2,511 research outputs found
Nonaspirin nonsteroidal anti-inflammatory drugs and hemorrhagic stroke risk: the Acute Brain Bleeding Analysis study
BACKGROUND AND PURPOSE: The relationship between nonaspirin nonsteroidal anti-inflammatory drugs (NANSAIDs) and hemorrhagic stroke (HS) remains unclear. We examined the risk of HS associated with the use of NANSAIDs in Koreans. METHODS: We performed a nationwide, multicenter case-control study from 2002 to 2004. This study included 940 nontraumatic acute HS cases in patients aged 30 to 84 years, with an absence of a history of stroke or hemorrhage-prone brain lesions, alongside 940 community controls, matched to each case by age and sex. Pretrained interviewers obtained information on prescription drugs as well as over-the-counter drugs taken within 14 days before the onset of stroke. We adjusted potential confounders, including family histories of stroke, histories of hypertension, smoking, alcohol consumption, high salt intake, and laborious work hours. The adjusted ORs and their 95% CIs were calculated by conditional logistic regression. RESULTS: The proportion of NANSAIDs exposure within 14 days was 2.9% for HS patients and 2.0% for the controls. The adjusted odds ratios of stroke in NANSAIDs users compared with nonusers was 1.12 (95% CI, 0.77 to 1.65) for all HS, 1.03 (95% CI, 0.49 to 2.18) for subarachnoid hemorrhage, and 1.19 (95% CI, 0.76 to 1.87) for intracerebral hemorrhage. CONCLUSIONS: No increased risk of HS either subarachnoid hemorrhage or intracerebral hemorrhage was found among NANSAIDs users.This study was partially supported by the Korean Food and Drug
Administration
Remifentanil Prevents Withdrawal Movements Caused by Intravenous Injection of Rocuronium
PURPOSE: The incidence of pain induced withdrawal movement following intravenous injection of rocuronium is high. This randomized, double-blind, placebo-controlled study was designed to evaluate the effect of pretreatment of remifentanil on the withdrawal movements due to intravenous injection of rocuronium during anesthetic induction.
MATERIALS AND METHODS: Ninety adult female patients undergoing thyroidectomy were randomly allocated to three groups. Each patient intravenously received one of three solutions of equal volume (4 mL): normal saline (Group I, n=30), 0.5 microg/kg remifentanil (Group II, n=30) or 1 microg/kg remifentanil (Group III, n=30). Thirty seconds after remifentanil administration, anesthesia was induced with 5 mg/kg IV thiopental. Twenty seconds after thiopental injection, 0.6 mg/kg IV rocuronium was administered (injection rate of 0.5 mL/sec) and patients' withdrawal movements were assessed. Mean arterial pressure (MAP) and heart rate were assessed on arrival in the operation room, before the tracheal intubation and immediately, 1 and 2 min after the tracheal intubation.
RESULTS: The incidence of withdrawal movements was significantly lower in both of the remifentanil groups (3 and 0% in Group II and III, respectively) than in the saline group (70%). Remifentanil attenuated the increase of heart rate and MAP immediately and 1 min after the tracheal intubation.
CONCLUSION: The pretreatment with 0.5 and 1.0 microg/kg remifentanil of bolus doses prevented the withdrawal movements caused by rocuronium injection, and effectively blunted cardiovascular activation following tracheal intubationope
The effect of sustained-release CARvedilol in patients with hypErtension and heart failure with preserved ejection fraction: a study protocol for a pilot randomized controlled trial (CARE-preserved HF)
BackgroundAlthough beta-blockers improve clinical outcomes in heart failure with reduced ejection fraction, the benefit of beta-blockers in heart failure with preserved ejection fraction (HFpEF) is uncertain. Global longitudinal strain (GLS) is a robust predictor of heart failure outcomes, and recent studies have shown that beta-blockers are associated with improved survival in those with low GLS (GLS <14%) but not in those with GLS ≥14% among patients with LVEF ≥40%. Therefore, the objective of this trial is to evaluate the effect of sustained-release carvedilol (carvedilol-SR) on the outcome [N-terminal pro-B-natriuretic peptide (NT-proBNP) concentration] in patients with hypertension and HFpEF and will assess the differential effects of these drugs on the outcome, according to the GLS categories.MethodsThis prospective randomized double-blind multicenter trial (CARE-preserved HF) will include 100 patients with HFpEF from three tertiary hospitals in South Korea. Patients with HFpEF and hypertension aged ≥20 years who have evidence of functional and structural heart disease on echocardiography and elevated natriuretic peptide will be enrolled. Eligible participants will be randomized 1:1 to either the carvedilol-SR group (n = 50) or the placebo group (n = 50). Patients in the carvedilol-SR group will receive 8, 16, 32, or 64 mg carvedilol-SR once daily for 6 months, and the dose of carvedilol will be up-titrated at the discretion of the treating physicians. The primary efficacy outcome was the time-averaged proportional change in N-terminal pro-B-natriuretic peptide concentration from baseline to months 3 and 6. We will also evaluate the differential effects of carvedilol-SR on primary outcomes according to GLS, using a cut-off of 14% or the median value.DiscussionThis randomized controlled trial will investigate the efficacy and safety of carvedilol-SR in patients with HFpEF and hypertension.
Clinical Trial RegistrationClinicalTrial.gov, identifier NCT05553314
Effects of HMGB-1 Overexpression on Cell-Cycle Progression in MCF-7 Cells
High mobility group-1 (HMGB-1) enhances the DNA interactions and possesses a transcriptional activation potential for several families of sequence-specific transcriptional activators. In order to examine the effect of HMGB-1 on the cell cycle progression in MCF-7 cells, the HMGB-1 expression vector was transfected into synchronized MCF-7 cells, and the effect of HMGB-1 overexpression on the cell cycle was examined. The HMGB-1 protein level in the transfected cells increased 4.87-fold compared to the non-transfected cells. There were few changes in the cell cycle phase distribution after HMGB-1 overexpression in the MCF-7 cells. Following the estrogen treatment, the cell cycle progressed in both the HMGB-1 overexpressed MCF-7 and the mock-treated cells. However, a larger proportion of HMGB-1 overexpressing MCF-7 cells progressed to the either S or G2 phase than the mock-treated cells. The mRNA levels of the cell cycle regulators changed after being treated with estrogen in both the HMGB-1 overexpressing MCF-7 and the mock-treated cells, but the changes in the expression level of the cell cycle regulator genes were more prominent in the HMGB-1 overexpressing MCF-7 cells than in the mock-treated cells. In conclusion, HMGB-1 overexpression itself does not alter the MCF-7 cell cycle progression, but the addition of estrogen to the HMGB-1 overexpressing MCF-7 cells appears to accelerate the cell cycle progression
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