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Stanford University

37 ARTICLES PUBLISHED IN JoVE

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Biology

In vitro Differentiation of Mouse Embryonic Stem (mES) Cells Using the Hanging Drop Method
Xiang Wang 1, Phillip Yang 1
1Division of Cardiovascular Medicine, Stanford University

This video demonstrates how to conduct in vitro differentiation of mouse embryonic stem cells to embryoid bodies using the hanging drop method.

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Biology

In vitro Labeling of Human Embryonic Stem Cells for Magnetic Resonance Imaging
Mayumi Yamada 1, Phillip Yang 1
1Division of Cardiovascular Medicine, Stanford University

In this video, we are showing how to label human embryonic stem cells (hESC) with manganese chloride (MnCl2) which can enter cells via voltage-gated calcium channels when the cells are biologically active. Additionally, we show the use of MnCl2 as cellular MRI contrast agent to determine the in vitro viability of hESC.

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Biology

Patch Clamp Recording of Ion Channels Expressed in Xenopus Oocytes
Austin L Brown 1, Brandon E. Johnson 2, Miriam B. Goodman 2
1Department of Molecular and Cellular Physiology, Stanford University , 2Department of Molecular and Cellular Physiology, Stanford University School of Medicine

This is intended as an introduction to patch clamp recording from Xenopus laevis oocytes. It covers vitelline membrane removal, formation of a gigaohm seal (gigaseal), and the optional conversion of the patch to the outside-out topology.

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Biology

Making Patch-pipettes and Sharp Electrodes with a Programmable Puller
Austin L. Brown 1, Brandon E. Johnson 2, Miriam B. Goodman 2
1Department of Molecular and Cellular Physiology, Stanford University , 2Department of Molecular and Cellular Physiology, Stanford University School of Medicine

This video shows how to use a programmable puller to make patch pipettes and sharp electrodes for electrophysiology. The same procedure can be used to make a variety of glass tools, including injection needles.

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Biology

Pressure-polishing Pipettes for Improved Patch-clamp Recording
Brandon E. Johnson 1, Austin L. Brown 1, Miriam B. Goodman 1
1Department of Molecular and Cellular Physiology, Stanford University School of Medicine

This is a guide to modifying the shape of glass micropipettes. Specifically, by using heat and air pressure the taper is widened without increasing the tip opening, leading to lower pipette resistance. This is critical to obtain low noise recordings of small cells but is useful in many applications.

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Biology

Embryonic Stem Cell-Derived Endothelial Cells for Treatment of Hindlimb Ischemia
Ngan F. Huang 1, Hiroshi Niiyama 1, Abhijit De 2, Sanjiv S. Gambhir 2, John P. Cooke 1
1Division of Cardiovascular Medicine, Stanford University , 2Department of Radiology, Stanford University

The surgical procedure for delivery of embryonic stem cell-derived endothelial cells to the ischemic hindlimb is demonstrated, with non-invasive tracking by bioluminescence imaging.

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Biology

Murine Model of Hindlimb Ischemia
Hiroshi Niiyama 1, Ngan F. Huang 1, Mark D. Rollins 2, John P. Cooke 1
1Division of Cardiovascular Medicine, Stanford University , 2Department of Anesthesiology, University of California, San Francisco

The surgical procedure for induction of unilateral hindlimb ischemia is demonstrated, with confirmation of ischemia by laser Doppler perfusion imaging.

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Biology

Calcium Imaging of Cortical Neurons using Fura-2 AM
Odmara L Barreto-Chang 1, Ricardo E Dolmetsch 2
1Department of Neurobiology, Stanford University , 2Department of Neurobiology, Stanford University School of Medicine

Calcium signals play a key role in many cellular processes including gene expression, survival and differentiation. Here we demonstrate how to perform calcium imaging using Fura-2 AM. Calcium imaging is a valuable tool to study the regulation of intracellular calcium in real time and its regulation of signaling cascades.

