3D printing with stem cells could lead to printable organs – Stem …

Feb 06

A potentially breakthrough 3D-printing process using human stem cells could be the precursor to printing organs from a patients own cells.

3D-printed stem cells act like ink.

Some day in the future, when you need a kidney transplant, you may get a 3D-printed organ created just for you. If scientists are able to achieve that milestone, they may look back fondly at a breakthrough printing process pioneered by researchers at Heriot-Watt University in Scotland in collaboration with Roslin Cellab, a stem cell technology company.

The printer creates 3D spheroids using delicate embryonic cell cultures floating in a bio ink medium. They end up looking like little bubbles. Each droplet can contain as few as five stem cells. Basically, this comes down to the printer ink being stem cells rather than plastic or another material.

Dr. Will Shu is part of the research team working on the project. In the longer term, we envisage the technology being further developed to create viable 3D organs for medical implantation from a patients own cells, eliminating the need for organ donation, immune suppression, and the problem of transplant rejection, Shu said in a release from Heriot-Watt.

Perhaps most importantly, the stem cells survived the printing process and remained viable. Shu says this is the first time human embryonic stem cells have been 3D printed. Printing out organs may be far down the line, but its just one potential application. The method could also be used to print out human tissue for drug testing.

The research results have just been published in Biofabrication under the title Development of a valve-based cell printer for the formation of human embryonic stem cell spheroid aggregates.

While things like 3D-printed Mobius bacon strips and crazy pointy shoes are a lot of fun, its applications like this that could really turn 3D printing into a world changer.

(Via PopSci)

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Stem cells is no hype but it is a better hope: Experts – Stem Cell Cafe

One day 2 of Bangalore India Bio (BIB) Indias premier Biotech Show organised by the department of Information Technology, Bio-Technology and Science & Technology, Government of Karnataka and the Vision Group on Biotechnology, featured another TRACK ON REGENERATIVE MEDICINE, the topic was THE PROMISES AND CHALLENGES OF REGENERATIVE MEDICINE. The session was Chaired by B.N. Manohar Chief Executive Officer, Stempeutics Research Pvt. Ltd. and the Speakers were Prof. Ravi Bellamkonda Associate Vice President for Research, Carol Ann and David D. Flanagan Chair in Biomedical Engineering & GCC Distinguished Scholar, Georgia Institute of Technology, USA, Dr. N.K. Venkataramana Director of Advanced Neuro-Science Institute and Vice-Chairman of BGS-Global Hospitals and Dr. Suresh Babu Application Scientist, Life Science Centre (R&D), Agilent Technologies.

Opening the session B.N. Manohar, said, Today regenerative medicine, stem cells, neurology have tremendous potential. Bio Pharma can change the present US$5bn to US$100billion by 2025. Globally US$150bn revenue is made by Biotechnology industries in which 15% is from Pharma industries. In which India contributes 10% to pharma revenue. Stem cells will become a major benchmark for medical treatment. They can be utilized in many ways, which will be shared by the Panel.

Prof. Ravi Bellamkonda, said, the concept of damaged cells to regenerate the cells in the nerve gap, the polymer drug for the cell therapy to grow organwhich is to be viable but need investments. When the nerve gaps are more than 10mm they dont heal fast on their own, Surgeons use pseudo nerve for nervegrafting. Nerve grafting has many disadvantages like second surgery, rate multiple grafting etc 40% success rate, to overcome this is designing the ideal bridge inthe nerve gaps. We are working in our lab to design a pseudo nerve which has genetic approach which has the capacity for bridging for auto grafting and alsodeveloping a gel. This was developed directly in the tissues but it did not work so we tried to work with the embryonic cells (rat), fiber cells with polymer whichallows the gel formation which allows the nerve growth. The Schwann cells which migrated to the glial cells for the growth of nerve cells. This takes nearly 10years for the treatment so trying to concentrate for the short term a treatment which promotes the nerve bridge. We worked on Peripheral nerve submerges withmacrophage which responds to the M2 phenotype for the auto grafting, the Schwann cells migrates quickly regenerating the cells, the study is still under process.We will be able to provide more jobs as we expand.

