Richard Blatt scite author profile

Background Gastrointestinal dysfunction is very common in diabetic patients. We assessed the changes in the colonic enteric nervous system using colectomy specimens and intestinal biopsies from diabetic subjects and age-matched controls. Methods In control and diabetic colons, we determined the total ganglion area (hematoxylin-eosin staining), changes in neuronal markers-protein gene product 9.5, peripherin, neuronal nitric oxide synthase (nNOS), neuropeptide Y (NPY), choline acetyl transferase (ChAT) and vasoactive intestinal peptide (by immunostaining), apoptosis (cleaved caspase-3 staining) and reduced glutathione levels. Superoxide dismutase mRNA was determined in enteric ganglia isolated by laser capture micro dissection. Isometric muscle recording was used to assess contraction and relaxation responses of colonic circular muscle strips. Apoptosis in enteric neurons under hyperglycemia in vitro was determined by cleaved caspase-3 Western blotting and protective effects of lipoic acid were evaluated. Key Results Diabetic subjects had higher incidence of lower gastrointestinal symptoms like constipation and diarrhea at baseline prior to surgery. Diabetic ganglia displayed significant decrease in ganglion size due to enhanced apoptosis and loss of peripherin, nNOS, NPY, and ChAT neurons.Reduced glutathione levels in the diabetic colon (HbA1C > 7%) were significantly less than the control, indicating increased oxidative stress. Colonic circular muscle strips from diabetic subjects showed impaired contraction and relaxation responses compared with the healthy controls. Hyperglycemia-induced cleaved caspase-3 in enteric neurons was reversed by lipoic acid. Conclusions & Inferences Our data demonstrate loss of enteric neurons in the colon due to increased oxidative stress and apoptosis which may cause the motility disturbances seen in human diabetes. Antioxidants may be of therapeutic value for preventing motility disorders in diabetes.

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Defining Disease With Laser Precision: Laser Capture Microdissection in Gastroenterology

Blatt

Srinivasan

2008

Gastroenterology

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Laser capture microdissection (LCM) is an efficient and precise method for obtaining pure cell populations or specific cells of interest from a given tissue sample. LCM has been applied to animal and human gastroenterology research in analyzing the protein, DNA and RNA from all organs of the gastrointestinal system. There are numerous potential applications for this technology in gastroenterology research including malignancies of the esophagus, stomach, colon, biliary tract and liver. This technology can also be used to study gastrointestinal infections, inflammatory bowel disease, pancreatitis, motility, malabsorption and radiation enteropathy. LCM has multiple advantages when compared to conventional methods of microdissection, and this technology can be exploited to identify precursors to disease, diagnostic biomarkers, and therapeutic interventions.

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Gastrointestinal Hemorrhage with Splenic Injury

Lin

Blatt

Rutherford

2009

American Journal of Gastroenterology

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A Case of Tuberculous Enteritis Mimicking Crohnʼs Disease

Blatt¹,

Law²,

Dhere³

et al. 2008

American Journal of Gastroenterology

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Gallbladder Tuberculosis Mimics Cholecystitis

Blatt¹,

Shahnavaz²,

Dhere³

et al. 2008

American Journal of Gastroenterology

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Richard Blatt

Colonic motor dysfunction in human diabetes is associated with enteric neuronal loss and increased oxidative stress

Defining Disease With Laser Precision: Laser Capture Microdissection in Gastroenterology

Gastrointestinal Hemorrhage with Splenic Injury

A Case of Tuberculous Enteritis Mimicking Crohnʼs Disease

Gallbladder Tuberculosis Mimics Cholecystitis

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