Separating Beads and Cells in Multi-channel Microfluidic Devices Using Dielectrophoresis and Laminar Flow

JoVE 2545 2/04/2011

Larry J. Millet^1,2, Kidong Park^1,2, Nicholas N. Watkins^1,2, K. Jimmy Hsia^2,3, Rashid Bashir^1,2,4

¹Electrical and Computer Engineering, University of Illinois at Urbana-Champaign, ²Micro and Nanotechnology Lab, University of Illinois at Urbana-Champaign, ³Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, ⁴Bioengineering, University of Illinois at Urbana-Champaign

Dielectrophoresis (DEP) is an effective method to manipulate cells. Printed circuit boards (PCB) can provide inexpensive, reusable and effective electrodes for contact-free cell manipulation within microfluidic devices. By combining PDMS-based microfluidic channels with coverslips on PCBs, we demonstrate bead and cell manipulation and separation within multichannel microfluidic devices.

Genomic MRI - a Public Resource for Studying Sequence Patterns within Genomic DNA

JoVE 2663 5/09/2011

Ashwin Prakash, Jason Bechtel, Alexei Fedorov

Department of Medicine, University of Toledo Health Science Campus

We present a public computational web site for the analysis of genomic sequences. It detects DNA sequence patterns with various non-random nucleotide compositions. This resource also generates randomized sequences with diverse levels of complexity.

Determining 3D Flow Fields via Multi-camera Light Field Imaging

JoVE 4325 3/06/2013

Tadd T. Truscott¹, Jesse Belden², Joseph R. Nielson¹, David J. Daily¹, Scott L. Thomson¹

¹Department of Mechanical Engineering, Brigham Young University, ²Naval Undersea Warfare Center, Newport, RI

A technique for performing quantitative three-dimensional (3D) imaging for a range of fluid flows is presented. Using concepts from the area of Light Field Imaging, we reconstruct 3D volumes from arrays of images. Our 3D results span a broad range including velocity fields and multi-phase bubble size distributions.

Whole-Body Nanoparticle Aerosol Inhalation Exposures

JoVE 50263 5/07/2013

Jinghai Yi^1,2, Bean T. Chen³, Diane Schwegler-Berry³, Dave Frazer³, Vince Castranova³, Carroll McBride¹, Travis L. Knuckles^1,2, Phoebe A. Stapleton^1,2, Valerie C. Minarchick^1,2, Timothy R. Nurkiewicz^1,2

¹Department of Physiology and Pharmacology, School of Medicine, West Virginia University, ²Center for Cardiovascular and Respiratory Sciences, West Virginia University, ³National Institute for Occupational Safety and Health

A whole-body nanoparticle aerosol inhalation exposure facility was constructed for nano-sized titanium dioxide (TiO₂) inhalation toxicology studies. This system provides nano-TiO₂ aerosol test atmospheres that have: 1) a steady mass concentration; 2) a homogenous composition free of contaminants; and 3) a stable particle size distribution during aerosol generation.

Measuring Diffusion Coefficients via Two-photon Fluorescence Recovery After Photobleaching

JoVE 1636 2/26/2010

Kelley D. Sullivan¹, Edward B. Brown²

¹Department of Physics and Astronomy, University of Rochester, ²Department of Biomedical Engineering, University of Rochester

In this article we will describe the procedure for measuring diffusion coefficients using multi-photon fluorescence recovery after photobleaching. We will begin by aligning the laser along the optical path to the sample and determining the proper experimental parameters, then continue generating and finally fitting fluorescence recovery curves.

Selective Tracing of Auditory Fibers in the Avian Embryonic Vestibulocochlear Nerve

JoVE 50305 3/18/2013

Michelle R. Allen-Sharpley, Michelle Tjia, Karina S. Cramer

Department of Neurobiology and Behavior, University of California, Irvine

Here we describe a microdissection technique followed by fluorescent dye injection into the acoustic ganglion of early chick embryos for selective tracing of auditory axon fibers in the nerve and hindbrain.

