15 результати
OBJECTIVE
Antispasmodics may improve mucosal visualization during colonoscope withdrawal, potentially improving polyp and adenoma detection. Meta-analysis and case-control studies suggest a 9 % to 13 % relative increase in adenoma and polyp detection. We aimed to assess the impact of hyoscine
BACKGROUND
Hyoscine N-butylbromide (HBB), commonly used during colonoscopy to facilitate cecal intubation, has been proposed to increase the adenoma detection rate (ADR).
OBJECTIVE
To evaluate whether HBB administration increases the adenoma detection rate and influences patients'
BACKGROUND
Hyoscine-N-butylbromide (HBB) can induce flattening of colon folds through inhibition of smooth muscle activity, which improves mucosal visualization. Whether this affects polyp detection is controversial.
OBJECTIVE
To evaluate whether HBB, administered during colonoscopy, improves polyp
OBJECTIVE
Anti-spasmodic drugs may facilitate mucosal inspection during colonoscopy. The impact of hyoscine N-butylbromide (HBB) on polyp detection rate (PDR) and adenoma detection rate (ADR) is unclear.
METHODS
We conducted a reproducible literature search of multiple databases. Two reviewers
OBJECTIVE
To assess the role of hyoscine for polyp detection during colonoscopy.
METHODS
Studies (randomized controlled trials or RCTs) that compared the use of hyoscine vs no hyoscine or placebo for polyp detection during colonoscopy were included in our analysis. A search on multiple databases was
UNASSIGNED
Published studies have shown conflicting results regarding the benefit of Hyoscine Butylbrmoide use during colonoscopy in polyp and adenoma detection rates. This meta-analysis was conducted with the aim to summarize all available evidence.
UNASSIGNED
A literature search was carried out
OBJECTIVE
To investigate the benefits of hyoscine butylbromide in polyp detection during colonoscopy by a meta-analysis of available randomized controlled trials (RCTs).
METHODS
Databases, including PubMed, EMBASE, the Cochrane Library, and the Science Citation Index up to September 2013, were
OBJECTIVE
Removal of colonic polyps prevents progression of colonic neoplasia. Miss rates of polyps range from 5 % to 32 %. The effect of colonic contractility on polyp detection has not been studied adequately. Hyoscine butylbromide results in colonic spasmolysis and may improve polyp
BACKGROUND
Colonoscopy is used for the detection of neoplastic polyps, although a significant miss rate has been reported. Limited data suggest that the administration of the antispasmodic hyoscine N-butylbromide during colonoscopy improves polyp detection.
OBJECTIVE
To investigate whether the use
UNASSIGNED
Colorectal cancer (CRC) is a leading cause of death worldwide. Polyp detection rate (PDR) and adenoma detection rate (ADR) are key focus in endoscopic research for CRC screening and prevention. Use of anti-spasmodic agents during colonoscopy to help identify adenomas and polyps has
UNASSIGNED
The removal of pre-malignant colorectal lesions prevents cancer. Hyoscine has been proposed as a means of improving diagnosis by reducing colonic movements. The aim of this study was to analyze whether this anti-spasmodic enhances the detection of pre-malignant colorectal
OBJECTIVE
Low adenoma detection rates (ADRs) at colonoscopy are linked to significantly higher interval cancer rates, and vary between colonoscopists. Studies demonstrate that lesion detection is improved by: withdrawal time of ≥ 6 minutes; use of hyoscine butylbromide; position change; and rectal
Unacceptable variation in colonoscopy quality exists. The Quality Improvement in Colonoscopy (QIC) study in 2011 improved quality by introducing an evidence-based "bundle" of measures into routine colonoscopy practice. The QIC bundle included: minimal cecal withdrawal time BACKGROUND
Colorectal cancer still has a high incidence and mortality. Although colonoscopy is considered as gold standard of colorectal cancer screening, there still exists an unsatisfactory level of adenomas missed in screening and surveillance colonoscopy. Furthermore, patients bear the burden of
Scopolamine hydrobromide trihydrate is used in ophthalmic preparations and as a preanesthetic sedative. Its major use is in transdermal patches for the treatment of motion sickness. Scopolamine hydrobromide trihydrate was selected for study because of considerable human exposure resulting from its