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Immunology and Infection

Transurethral Induction of Mouse Urinary Tract Infection
Kim H. Thai 1, Anuradha Thathireddy 2, Michael H. Hsieh 2
1Earth Systems Program, School of Earth Sciences, Stanford University , 2Department of Urology, Stanford University School of Medicine

This video will demonstrate methods to transurethrally induce mouse urinary tract infections and quantify the extent of resulting infections.

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Medicine

Assessing Endothelial Vasodilator Function with the Endo-PAT 2000
Andrea L. Axtell 1, Fatemeh A. Gomari 1, John P. Cooke 1
1Department of Cardiovascular Medicine, Stanford University

A noninvasive procedure to assess endothelial function is demonstrated using the Endo-PAT 2000.

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Biology

Isolation of Translating Ribosomes Containing Peptidyl-tRNAs for Functional and Structural Analyses
Nitin Shirole 1, Sreeram Balasubramanian 1, Charles Yanofsky 2, Luis Cruz-Vera 1
1Department of Biological Sciences, University of Alabama Huntsville, 2Department of Biology, Stanford University

A major impediment to biochemical analyses of ribosomes containing nascent peptidyl-tRNAs has been the presence of other ribosomes in the same samples, ribosomes not involved in the translation of the specific mRNA sequence being analyzed. We developed a simple methodology to purify, exclusively, the ribosomes containing the nascent peptidyl-tRNA of interest.

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Medicine

Mouse Bladder Wall Injection
Chi-Ling Fu 1, Charity A. Apelo *1, Baldemar Torres *1, Kim H. Thai 1, Michael H. Hsieh 1
1Department of Urology, Stanford University School of Medicine

Mouse bladder wall injection is a useful approach to orthotopically study bladder stem cell and cancer biology. This delicate microsurgical method can be mastered with careful technique and practice.

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Biology

Detection of Post-translational Modifications on Native Intact Nucleosomes by ELISA
Bo Dai 1, Farida Dahmani 2, Joseph A. Cichocki 3, Lindsey C. Swanson 2, Theodore P. Rasmussen 3
1Institute for Stem Cell Biology and Regenerative Medicine, Stanford University , 2Department of Molecular and Cell Biology, University of Connecticut, 3Department of Pharmaceutical Sciences, University of Connecticut

Nucleosome ELISA (NU-ELISA) is a sensitive and quantitative method to detect global patterns of post-translational modifications in preparations of native, intact nucleosomes. These modifications include methylations, acetylations, and phosphorylations at specific histone amino acid residues, and hence NU-ELISA provides a global proteomic assay of the overall chromatin modification states of specific cell types.

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Biology

Lineage Labeling of Zebrafish Cells with Laser Uncagable Fluorescein Dextran
Joshua A. Clanton 1, Ilya A. Shestopalov 2, James K. Chen 2, Joshua T. Gamse 1
1Department of Biological Sciences, Vanderbilt University, 2Department of Chemical and Systems Biology, Stanford University

This protocol delineates a way to label and trace the fate of small groups of cells zebrafish embryos using UV-uncaging of caged fluorescein, followed by whole mount immunolabeling to amplify the signal from the uncaged fluorescein.

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Biology

Competitive Genomic Screens of Barcoded Yeast Libraries
Andrew M. Smith *1,2, Tanja Durbic *2,3, Julia Oh *4, Malene Urbanus 1,2, Michael Proctor 5, Lawrence E. Heisler 2,3, Guri Giaever 2,6, Corey Nislow 1,2,3
1Banting and Best Department of Medical Research and Department of Molecular Genetics, University of Toronto, 2Donnelly Centre for Cellular and Biomolecular Research, University of Toronto, 3Donnelly Sequencing Centre, University of Toronto, 4Genetics and Molecular Biology Branch, National Human Genome Research Institute, NIH, 5Stanford Genome Technology Center, Stanford School of Medicine, Stanford University , 6Department of Pharmaceutical Sciences, University of Toronto

We have developed comprehensive, unbiased genome-wide screens to understand gene-drug and gene-environment interactions. Methods for screening these mutant collections are presented.