Title Cell Encapsulation by Droplets

JoVE 316 10/01/2007

Sangjun Moon^1,2, Pei-Ann Lin^1,2, Hasan Onur Keles^1,2, Seung-Schick Yoo³, Utkan Demirci^1,2,4

¹Bio-Acoustic-MEMS Laboratory in Medicine (BAMM), HST-Center for Bioengineering, Brigham and Women's, Harvard Medical School, ²Bio-Acoustic-MEMS Laboratory in Medicine (BAMM), HST-Center for Bioengineering, Brigham and Women's Hospital, ³Brigham and Women's Hospital, Harvard Medical School, ⁴Harvard-MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology; Center for Biomedical Engineering, Department of Medicine, Brigham and Women's Hospital

Changing the Direction and Orientation of Electric Field During Electric Pulses Application Improves Plasmid Gene Transfer in vitro

JoVE 3309 9/12/2011

Mojca Pavlin¹, Saša Haberl², Matej Reberšek², Damijan Miklavčič², Maša Kandušer²

¹Department of Fundamentals of Electrical Engineering, Mathematics and Physics, University of Ljubljana, ²Department of Biomedical Engineering, University of Ljubljana

Gene transfection by electroporation is improved approximately two times when orientation of electric field is changed during pulse application, while cell viability is not affected. The increase in gene transfection is caused by the increase of the membrane area which is made competent for DNA entry into the cell.

AC Electrokinetic Phenomena Generated by Microelectrode Structures

JoVE 813 7/28/2008

Robert Hart¹, Jonghyun Oh², Jorge Capurro², Hongseok (Moses) Noh²

¹Biomedical Engineering, Science and Health Systems, Drexel University, ²Mechanical Engineering and Mechanics, Drexel University

Manipulating fluids and suspended particles in the micro- and nano-scale is becoming more of a reality as enabling technologies, like AC electrokinetics, continue to develop. Here, we discuss the physics behind AC electrokinetics, how to fabricate these devices and how to interpret the experimental observations.

Metabolic Pathway Confirmation and Discovery Through ¹³C-labeling of Proteinogenic Amino Acids

JoVE 3583 1/26/2012

Le You¹, Lawrence Page², Xueyang Feng¹, Bert Berla¹, Himadri B. Pakrasi³, Yinjie J. Tang¹

¹Department of Energy, Environmental and Chemical Engineering, Washington University, ²Department of Biology, Washington University, ³Department of Energy, Environmental and Chemical Engineering and Department of Biology, Washington University

¹³C-isotope labeling is a useful technique for determining the cell central metabolism for various types of microorganisms. After cells have been cultured with a specific labeled substrate, GC-MS measurement can reveal functional metabolic pathways based on unique labeling patterns in proteinogenic amino acids.

A Low Mortality Rat Model to Assess Delayed Cerebral Vasospasm After Experimental Subarachnoid Hemorrhage

JoVE 4157 1/17/2013

Rahul V. Dudhani¹, Michele Kyle¹, Christina Dedeo², Margaret Riordan¹, Eric M. Deshaies^1,2

¹Department of Neurosurgery, SUNY Upstate Medical University, ²Department of Neuroscience and Physiology, SUNY Upstate Medical University

Aneurysmal subarachnoid hemorrhage (SAH) is bleeding that occurs into the subarachnoid space when an aneurysm ruptures. While the morbidity and mortality from this event has been on a decline due to improved treatment approaches, the risk of vasospasm after subarachnoid hemorrhage continues to be the same as it was several years ago. The importance of establishing a comprehensive and reproducible animal model to identify initiating events of cerebral vasospasm has been the focus of research since the first use of rats in an experimental vasospasm model in 1979 by Barry et al. Early work in rats demonstrated that a single injection of autologous blood into the cisterna magna led to acute (within minutes) but not delayed cerebral vasospasm ^{3, 6, 14}. Here we characterize a low mortality SAH rat model that results in reproducible delayed vasospasm.