Dr. N. K. Venkataramana, in his talk said, Started with advancement in medicine from past 3decades and the UN met medical needs in neurological disorders alone we have more than 15 million people adding on every year and their accounts to 300 million which is a huge burden. For this burden stem cells was a boon in the field. We thought that the fundamental property and its cell repairing capacity can be exploited by the scientists and a way to meet the medical needs. Our main goal is to inject the stem cells into the body, so the natural power of regeneration can be enhanced and supported. All stem cells are not equal, majority of us use adult stem cells, embryonic stem cells for the research. Use of Mesenchymal stem cells a multipotent, hypo neurogenic in large scale production is possible. Bone marrow transplantation was known because of stem cells, till then we never saw. With the advancement we can distinguish the cells and utilize for the purpose. In past 30 years I have never seen a recovery of spinal cord injury but now the stem cells giving hope that even in the case of head injury, Parkinsons disease recovery is possible. Understanding the mechanism of action is difficult, follows few postulates they are activation of stem cells, regeneration of cells, Immunomodulation, secretion of growth factors. Mesenchymal cells are Immunomodulatory, secrete many bio active molecules, which has anti apocratic effect, Immunomodulatory, angiogenesis, antifibrotic effect, these can be exploited in many ways for the medical purpose. Different sources of stem cells give different genetic expressions and can be used for different purpose. Concluding with all this data available today, stem cells is no longer a hype but it is a better hope.

Dr. Suresh Babu, an Application Scientist, extensively with proteins and has presented 25 papers till date said, Proteins can undergo various kinds ofmodifications. This is the reason for the different characterizations of proteins. Thus, for different characterizations, new technology is required. The AgilentToolbox for Biologic Characterization is a product of Agilent Technologies. It is used for Intact mAb (Monoclonal Antibodies) Analysis, i.e. to analyze inactiveantibodies. A new chip known as the HPLC Chip is used, which is used in 4 steps Setup, Insert, Click (on the software) and Spray the sample. The chip hasbeen elemental in deconvulating the MS Spectrum of intact mAbs. To do this, PNGase F treatment is done. The Glycons show a missing peak. To show aclear spectrum, the number of antibodies are reduced. This same process can be done on Fc fragments as well. It has practical significance as well, because only1 nanogram of the sample is required, as opposed to over 200 nanograms in conventional methods.

Another application this technology is used in is Peptide Mapping. The peptides are subjected to the data. 94% Heavy Chains and 84% Light Chains are reported. Peptide mapping can also be done by using U.V rays.

Another new detector has been developed to increase sensitivity. About 10% increase has been reported. Size Exclusion Chromatography(SEC) is performedto show the aggregation of mAb. All the systems devised by Agilent technologies are metal and Iron free so that they do not react with the biomolecules. HeatStress has also been done to degrade the antibodies. Aggregates of the protein molecules have been by pH Stress. A linearity curve was plotted whichshowed the concentration of the sample to be 12.5-2000 micrograms per milliliter. For charged varients, Ion Exchange Chromatography(IEC) is widelyused.he added.

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Adult Stem Cells Regrow cut off Finger! – Video – Stem Cell Cafe

Feb 04

Adult Stem Cells Regrow cut off Finger! Some studies illustrated that adult stem cell having behaviour similar to embryonic stem cell, when it comes to having properties of differentiate into all types of living cells within the human body, source of the pluripotency adult stem cell comes from the bone marrow, clinical studies shown researchers have uses somatic cells treating all kind of degenerative disease with promising results, including using the patient's own adult stem cell serves as a DNA delivery vehicles to correct genetic defect at the cellular level, instead of the conventional approach by applying the re-engineered retrovirus for gene therapy applications. This video demonstrated the use of extra cellular matrix from pig bladder, this powder can instructed the adult stem cell to regrow the cut-off finger rather than stimulate the wounded site to seal the damaged area. Similar to the regeneration mechanism salamanders possess. But the human body need to have a constant supply of adult stem cell in order for the limb to regrow faster. I've discovered several nutritional herbal supplement, that helps support the natural release of adult stem cells from the bone marrow, the lists of supplements are listed below, all the supplement are scientifically proven from credible source, it has over thousands of sciencific studies documented. Clinicial research have conduct extensively on therapeutic application of adult stem cell. please come to my webpage for more detail Astragalus Root, Anti Aging

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Stem cells aid recovery from stroke – Stem Cell Cafe

Jan 28

Public release date: 27-Jan-2013 [ | E-mail | Share ]

Contact: Hilary Glover hilary.glover@biomedcentral.com 44-020-319-22370 BioMed Central

Stem cells from bone marrow or fat improve recovery after stroke in rats, finds a study published in BioMed Centrals open access journal Stem Cell Research & Therapy. Treatment with stem cells improved the amount of brain and nerve repair and the ability of the animals to complete behavioural tasks.

