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Full-Text Articles in Hepatology
Liver Cirrhosis, Hydroureter And Splenomegaly In A Cadaver : A Case Study, Steven Li, Manuel S. Linarte, Teighlor N. Livingston, Nahimie K. Louissaint, Tyanna N. Mccladdie, Nishi Patel, Shiv Dhiman, Savita Arya
Liver Cirrhosis, Hydroureter And Splenomegaly In A Cadaver : A Case Study, Steven Li, Manuel S. Linarte, Teighlor N. Livingston, Nahimie K. Louissaint, Tyanna N. Mccladdie, Nishi Patel, Shiv Dhiman, Savita Arya
Research Day
Background: Liver cirrhosis is among the most common causes of death in the United States. Cirrhosis can result from alcoholic liver disease, hepatitis, or non-alcoholic fatty liver disease. Advanced cases of liver cirrhosis may result in complications such as portal hypertension, hepatosplenomegaly, varices, and many others.
Case Presentation: This report describes a case of extensive liver cirrhosis found during the cadaveric dissection of a 71-year-old male. Observation revealed a slightly enlarged, cirrhotic liver with recanalization of the umbilical vein (of the round ligament). The patient also had significant splenomegaly, indicative of portal hypertension, and dilation of the left ureter. In …
The Role Of Protein Kinase C Epsilon In Hydrogen Peroxide And Nitric Oxide Release During Oxidative Stress Caused By Extracorporeal Shockwave Lithotripsy, Edward S. Iames
The Role Of Protein Kinase C Epsilon In Hydrogen Peroxide And Nitric Oxide Release During Oxidative Stress Caused By Extracorporeal Shockwave Lithotripsy, Edward S. Iames
PCOM Biomedical Studies Student Scholarship
Clinical extracorporeal shock wave lithotripsy (ESWL) treatment to ablate kidney stones can cause acute damage to the renal microvasculature. Accumulation of continued treatment with shockwave therapy can lead to chronic damage to the kidney, and lead to clinical hypertension. Shockwaves have been shown to stimulate endothelial cells to release superoxide (SO), which is converted to hydrogen peroxide (H2O2), and reacts with nitric oxide (NO) to produce peroxynitrite anion (OONO-), creating a powerful oxidant that increases oxidative stress while simultaneously reducing NO bioavailability. Increased oxidative stress during events such as ESWL, also uncouples NO production …