Fish bone perforation mimicking colon cancer: A case report.

Most patients who ingest fish bones do not develop any complications. The small proportion of patients who do complicate, present with non-specific symptoms. A 64-year-old female patient presented with a 2-month history of abdominal pain.

Current and future approach to the pathologist's assessment for targeted therapy in breast cancer.

Breast cancer is a common disease in the population. Contrary to public perception, it is a heterogeneous disease with varying morphology, prognosis and response to therapy. The pathological analysis is at the heart of information provided to surgeons and oncologists to plan further management.

Hemodynamic effects of recombinant human erythropoietin on the central nervous system after subarachnoid hemorrhage: reduction of microcirculatory impairment and functional deficits in a rabbit model.

Object: The authors investigated the hemodynamic effects of recombinant human erythropoietin (rhEPO) after subarachnoid hemorrhage (SAH) in rabbits.

Methods: The authors used male New Zealand White rabbits in this study divided into the following groups: SAH plus saline (16 rabbits), SAH plus low-dose rhEPO (16 rabbits; 1500 IU/kg on Day 0 and 500 IU/kg on Days 2 and 4), SAH plus high-dose rhEPO (10 rabbits; 1500 IU/kg on Days 0, 2, 4, and 6), and sham (6 rabbits). Computed tomography perfusion studies and CT angiography were performed for 1 hour after SAH on Day 0, and once each on Days 2, 4, 7, 9, and 16 after SAH.

Measurements of aneurysm morphology determined by 3-d micro-ultrasound imaging as potential quantitative biomarkers in a mouse aneurysm model.

Aneurysms remain a significant medical problem and our current understanding of aneurysm formation and developmental stages remains incomplete. Noninvasive 3-D micro-ultrasound (3-D micro-US) imaging technologies designed for noninvasive evaluation of small laboratory animals diminish risks associated with invasive examination and provide in-situ (live) analysis of vascular morphological changes, which enables quantitative measurements of live biological specimens. We demonstrate here that aneurysm morphology can be quantified using 3-D micro-US, and we validate this methodology through comparison of geometric measures with those obtained from 3-D serial histologic records in a mouse model of accelerated aneurysm formation.