Literature
Learn about the Research Empowering Automated Cell Processing, Banking, and Therapy
AXP II® System
Posters
-
-
- Rosenthal J, Brown H.L, and Harris D.T. Cell Recovery Following Implementation of an Automated Cord Blood Processing System in a High Volume Laboratory. American Society for Blood and Marrow Transplantation Meeting (2008 ASBMT).
- Li J, Nguyen M, Gerhard B, Walker J, Wirthlin L, Gruenloh W, Nolta J, Lagarias D, Weatherford C, Marr D, and Chapman J. Automated Volume Reduction of Human Cord Blood Using the AXP AutoXpress™ Platform: A Study with HES. International Society for Stem Cell Research (2007 ISSCR), Cairns, Australia.
- Li J, Zhu H, Nguyen M, Emmanuel P, Baker B, Marr B, Weatherford C, and Chapman J. Validation Study of Mononuclear Cell Recovery Using the AXP AutoXpress™ Platform. European Society for Blood and Marrow Transplantation Meeting (2007 EBMT), Lyon, France.
- Dorila L, Chapman J, Marr D, Kumar V, Coehlo P, and Rubinstein P. ThermoGenesis AXP AutoXpress Platform and BioArchive System for Automated Cord Blood Banking. International Society of Blood Transfusion (2006 ISBT), Cape Town, South Africa.
- Chapman J, Marr D, Baker B, and Kryston K. Automated Separation of Cord Blood MNC Fraction in a Closed System: ThermoGenesis AXP™ System. International Symposium on Stem Cells: Premises and Promises for Research and Therapeutics (2005 ISSC), Mumbai, India.
-
Published Literature
-
-
- Badowski MS, Harris DT. Collection, processing, and banking of umbilical cord blood stem cells for transplantation and regenerative medicine. Methods Mol Biol. 2012;879:279-290
- Roh EY, et al. Cord blood volume reduction using the automated devices Sepax® S-100 and AXP™ AutoXpress platform. Korean J Blood Transfus. 2007;18 (3):219-226.
- Rubinstein, P. Cord blood banking for clinical transplantation. Bone Marrow Transplantation. 2009;44(10):635-42.
- Solves P, Mirabet V, Blanquer A , et al. A new automatic device for routine cord blood banking: Critical analysis of different volume reduction methodologies. Cytotherapy. 2009;11(8):1101-1107.
- Solves P, Planelles D, Mirabet V, et al. Qualitative and quantitative cell recovery in umbilical cord blood processed by two automated devices in routine cord blood banking: A comparative study. Blood Transfus. 2013;11(3):405-411.
- Takanashi M, Oba A, Ogawa A, et al. Red blood cell depletion of cord blood using an automated system- Evaluation of the AXP system. Japanese Journal of Transfusion and Cell Therapy. 2010;56(1):62-67.
- Willert JR, Purdon TF, and Harris DT. Umbilical cord blood: Biology, banking and therapeutic use. Neonatal Medicine. 2008;68-72.
-
White Paper
-
-
- Kim C, Wilke-Douglas M, and Sivilotti M. Analysis of the AXP® and Sepax® Automated Cord Blood Processing Systems
-
BioArchive® System
Posters
-
-
- Giet O.E., Barata M.A., Kryston K.J., Araujo J, Wilke-Douglas M, and Baudoux E. Management of a Disaster Management: Particular Issue of the BioArchive® Cryogenic Tank. International Society for Cell and Gene Therapy (2013 ISCT), Auckland, New Zealand.
- Junzhi Li,Nguyen M, Chapman J. A Study of MXP Cell Process and BioArchive Cryopreservation with Human Bone Marrow. International Society for Cell and Gene Therapy (2009 ISCT), San Diego, CA.
- Rubinstein P, Dobrila L, and Coelho P. Transient Warming Events and Cell Viability of Placental/Umbilical Cord Blood (PCB). The International Society for Hematotherapy and Graft Engineering (2001 ISHAGE).
-
Published Literature
-
-
- Arrojo I.P., Hernández-Lamas M, Verdugo LP, et al. Trends in cord blood banking. Blood Transfus. 2012;10(1): 95–100.
- Chevaleyre J, Rodriguez L, Duchez P, et al. A novel procedure to improve functional preservation of hematopoietic stem and progenitor cells in cord blood stored at +4°c before cryopreservation. Stem Cells Dev. 2014;23(15):1820-30.
- Prata K.L., Santis GC, Orellana MD, et al. Cryopreservation of umbilical cord mesenchymal cells in xenofree conditions. Cytotherapy. 2012;14(6):694-700.
-
White Paper
PXP® System
White Paper
X-LAB® System
Posters
-
-
- Sethi D, Ellis J, Contreras Z, Perea J, Truong S, and Miller J. Novel Buoyancy Based Cell Selection: X-BACS™ Technology. International Society for Cell and Gene Therapy (ISCT 2019), Montreal, Quebec.
- Fierro F, Lehmicke M, Ellis J, Perea J, Coelho, Cicchetto A, and Lee M. Recovery of Mesenchymal Stem and Endothelial Progenitor Cells from Reamer Irrigator Aspirator (RIA) Waste Fluid using the SynGenX™-LAB. International Combined Orthopaedic Research Societies (IORCS 2016), Orlando, FL.
-
White Paper
X-BACS® Technology
Posters
-
-
- Sethi D, Ellis J, Contreras Z, Perea J, Truong S, and Miller J. Novel Buoyancy Based Cell Selection: X-BACS™ Technology. International Society for Cell and Gene Therapy (ISCT 2019), Montreal, Quebec.
- Sethi D, Miller J, Contreras Z, Perea J, and Truong S. DMSO Removal & CD3+Â Cell Selection from Cryopreserved Apheresis Products Using Novel BACS Technology CAR-TCR Summit Meeting (2018), Boston, MA.
-
X-WASH® System
Posters
-
-
- Sethi D, Ellis J, Contreras Z, Perea J, Truong S, and Miller J. Novel Buoyancy Based Cell Selection: X-BACS™ Technology. International Society for Cell and Gene Therapy (ISCT 2019), Montreal, Quebec.
- Sethi D, Miller J, Contreras Z, Perea J, and Truong S. DMSO Removal & CD3+Â Cell Selection from Cryopreserved Apheresis Products Using Novel BACS Technology CAR-TCR Summit Meeting (2018), Boston, MA.
-