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Medicine

Labeling Stem Cells with Ferumoxytol, an FDA-Approved Iron Oxide Nanoparticle
Rosalinda T. Castaneda 1,2, Aman Khurana 1,2, Ramsha Khan 1,2, Heike E. Daldrup-Link 1
1Department of Radiology, Molecular Imaging Program at Stanford (MIPS) , 2Stanford School of Medicine, Stanford University

We describe a technique for labeling and tracking stem cells with FDA-approved, superparamagnetic iron oxide (SPIO), ferumoxytol (Feraheme). This cellular imaging technique that utilizes magnetic resonance (MR) imaging for visualization, is readily accessible for long-term monitoring and diagnosis of successful or unsuccessful stem cell engraftments in patients.

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Bioengineering

Multiplexed Single-molecule Force Proteolysis Measurements Using Magnetic Tweezers
Arjun S. Adhikari 1, Jack Chai 1, Alexander R. Dunn 1
1Department of Chemical Engineering, Stanford University

In this article we describe the use of magnetic tweezers to study the effect of force on enzymatic proteolysis at the single molecule level in a highly parallelizable manner.

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Neuroscience

Gene Transfer to the Developing Mouse Inner Ear by In Vivo Electroporation
Lingyan Wang 1, Han Jiang 1, John V. Brigande 1
1Oregon Hearing Research Center, Oregon Health & Science University

The mouse inner ear is a placode-derived sensory organ whose developmental program is elaborated during gestation. We define an in utero gene transfer technique consisting of three steps: mouse ventral laparotomy, transuterine microinjection, and in vivo electroporation. We use digital video microscopy to demonstrate the critical experimental embryological techniques.

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JoVE Core

On-chip Isotachophoresis for Separation of Ions and Purification of Nucleic Acids
Giancarlo Garcia-Schwarz 1, Anita Rogacs 1, Supreet S. Bahga 1, Juan G. Santiago 1
1Mechanical Engineering, Stanford University

Isotachophoresis (ITP) is a robust electrokinetic separation and preconcentration technique with applications ranging from toxin detection to sample preparation. We review the physical principles of ITP and the methodology of applying this technique to two specific example applications: separation and detection of small molecules and purification of nucleic acids from cell culture lysate.

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Neuroscience

Functional Neuroimaging Using Ultrasonic Blood-brain Barrier Disruption and Manganese-enhanced MRI
Gabriel P. Howles 1, Yi Qi 2, Stephen J. Rosenzweig 3, Kathryn R. Nightingale 3, G. Allan Johnson 2
1Department of Radiology, Stanford University , 2Center for In Vivo Microscopy, Duke University Medical Center, 3Department of Biomedical Engineering, Duke University

A technique is described for broadly opening the blood-brain barrier in the mouse using microbubbles and ultrasound. Using this technique, manganese can be administered to the mouse brain. Because manganese is an MRI contrast agent that accumulates in depolarized neurons, this approach enables imaging of neuronal activity.

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Medicine

Repair of a Critical-sized Calvarial Defect Model Using Adipose-derived Stromal Cells Harvested from Lipoaspirate
David D. Lo *1,2, Jeong S. Hyun *1,3, Michael T. Chung 1, Daniel T. Montoro 1, Andrew Zimmermann 1, Monica M. Grova 1,4, Min Lee 5, Derrick C. Wan 1, Michael T. Longaker 1
1Department of Surgery, Stanford University , 2Department of Surgery, Duke University , 3Department of Surgery, Saint Joseph Mercy Hospital, 4School of Medicine, University of California, San Francisco , 5School of Dentistry, University of California, Los Angeles

This protocol describes the isolation of adipose-derived stromal cells from lipoaspirate and the creation of a 4 mm critical-sized calvarial defect to evaluate skeletal regeneration.

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Bioengineering

Time-lapse Fluorescence Imaging of Arabidopsis Root Growth with Rapid Manipulation of The Root Environment Using The RootChip
Guido Grossmann 1, Matthias Meier 2,3,4, Heather N. Cartwright 1, Davide Sosso 1, Stephen R. Quake 2,3, David W. Ehrhardt 1, Wolf B. Frommer 1
1Department of Plant Biology, Carnegie Institution for Science, 2Howard Hughes Medical Institute, 3Departments of Applied Physics and Bioengineering, Stanford University , 4Department of Microsystems Engineering (IMTEK) and Center for Biological Signaling Studies (BIOSS), University of Freiburg

This article provides a protocol for cultivation of Arabidopsis seedlings in the RootChip, a microfluidic imaging platform that combines automated control of growth conditions with microscopic root monitoring and FRET-based measurement of intracellular metabolite levels.

