Abstract Introduction: The XEN Gel Stent (Allergan Inc., CA, USA) has been widely used in minimally invasive glaucoma surgery to lower intraocular pressure considering reasonable efficacy and safety profiles. However, the XEN gel stent could be occluded by fibrin, blood clots, or the iris due to its small lumen design for preventing postoperative hypotony. To date, only a few studies have assessed XEN occlusion after combined phacoemulsification with XEN gel implantation and how to manage this condition. We describe the first case report of XEN gel stent obstruction by cortical material, demonstrated by anterior segment optical coherence tomography (AS-OCT), which resolved effectively after low-energy neodymium-doped yttrium aluminum garnet (Nd: YAG) laser shock wave treatment. Patient Information: A 76-year-old Korean male patient underwent uncomplicated phaco-XEN-gel stent implantation and presented with low intraocular pressure (IOP) with a well-functioning filtering bleb during the first postoperative 4 days. On postoperative day 5, the XEN lumen was occluded by the cortical material, with an intraocular pressure elevation of 28 mm Hg. Slit-lamp examination revealed that cortical material was causing a block into the internal ostium of the XEN gel implant. AS-OCT examination also demonstrated the presence of hyper-reflective materials at the intraluminal portion and peritubular portion around the internal ostium of the XEN gel implant. Diagnosis: XEN gel stent occlusion with cortical material after Phaco-XEN surgery. Interventions: Low-energy Nd: YAG laser shock wave treatment. Outcomes: The IOP dropped from 28 mm Hg to 8 mm Hg immediately after treatment. Transient hypotony and a slightly shallow anterior chamber were noted over the 3 days after YAG laser treatment. The IOP continued to be well-controlled until 3 months later (range; 6 - 12 mm Hg). Conclusions: To the best of our knowledge, this is the first case report on the efficacy of Nd: YAG laser treatment for recanalization of XEN implant occluded by the cortex. Moreover, AS-OCT could provide additional clinical information for recanalization of the XEN gel stent.
Purpose:To determine the effect of the base curve radius (BCR) of therapeutic soft contact lens (T-lens) on epithelial healing after laser-assisted subepithelial keratectomy (LASEK).Methods: Ninety-two eyes in 47 patients with myopia were prospectively evaluated after LASEK.All the patients wore T-lenses with the BCR (R1) randomly chosen after LASEK.The T-lenses were removed after complete healing of the epithelial wounds.We calculated an estimated BCR (R2) from postoperative topography using a diopter conversion table.The patients were divided into two groups according to the differences between the BCR (R1) and the estimated BCR (R2).The flat fitting group was R1 > R2 (Group A), and the steep fitting group was R1R2) had 53 eyes, and Group B (R1
Introduction: There are individual differences in glucose lowering effect and weight reduction of dulaglutide, long-acting glucagon-like peptide-1 (GLP-1) receptor agonist. It is expected that genetic variations in the mechanism of action of drugs are involved in treatment response to drugs. This study aims to investigate genetic variants associated with long-term efficacy and weight reduction of dulaglutide using targeted next-generation sequencing. Methods: We recruited 77 patients those who were treated with dulaglutide at least one year after switching from DPP-4 inhibitors (±basal insulin) due to uncontrolled type 2 diabetes (HbA1c ≥8.0%) at Korean VHS medical center between September 2018 and October 2019, and followed up until March 2021. The responder was defined by ≥1.0% HbA1c reduction at 24 weeks and achievement of HbA1c ≤7.5% at 52 weeks. We designed targeted exome panel based on the mechanism of drug action, and candidate genetic variants included known GLP-1 response related genes (n=10), gastric emptying related genes (n=18), pancreatic insulin secretion related genes (n=25). At the same time, we also performed whole exome sequencing. Results: During follow-up period of median 2.5±1.3 years, HbA1c was 9.7±1.3% at baseline and reduced to 8.2±1.5% at 6 months, and maintained thereafter up to 4 years. Glycemic response was associated with GNB3, SPARC, and COL4A1 genes. Weight loss (n=13) was more frequently observed in patients with minor G alleles of COL4A1 gene (OR 2.516, 95% CI 1.013, 6.249, p=0.047). Glycemic effectiveness of dulaglutide therapy is associated with genetic variants (OR 2.106, 95% CI 1.358, 3.265, p=0.001) as well as baseline HbA1c (OR 1.682, 95% CI 1.067, 2.650, p=0.025). Conclusion: The glucose lowering effect of dulaglutide, which exempts some patients from insulin therapy, has been associated with GNB3, SPARC, and COL4A1 variants. Polymorphisms in COL4A1 gene was associated with weight loss, although further studies are needed for validation. Disclosure Y.Kim: None. J.Seo: None. Funding VHS Medical Center (VHSMC20026)
Additional file 3. Table S2. Effect allele frequencies (EAFs) of open-angle glaucoma-related single nucleotide polymorphisms in East Asian groups, including Koreans.
