Whole Bone Marrow, Fresh, Na-Heparin | StemExpress
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Whole Bone Marrow, Fresh, Na-Heparin

$715
In stock
SKU
Category: Research Products
Select SKU Size / Day Price
BMNAH010F 10mL $715 USD
BMNAH020F 20mL $1,364 USD
BMNAH025F 25mL $1,650 USD
BMNAH040F 40mL $1,980 USD
BMNAH050F 50mL $2,475 USD
BMNAH100F 100mL $3,850 USD
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Product Description
Human bone marrow is the tissue where new blood cells are produced. It is a rich source of hematopoietic stem cells and immature cells that give rise to different lineages of mature cells, such as red blood cells, white blood cells, and platelets, within the peripheral blood. Bone marrow is also a source of mesenchymal stem cells (marrow stromal cells) that can differentiate into the connective tissue of the body. Cells from the bone marrow are used in studies pertaining to cancer research, transplantation studies, regenerative medicine, and translational medicine.

Fresh human whole bone marrow is collected from healthy IRB consented donors that are negative for HBV, HCV, and HIV. Whole bone marrow is aspirated from up to a maximum of 4 sites on the posterior iliac crest using a 30cc syringe containing the anticoagulant Na-heparin.

Custom Orders

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More Information
Species Human
Disease State Healthy
Cell and Tissue Source Bone Marrow
Product Type Whole
Donor Attributes HIV-, HepB-, HepC-
Format Fresh
Anticoagulant Na-Heparin

Product Information Sheet

Certificate of Analysis

Material Safety Data Sheet

Publications

  • 1 Adair et al. (2016) Semi-automated closed system manufacturing of lentivirus gene-modified haematopoietic stem cells for
    gene therapy    . Nat Commun 7: 13173.    		 Abstract
  • 2 Kalomoiris et al. (2016) Fibroblast Growth Factor 2 Regulates High Mobility Group A2 Expression in Human
    Bone Marrow-Derived Mesenchymal Stem Cells    . Cell Biochem 117(9): 2128-37.    		 Abstract
  • 3 Karuna et al. (2018) Identification of a WNT5A-Responsive Degradation Domain in the Kinesin Superfamily Protein KIF26B. Genes 9(4), 196; doi:10.3390/genes9040196. Abstract
  • 4 Lakatos et al. (2015) Mesenchymal Stem Cells Respond to Hypoxia by Increasing Diacylglycerols. J Cell Biochem 2: 300-307. doi: 10.1002/jcb.25292. Abstract
  • 5 Beegle et al. (2015) Hypoxic Preconditioning of Mesenchymal Stromal Cells Induces Metabolic Changes, Enhances Survival, and Promotes Cell Retention In Vivo. Stem Cells 33(6): 1818-1828. doi: 10.1002/stem. Abstract
  • 6 Adair et al. (2018) Novel Lineage Depletion Preserves Autologous Blood Stem Cells for Gene Therapy of Fanconi Anemia Complementation Group A. Haematol 103:xxx. doi:10.3324/haematol.2018.194571. Abstract
  • 7 Awan et al. (2018) FGF2 Induces Migration of Human Bone Marrow Stromal Cells by Increasing Core Fucosylations on N-Glycans of Integrins. Stem Cell Reports S2213-6711(18)30270-30274. doi:10.1016/j.stemcr.2018.06.007. Abstract
  • 8 Matsui et al. (2018) Dual Role of a C-Terminally Truncated Isoform of Large Tumor Suppressor Kinase 1 in the Regulation of Hippo Signaling and Tissue Growth. DNA and Cell Biology. Online publication - http://doi.org/10.1089/dna.2018.4340. Abstract
  • 9 Ramsay et al. (2019) Modeling Snyder-Robinson Syndrome in Multipotent Stromal Cells Reveals Impaired Mitochondrial Function as a Potential Cause for Deficient Osteogenesis. Sci Rep 9, 15395. Online publication - https://doi.org/10.1038/s41598-019-51868-5. Abstract
  • 10 Yazdanyar et al. (2020) Effects of Intravitreal Injection of Human CD34+ Bone Marrow Stem Cells in a Murine Model of Diabetic Retinopathy. Exp Eye Res doi:10.1016/j.exer.2019.107865. Abstract
  • 11 Panero et al. (2019) A Study of Amniotic Fluid Preparations for Mesenchymal Stem Cells with Bone Marrow Comparison. Am J Sports Med. 47(5): 1230-1235. Abstract
  • 12 Radtke et al. (2019) Sort-Purification of Human CD34+CD90+ Cells Reduces Target Cell Population and Improves Lentiviral Transduction. bioRxiv 850479; doi: https://doi.org/10.1101/850479 Abstract
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