for 12 months. RESULTS: The causes of lower eyelid defects were malignancy, trauma, foreign body granuloma, and other causes. Four patients reported complications, including 2 cases of chemosis, 1 case of a hematoma, and 1 case of corneal abrasion, who reportedly performed well after 2 weeks of conservative therapy. No patient required revision during the average follow-up period. CONCLUSIONS: Customized reconstruction demonstrated a better aesthetic reconstruction of the lower eyelid. This method represents a good option for reconstructing lower lid defects.

Introduction of Deep Learning-Based Infrared Image Analysis to Marginal Reflex Distance1 Measurement Method to Simultaneously Capture Images and Compute Results: Clinical Validation Study.

Marginal reflex distance1 (MRD1) is a crucial clinical tool used to evaluate the position of the eyelid margin in relation to the cornea. Traditionally, this assessment has been conducted manually by plastic surgeons, ophthalmologists, or trained technicians. However, with the advancements in artificial intelligence (AI) technology, there is a growing interest in the development of automated systems capable of accurately measuring MRD1. In this context, we introduce novel MRD1 measurement methods based on deep learning algorithms that can simultaneously capture images and compute the results. This prospective observational study involved 154 eyes of 77 patients aged over 18 years who visited Chungnam National University Hospital between 1 January 2023 and 29 July 2023. We collected four different MRD1 datasets from patients using three distinct measurement methods, each tailored to the individual patient. The mean MRD1 values, measured through the manual method using a penlight, the deep learning method, ImageJ analysis from RGB eye images, and ImageJ analysis from IR eye images in 56 eyes of 28 patients, were 2.64 ± 1.04 mm, 2.85 ± 1.07 mm, 2.78 ± 1.08 mm, and 3.07 ± 0.95 mm, respectively. Notably, the strongest agreement was observed between MRD1_deep learning (DL) and MRD1_IR (0.822, p < 0.01). In a Bland-Altman plot, the smallest difference was observed between MRD1_DL and MRD1_IR ImageJ, with a mean difference of 0.0611 and ΔLOA (limits of agreement) of 2.5162, which was the smallest among all of the groups. In conclusion, this novel MRD1 measurement method, based on an IR camera and deep learning, demonstrates statistical significance and can be readily applied in clinical settings.

Smartphone-Based LiDAR Application for Easy and Accurate Wound Size Measurement.

The accurate assessment of wound size is a critical step in advanced wound care management. This study aims to introduce and validate a Light Detection and Ranging (LiDAR) technique for measuring wound size. Twenty-eight wounds treated from December 2022 to April 2023 at the Chungnam National University Hospital were analyzed. All the wounds were measured using three techniques: conventional ruler methods, the LiDAR technique, and ImageJ analysis. Correlation analysis, linear regression, and Bland-Altman plot analysis were performed to validate the accuracy of the novel method. The measurement results (mean ± standard deviation) obtained using the ruler method, LiDAR technique, and ImageJ analysis were 112.99 ± 110.07 cm2, 73.59 ± 72.97 cm2, and 74.29 ± 72.15 cm2, respectively. The Pearson correlation coefficient was higher for the LiDAR application (0.995) than for the conventional ruler methods (mean difference, -5.0000 cm2), as was the degree of agreement (mean difference, 38.6933 cm2). Wound size measurement using LiDAR is a simple and reliable method that will enable practitioners to conveniently assess wounds with a flattened and irregular shape with higher accuracy. However, non-flattened wounds cannot be assessed owing to the technical limitations of LiDAR.

The Effect of Botulinum Toxin A on NADPH oxidase system and Ischemia Reperfusion Injury.