Stem cell therapy holds promise for patients but there are many questions which need to be answered, regarding treatment protocols and which cell types to use. This research attempts to address some of these questions.

Rats were treated intravenously with stem cells or saline 30 minutes after a stroke. At 24 hours after stroke the stem cell treated rats showed a better functional recovery. By two weeks these animals had near normal scores in the tests. This improvement was seen even though the stem cells did not appear to migrate to the damaged area of brain. The treated rats also had higher levels of biomarkers implicated in brain repair including, the growth factor VEGF.

A positive result was seen for both fat (adipose) and bone-marrow derived stem cells. Dr Exuperio Dez-Tejedor from La Paz University Hospital, explained, Improved recovery was seen regardless of origin of the stem cells, which may increase the usefulness of this treatment in human trials. Adipose-derived cells in particular are abundant and easy to collect without invasive surgery.

###

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StemCells, Inc. to Present at Phacilitate Cell … – Stem Cell Cafe

NEWARK, Calif., Jan. 23, 2013 (GLOBE NEWSWIRE) StemCells, Inc. (STEM) announced today that Ann Tsukamoto, Ph.D., Executive Vice President, Research and Development, will make a presentation on the Companys clinical development programs at the Phacilitate Cell & Gene Therapy Forum to be held January 28-30, in Washington, DC. Dr. Tsukamoto is scheduled to speak at 12:25 p.m. ET on Wednesday, January 30, as part of the session on Clinical development updates from leading cell and gene therapy product candidates in the clinic for CNS indications.

The Phacilitate Cell & Gene Therapy Forum is a preeminent industry-led meeting designed to help advance regulatory, manufacturing, R&D and commercial strategies and drive cell and gene therapy products forward. The Forum enables executives from global cell therapy, gene therapy and tissue engineering companies, representatives of big pharma and big biotech, regulators and regulatory experts, and public and private investors to meet and share information on the leading edge of the regenerative medicine sector.

About StemCells, Inc.

StemCells, Inc. is engaged in the research, development, and commercialization of cell-based therapeutics and tools for use in stem cell-based research and drug discovery. The Companys lead therapeutic product candidate, HuCNS-SC(R) cells (purified human neural stem cells), is currently in development as a potential treatment for a broad range of central nervous system disorders. In a Phase I clinical trial in Pelizaeus-Merzbacher disease (PMD), a fatal myelination disorder in children, the Company has shown preliminary evidence of progressive and durable donor-derived myelination in all four patients transplanted with HuCNS-SC cells. The Company is conducting a Phase I/II clinical trial in chronic spinal cord injury in Switzerland and recently reported positive interim data for the first patient cohort. The Company is also conducting a Phase I/II clinical trial in dry age-related macular degeneration (AMD), and is pursuing preclinical studies in Alzheimers disease. StemCells also markets stem cell research products, including media and reagents, under the SC Proven(R) brand. Further information about StemCells is available at http://www.stemcellsinc.com.

The StemCells, Inc. logo is available at http://www.globenewswire.com/newsroom/prs/?pkgid=7014

Apart from statements of historical fact, the text of this press release constitutes forward-looking statements within the meaning of the U.S. securities laws, and is subject to the safe harbors created therein. These statements include, but are not limited to, statements regarding the clinical development of its HuCNS-SC cells; the Companys ability to commercialize drug discovery and drug development tools; and the future business operations of the Company. These forward-looking statements speak only as of the date of this news release. The Company does not undertake to update any of these forward-looking statements to reflect events or circumstances that occur after the date hereof. Such statements reflect managements current views and are based on certain assumptions that may or may not ultimately prove valid. The Companys actual results may vary materially from those contemplated in such forward-looking statements due to risks and uncertainties to which the Company is subject, including those described under the heading Risk Factors in the Companys Annual Report on Form 10-K for the year ended December 31, 2011 and in its subsequent reports on Forms 10-Q and 8-K.