State-Dependency Effects on TMS: A Look at Motive Phosphene Behavior

JoVE 2273 12/28/2010

Umer Najib¹, Jared C. Horvath¹, Juha Silvanto², Alvaro Pascual-Leone¹

¹Berenson-Allen Center for Noninvasive Brain Stimulation, Beth Israel Deaconess Medical Center, ²Brain Research Unit, Low Temperature Laboratory and Advanced magnetic Imaging Center, Aalto University School of Science and Technology

In this article, we examine the effects of visually relevant state dependency on TMS induced motive phosphenic presentations.

Isometric and Eccentric Force Generation Assessment of Skeletal Muscles Isolated from Murine Models of Muscular Dystrophies

JoVE 50036 1/31/2013

Catherine Moorwood¹, Min Liu², Zuozhen Tian², Elisabeth R. Barton³

¹Department of Anatomy and Cell Biology, School of Dental Medicine, University of Pennsylvania, ²Department of Physiology, Perelman School of Medicine, University of Pennsylvania, ³Department of Anatomy and Cell Biology, School of Dental Medicine, School of Dental Medicine, University of Pennsylvania

Muscle function measurements contribute to the evaluation of potential therapeutics for muscle pathology, as well as to the determination of mechanisms underlying physiology of this tissue. We will demonstrate the preparation of the extensor digitorum longus and diaphragm muscles for functional testing. Protocols for isometric and eccentric contractions will be shown, as well as differences in results between dystrophic muscles, representing a pathological state, and wildtype muscles.

High Density Event-related Potential Data Acquisition in Cognitive Neuroscience

JoVE 1945 4/16/2010

Scott D. Slotnick

Department of Psychology, Boston College

Event-related potential (ERP) recording is under utilized in Cognitive Neuroscience because data acquisition techniques are not readily available and this method often has poor spatial resolution. To foster the increased use of ERPs in Cognitive Neuroscience, the present article details key techniques involved in high density ERP data acquisition.

Electroporation of Craniofacial Mesenchyme

JoVE 3381 11/28/2011

Jacqueline M. Tabler, Karen J. Liu

Department of Craniofacial Development, King's College London

Craniofacial cartilages develop in close contact with other tissues and are difficult to manipulate in live animals. We are using electroporation to deliver molecular tools during growth of the craniofacial skeleton while bypassing early embryonic effects. This approach will allow us to efficiently test candidate molecules in vivo.

The Mouse Forced Swim Test

JoVE 3638 1/29/2012

Adem Can¹, David T. Dao², Michal Arad¹, Chantelle E. Terrillion³, Sean C. Piantadosi¹, Todd D. Gould^1,3,4

¹Department of Psychiatry, University of Maryland School of Medicine, ²Tulane University School of Medicine, ³Department of Pharmacology and Experimental Therapeutics, University of Maryland School of Medicine, ⁴The Program in Neuroscience, University of Maryland

The forced swim test is validated as an experimental approach to assess potential antidepressant efficacy in rodents. Experimental animals are placed in a tank of water and escape-related mobility behavior is quantified. The common procedures for the mouse version of this test are described.

Nanomoulding of Functional Materials, a Versatile Complementary Pattern Replication Method to Nanoimprinting

JoVE 50177 1/23/2013

Corsin Battaglia^1,2, Karin Söderström¹, Jordi Escarré¹, Franz-Josef Haug¹, Matthieu Despeisse¹, Christophe Ballif¹

¹Institute of Microengineering (IMT), Photovoltaics and Thin Film Electronics Laboratory, Ecole Polytechnique Fédérale de Lausanne (EPFL), ²Department of Electrical Engineering and Computer Sciences, University of California, Berkeley

We describe a nanomoulding technique which allows low-cost nanoscale patterning of functional materials, materials stacks and full devices. Nanomoulding can be performed on any nanoimprinting setup and can be applied to a wide range of materials and deposition processes.

Magnetic Resonance Elastography Methodology for the Evaluation of Tissue Engineered Construct Growth

JoVE 3618 2/09/2012

Evan T. Curtis¹, Simeng Zhang¹, Vahid Khalilzad-Sharghi¹, Thomas Boulet², Shadi F. Othman¹

¹Department of Biological Systems Engineering, University of Nebraska-Lincoln, ²Department of Engineering Mechanics, University of Nebraska-Lincoln

The procedure demonstrates the methodology of magnetic resonance elastography for monitoring the engineered outcome of adipose and osteogenic tissue engineered constructs through noninvasive local assessment of the mechanical properties using microscopic magnetic resonance elastography (μMRE).

