Management of Radiation Proctitis.

Radiation proctitis is radiation-induced rectal mucositis, occurring as a result of radiation therapy for various pelvic malignancies. The management of radiation proctitis is challenging as guidelines are not currently available, and studies of the various treatment modalities are limited. There are various medical, endoscopic, and surgical measures for treating chronic radiation proctitis.

Radiation proctopathy.

Radiation therapy is a widely utilized treatment modality for pelvic malignancies, including prostate cancer, rectal cancer, and cervical cancer. Given its fixed position in the pelvis, the rectum is at a high risk for injury secondary to ionizing radiation. Despite advances made in radiation science, up to 75% of the patients will suffer from acute radiation proctitis and up to 20% may experience chronic symptoms.

Extraction of a large self-amputated colonic lipoma: A case report.

Despite being the most common benign tumor of nonepithelial origin in the colon, colonic lipomas are nonetheless considered a rare occurrence. The minority of patients presenting with symptomatic colonic lipoma are generally treated with resection. We report a case of a symptomatic patient who, on presentation, was found to have a partially obstructing, self-amputated colonic mass on colonoscopy, requiring endoscopic fragmentation to extrude what was later histologically diagnosed to be a lipoma.

PI3 kinase dependent stimulation of gastric acid secretion by dexamethasone.

Excessive gastric acid secretion plays an important role in the pathogenesis of peptic ulcers. Dexamethasone, a widely used drug, is known to stimulate gastric acid secretion and increase the incidence of peptic ulcers. However little is known about the mechanism of the dexamethasone's effect on parietal cells.

DeltaF508 mutation results in impaired gastric acid secretion.

The cystic fibrosis transmembrane conductance regulator (CFTR) is recognized as a multifunctional protein that is involved in Cl(-) secretion, as well as acting as a regulatory protein. In order for acid secretion to take place a complex interaction of transport proteins and channels must occur at the apical pole of the parietal cell. Included in this process is at least one K(+) and Cl(-) channel, allowing for both recycling of K(+) for the H,K-ATPase, and Cl(-) secretion, necessary for the generation of concentrated HCl in the gastric gland lumen.