- 70: December 2012
- 69: November 2012
- 68: October 2012
- 67: September 2012
- 66: August 2012
- 65: July 2012
- 64: June 2012
- 63: May 2012
- 62: April 2012
- 61: March 2012
- 60: February 2012
- 59: January 2012
- 58: December 2011
- 57: November 2011
- 56: October 2011
- 55: September 2011
- 54: August 2011
- 53: July 2011
- 52: June 2011
- 51: May 2011
- 50: April 2011
- 49: March 2011
- 48: February 2011
- 47: January 2011
- 46: December 2010
- 45: November 2010
- 44: October 2010
- 43: September 2010
- 42: August 2010
- 41: July 2010
- 40: June 2010
- 39: May 2010
- 38: April 2010
- 37: March 2010
- 36: February 2010
- 35: January 2010
- 34: December 2009
- 33: November 2009
- 32: October 2009
- 31: September 2009
- 30: August 2009
- 29: July 2009
- 28: June 2009
- 27: May 2009
- 26: April 2009
- 25: March 2009
- 24: February 2009
- 23: January 2009
- 22: December 2008
- 21: November 2008
- 20: October 2008
- 19: September 2008
- 18: August 2008
- 17: July 2008
- 16: June 2008
- 15: May 2008
- 14: April 2008
- 13: March 2008
- 12: February 2008
- 11: January 2008
- 10: December 2007
- 9: November 2007
- 8: October 2007
- 7: August/September 2007
- 6: July/August 2007
- 5: June 2007
- 4: May 2007
- 3: April 2007
- 2: December-February 2006-07
Table of Contents
Table of Contents: Issue 12, February 2008
JoVE General
Microfluidic Applications for Disposable Diagnostics
Department of Biomedical Engineering, Boston University
Date Published: February 3, 2008 | doi:10.3791/665 | Section: JoVE General
Keywords: Cellular Biology, bioengineering, diagnostics, microfluidics, solid phase, purification
JoVE General
Fabrication of the Thermoplastic Microfluidic Channels
Department of Biomedical Engineering, Boston University
Date Published: February 3, 2008 | doi:10.3791/664 | Section: JoVE General
Keywords: Cellular Biology, bioengineering, purification, microfluidics, DNA, RNA, solid phase, column
JoVE General
Assessing Neural Stem Cell Motility Using an Agarose Gel-based Microfluidic Device
1Biomedical Engineering Department, Cornell University, 2Neurosurgical Laboratory for Translational Stem Cell Research, Weill Cornell Brain Tumor Center, Weill Cornell Medical College of Cornell University, 3Cell Morphology Department, Instituto de Investigacion Principe Felipe, 4Department of Chemical and Biomolecular Engineering, Cornell University
Date Published: February 11, 2008 | doi:10.3791/674 | Section: JoVE General
Keywords: Cell Biology, Bioengineering, microfluidic device, motility, chemotaxis, EGFR, neural stem cell, brain tumor cell
JoVE General
Preparation of Gene Gun Bullets and Biolistic Transfection of Neurons in Slice Culture
Center for Neuroscience, University of California, Davis
Date Published: February 13, 2008 | doi:10.3791/675 | Section: JoVE General
Keywords: neuroscience, issue 12, biolistics, cotransfection, hippocampal slice, organotypic, fluorescence microscopy, live imaging
JoVE General
A Craniotomy Surgery Procedure for Chronic Brain Imaging
Department of Neurology, University of California, Los Angeles
Date Published: February 15, 2008 | doi:10.3791/680 | Section: JoVE General
Keywords: Neuroscience, glass, cranial window, two-photon, 2-photon, cortex, dendrite, axon, green fluorescent protein, svoboda, cell
JoVE General
Neuronal Cell Cultures from Aplysia for High-Resolution Imaging of Growth Cones
Department of Biological Sciences, Purdue University
Date Published: February 20, 2008 | doi:10.3791/662 | Section: JoVE General
Keywords: Neuroscience, Aplysia californica, abdominal ganglion, nervous system, bag cell neuron, neuronal growth cone, neuronal cell culture, live cell imaging, cytoskeletal dynamics, growth cone motility and guidance
JoVE General
A Method for 2-Photon Imaging of Blood Flow in the Neocortex through a Cranial Window
Department of Neurology, University of California, Los Angeles
Date Published: February 25, 2008 | doi:10.3791/678 | Section: JoVE General
Keywords: Neuroscience, red blood cell, cortex, fluorescein, rhodamine, dextran, two-photon, 2-photon, capillary