The NeuroStar TMS Device: Conducting the FDA Approved Protocol for Treatment of Depression

JoVE 2345 11/12/2010

Jared C. Horvath¹, John Mathews², Mark A. Demitrack², Alvaro Pascual-Leone¹

¹Berenson-Allen Center for Noninvasive Brain Stimulation, Beth Israel Deaconess Medical Center, ²Neuronetics, Inc.

In this article, we examine the methodology and considerations relevant to the FDA approved depression treatment protocol using the Neuronetics NeuroStar TMS device.

Digital Microfluidics for Automated Proteomic Processing

JoVE 1603 11/06/2009

Mais J. Jebrail¹, Vivienne N. Luk^1,2, Steve C. C. Shih^2,3, Ryan Fobel^2,3, Alphonsus H. C. Ng^2,3, Hao Yang¹, Sergio L. S. Freire¹, Aaron R. Wheeler^1,2,3

¹Department of Chemistry, University of Toronto, ²Donnelly Centre for Cellular and Biomolecular Research, ³Institute for Biomaterials and Biomedical Engineering, University of Toronto

Digital Microfluidics is a technique characterized by the manipulation of discrete droplets (~nL - mL) on an array of electrodes by the application of electrical fields. It is well-suited for carrying out rapid, sequential, miniaturized automated biochemical assays. Here, we report a platform capable of automating several proteomic processing steps.

The Tail Suspension Test

JoVE 3769 1/28/2012

Adem Can*¹, David T. Dao*^1,2, Chantelle E. Terrillion³, Sean C. Piantadosi¹, Shambhu Bhat¹, Todd D. Gould^1,3,4

¹Department of Psychiatry, University of Maryland School of Medicine, ²Tulane University School of Medicine, ³The Program in Neuroscience, University of Maryland, ⁴Department of Pharmacology and Experimental Therapeutics, University of Maryland School of Medicine

The tail-suspension test is validated as an experimental procedure to assess antidepressant efficacy of drug treatments in mice. Mice are suspended by their tails for six minutes and escape-related behaviors are assessed. We describe procedures used in conducting the tail suspension test.

In vitro Organoid Culture of Primary Mouse Colon Tumors

JoVE 50210 5/17/2013

Xiang Xue¹, Yatrik M. Shah^1,2

¹Department of Molecular & Integrative Physiology, University of Michigan, ²Department of Internal Medicine, Division of Gastroenterology, University of Michigan

A simple method to establish primary murine colon tumor organoid is described. This method utilizes the feature that colon tumor cells survive and grow into organoids in media containing limited growth factors, whereas normal colon epithelial do not.

Eye Movement Monitoring of Memory

JoVE 2108 8/15/2010

Jennifer D. Ryan^1,2,3, Lily Riggs^1,2, Douglas A. McQuiggan¹

¹Rotman Research Institute, ²Department of Psychology, University of Toronto, ³Department of Psychiatry, University of Toronto

Eye movement monitoring (or eye tracking) reveals where in space the eyes linger, when and for how long. Here, we demonstrate how eye tracking can be used to investigate the integrity of memory in multiple participant populations, without requiring verbal, or otherwise explicit, reports.

Dual Somatic Recordings from Gonadotropin-Releasing Hormone (GnRH) Neurons Identified by Green Fluorescent Protein (GFP) in Hypothalamic Slices

JoVE 1678 2/23/2010

Peter J. Hemond, Kelly J. Suter

Department of Biology, University of Texas San Antonio - UTSA

Activity in neuronal systems often requires synchronous action potential discharges from neurons within a specific population. For example, pulses of gonadotropin-releasing hormone (GnRH) likely require coordinated activity between GnRH neurons. We present our methodological approach for reliably obtaining simultaneous electrophysiological recordings from the diffusely distributed GnRH neurons.

