Posted: March 26, 2015 at 1:40 pm
How Stem Cells work at Nova Cells Institute, 562-916-3410
How stem cells work and are successful for treatments at Nova Cells Institute, NCIM makes a difference because we care - successes with dementia, spina bifida, cancer and more - visit http://www.no...
By: NCIM
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How Stem Cells work at Nova Cells Institute, 562-916-3410 - Video
Posted: March 26, 2015 at 1:40 pm
Stem Cell Therapy For Multiple Sclerosis
Back for round 2. After treatment in 2014 Beverly had improvement in her energy level, balance, walking and had colors come into her vision for the first time in 10 years. Beverly went blind...
By: Stem Cell Patient
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Stem Cell Therapy For Multiple Sclerosis - Video
Posted: March 26, 2015 at 1:40 pm
AALLFRED STEM CELL RESEARCH
AALLFRED.
By: Alex Sandoval
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AALLFRED STEM CELL RESEARCH - Video
Posted: March 26, 2015 at 10:59 am
Home Ordering & Shipping Order Form Supplies Semen Listings Angus - Black GeneSTAR data EPD Comparisons Angus Archive 2015 Angus List Angus - Red GeneSTAR data Charolais Club Calf Gelbvieh - All Gelb - Black Gelb - Red Gelb - Balancer (SmartCross) Gelb - Fullblood Gelb - Archive List Igenity data GeneSTAR data 2014 Gelbvieh List (PDF 20 pages) 2014 Gelb. Catalog (PDF 38 pages) Hereford - horned Hereford - polled Salers Shorthorn Simmental - Black Simmental - Red Simm - Solutions GeneSTAR data Archives SmartCross The Advantage The System Gelbvieh Balancers Influenced Females Hitting the Target The Bottom Line General Info Diversity & Innovate Gelbvieh Hall of Fame Grow Rich with A.I. Stem Cell Research Cancun Adventure Links Send Email Black Angus Sire Mohnen South Dakota 402 [ AMF-CAF-DDF ]
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Semen: $25 Certificates: $25
Mohnen South Dakota 402: Denver Carload Bull. We have been waiting a long time to raise the right bull to give him the name South Dakota. He is about as perfect as you could raise one. As we search the country looking for herd bulls it is sometimes hard to look at their front feet and rear leg structure. With South Dakota he is as sound, and good footed as you can make one. He is clean fronted, has outstanding depth with a lot of natural muscle. The next best thing about South Dakota: he is stacked with the best cow family on the ranch, Jilt. The dam, Jilt 539, is a donor that is a big-hipped Aberdeen daughter with an excellent udder. The grandam raised the $19,000 Mohnen Heartrate 1751 in last years sale to CRV who we sampled hard this spring. 787 is a stout Brushpopper 353 that we will have calves by this spring and is currently still being flushed. She has ratios of BR 3@104, WR 3@108, YR 3@109, IMF 2@100 and REA 2@99.
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Mohnen South Dakota 402 - Horned hereford cattle, gelbvieh ...
Posted: March 26, 2015 at 10:59 am
4 hours ago by John Hobbs Stem cells found in mouse skull bones could have an impact on how a common birth defect is treated. Credit: Hu Zhao
USC researchers have discovered which stem cells are responsible for the growth of craniofacial bones in micea finding that could have a profound impact on the understanding and treatment of a birth defect that can lead to an array of physical and intellectual disabilities in humans.
In an article published in the April issue of Nature Cell Biology, Professor Yang Chai describes how he and postdoctoral fellow Hu Zhao identified a population of Gli1+ stem cells within the mesenchyme of tissue between the bones of the skull, known as cranial sutures.
Chai's research team noted that if Gli1+ cells were eliminated from the sutures, the craniofacial bones experienced growth arrest and weakening, leading researchers to conclude these cells were indispensable in healthy skull development.
