LEADER 00000cam 2200769Ia 4500
001 54464068
003 OCoLC
005 20200807180134.2
006 m o d
007 cr cnu---unuuu
008 040223s2004 njua ob 001 0 eng d
010 |z2002191331
020 1592594115|q(electronic bk.)
020 9781592594115|q(electronic bk.)
020 |z1588291138|q(alk. paper)
020 |z9781588291134|q(alk. paper)
020 1617373672
020 9781617373671
020 1280842849
020 9781280842849
020 9786610842841
020 6610842841
024 7 10.1007/978-1-59259-411-5|2doi
035 (OCoLC)54464068|z(OCoLC)606933827|z(OCoLC)648274030
|z(OCoLC)923698776|z(OCoLC)1001511473|z(OCoLC)1038434554
|z(OCoLC)1039510729|z(OCoLC)1058865611|z(OCoLC)1078853535
|z(OCoLC)1086465083|z(OCoLC)1097105278|z(OCoLC)1178534513
035 All EBSCO eBooks
040 N$T|beng|epn|cN$T|dYDXCP|dOCLCQ|dOCLCG|dOCLCQ|dIDEBK
|dOCLCQ|dNUI|dOCLCO|dGW5XE|dOCLCE|dE7B|dOCLCF|dGW5XE
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|dLEAUB|dCNTRU|dOCLCQ|dAU@|dOCLCQ|dINARC
042 dlr
049 txum
050 4 QH587|b.S728 2004eb
072 7 MED|x106000|2bisacsh
072 7 MFN|2bicssc
072 7 MFN|2thema
245 00 Stem cells handbook /|cedited by Stewart Sell.
260 Totowa, N.J. :|bHumana Press,|c©2004.
300 1 online resource (xiii, 509 pages) :|billustrations (some
color)
336 text|btxt|2rdacontent
337 computer|bc|2rdamedia
338 online resource|bcr|2rdacarrier
347 text file|bPDF|2rda
504 Includes bibliographical references and index.
505 00 |tStem cells : what are they? where do they come from? why
are they here? when do they go wrong? where are they
going? /|rStewart Sell --|tStem cells from early mammalian
embryos: common themes and significant differences /
|rVirginia E. Papaioannou and Anna-Katerina Hadjantonakis
--|tEmbryonic stem cells: isolation and application of
pluripotent cells from the pregastrulation mammalian
embryo /|rJoy Rathjen and Peter David Rathjen --|tFrom
stem cells to functional tissue architecture: what are the
signals and how are they processed? /|rSui Huang and
Donald E. Ingber --|tGermline stem cells /|rHaifan Lin --
|tStem cells and cloning /|rIan Wilmut and Lesley Ann
Paterson --|tGenomic imprinting in mouse embryonic stem
and germ cells /|rJeffrey R. Mann and Piroska E. Szabo
Stem cells in amphibian regeneration /|rDavid L. Stocum --
|tStem cells in dermal wound healing /|rWilliam J.
Lindblad --|tBone marrow mesenchymal stem cells /|rJames
E. Dennis and Arnold L. Caplan --|tNormal and leukemic
hematopoietic stem cells and lineages /|rErnest A.
McCulloch Developmental origin of murine hematopoietic
stem cells /|rLorraine Robb and Kyunghee Choi --|tstromal
support of hematopoiesis /|rPierre Charbord --
|tHematopoietic stem cells: identification,
characterization, and assays /|rIan Ponting, Yi Zhao and
W. French Anderson --|tHematopoietic stem cells in
leukemia and lymphoma /|rStephen M. Baird --|tNeurons,
stem cells, and potential therapies /|rFiona C. Mansergh,
Michael A. Wride, and Derrick E. Rancourt --|tNeural stem
cells: from in vivo to in vitro and back again-practical
aspects /|rMichael A. Marconi [and others] --|tMolecular
genetic approaches in the study of retinal progenitor
cells and stem cells /|rTill Marquardt and Peter Gruss --
|tEndothelial progenitor cells /|rTakayuki Asahara and
Jeffrey M. Isner --|tDevelopment of the cardiovascular
system in embryoid bodies derived from embryonic stem
cells /|rHeinrich Sauer [and others] --|tTranscription
factors, growth factors, and signal cascades capable of
priming cardiogenesis /|rAgapios Sachinidis [and others] -
-|tStrategies using cell therapy to induce cardiomyocyte
regeneration in adults with heart disease /|rSilviu Itescu
--|tGeneration and stem cell repair of cardiac tissues /
|rKathyjo A. Jackson and Margaret A. Goodell --|tStem
cells in kidney morphogenesis /|rEmma M.A. Ball and Gail
P. Risbridger --|tnephroblastoma : a metanephric
caricature /|rAlan 0. Perantoni --|tStem cells in
nonmelanoma skin cancer /|rWendy C. Weinberg and Stuart H.