Analyzing Responses of Mouse Olfactory Sensory Neurons Using the Air-phase Electroolfactogram Recording

JoVE 1850 3/02/2010

Katherine D. Cygnar, Aaron B. Stephan, Haiqing Zhao

Biology, Johns Hopkins University

The electroolfactogram (EOG) recording is an informative, easy-to-conduct, and reliable way of assessing olfactory function at the level of the olfactory epithelium. This protocol describes a recording setup, mouse tissue preparation, data collection, and basic data analysis.

Microfabricated Platforms for Mechanically Dynamic Cell Culture

JoVE 2224 12/26/2010

Christopher Moraes^1,2, Yu Sun^1,2, Craig A. Simmons^1,2,3

¹Department of Mechanical and Industrial Engineering, University of Toronto, ²Institute of Biomaterials and Biomedical Engineering, University of Toronto, ³Faculty of Dentistry, University of Toronto

In this protocol, we demonstrate the fabrication of a microactuator array of vertically displaced posts on which the technology is based, and how this base technology can be modified to conduct high-throughput mechanically dynamic cell culture in both two-dimensional and three-dimensional culture paradigms.

Encapsulation and Permeability Characteristics of Plasma Polymerized Hollow Particles

JoVE 4113 8/16/2012

Anaram Shahravan, Themis Matsoukas

Department of Chemical Engineering, The Pennsylvania State University

We have used plasma enhanced chemical vapor deposition to deposit thin films ranging from a few nm to several 100 nm on nano-sized particles of various materials. We subsequently etch the core material to produce hollow nanoshells whose permeability is controlled by the thickness of the shell. We characterize the permeability of these coatings to small solutes and demonstrate that these barriers can provide sustained release of the core material over several days.

ES Cell-derived Neuroepithelial Cell Cultures

JoVE 118 11/30/2006

Shreeya Karki, Jan Pruszak, Ole Isacson, Kai C Sonntag

McLean Hospital, Harvard Medical School

Derivation of neuroepithelial precursors from embryonic stem (ES) cells using stromal cell-derived inducing activity (SDIA).

A Galvanotaxis Assay for Analysis of Neural Precursor Cell Migration Kinetics in an Externally Applied Direct Current Electric Field

JoVE 4193 10/13/2012

Robart Babona-Pilipos¹, Milos R. Popovic², Cindi M. Morshead³

¹Institute for Biomaterials and Biomedical Engineering, University of Toronto, ²Lyndhurst Centre, Toronto Rehabilitation Institute, ³Department of Surgery, University of Toronto

In this protocol we demonstrate how to construct custom chambers that permit the application of a direct current electric field to enable time-lapse imaging of adult brain derived neural precursor cell translocation during galvanotaxis.

Mapping and Application of Enhancer-trap Flippase Expression in Larval and Adult Drosophila CNS

JoVE 2649 6/03/2011

Taylor R. Fore¹, Audrey A. Ojwang¹, Margaret L. Warner¹, Xinyun Peng¹, Rudolf A. Bohm^1,2, William P. Welch¹, Lindsey K. Goodnight¹, Hong Bao¹, Bing Zhang¹

¹Department of Zoology, University of Oklahoma - Norman, ²Department of Biology, Brandeis University

We describe a Flippase-induced intersectional Gal80/Gal4 repression (FINGR) method, allowing tissue-specific FLP to determine Gal80 expression patterns. Wherever Gal4 and FLP overlap, Gal4 expression is turned on (Gal80 flipped out) or off (Gal80 flipped in). The FINGR method is versatile for clonal analysis and neural circuit mapping.

Microfluidic-based Electrotaxis for On-demand Quantitative Analysis of Caenorhabditis elegans' Locomotion

JoVE 50226 5/02/2013

Justin Tong¹, Pouya Rezai², Sangeena Salam¹, P. Ravi Selvaganapathy², Bhagwati P. Gupta¹

¹Department of Biology, McMaster University, ²Department of Mechanical Engineering, McMaster University

A semi-automated micro-electro-fluidic method to induce on-demand locomotion in Caenorhabditis elegans is described. This method is based on the neurophysiologic phenomenon of worms responding to mild electric fields (“electrotaxis”) inside microfluidic channels. Microfluidic electrotaxis serves as a rapid, sensitive, low-cost, and scalable technique to screen for factors affecting neuronal health.