Abstract Background Adequate physical activity (PA) is essential for preventing sarcopenia in older adults. However, there are insufficient epidemiological data on the intensity of PA needed to prevent age-related sarcopenia. The purpose of this study was to investigate the association of PA intensity with skeletal muscle mass and muscle strength. Methods This was a population-based study with a cross-sectional design that was conducted using data from the 2008 − 2011 and 2014 − 2018 Korea National Health and Nutrition Examination Surveys, which included a total of 11,162 participants aged ≥ 60 years. PA was assessed using the results of a questionnaire and organized by intensity, frequency, and duration. The study population was divided into the following groups based on PA intensity: no exercise, walking only, moderate PA, and vigorous PA. To assess sarcopenia, skeletal muscle index (SMI) and hand grip strength (HGS) were measured as indicators of muscle mass and strength, respectively. Logistic regression analysis was used to explore the relationship between PA intensity and sarcopenia. Results SMI and HGS were significantly higher in men and women engaged in moderate to vigorous PA than in those who did not exercise. The odds ratios (ORs) for sarcopenia defined based on SMI and HGS were lowest in men engaged in vigorous PA (0.444, 95% confidence interval [CI]: 0.242 − 0.818 and 0.450, 95% CI: 0.228 − 0.890, respectively). In women, the OR for sarcopenia defined based on HGS was the lowest in the group engaged in vigorous PA (0.441, 95% CI: 0.199 − 0.975), while there was no risk reduction for sarcopenia defined based on SMI. Conclusions Moderate to vigorous PA was highly correlated with SMI and HGS in men and women. Intensive PA was positively correlated with sarcopenia prevention, which can be monitored using HGS.
Corneal endothelial cells, situated on the innermost layer of the cornea, are vital for maintaining its clarity and thickness by regulating fluid. In this study, we investigated the differences in the transcriptome between young and old corneal endothelial cells using next-generation sequencing (NGS). Cultured endothelial cells from both young and elderly donors were subjected to NGS to unravel the transcriptomic landscape. Subsequent analyses, facilitated by Metascape, allowed for the dissection of gene expression variances, unearthing pivotal biological pathways. A total of 568 genes showed differences, and were related to Endomembrane system organization, nuclear receptors meta pathway, efferocytosis, etc. Notably, a reduction in the expression of 260 genes was observed in the aged cells form old donors, and in the related analysis, eukaryotic translation initiation, integrator complex, and Hippo YAP signaling were significant. Conversely, 308 genes exhibited elevated expression levels in the elderly, correlating with processes including transition metal ion transport and glycoprotein biosynthesis. In conclusion, our investigation has revealed critical genes involved in the aging process of corneal endothelial cells and elucidated their underlying biological pathways. These insights are instrumental in selecting targets for therapeutic intervention, thereby facilitating the advancement of novel therapeutic approaches for the restoration and preservation of corneal endothelial cell function.
The prevalence of vitamin D deficiency varies from 20.8% to 61.6% among populations of different ethnicities, suggesting the existence of a genetic component. The purpose of this study was to provide insights into the genetic causes of vitamin D concentration differences among individuals of diverse ancestry. We collected 320 single-nucleotide polymorphisms (SNPs) associated with vitamin D concentrations from a genome-wide association studies catalog. Their population-level allele frequencies were derived based on the 1000 Genomes Project and Korean Reference Genome Database. We used Fisher's exact tests to assess the significance of the enrichment or depletion of the effect allele at a given SNP in the database. In addition, we calculated the SNP-based genetic risk score (GRS) and performed correlation analysis with vitamin D concentration that included latitude. European, American, and South Asian populations showed similar heatmap patterns, whereas African, East Asian, and Korean populations had distinct ones. The GRS calculated from allele frequencies of vitamin D concentration was highest among Europeans, followed by East Asians and Africans. In addition, the difference in vitamin D concentration was highly correlated with genetic factors rather than latitude effects.
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