BACKGROUND: While studies aimed at overcoming ischemia-reperfusion (IR) injury using various materials are becoming popular, studies using botulinum toxin type A (BoNTA) are still limited. This study tested the hypotheses that BoNTA can protect flaps from IR injury by inhibiting the NADPH oxidase system and suppressing ROS (reactive oxygen species) production. MATERIAL AND METHODS: The subjects were Sprague-Dawley rats (n = 76). In 4 rats, the effects of different dose of BoNTA on superoxide production was evaluated through lucigenin enhanced chemiluminescence assay (LECL) using SD rats' thoracic aorta ring. In 60 SD rats, The BoNTA and normal saline-pretreated superficial inferior epigastric artery (SIEA) flaps were clamped for 0, 1, and 4 hours, and reperfused. On the 5th day after the opeartion, well-maintained flaps were grossly inspected, survival rates were analyzed, and histological analysis was also performed. In 12 rats, after making IR injury through the same model, SIEA flap segments and femoral vessels were obtained, and ROS production was evaluated through LECL and dihydroethidium (DHE) staining. RESULTS: In LECL, the experimental group produced a smaller amount of superoxide than the control group through NADPH oxidase inhibition (p < .05). There was no significant difference between the experimental and control group in the 0, and 1 hour IR groups, but the experimental group (90%) showed a higher survival rate than the control group (60%) in the 4 hours IR group (p = .028). In the measurement of ROS production through LECL and DHE staining, there was no significant difference in the 0, and 1 hour IR groups, but a significant difference was shown in the 4 hours IR group in both the SIEA flaps and femoral vessels (p < .05). SUMMARY: This study verified hypothesis that BoNTA can protect flaps from IR injury by inhibiting the NADPH oxidase system and suppressing ROS production. Based on this research model, future research should be expanded into studies on subtypes or subunits of NADPH oxidase, and the findings from the present study are expected to contribute and lead to clinical studies on BoNTA, which has already been proven to be clinically safe.

Effects of preoperative education using virtual reality on preoperative anxiety and information desire: a randomized clinical trial.

This study aimed to investigate the effect of preoperative education using virtual reality (VR) on preoperative anxiety and information desire. The participants were randomly assigned to the VR group and control group. The VR group received preoperative education using VR content describing preoperative and postoperative processes and their management, and the control group received preoperative education with traditional verbal education. Preoperative anxiety and information desire were measured using the Amsterdam Preoperative Anxiety and Information Scale (APAIS). Additionally, patient satisfaction was investigated. Preoperative anxiety (APAIS-A) and information desire (APAIS-I) scores were statistically significantly different between the VR group and the control group (p < 0.001). Patient satisfaction was not statistically significant (p = 0.147). Preoperative education using VR effectively reduced preoperative anxiety and information desire.Trial registration CRIS, KCT0007489. Registered 30 June 2022. http://cris.nih.go.kr/cris/ .

Reconstruction of complex knee wounds with a distally based gracilis flap and gastrocnemius myocutaneous flap: A case report.

A gastrocnemius muscle flap is a versatile option for covering the proximal one-third of the lower leg and around the knee. On the other hand, it is of limited use in patients with short gastrocnemius muscle or insufficient volume. The authors present a case in which a knee soft tissue defect occurred in a very thin patient and was reconstructed using a gastrocnemius myocutaneous flap and a distally based gracilis flap as a supplementary flap.

Efficacy and safety of stromal vascular fraction on scar revision surgery: a prospective study.

BACKGROUND: Cell-based therapies are popular in the field of reconstructive surgery. The stromal vascular fraction (SVF), comprised of mature adipocytes or blood, reportedly has a regenerative effect; however the mechanism remains unclear. This study aimed to prove the viability and effectiveness of using SVF in scar treatment. METHODS: This prospective double-blind study involved 20 patients who visited an outpatient clinic for 2 years, from July 2016 to July 2018, and underwent scar revision for traumatic or surgical scars. After scar revision surgery performed by a single surgeon, patient scars were divided into experimental and control sides. The subcutaneous layer of the experimental and control sides were injected with 0.1 mL/cm of SVF and normal saline, respectively. Each side was evaluated using the Patient and Observer Scar Assessment Scale (POSAS) before and six months after the surgery. RESULTS: Of the 20 patients who underwent scar revision surgery and SVF treatment, 4 dropped out for personal reasons. In 11 of 12 POSAS items, the experimental side showed significant improvements compared to the control side. CONCLUSIONS: Although more research is needed, autologous SVF is a valuable source of regenerative medicine that can be swiftly and inexpensively prepared from human fat tissue.

Aesthetic Removal of Foreign Body Granulomas of Forehead Via Pretrichial Approach.

ABSTRACT: In the field of plastic surgery, various filler types have been developed, which are widely used for cosmetic or reconstruction purposes. However, unregulated substances often injected by unlicensed practitioners may cause difficult-to-treat side effects, such as foreign body granulomas. Since the forehead is an exposed area and the lesions are likely extensive, complete surgical removal with inconspicuous scar can be difficult. In addition, pharmacological treatments, such as steroids, have only a temporary effect. The authors report successful cases of foreign body removal combined with subcutaneous forehead lift via a pretrichial approach for cosmetic satisfaction.Ten patients who had received illegal filler injections that resulted in chronic granulomas on the forehead were studied. The granulomas were confirmed using sonography, and simultaneous foreign body removal and subcutaneous forehead lifts using pretrichial incisions were planned. For the surgical method, the forehead flap was carefully elevated to a uniform thickness in the subcutaneous plane via a pretrichial incision, and the foreign body was removed, paying attention to the forehead contour and nerve damage; excess skin was excised from the top of the flap to tighten the remaining skin on the forehead.None of the patients developed complications, such as skin necrosis, infection, hematoma, or wound dehiscence, during the follow-up period. The functional and aesthetic outcomes were satisfactory in all the patients.The subcutaneous forehead lift via a pretrichial incision seems to facilitate foreign body removal and improve the forehead deformity by tightening the remaining skin.