Deciphering Axonal Pathways of Genetically Defined Groups of Neurons in the Chick Neural Tube Utilizing in ovo Electroporation

JoVE 1792 5/02/2010

Oshri Avraham*, Sophie Zisman*, Yoav Hadas, Lilach Vald, Avihu Klar

Department of Medical Neurobiology, Institute for Medical Research Israel Canada, Hebrew University-Hadassah Medical School

This video demonstrates how to visualize axonal pathways of genetically defined groups of neurons in the embryonic chick spinal cord utilizing in ovo electroporation of reporter genes under the control of specific enhancer elements.

Super-resolution Imaging of the Bacterial Division Machinery

JoVE 50048 1/21/2013

Jackson Buss, Carla Coltharp, Jie Xiao

Department of Biophysics and Biophysical Chemistry, The Johns Hopkins University School of Medicine

We describe a super-resolution imaging method to probe the structural organization of the bacterial FtsZ-ring, an essential apparatus for cell division. This method is based on quantitative analyses of photoactivated localization microscopy (PALM) images and can be applied to other bacterial cytoskeletal proteins.

Rapid Diagnosis of Avian Influenza Virus in Wild Birds: Use of a Portable rRT-PCR and Freeze-dried Reagents in the Field

JoVE 2829 8/02/2011

John Y. Takekawa¹, Nichola J. Hill^1,2, Annie K. Schultz¹, Samuel A. Iverson¹, Carol J. Cardona^3,4, Walter M. Boyce², Joseph P. Dudley⁵

¹USGS Western Ecological Research Center, ²Wildlife Health Center, University of California, Davis, ³Department of Population Health and Reproduction, University of California, Davis, ⁴Department of Veterinary and Biomedical Sciences, University of Minnesota, ⁵Science Applications International Corporation

This study describes diagnosis of avian influenza in wild birds using a portable rRT-PCR system. The method takes advantage of freeze-dried reagents to screen wild birds in a non-laboratory setting, typical of an outbreak scenario. Use of molecular tools provides accurate and sensitive alternatives for rapid diagnosis.

3-Dimensional Resin Casting and Imaging of Mouse Portal Vein or Intrahepatic Bile Duct System

JoVE 4272 10/25/2012

Teagan J. Walter^1,2, Erin E. Sparks³, Stacey S. Huppert²

¹Department of Cell and Developmental Biology, Center for Stem Cell Biology, Vanderbilt University, ²Division of Gastroenterology, Hepatology, and Nutrition, Cincinnati Children's Hospital, ³Department of Biology, Duke University

A method of visualizing and quantifying the 3-dimensional structure of mouse hepatic portal vein or intrahepatic bile duct is described. This resin cast technique can also be applied to other ductal or vascular systems and allows for in situ visualization or quantification of a system's intact communicating architecture.

Measuring the Induced Membrane Voltage with Di-8-ANEPPS

JoVE 1659 11/19/2009

Gorazd Pucihar, Tadej Kotnik, Damijan Miklavčič

Department of Biomedical Engineering, Faculty of Electrical Engineering, University of Ljubljana

External electric field induces a voltage on the membrane of a cell, termed the induced membrane voltage (ΔΦ). By using the potentiometric dye di-8-ANEPPS, it is possible to measure the ΔΦ noninvasively. This video shows the protocol for measuring ΔΦ using di-8-ANEPPS.

Quantitative Locomotion Study of Freely Swimming Micro-organisms Using Laser Diffraction

JoVE 4412 10/25/2012

Jenny Magnes¹, Kathleen Susman², Rebecca Eells¹

¹Physics & Astronomy Department, Vassar College, ²Biology Department, Vassar College

Microscopic organisms like the free-swimming nematode C. elegans, live and behave in a complex three-dimensional environment. We report on a novel approach that provides analysis of C. elegans using diffraction patterns. This approach consists of tracking the temporal periodicity of diffraction patterns generated by directing laser light through a cuvette.