Madhavi Patil scite author profile

Madhavi Patil

5Publications

89Citation Statements Received

0Citation Statements Given

How they've been cited

172

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Affiliations

D.Y. Patil University, Case Western Reserve University, Hospital of the University of Pennsylvania

Publications

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Stimulus-activated changes in brain tissue temperature in the anesthetized rat

et al. 1989

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A new thin-film, multisensor probe was used to determine tissue oxygen tension, tissue temperature, and electrical activity at two depths below the brain surface in chloral hydrate- or nitrous oxide/halothane-anesthetized rats. Brain tissue temperature at both depths was found to be lower than core temperature by 1-2 degrees C. Electrical activation, spreading depression, and pentylenetetrazol seizures all resulted in transient increases of brain tissue temperature of a few tenths degree centigrade. Vasodilation, induced by hypercapnia or hypoxia, caused a warming of brain tissue. Near-maximum oxygen metabolism, reached upon reoxygenation after severe hypoxia, was accompanied by tissue temperature rises of greater than 1 degree C. It was concluded that brain tissue temperature in the anesthetized rat is lower than core temperature due to extensive radiative and conductive heat loss to the environment through the head. Transient increases in tissue temperature during activation are caused by vasodilation and increased metabolism.

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Brain Tissue Temperature: Activation-Induced Changes Determined with a New Multisensor Probe

LaManna

McCracken

Patil

et al. 1988

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Practical Approach to the Pathologic Diagnosis of Gastritis

Sepulveda

Patil

2008

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Context.—Most types of gastritis can be diagnosed on hematoxylin-eosin stains. The most common type of chronic gastritis is Helicobacter pylori gastritis. Reactive or chemical gastropathy, which is often associated with nonsteroidal anti-inflammatory drug use or bile reflux, is common in most practices. The diagnosis of atrophic gastritis can be challenging if few biopsy samples are available and if the location of the biopsies in the stomach is not known, such as when random biopsies are sampled in one jar. If the biopsy site is not known, immunohistochemical stains, such as a combination of synaptophysin and gastrin, are useful in establishing the biopsy location. Objective.—To demonstrate a practical approach to achieving a pathologic diagnosis of gastritis by evaluating a limited number of features in mucosal biopsies. Data Source.—In this article, we present several representative gastric biopsy cases from a gastrointestinal pathology practice to demonstrate the practical application of basic histopathologic methods for the diagnosis of gastritis. Conclusions.—Limited ancillary tests are usually required for a diagnosis of gastritis. In some cases, special stains, such as acid-fast stains, and immunohistochemical stains, such as for H pylori and viruses, can be useful. Helicobacter pylori immunohistochemical stains can particularly contribute (1) when moderate to severe, chronic gastritis or active gastritis is present but no Helicobacter organisms are identified upon hematoxylin-eosin stain; (2) when extensive intestinal metaplasia is present; and (3) in follow-up biopsies, after antibiotic treatment for H pylori.

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Effects of ethanol on the excitability of hippocampal granule neurons

1991

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Fiber optic sensor for joint angle measurement

Patil

Prohaska

1988

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Madhavi Patil

Stimulus-activated changes in brain tissue temperature in the anesthetized rat

Brain Tissue Temperature: Activation-Induced Changes Determined with a New Multisensor Probe

Practical Approach to the Pathologic Diagnosis of Gastritis

Effects of ethanol on the excitability of hippocampal granule neurons

Fiber optic sensor for joint angle measurement

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