Stem Cell Anthology From Stem Cell Biology, Tissue Engineering, Cloning, Regenerative Medicine and Biology

ISBN-10: 0123756820

ISBN-13: 9780123756824

Edition: 2010

List price: $175.00
30 day, 100% satisfaction guarantee

If an item you ordered from TextbookRush does not meet your expectations due to an error on our part, simply fill out a return request and then return it by mail within 30 days of ordering it for a full refund of item cost.

Learn more about our returns policy

Description:

what's this?
Rush Rewards U
Members Receive:
coins
coins
You have reached 400 XP and carrot coins. That is the daily max!

Study Briefs

Limited time offer: Get the first one free! (?)

All the information you need in one place! Each Study Brief is a summary of one specific subject; facts, figures, and explanations to help you learn faster.

Add to cart
Study Briefs
Periodic Table Online content $4.95 $1.99
Add to cart
Study Briefs
Medical Terminology Online content $4.95 $1.99
Add to cart
Study Briefs
Medical Math Online content $4.95 $1.99

Customers also bought

Loading
Loading
Loading
Loading
Loading
Loading
Loading
Loading
Loading
Loading

Book details

List price: $175.00
Copyright year: 2010
Publisher: Elsevier Science & Technology Books
Publication date: 11/20/2009
Binding: Hardcover
Pages: 422
Size: 8.75" wide x 11.00" long x 1.25" tall
Weight: 3.388
Language: English

Robert Lanza, M.D. is currently Chief Scientific Officer at Advanced Cell Technology, and Adjunct Professor of Surgical Sciences at Wake Forest University School of Medicine. He has several hundred scientific publications and patents, and over 30 books, including Principles of Tissue Engineering (1st through 4th Editions), Methods of Tissue Engineering, Principles of Cloning (1st and 2nd Editions), Essentials of Stem Cell Biology (1st and 2nd Editions), XENO, Yearbook of Cell & Tissue Transplantation, One World: The Health & Survival of the Human Species in the 21st Century (as editor, with forewords by C. Everett Koop and former President Jimmy Carter), and Medical Science & the Advancement of World Health. Dr. Lanza received his B.A. and M.D. degrees from the University of Pennsylvania, where he was both a University Scholar and Benjamin Franklin Scholar. He is a former Fulbright Scholar, and studied as a student in the laboratory of Richard Hynes (MIT), Jonas Salk (The Salk Institute), and Nobel laureates Gerald Edelman (Rockefeller University) and Rodney Porter (Oxford University). He also worked closely (and coauthored a series of papers) with the late Harvard psychologist B.F. Skinner and heart transplant pioneer Christiaan Barnard. Dr. Lanza's current area of research focuses on the use of stem cells in regenerative medicine.

Introductory Chapters Pluripotential stem cells from vertebrate embryos: Present perspective and future challenges Postnatal stem cells Adult epithelial tissue stem cells Mesenchymal stem cells Stem cells, plasticity and regeneration
Methods for Preparing Embryonic or Pluripotent Stem Cells Setting up a facility for human embryonic stem cell research Approaches for derivation and maintenance of human embryonic stem cells:Detailed procedures and alternatives Derivation and differentiation of human embryonic germ cells Genetic manipulation of human embryonic stem cells Induced pluripotential stem cell derivation
Types and Properties of Stem Cells Molecular basis of pluripotency Characteristics and characterization of human pluripotential stem cells Multipotent adult progenitor cells Bone marrow stem cells: Properties and pluripotency Hematopoietic stem cell properties, markers, and therapeutics Stem cells in the gastrointestinal tract Stem cells derived from amniotic fluid and placenta Nuclear transfer for stem cells
Application of Stem Cell Biology to Regenerative Medicine Neural stem cells for central nervous system repair Spinal cord injury Stem cells and heart disease Cell-based repair for cardiovascular regeneration: What, why, how and where are we going in the next 5-10 years Pancreatic stem cells Insulin-producing cells derived from stem cells: A potential treatment for diabetes Regeneration of epidermis from adult keratinocyte stem cells Implantation of myogenic cells in skeletal muscles Cell-based therapies for musculoskeletal repair Retinal pigment epithelium derived from embryonic stem cells
×
Free shipping on orders over $35*

*A minimum purchase of $35 is required. Shipping is provided via FedEx SmartPost® and FedEx Express Saver®. Average delivery time is 1 – 5 business days, but is not guaranteed in that timeframe. Also allow 1 - 2 days for processing. Free shipping is eligible only in the continental United States and excludes Hawaii, Alaska and Puerto Rico. FedEx service marks used by permission."Marketplace" orders are not eligible for free or discounted shipping.

Learn more about the TextbookRush Marketplace.

×