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Medicine

Cerenkov Luminescence Imaging (CLI) for Cancer Therapy Monitoring
Yingding Xu 1, Hongguang Liu 1, Edwin Chang 1, Han Jiang 1, Zhen Cheng 1
1Department of Radiology and Bio-X Program Canary Cancer at Stanford for Cancer Early Detection, Stanford University

Use of Cerenkov Luminescence Imaging (CLI) for monitoring preclinical cancer treatment is described here. This method takes advantage of Cerenkov Radiation (CR) and optical imaging (OI) to visualize radiolabeled probes and thus provides an alternative to PET in preclinical therapeutic monitoring and drug screening.

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Bioengineering

Mass Cytometry: Protocol for Daily Tuning and Running Cell Samples on a CyTOF Mass Cytometer
Michael D. Leipold 1, Holden T. Maecker 1
1Human Immune Monitoring Center, Institute for Immunity, Transplantation, and Infection, Stanford University

The steps necessary for daily tuning and optimization of the performance of a CyTOF mass cytometer are described. Comments on optimal sample preparation and flow rate are discussed

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Neuroscience

Optogenetic Stimulation of Escape Behavior in Drosophila melanogaster
Saskia E.J. de Vries 1, Tom Clandinin 1
1Department of Neurobiology, Stanford University

Genetically encoded optogenetic tools enable noninvasive manipulation of specific neurons in the Drosophila brain. Such tools can identify neurons whose activation is sufficient to elicit or suppress particular behaviors. Here we present a method for activating Channelrhodopsin2 that is expressed in targeted neurons in freely walking flies.

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Engineering

In-situ Tapering of Chalcogenide Fiber for Mid-infrared Supercontinuum Generation
Charles W. Rudy 1, Alireza Marandi 1, Konstantin L. Vodopyanov 1, Robert L. Byer 1
1Edward L. Ginzton Laboratory, Stanford University

We describe a method for in-situ tapering of As2S3 fibers to achieve efficient mid-infrared supercontinuum generation. By tapering while monitoring the supercontinuum’s spectrum, the spectral width can be maximized for a fiber taper. In-situ fiber tapering can be applied to optimize the performance of other fiber-based devices.

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Bioengineering

Programming Stem Cells for Therapeutic Angiogenesis Using Biodegradable Polymeric Nanoparticles
Michael Keeney *1, Lorenzo Deveza *1,2, Fan Yang 1,2
1Department of Orthopaedic Surgery, Stanford University , 2Department of Bioengineering, Stanford University

We describe the method of programming stem cells to overexpress therapeutic factors for angiogenesis using biodegradable polymeric nanoparticles. Processes described include polymer synthesis, transfecting adipose-derived stem cells in vitro, and validating the efficacy of programmed stem cells to promote angiogenesis in a murine hindlimb ischemia model.

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Medicine

Adaptation of Semiautomated Circulating Tumor Cell (CTC) Assays for Clinical and Preclinical Research Applications
Lori E. Lowes 1,2, Benjamin D. Hedley 3, Michael Keeney 3,4, Alison L. Allan 1,2,4,5
1London Regional Cancer Program, London Health Sciences Centre, 2Department of Anatomy & Cell Biology, Schulich School of Medicine and Dentistry, Western University, 3Special Hematology/Flow Cytometry, London Health Sciences Centre, 4Lawson Health Research Institute, 5Department of Oncology, Western University

Circulating tumor cells (CTCs) are prognostic in several metastatic cancers. This manuscript describes the gold standard CellSearch system (CSS) CTC enumeration platform and highlights common misclassification errors. In addition, two adapted protocols are described for user-defined marker characterization of CTCs and CTC enumeration in preclinical mouse models of metastasis using this technology.

