Esophageal achalasia is a rare chronic debilitating disorder characterized by incomplete lower esophageal sphincter (LES) relaxation and abnormal peristalsis as a result of myenteric plexus degeneration. Although complex interactions among immunity, viruses and inheritance have been proposed, its causes remain unknown. MicroRNAs (miRs) play crucial roles in the regulation of gene expression during pathophysiological processes. Certain viruses such as herpes simplex virus (HSV) encode miRs derived from their own genomes. To determine the underlying relationship of miRNAs to achalasia, we analyzed the expression profile of miRNAs using biopsy samples obtained from LES muscle during peroral endoscopic myotomy. Peroral LES muscle biopsy sampling was uneventfully carried out in our case series of achalasia. Control biopsy tissues were also obtained from LES muscle of patients without symptoms relating to abnormal esophageal motility whose esophagogastric junction was surgically excised. RNA was extracted from biopsy specimens and analyzed using a microarray. Differentially expressed miRNAs in achalasia patients compared to controls were identified and analyzed using reverse transcription quantitative polymerase chain reaction. HSV‐1‐derived hsv1‐miR‐H1 and ‐H18 was significantly overexpressed in achalasia cohorts compared to controls. Correlations between the expression levels of viral miR and the patients’ clinical characteristics including achalasia morphological type, dilatation grading, and disease duration were not identified. Further studies with a larger sample size are needed to replicate the current heuristic identification of neurotropic viral miRs and unravel their functional significance in order to provide new insight linking neurodegenerative etiology in achalasia.
Background: In most guidelines, no other interventional therapy but liver transplantation is recommended for the treatment of hepatocellular carcinoma (HCC) with Child-Pugh C cirrhosis (CP-C). However, in Japan, patients were sometimes treated with expectation of benefit. Summary: A workshop was conducted to explore the state of treatments for CP-C HCC in Japan. After the workshop, a questionnaire on therapies was given to the panelists. Clinical data of 769 patients with CP-C HCC from 8 hospitals as well as analyses of data collected by the Liver Cancer Study Group of Japan (LCSGJ) consisting of 1,344 CP-C HCC cases were presented. Patients who underwent liver transplantation were excluded. In total, 424 out of the 769 patients (55.1%) from the 8 hospitals and 537 out of 828 CP-C HCC cases (64.8%) from the LCSGJ data received interventional therapies, such as local ablation and transcatheter arterial chemoembolization. All panelists agreed that there was a subgroup of CP-C patients who benefitted from the locoregional therapies. The major goals for the therapies were to prevent HCC rupture and avoid obstruction of major vessels by tumor growth, which can lead to a sudden deterioration of the patients' condition. Patient liver function and tumor stage are both important factors for the decision to undergo treatment; however, the inclusion criteria for the treatments varied among the centers. Key Message: There exists a subgroup of CP-C patients who benefit from interventions for HCC.
Photodynamic therapy (PDT) induces photochemical reactions, resulting in the destruction of tumor cells via singlet (S1) oxygen production. This cellular destruction occurs specifically in tumor cells, following selective accumulation of a photosensitizer and its excitation by a specific wavelength. Verteporfin (VP) is a second-generation photosensitizer that is currently being used worldwide in PDT to treat age-related macular degeneration. In addition, clinical trials with VP-PDT demonstrated anti-tumor efficacy and overall safety when used to treat locally advanced pancreatic cancer. In the present study, we examined the anti-tumor effect of VP-PDT on gastric cancer (GC) cell lines in vitro to conduct an initial assessment of its potential clinical applicability to this specific type of cancer. We evaluated the viability of MKN45 and MKN74 cancer cell lines after VP-PDT exposure and calculated the half maximal effective concentration (EC 50) values for VP. Apoptosis in VP-PDT-exposed GC cells was observed. Furthermore, the EC 50 values for a 30-min treatment with VP (2.5 J/cm 2 of 660 nm LED light) were 0.61 and 1.21 µM for MKN45 and MKN74, respectively. When VP treatment times were increased, the EC 50 values decreased. In conclusion, VP-PDT may be developed as an effective treatment for GC.
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