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Stem Cells – A Medical Dictionary, Bibliography, And Annotated …

Jan 23

Stem Cells A Medical Dictionary, Bibliography, And Annotated Research Guide To Internet References http://www.tradebit.com Stem Cells A Medical Dictionary, Bibliography, And Annotated Research Guide To Internet References Icon Health Publications This is a 3-in-1 reference book. It gives a complete medical dictionary covering hundreds of terms and expressions relating to stem cells. It also gives extensive lists of bibliographic citations. Finally, it provides information to users on how to update their knowledge using various Internet resources. The book is designed for physicians, medical students preparing for Board examinations, medical researchers, and patients who want to become familiar with research dedicated to stem cells. If your time is valuable, this book is for you. First, you will not waste time searching the Internet while missing a lot of relevant information. Second, the book also saves you time indexing and defining entries. Finally, you will not waste time and money printing hundreds of web pages.Words: research guide, research how to, stem researchAuthor: ICON Health Publications Publisher: ICON Health Publications Illustration: N Language: ENG Title: Stem Cells A Medical Dictionary, Bibliography, and Annotated Research Guide to Internet References Pages: 00000 (Encrypted PDF) On Sale: 2004-03-03 SKU-13/ISBN: 9780597842245 Lib Category: Research Lib Category: Computer network resources Category: Science : Life Sciences Genetics Genomics This is a 3-in-1 reference book. It gives a complete medical dictionary covering hundreds of terms and

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Springhill Medical Group-What is Stem Cell Therapy? – Stem Cell Cafe

Jan 22

Springhill Medical Group-What is Stem Cell Therapy? springhillmedgroup.com We have been hearing about this stem cell lately but does everyone know about what this really is? According to medical researchers, stem cell treatments have the potential to change the face of human disease and alleviate suffering. There are already many stem treatments nowadays but they are not usually used because they tend to be experimental and they are very expensive. Medical researchers foresee being able to use technologies derived from stem cell research to treat cancer, spinal cord injuries, and muscle damage, amongst a number of other diseases and impairments. This stem cell therapy is established in order to treat disease or injury by introducing new adult stem cells into damaged tissue. Stem cell therapy is an intervention strategy. The good thing about stem cell is that there are minimal risk of rejection and side effects. They have the ability to self-renew and give rise to subsequent generations with variable degrees of differentiation capacities. They also offer significant potential for generation of tissues that can potentially replace diseased and damaged areas in the body. It has been said that there are already a number of stem-cell therapies that exist but most are costly. But bone-marrow transplantation, to some extent has exemption.

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Bacteria Can Morph Host Cells Into Stem Cells – Stem Cell Cafe

Jan 19

Featured Article Academic Journal Main Category: Stem Cell Research Also Included In: Infectious Diseases / Bacteria / Viruses;Biology / Biochemistry Article Date: 18 Jan 2013 14:00 PST

Current ratings for: Bacteria Can Morph Host Cells Into Stem Cells

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Researchers at the University of Edinburgh made this remarkable discovery while studying mice infected with bacteria that cause leprosy, an infectious disease that attacks the nerve system.

They propose the finding will help stem cell researchers use similar mechanisms to develop new stem cell treatments for degenerative conditions.

They write about their findings in the 17 January issue of the journal Cell.

Senior researcher Anura Rambukana, Chair of Regeneration Biology at Edinburgh, says in a press statement:

Bacterial infections can completely change a cells make up, which could have a wide-range of implications, including in stem cell research.

But once the infection is established, the bacterium then sets about reprogramming the Schwann cells to become like stem cells.

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CRF to sponsor 8th International Conference on … – Stem Cell Cafe

Jan 19

WHAT:

The final agenda for the Eighth International Conference on Cell Therapy for Cardiovascular Disease, sponsored by the Cardiovascular Research Foundation, is now available online at http://celltherapy.crf.org/conference/agenda.html. The conference, which will be held January 23-25, 2013, is the premier meeting dedicated to the evolving field of cell-based therapies for the repair and regeneration of cardiac and vascular disease, as well as related diseases such as diabetes and stroke.

This years conference will focus on pivotal preclinical and clinical studies on the path to commercialization, focusing on the status of molecular, cell, and tissue products, in addition to delivery systems.

WHY:

Recent advances in stem cell research demonstrate great potential as breakthrough therapies for conditions like diabetes, Parkinsons and heart disease. Now in its 12th year of clinical trials, the application of stem cells in the treatment of cardiovascular diseases has realized many notable successes, as well as identified challenges that await the next round of clinical studies. Renowned thought leaders in this field will convene to present their work, experiences, observations, and opinions on the benefits and unmet challenges of cell-based therapies.

