Molecular diagnosis of Eimeria stiedae in hepatic tissue of experimentally infected rabbits in comparison with traditional methods Original

Preliminary investigation has indicated similarity in hepatic ultrastructural morphology in nutritional deprivation, and cyanide induced hepatic necrosis. Analysis of hepatic tissue has indicated disruption of intracellular membranes, specifically, reduction in rough endoplasmic reticulum (RER) mitochondrial integrity, and glycogen stores. An increase in smooth endoplasmic reticulum (SER) portion was observed.To further investigate the apparent equivalence of necrotic morphology, ultrastructura1ly, BDF1 mice were subjected to senescence, nutritional deprevation, potassium cyanide (KCN) induced toxemia, and acetaminophen induced toxemia. Controls were utilized to ellucidate non-necrotic hepatocellular normals. U1trastructura1 investigation of controls (Fig. 1) shows densely granular RER, abundant glycogen stores, and morphologically normal mitochondria. Subjects with acetaminophen induced necrosis exhibit reduced normal RER with increased levels of dialated, vesicular RER in apparent conversion to SER (Fig. 2), loss of mitochondrial integrity, and glycogen store reduction. Senescent subjects exhibit a pronounced increase in SER and loss of glycogen store. (Fig. 3). Investigation of the senescent SER at high magnification (Fig. 5) indicates that the SER is arising from degranulating and vesiculating RER.

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1504: Molecular Diagnosis and Staging of Prostate Cancer Using Clusterin in Real Time Reverse Transcription Polymerase Chain Reaction (RT-PCR)

The Journal of Urology ◽

10.1016/s0022-5347(18)33708-x ◽

2006 ◽

Vol 175 (4S) ◽

pp. 485-486

Author(s):

Sabarinath B. Nair ◽

Christodoulos Pipinikas ◽

Roger Kirby ◽

Nick Carter ◽

Christiane Fenske

Keyword(s):

Prostate Cancer ◽

Polymerase Chain Reaction ◽

Real Time ◽

Molecular Diagnosis ◽

Reverse Transcription ◽

Rt Pcr ◽

Chain Reaction ◽

Polymerase Chain

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Genetic intra-tumour heterogeneity in epithelial ovarian cancer and its implications for molecular diagnosis of tumours

Yearbook of Pathology and Laboratory Medicine ◽

10.1016/s1077-9108(08)70618-2 ◽

2008 ◽

Vol 2008 ◽

pp. 135-136 ◽

Cited By ~ 1

Author(s):

D. Jukic

Keyword(s):

Ovarian Cancer ◽

Epithelial Ovarian Cancer ◽

Molecular Diagnosis ◽

Tumour Heterogeneity

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The Glissonian Approach of the Hilum

Swiss Surgery ◽

10.1024/1023-9332.5.3.143 ◽

1999 ◽

Vol 5 (3) ◽

pp. 143-146 ◽

Cited By ~ 9

Author(s):

Launois ◽

Maddern ◽

Tay

Keyword(s):

Portal Vein ◽

Hepatic Artery ◽

Posterior Approach ◽

Hepatic Duct ◽

Rapid Evolution ◽

Hepatic Tissue ◽

Detailed Knowledge ◽

Porta Hepatis ◽

Liver Segment ◽

Glissonian Approach

The detailed knowledge of the segmental anatomy of the liver has led to a rapid evolution in resectional surgery based on the intrahepatic distribution of the portal trinity (the hepatic artery, hepatic duct and portal vein). The classical intrafascial or extrahepatic approach is to isolate the appropriate branch of the portal vein, hepatic artery and the hepatic duct, outside the liver substance. Another method, the extrafascial approach, is to dissect the whole sheath of the pedicle directly after division of a substantial amount of the hepatic tissue to reach the pedicle, which is surrounded by a sheath, derived from Glisson's capsule. This Glissonian sheath encloses the portal trinity. In the transfissural or intrahepatic approach, these sheaths can be approached either anteriorly (after division of the main, right or umbilical fissure) or posteriorly from behind the porta hepatis. We describe the technique for approaching the Glissonian sheath and hence the hepatic pedicle structures and their branches by the intrahepatic posterior approach that allows early delineation of the liver segment without the need for ancillary techniques. In addition, the indications for the use of this technique in the technical and oncologic settings are also discussed.

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One Size Fits All?

Methodology ◽

10.1027/1614-2241/a000044 ◽

2012 ◽

Vol 8 (1) ◽

pp. 23-38 ◽

Cited By ~ 1

Author(s):

Manuel C. Voelkle ◽

Patrick E. McKnight

Keyword(s):

Repeated Measures ◽

Structural Equation ◽

Type I Error ◽

Equation Modeling ◽

Type I ◽

Finite Sample ◽

Traditional Methods ◽

Repeated Measures Anova ◽

Special Cases ◽

Latent Curve

The use of latent curve models (LCMs) has increased almost exponentially during the last decade. Oftentimes, researchers regard LCM as a “new” method to analyze change with little attention paid to the fact that the technique was originally introduced as an “alternative to standard repeated measures ANOVA and first-order auto-regressive methods” (Meredith & Tisak, 1990, p. 107). In the first part of the paper, this close relationship is reviewed, and it is demonstrated how “traditional” methods, such as the repeated measures ANOVA, and MANOVA, can be formulated as LCMs. Given that latent curve modeling is essentially a large-sample technique, compared to “traditional” finite-sample approaches, the second part of the paper addresses the question to what degree the more flexible LCMs can actually replace some of the older tests by means of a Monte-Carlo simulation. In addition, a structural equation modeling alternative to Mauchly’s (1940) test of sphericity is explored. Although “traditional” methods may be expressed as special cases of more general LCMs, we found the equivalence holds only asymptotically. For practical purposes, however, no approach always outperformed the other alternatives in terms of power and type I error, so the best method to be used depends on the situation. We provide detailed recommendations of when to use which method.

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