Niclosamide exerts anticancer effects through inhibition of the FOXM1-mediated DNA damage response in prostate cancer.

Niclosamide, an established anti-helminthic drug, has anticancer activity against various cancers including prostate cancer, but the underlying mechanisms have not yet been defined. We demonstrated the anticancer effects of niclosamide in castration-resistant prostate cancer (CRPC) cells, and elucidated the mechanism of action of niclosamide in CRPC. Niclosamide reduced cell proliferation and induced apoptosis of CRPC cells in vitro, and also reduced xenograft tumor growth in vivo. Niclosamide significantly increased the number of γH2AX- and 53BP1-positive cells. In RNA-sequencing, niclosamide induced extensive changes in gene expression including cell division, DNA replication, and DNA repair. Bioinformatics analysis using TCGA data set revealed that FOXM1 is an important target of niclosamide. In microarray assays, FOXM1 knockdown significantly inhibited several genes involved in DNA repair, and homologous recombination, in particular. Finally, FOXM1 strongly bound to EXO1 in CRPC cells, and FOXM1 knockdown significantly reduced EXO1-driven luciferase activity. Taken together, our results suggest that niclosamide exerts anticancer activity through inhibition of the FOXM1-mediated DNA damage response in CRPC.

All-2D ReS2 transistors with split gates for logic circuitry.

Two-dimensional (2D) semiconductors, such as transition metal dichalcogenides (TMDs) and black phosphorus, are the most promising channel materials for future electronics because of their unique electrical properties. Even though a number of 2D-materials-based logic devices have been demonstrated to date, most of them are a combination of more than two unit devices. If logic devices can be realized in a single channel, it would be advantageous for higher integration and functionality. In this study we report high-performance van der Waals heterostructure (vdW) ReS2 transistors with graphene electrodes on atomically flat hBN, and demonstrate a NAND gate comprising a single ReS2 transistor with split gates. Highly sensitive electrostatic doping of ReS2 enables fabrication of gate-tunable NAND logic gates, which cannot be achieved in bulk semiconductor materials because of the absence of gate tunability. The vdW heterostructure NAND gate comprising a single transistor paves a novel way to realize "all-2D" circuitry for flexible and transparent electronic applications.

Open reduction of zygoma fractures with the extended transconjunctival approach and T-bar screw reduction.

BACKGROUND: Zygomaticomaxillary complex (ZMC) fractures mostly occur in the form of tripod fractures. The surgical field is accessed using a combination of three classic approaches. However, the subciliary incision may have unfavorable aesthetic results. Herein, the authors report the advantages of the extended transconjunctival approach (ETA) combined with T-bar screw reduction in minimizing scarring and complications for the treatment of ZMC fractures. METHODS: A total of 26 patients underwent ZMC reduction through the ETA and intraoral approach. A skin incision measuring roughly 5 to 8 mm in length was placed following the lateral canthal skin crease. After releasing the inferior crus of the lateral canthal tendon for canthotomy, the medial periosteum of the lateral orbital rim was preserved for canthal reattachment. A limited subperiosteal dissection and partial relaxing incision of the orbicularis oculi were performed to expose the fracture line of the inferior orbital rim and zygomaticofrontal suture. Reduction was performed using a T-bar screw through the transconjunctival incision and an elevator through the intraoral incision. RESULTS: The aesthetic and functional results were excellent. Successful reduction was achieved and the skin incision was less than 8 mm in 20 cases (76.9%). Only six patients had an additional skin incision (less than 5 mm) to achieve reduction. No cases of ectropion, entropion, or excessive scarring were noted. CONCLUSIONS: The ETA using a T-bar screw is a useful method for maximizing aesthetic results in ZMC fractures, with the advantages of minimal scarring, faster recovery, and maintenance of pretarsal fullness.

Bilateral interdigitated Pacman flap for round and oval facial defects.