Yuspa --|tThe stem cell plasticity of aggressive melanoma
tumor cells /|rMary J.C. Hendrix [and others] --|tStem
cells in glandular organs /|rKarin Williams and Simon W.
Hayward --|tGastrointestinal stem cells: proliferation
kinetics and differentiation hierarchies /|rSherif M.
Karam --|tStem cell origin of cell lineages, proliferative
units, and cancer in the gastrointestinal tract /|rMairi
Brittan and Nicholas A. Wright --|tspecification of liver
from embryonic endoderm /|rHideyuki Yoshitomi and Kenneth
S. Zaret --|tAnimal models for assessing the contribution
of stem cells to liver development /|rDouglas C. Hixson --
|tNormal liver progenitor cells in culture /|rKatherine S.
Koch and Hyam L. Leffert --|tPermanent lines of stem cells
from the liver /|rHelene Strick-Marchand and Mary C. Weiss
--|tBiology of human liver stem cells /|rAlastair J.
Strain, Sarbjit S. Nijjar, and Heather A. Crosby --
|tTransplantation of hepatic stem cells and potential
applications for cell therapy /|rSanjeev Gupta and Jae-Jin
Cho --|tPlasticity of adult-derived pancreatic stem cells
/|rAmmon B. Peck and Vijayakumar K. Ramiya --|tIslet cells
/|rLuc Bouwens --|tMammary epithelial stem cells /
|rGilbert H. Smith /|rMorphogenesis of prostate cancer /
|rHelmut Bonkhoff --|tStem cells in lung morphogenesis,
regeneration, and carcinogenesis /|rAnk A.W. ten Have-
Opbroek, Scott H. Randell, and Barry R. Stripp --
|tNoninvasive imaging in stem cell therapies : current
state and future perspectives /|rJuri Gelovani --|twhat is
the future for stem cell research? : whether entity or
function? /|rRegis Doyonnas and Helen M. Blau.
506 |3Use copy|fRestrictions unspecified|2star|5MiAaHDL
506 Available only to authorized UTEP users.
520 After decades of intense experimental work by a number of
different investigators, it is now clearly recognized that
the ability of stem cells to give rise to broad variety of
differentiated cell types is critical not only to the
emergence of new and more effective treatments for human
diseases, but also to understanding the pathogenesis of
congenital abnormalities and cancer. In Stem Cells
Handbook, leading scientists in the field survey the
"state-of-the-science" of stem cell biology, explaining
the origin of stem cells, and describing how they function,
how they can cause illness, and how they might be employed
to cure or ameliorate disease. In particular, the authors
discuss the roles of stem cells in development and
organogenesis, in normal tissue turnover, in the repair
response to injury, and in carcinogenesis. They also
explain how to obtain stem cells from different organs,
culture them in vitro, and manipulate them for therapeutic
use. The book highlights the promise of using embryonic
and adult tissue stem cells in both animal models and
human diseases for the replacement of damaged tissue, for
the treatment of cancer, for cell replacement, and for
gene therapy treatments of genetic and metabolic diseases.
Comprehensive and authoritative, Stem Cells Handbook not
only critically reviews and summarizes the diverse studies
now being carried out on this highly promising class of
cells, but also constitutes every investigator's gold-
standard reference on stem cell biology and medicine
today.
533 Electronic reproduction.|b[Place of publication not
identified] :|cHathiTrust Digital Library,|d2010.|5MiAaHDL
538 Master and use copy. Digital master created according to
Benchmark for Faithful Digital Reproductions of Monographs
and Serials, Version 1. Digital Library Federation,
December 2002.|uhttp://purl.oclc.org/DLF/benchrepro0212
|5MiAaHDL
546 English.
583 1 digitized|c2010|hHathiTrust Digital Library|lcommitted to
preserve|2pda|5MiAaHDL
588 0 Print version record.
650 0 Stem cells.
650 12 Stem Cells|xphysiology.
700 1 Sell, Stewart,|d1935-
776 08 |iPrint version:|tStem cells handbook.|dTotowa, N.J. :
Humana Press, ©2004|z1588291138|w(DLC) 2002191331
|w(OCoLC)51306164
856 40 |uhttp://0-search.ebscohost.com.lib.utep.edu/
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