The findings could have a significant impact on the treatment of craniosynostosis, a birth defect affecting one in 2,500 births.
An infant's soft spot
In a normally developing baby, the craniofacial bones do not grow together for up to 18 months to allow for the brain to reach nearly 70 percent of its eventual size. It's these open sutures that cause babies' heads to have "soft spots."
In an infant with craniosynostosis, the skull bones fuse together before the brain has fully developed, which can cause an array of problems, including hearing and vision defects and developmental disorders.
"Traditional scientific literature viewed craniosynostosis as an overgrowth of bone," said Chai, holder of the George and Mary Lou Boone Chair of Craniofacial Biology. "Our findings offer a brand new perspective, which is that craniosynostosis could actually be viewed as a lack of stem cells."
The discovery could lead to a different treatment intervention for babies with craniosynostosis. Up until now, if the bones prematurely fused, a doctor had to operate, typically within the first year of the baby's life. The surgery entails removing the top of the child's skull, cutting it into segments and then stapling it back together, creating enough space for the infant's developing brain to grow.
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Discovery could lead to biological treatment for common birth defect
Posted: March 26, 2015 at 10:54 am
Stem cell treatment is a revolutionary treatment that only top trained Doctors are performing around the country. Dr. Ken Oleszek has the knowledge, equipment, training and skills to perform stem cell treatment. He recently joined the California Stem Cell Treatment Center physicians affiliate network.
About Stem Cell Treatment
Early stem cell research has traditionally been associated with the controversial use of embryonic stem cells. The new focus is on non-embryonic, which is called adult stem cells found in a persons own blood, bone marrow and fat.
Dr. Oleszek is currently treating patients by a fat removal procedure that generally lasts approximately twenty minutes. Specially designed equipment is used to harvest the fat cells and less than 100cc of fat is required. Post operative discomfort is minimal and there is minimal restriction on activity.
The stem cells are then harvested under sterile conditions using a special closed system technology so that the cells never come into contact with the environment throughout the entire process from removal to deployment. Sterile technique and antibiotics are also used to prevent infection.
Depending on the type of treatment required, stem cells can be injected through veins, arteries, into spinal fluid, subcutaneously, or directly into joints or organs.All of these are considered minimally invasive methods of introducing the stem cells, but Dr. Oleszek has if focused on treating joints (if youre a candidate for knee replacement surgery, then you could possibly be a candidate for stem cell treatment). Stem cells injected intravenously are known to seek out and find areas of tissue damage and migrate to that location thus potentially providing regenerative healing.
If you would like to know more about stem cell treatment, please contact us for a complimentary consultation with Dr. Ken Oleszek. 303-355-4772
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Stem Cell Treatment at La Fontaine, Denver, Colorado
Posted: March 26, 2015 at 10:52 am
DENVER (CBS4) On Friday, March 27, Andrew McMahon In The Wilderness will be headlining the give LIVE Concert benefiting Bonfils Blood Center.
Bonfils Blood Center is a leading blood collection center in Colorado. Last year, the organization took in 140,000 units of blood from 68,000 donors. They process and distribute that blood and blood products to about 100 medical facilities across the state. Bonfils also maintains the Colorado Marrow Donor Registry which is aligned with the national Be The Match Registry.
LINK: Bonfils Blood Center
The money raised at the concert helps us continue our life saving mission, from collecting and distributing donated blood to offering blood drives all over the state, said Liz Lambert, communications specialist with Bonfils Blood Center.
Andrew McMahon (credit: bonfils.org)
Andrew McMahon has a personal connection to the kind of work that Bonfils does. His current album is an exploration of his battle with cancer.
He was diagnosed with cancer when he was 22 and he needed a lifesaving donation of stem cells. And his sister was a match, so he was able to get that transplant, Lambert explained.
LINK: Andrew McMahon In The Wilderness
Signing up for the Colorado Marrow Donor Registry will be a key part of the give LIVE Concert experience. Its easy to get signed up.