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JoVE Journal

Osteoclast Derivation from Mouse Bone Marrow
Ruth Tevlin *1, Adrian McArdle *1,2, Charles K.F. Chan 2, John Pluvinage 2, Graham G. Walmsley 1,2, Taylor Wearda 1,2, Owen Marecic 1,2, Michael S. Hu 1, Kevin J. Paik 1, Kshemendra Senarath-Yapa 1, David A. Atashroo 1, Elizabeth R. Zielins 1, Derrick C. Wan 1, Irving L. Weissman 1,2, Michael T. Longaker 1,2
1Hagey Laboratory for Pediatric Regenerative Medicine, Division of Plastic and Reconstructive Surgery, Department of Surgery, Stanford University School of Medicine, 2Institute for Stem Cell Biology and Regenerative Medicine, Stanford University

Osteoclasts are the principal bone-resorbing cell in the body. An ability to isolate osteoclasts in large numbers has resulted in significant advances in the understanding of osteoclast biology. In this protocol, we describe a method for isolation, cultivating and quantifying osteoclast activity in vitro.

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Developmental Biology

Isolation and Enrichment of Human Adipose-derived Stromal Cells for Enhanced Osteogenesis
Elizabeth R. Zielins *1, Ruth Tevlin *1, Michael S. Hu 1, Michael T. Chung 1, Adrian McArdle 1, Kevin J. Paik 1, David Atashroo 1, Christopher R. Duldulao 1, Anna Luan 1, Kshemendra Senarath-Yapa 1, Graham G. Walmsley 1, Taylor Wearda 1, Michael T. Longaker 1,2, Derrick C. Wan 1
1Hagey Laboratory for Pediatric Regenerative Medicine, Department of Surgery, Division of Plastic and Reconstructive Surgery, Stanford University School of Medicine, 2Institute for Stem Cell Biology and Regenerative Medicine, Stanford University

The transcriptional heterogeneity within human adipose-derived stromal cells can be defined on the single cell level using cell surface markers and osteogenic genes. We describe a protocol utilizing flow cytometry for the isolation of cell subpopulations with increased osteogenic potential, which may be used to enhance craniofacial skeletal reconstruction.

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Medicine

Assessment of Viability of Human Fat Injection into Nude Mice with Micro-Computed Tomography
David A. Atashroo *1, Kevin J. Paik *1, Michael T. Chung 1, Adrian McArdle 1, Kshemendra Senarath-Yapa 1, Elizabeth R. Zielins 1, Ruth Tevlin 1, Christopher R. Duldulao 1, Graham G. Walmsley 1, Taylor Wearda 1, Owen Marecic 1, Michael T. Longaker 1,2, Derrick C. Wan 1,2
1Hagey Laboratory for Pediatric Regenerative Medicine, Department of Surgery, Plastic and Reconstructive Surgery Division, Stanford University School of Medicine, 2Institute for Stem Cell Biology and Regenerative Medicine, Stanford University School of Medicine

Fat grafting is an essential technique for reconstructing soft tissue deficits. However, it remains an unpredictable procedure characterized by variable graft survival. Our goal was to devise a mouse model that utilizes a novel imaging method to compare volume retention between differing techniques of fat graft preparation and delivery.

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Medicine

A Mouse Fetal Skin Model of Scarless Wound Repair
Graham G. Walmsley *1,2, Michael S. Hu *1,2,3, Wan Xing Hong 1,4, Zeshaan N. Maan 1, H. Peter Lorenz 1, Michael T. Longaker 1,2
1Hagey Laboratory for Pediatric Regenerative Medicine, Department of Surgery, Division of Plastic and Reconstructive Surgery, Stanford University School of Medicine, 2Institute for Stem Cell Biology and Regenerative Medicine, Stanford University School of Medicine, 3Department of Surgery, John A. Burns School of Medicine, University of Hawai'i, 4University of Central Florida College of Medicine

During mammalian development, early gestational skin wounds heal without a scar. Here we detail a reliable and reproducible model of fetal scarless wound healing in the cutaneous dorsum of E16.5 (scarless) and E18.5 (scarring) mouse embryos.

