"Stereology" in JoVE

Knowing What Counts: Unbiased Stereology in the Non-human Primate Brain

JoVE 1262 5/14/2009

Mark Burke¹, Shahin Zangenehpour², Peter R. Mouton³, Maurice Ptito²

¹Department of Physiology, University of Montreal, ²Ecole d’optometrie, University of Montreal, ³Stereology Resource Center

The anatomical organization of the primate brain can provide important insights into normal and pathological conditions in humans. Unbiased stereology is a method for accurately and efficiently estimating the total neuron number (or other cell type) in a given reference space¹.

Brain Banking: Making the Most of your Research Specimens

JoVE 1260 7/24/2009

Mark W. Burke¹, Shahin Zangenehpour², Maurice Ptito²

¹Department of Physiology, University of Montreal, ²School of Optometry, University of Montreal

Brain banking and systematic sampling of biological material provides the basis for unbiased stereology and maximizes the potential data obtained from each specimen.

An Analytical Tool that Quantifies Cellular Morphology Changes from Three-dimensional Fluorescence Images

JoVE 4233 8/31/2012

Carolina L. Haass-Koffler^1,2, Mohammad Naeemuddin¹, Selena E. Bartlett^1,3

¹Medications Development, Ernest Gallo Clinic and Research Center, University of California, San Francisco, ²Clinical Pharmacology and Experimental Therapeutics, University of California, San Francisco, ³Translational Research Institute and the Institute for Health and Biomedical Innovation, Queensland University of Technology, Brisbane, Australia

We developed a software platform that utilizes Imaris Neuroscience, ImarisXT and MATLAB to measure the changes in morphology of an undefined shape taken from three-dimensional confocal fluorescence of single cells. This novel approach can be used to quantify changes in cell shape following receptor activation and therefore represents a possible additional tool for drug discovery.

Quantitative Assessment of Immune Cells in the Injured Spinal Cord Tissue by Flow Cytometry: a Novel Use for a Cell Purification Method

JoVE 2698 4/09/2011

Hal X. Nguyen^1,2,3,4, Kevin D. Beck⁵, Aileen J. Anderson^1,2,3,4,6

¹Institute for Memory Impairments and Neurological Disorders, University of California, ²Physical Medicine & Rehabilitation, University of California, ³Anatomy & Neurobiology, University of California, ⁴Sue and Bill Gross Stem Cell Research Center, University of California, ⁵Section of Molecular Biology, University of California, ⁶Reeve-Irvine Research Center, University of California

Quantification of cellular inflammation in the injured/pathological CNS by flow cytometry is complicated by lipid/myelin debris that can have similar size and granulation to cells, decreasing sensitivity/accuracy. We have advanced a cell preparation method to remove myelin debris and improve cell detection by flow cytometry in the injured spinal cord.

Optic Nerve Transection: A Model of Adult Neuron Apoptosis in the Central Nervous System

JoVE 2241 5/12/2011

Mark M. Magharious*, Philippe M. D'Onofrio*, Paulo D. Koeberle

Department of Surgery, University of Toronto

Optic Nerve transection is a widely used model of adult CNS injury. Ninety percent of retinal ganglion cells (RGCs) whose axons are completely transected (axotomy) die within 14 days after axotomy. This model is easily amenable to experimental manipulations and highly reproducible.

Stem Cell Transplantation Strategies for the Restoration of Cognitive Dysfunction Caused by Cranial Radiotherapy

JoVE 3107 10/18/2011

Munjal M. Acharya*, Dante E. Roa*, Omar Bosch, Mary L. Lan*, Charles L. Limoli

Department of Radiation Oncology, University of California Irvine

Brain tumor patients routinely undergo cranial radiotherapy, and while beneficial, this treatment often results in debilitating cognitive dysfunction. This serious unresolved problem has at present, no clinical recourse, and has driven our efforts to devise stem cell based therapies for the recovery of radiation-induced cognitive decrements.

Specimen Preparation, Imaging, and Analysis Protocols for Knife-edge Scanning Microscopy

JoVE 3248 12/09/2011

Yoonsuck Choe¹, David Mayerich², Jaerock Kwon³, Daniel E. Miller¹, Chul Sung¹, Ji Ryang Chung¹, Todd Huffman⁴, John Keyser¹, Louise C. Abbott⁵

¹Department of Computer Science and Engineering, Texas A&M University, ²Beckman Institute for Advanced Science and Technology, University of Illinois, ³Department of Electrical and Computer Engineering, Kettering University, ⁴3Scan, ⁵Department of Veterinary Integrative Biosciences, Texas A&M University

The full process from brain specimen preparation to serial sectioning imaging using the Knife-Edge Scanning Microscope, to data visualization and analysis is described. This technique is currently used to acquire mouse brain data, but it is applicable to other organs, other species.

Normothermic Cardiac Arrest and Cardiopulmonary Resuscitation: A Mouse Model of Ischemia-Reperfusion Injury

JoVE 3116 8/30/2011

Michael P. Hutchens¹, Richard J. Traystman², Tetsuhiro Fujiyoshi¹, Shin Nakayama¹, Paco S. Herson¹

¹Department of Anesthesiology and Perioperative Medicine, Oregon Health & Sciences University, ²Department of Pharmacology, University of Colorado Denver

A powerful model for perioperative and critical care related acute kidney injury is presented. Using whole body hypoperfusion induced by cardiac arrest it is possible to nearly replicate the histologic and functional changes of clinical AKI.

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