BACKGROUND: Skin texture and color are important considerations during the reconstruction of facial defects, and anatomical borders should be preserved. Therefore, a local flap is a better option. In these cases, the authors repaired facial defects using a bilateral interdigitated VY flap. OBJECTIVE: We aim to present a modified bilateral Pacman flap technique for the reconstruction of round and oval facial defects. MATERIALS AND METHODS: We performed a retrospective chart review of 25 patients (26 cases) who underwent bilateral interdigitated Pacman flap repair of round and oval facial defects after Mohs surgery for skin cancer from January 2012 to December 2017. The defect sizes ranged from 0.7 to 8.4 cm2 (mean 3.1 cm2). RESULTS: All defects were covered successfully and the flaps survived in all cases. One patient had partial flap necrosis that resolved spontaneously. No flap contraction, distortion, or severe scar formation was observed in any patient during the 12-month follow-up period. CONCLUSION: The bilateral interdigitated Pacman flap can cover round and oval facial defects without distortion or central dog-ear deformity. This method is a useful option for facial restoration in selected cases.

A New Method for Stabilizing the Columellar Strut Used in Rhinoplasty: The Trans-Septal Columellar Stabilizing Suture.

PURPOSE: Minimal deformity or instability after columellar strut graft (CSG) placement can be solved by placing a suture between the columella strut and the caudal septum, such as a medial crura anchor suture or a projection control suture. However, this is very tedious. MATERIALS AND METHODS: A trans-septal columellar stabilizing suture (TCSS) was developed for the management of final tip projection and location and increasing stability after CSG placement. RESULTS: Tip projection and rotation could be carefully controlled by changing the position of the TCSS. In addition, the TCSS provided increasing stability for the columellar strut. It was not necessary to remove any prior suture or the graft. CONCLUSION: TCSS usefully controls the final positions and shapes of the tip and columella and provides stability to the columellar strut after CSG. Furthermore, the TCSS is a straightforward and time-saving procedure.

Selective Dispersion of Highly Pure Large-Diameter Semiconducting Carbon Nanotubes by a Flavin for Thin-Film Transistors.

Scalable and simple methods for selective extraction of pure, semiconducting (s) single-walled carbon nanotubes (SWNTs) is of profound importance for electronic and photovoltaic applications. We report a new, one-step procedure to obtain respective large-diameter s- and metallic (m)-SWNT enrichment purity in excess of 99% and 78%, respectively, via interaction between the aromatic dispersing agent and SWNTs. The approach utilizes N-dodecyl isoalloxazine (FC12) as a surfactant in conjunction with sonication and benchtop centrifugation methods. After centrifugation, the supernatant is enriched in s-SWNTs with less carbonaceous impurities, whereas precipitate is enhanced in m-SWNTs. In addition, the use of an increased centrifugal force enhances both the purity and population of larger diameter s-SWNTs. Photoinduced energy transfer from FC12 to SWNTs is facilitated by respective electronic level alignment. Owing to its peculiar photoreduction capability, FC12 can be employed to precipitate SWNTs upon UV irradiation and observe absorption of higher optical transitions of SWNTs. A thin-film transistor prepared from a dispersion of enriched s-SWNTs was fabricated to verify electrical performance of the sorted sample and was observed to display p-type conductance with an average on/off ratio over 10(6) and an average mobility over 10 cm(2)/V·s.

Nonvolatile Ferroelectric Memory Circuit Using Black Phosphorus Nanosheet-Based Field-Effect Transistors with P(VDF-TrFE) Polymer.

Two-dimensional van der Waals (2D vdWs) materials are a class of new materials that can provide important resources for future electronics and materials sciences due to their unique physical properties. Among 2D vdWs materials, black phosphorus (BP) has exhibited significant potential for use in electronic and optoelectronic applications because of its allotropic properties, high mobility, and direct and narrow band gap. Here, we demonstrate a few-layered BP-based nonvolatile memory transistor with a poly(vinylidenefluoride-trifluoroethylene) (P(VDF-TrFE)) ferroelectric top gate insulator. Experiments showed that our BP-based ferroelectric transistors operate satisfactorily at room temperature in ambient air and exhibit a clear memory window. Unlike conventional ambipolar BP transistors, our ferroelectric transistors showed only p-type characteristics due to the carbon-fluorine (C-F) dipole effect of the P(VDF-TrFE) layer, as well as the highest linear mobility value of 1159 cm(2) V(-1) s(-1) with a 10(3) on/off current ratio. For more advanced memory applications beyond unit memory devices, we implemented two memory inverter circuits, a resistive-load inverter circuit and a complementary inverter circuit, combined with an n-type molybdenum disulfide (MoS2) nanosheet. Our memory inverter circuits displayed a clear memory window of 15 V and memory output voltage efficiency of 95%.