Sessions will focus on:

WHO:

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Drug targets leukemia stem cells – Stem Cell Cafe

SAN DIEGO Researchers at the University of California, San Diego School of Medicine have discovered that hard-to-reach, drug-resistant leukemia stem cells (LSCs) that overexpress multiple pro-survival protein forms are sensitive and thus vulnerable to a novel cancer stem cell-targeting drug currently under development.

The findings, published in todays (Jan. 17) online issue of Cell Stem Cell, open the possibility that diseases like chronic myeloid leukemia (CML) and some solid tumor cancers might in combination with other therapies be more effectively treated with this drug, and with a lower chance of relapse.

Led by principal investigator Catriona H. M. Jamieson, M.D., Ph.D., associate professor of medicine and director of stem cell research at UC San Diego Moores Cancer Center, the researchers found that a compound called sabutoclax appears to selectively target LSCs that express particular protein isoforms through alternatively splicing, a fundamental process in which a gene is able to code for multiple proteins.

Jamieson and colleagues found that alternative splicing of BCL2 genes, which code for proteins involved in apoptosis or programmed cell death, specifically promoted malignant transformation of dormant white blood cell precursors into blast crisis LSCs. The blast crisis is the final phase of CML when overabundant, abnormal white blood cells crowd out healthy cells, causing serious dysfunction.

Of clinical importance, they noted that sabutoclax, which suppresses all BCL2 anti-apoptotic proteins, renders these marrow-dwelling blast crisis LSCs sensitive and more susceptible to TKI-based therapeutics at doses that do not harm normal progenitor cells.

Our findings show that pan-BCL2 inhibition will be critical for the eradication of cancer stem cells in CML and that there is an essential link between cancer stem cell dormancy, pro-survival BCL2 isoform expression and therapeutic resistance, Jamieson said. By using a novel pan-BCL2 inhibitor, we may be able to prevent therapeutic resistance by sensitizing malignant stem cell clones to TKIs.

The findings may have implications for treating solid tumor cancers, such as colon, prostate, breast, and brain cancers, noted Daniel J. Goff, the studys first author. With many of these tumor types being shown to harbor cancer stem cells, it raises the question of whether BCL2 family expression as well as isoform-switching may be crucial for the maintenance of cancer stem cells in these diseases as well, he said. If so, they may also be candidates for treatment with a BCL2 inhibitor like sabutoclax.

Co-authors are Angela Court Recart, Anil Sadarangani, Heather Leu, Janine Low-Marchelli, Wenxue Ma, Alice Y. Shih, Ifat Geron, Minya Pu, Lei Bao, Ryan Chuang, Larisa Balaian, Peggy Wentworth, Kristen M. Smith, Christina A.M. Jamieson, Sheldon R. Rorris and Karen Messer, UC San Diego Department of Medicine and UC San Diego Moores Cancer Center; Hye-Jung Chun and Marco Marra, Michael Smith Genome Sciences Center, Vancouver, B.C., Canada; Christian L. Barrett and Kelly A. Frazer, UC San Diego Department of Pediatrics; Maryla Krajewska, Jun Wei, Dayong Zhai, Maurizio Pellecchia and John C. Reed, Sanford-Burnham Medical Research Institute; Jason Gotlib, Stanford Medical Center; Mark Minden, Princess Margaret Hospital, Toronto, Canada; Giovanni Martinelli, Institute of Hematology and Medical Oncology, University of Bologna, Italy; Jessica Rusert and Lawrence S.B. Goldstein, UC San Diego Department of Cellular and Molecular Medicine and Howard Hughes Medical Institute; Kim-Hien Dao, Oregon Health and Science University, Portland; Kamran Shazand and Thomas J. Hudson, Ontario Institute for Cancer Research, Toronto, Canada.

Funding for this research was provided by a California Institute for Regenerative Medicine (CIRM) early Translational II grant (TR2-1789), a CIRM HALT leukemia disease team grant (DR1-01430), the UCSD CIRM Training Grant (TG2-01154), the Ratner Family Foundation, the National Cancer Institute (CA-55164), the National Institutes of Health (CA-149668), the Ontario Institute for Cancer Research, Genome Canada, Ontario Genomics Institute and the Canadian Institute of Health Research.

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