10 result(s) for 'Immunofluorescence'
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A review of fluorochromes and the specialized microscope used in immunofluorescence techniques will begin this presentation. A typical (human skin and kidney) clinical specimen will be followed from receipt in the laboratory, through freezing, cryomicrotomy...
Skin specimens received in the histology laboratory for dermatopathology are among the most difficult to handle successfully. The pathologist must be able to see the dermal-epidermal junction in each tissue section in order to make a diagnosis, thus every skin...
When was the last time that your pathologist brought you a slide of decalcified bone, and said it was the best she ever saw? Ever wonder why your PAS stain is not staining the basement membrane the way it should? These questions and 18 others will be discussed...
The potential for non-invasive tests that provide equivalent research and diagnostic value as can be obtained from tissue biopsies is real, but not yet realized. Tissue biopsies allow for identification, phenotyping and molecular analysis of cancer and...
Following a PhD and postdoc in the field of developmental neurobiology, I joined the experimental histopathology team at the Crick in 2017. Within the science technology platform, I primarily lead on the development and application of advanced staining techniques including immunohistochemistry, immunofluorescence, multiplexed staining, and RNAscope.
Chifei is a senior histotechnologist with GSK R&D. He has broad knowledge and technical skills in routine histology, immunohistochemistry, multiplex immunofluorescence, digital pathology and quantitative image analysis. His work scopes from target validation, animal model characterization to clinical biomarker assay development and validation. He has a master’s degree in neurobiology from Fudan University and a bachelor’s degree in biology from Shandong University in China.
The content of this webinar will encompass detailed technical descriptions of novel and state of the art methods to decalcify tissue samples that will be embedded in paraffin or for frozen sectioning for molecular and nucleic acid analysis for basic research...
Stephanie is a Lecturer in Precision Medicine at the Patrick G. Johnson Centre for Cancer Research, Queen’s University Belfast. She has a breath of experience in the application and validation of translational cancer research methodologies using molecular pathology techniques (immunohistochemistry, in situ hybridisation, multiplex immunofluorescence) and statistics. Her research focuses on predictive biomarker studies and understanding confounding variables that influence the prediction of poor prognosis subgroups in cancer research including reproducible study design, choice of molecular test and assessment criteria.
In recent years, digital pathology has gone from an intriguing idea to an integral part of how academic and commercial labs operate. Join Leica Biosystems and Procia Digital Pathology as they discuss why institutions are going digital today and how they...
The content of this webinar will encompass detailed technical descriptions of novel and state of the art methods to decalcify tissue samples that will be embedded in paraffin or for frozen sectioning for molecular and nucleic acid analysis for basic research...