Anyone whos between the ages of 18 and 44 can fill out a basic health questionnaire and get their cheek swabbed, and then be added to that registry. So if someone is in need of a lifesaving transplant, they can see if theres a match there, Lambert told CBS4.
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Give LIVE Concert Benefits Bonfils, Marrow Donation
Posted: March 26, 2015 at 10:46 am
Celprogen Released Stem Cell Active Ingredients for the Cosmetic Industry Tested and Validated in Cosmetic Products for a Decade
The present invention relates to culturing stem cells in animal free conditions has been developed and optimized by Celprogen utilizing single use bioreactor technology. The cosmetic industry has benefited from this technology for their regenerative skin care product lines. The topical application of these skin care products utilizing Celprogens Stem Cell Derived Conditioned Media have been in the market for 10 plus years.
About Celprogen Inc. Celprogen Inc. is a global Stem Cell Research & Therapeutics company which is developing a proprietary portfolio of unique therapeutics products and life science research tools that includes genetic engineering technologies, stem cell technologies for regenerative medicine, as well as bio-engineering products for tissue & organ transplants. Headquartered in Torrance, California, Celprogen is committed to the research, development, and manufacture of quality Stem Cell, Cancer Stem Cell and Primary Cell Culture products to serve our global community. Additional information about Celprogen is available at http://www.celprogen.com.
For additional information on the product line contact: Jay Sharma Phone: 310 542 8822 info@celprogen.com http://www.celprogen.com
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Celprogen Released Stem Cell Active Ingredients for the Cosmetic Industry Tested and Validated in Cosmetic Products ...
Posted: March 26, 2015 at 3:49 am
Nr0b1 is a negative regulator of Zscan4c in mouse embryonic stem cells
Nr0b1 is a negative regulator of Zscan4c in mouse embryonic stem cells. Setsuko Fujii et al (2015), Scientific Reports http://dx.doi.org/10.1038/srep09146 Nuclear receptor subfamily 0, group...
By: KeSimpulan
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Nr0b1 is a negative regulator of Zscan4c in mouse embryonic stem cells - Video
Posted: March 26, 2015 at 3:49 am
13 hours ago
Scientists at the University of Copenhagen have captured thousands of progenitor cells of the pancreas on video as they made decisions to divide and expand the organ or to specialize into the endocrine cells that regulate our blood sugar levels.
The study reveals that stem cells behave as people in a society, making individual choices but with enough interactions to bring them to their end-goal. The results could eventually lead to a better control over the production of insulin-producing endocrine cells for diabetes therapy.
The research is published in the scientific journal PLOS Biology.
Why one cell matters
In a joint collaboration between the University of Copenhagen and University of Cambridge, Professor Anne Grapin- Botton and a team of researchers including Assistant Professor Yung Hae Kim from DanStem Center focused on marking the progenitor cells of the embryonic pancreas, commonly referred to as 'mothers', and their 'daughters' in different fluorescent colours and then captured them on video to analyse how they make decisions.
Prior to this work, there were methods to predict how specific types of pancreas cells would evolve as the embryo develops. However, by looking at individual cells, the scientists found that even within one group of cells presumed to be of the same type, some will divide many times to make the organ bigger while others will become specialized and will stop dividing.
The scientists witnessed interesting occurrences where the 'mother' of two 'daughters' made a decision and passed it on to the two 'daughters' who then acquired their specialization in synchrony. By observing enough cells, they were able to extract logic rules of decision-making, and with the help of Pau Ru, a mathematician from the University of Cambridge, they developed a mathematical model to make long-term predictions over multiple generations of cells.
Stem cell movies
'It is the first time we have made movies of a quality that is high enough to follow thousands of individual cells in this organ, for periods of time that are long enough for us to follow the slow decision process. The task seemed daunting and technically challenging, but fascinating", says Professor Grapin-Botton.
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Stem cells make similar decisions to humans