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Bioengineering

3D Hydrogel Scaffolds for Articular Chondrocyte Culture and Cartilage Generation
Piera Smeriglio *1, Janice H. Lai *1,2, Fan Yang 1,3, Nidhi Bhutani 1
1Orthopaedic Surgery Department, Stanford University, 2Mechanical Engineering Department, Stanford University, 3Bioengineering Department, Stanford University

Cartilage repair represents an unmet medical challenge and cell-based approaches to engineer human articular cartilage are a promising solution. Here, we describe three-dimensional (3D) biomimetic hydrogels as an ideal tool for the expansion and maturation of human articular chondrocytes.

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Developmental Biology

Murine Dermal Fibroblast Isolation by FACS
Graham G. Walmsley *1,2, Zeshaan N. Maan *1, Michael S. Hu *1,2,3, David A. Atashroo 1, Alexander J. Whittam 1, Dominik Duscher 1, Ruth Tevlin 1, Owen Marecic 1, H. Peter Lorenz 1, Geoffrey C. Gurtner 1, Michael T. Longaker 1,2
1Hagey Laboratory for Pediatric Regenerative Medicine, Department of Surgery, Division of Plastic and Reconstructive Surgery, Stanford University School of Medicine, 2Institute for Stem Cell Biology and Regenerative Medicine, Stanford University School of Medicine, 3Department of Surgery, John A. Burns School of Medicine, University of Hawai'i

Fibroblast behavior underlies a spectrum of clinical entities, but they remain poorly characterized, largely due to their inherent heterogeneity. Traditional fibroblast research relies upon in vitro manipulation, masking in vivo fibroblast behavior. We describe a FACS-based protocol for the isolation of mouse skin fibroblasts that does not require cell culture.

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Medicine

Creation of Abdominal Adhesions in Mice
Clement D. Marshall 1, Michael S. Hu 1, Tripp Leavitt 1, Leandra A. Barnes 1, Alexander T.M. Cheung 1, Samir Malhotra 1, H. Peter Lorenz 1, Michael T. Longaker 1
1Hagey Laboratory for Pediatric Regenerative Medicine, Division of Plastic and Reconstructive Surgery, Department of Surgery, Stanford University School of Medicine

Abdominal adhesions that form after surgery are a major cause of pain, infertility, and hospitalization and reoperation for small bowel obstruction. Our surgical procedure for creating abdominal adhesions in mice is a reliable tool to study the mechanisms underlying the formation of adhesions.

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Biology

In Vivo Study of Human Endothelial-Pericyte Interaction Using the Matrix Gel Plug Assay in Mouse
Ke Yuan 1,2, Mark E. Orcholski 1,2, Ngan F. Huang 2,3, Vinicio A. de Jesus Perez 1,2
1Division of Pulmonary and Critical Care Medicine, School of Medicine, Stanford University, 2Stanford Cardiovascular Institute, School of Medicine, Stanford University, 3VA Palo Alto Health Care System, Department of Cardiothoracic Surgery, School of Medicine, Stanford University

We present a protocol to study human endothelial-pericyte interactions in mouse using a variation of the matrix gel plug angiogenesis assay.

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Developmental Biology

Rapid Isolation of BMPR-IB+ Adipose-Derived Stromal Cells for Use in a Calvarial Defect Healing Model
Clement D. Marshall 1, Elizabeth R. Zielins 1, Elizabeth A. Brett 1, Charles P. Blackshear 1, Michael S. Hu 1, Tripp Leavitt 1, Leandra A. Barnes 1, H. Peter Lorenz 1, Michael T. Longaker 1, Derrick C. Wan 1
1Hagey Laboratory for Pediatric Regenerative Medicine, Division of Plastic and Reconstructive Surgery, Department of Surgery, Stanford University School of Medicine

Adipose-derived stromal cells may be useful for engineering new tissue from a patient's own cells. We present a protocol for the isolation of a subpopulation of human adipose-derived stromal cells (ASCs) with increased osteogenic potential, followed by application of the cells in an in vivo calvarial healing assay.

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