Posted: September 24, 2014 at 3:40 am
Stemedix Stem Cell Therapy for ALS - Patient Experience: Dr. Robert K., MD
Stemeidx treats Dr. Robert K., MD. for ALS (Amyotrophic Lateral Sclerosis). Dr. Robert speaks about his patient experience with Stemedix after receiving Stemedix adipose stem cell treatment....
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Stemedix Stem Cell Therapy for ALS - Patient Experience: Dr. Robert K., MD - Video
Posted: September 24, 2014 at 3:40 am
Autism complex treatment with stem cell therapy
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Autism complex treatment with stem cell therapy - Video
Posted: September 24, 2014 at 3:40 am
Swastik - Stem Cell Therapy in Duchenne Muscular Dystrophy (DMD) - 23-06-2014
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Swastik - Stem Cell Therapy in Duchenne Muscular Dystrophy (DMD) - 23-06-2014 - Video
Posted: September 24, 2014 at 2:51 am
Analysis of circulating tumor cells (CTCs) in a mouse model of pancreatic cancer identified distinct patterns of gene expression in several groups of CTCs, including significant differences from the primary tumor that may contribute to the ability to generate metastases. In their study reported in the Sept. 25 issue of Cell Reports, investigators from the Massachusetts General Hospital (MGH) Cancer Center identified several different classes of pancreatic CTCs and found unexpected factors that may prove to be targets for improved treatment of the deadly tumor.
"Our ability to combine a novel microfluidic CTC isolation device, developed here at MGH, with single-cell RNA sequencing has given us new biological insights into these cells and revealed novel avenues to try and block the spread of cancer," says lead author David T. Ting, MD, MGH Cancer Center.
Pancreatic cancer is among the most deadly of tumors because it spreads rapidly via CTCs carried in the bloodstream. The earliest technologies for isolating CTCs from blood samples relied on interactions with known tumor-specific marker proteins, potentially missing cells that did not express those particular markers. The device used in the current study, called the CTC-iChip, enables the isolation of all CTCs in a blood sample, regardless of the proteins they express on their surface, by removing all other components. Since the CTCs collected are in solution, unlike with previous CTC capture devices, they are suitable for advanced RNA sequencing techniques to reveal the gene expression patterns of each individual cell.
Using a well-known mouse model of pancreatic cancer, the researchers first isolated 168 single CTCs from the bloodstreams of five individual mice. Analysis of the RNA transcripts of each CTC revealed several different subsets of CTCs, based on gene expression patterns that were different from each other and from the primary tumor. The largest subset, which the authors call 'classic CTCs,' was found to have elevated expression of a stem cell gene called Aldh1 a2, along with genes characteristic of two basic cell types -- epithelial and mesenchymal -- transition between which has been associated with tumor metastasis. Another gene expressed by almost all classic CTCs, Igfbp5, is only expressed in primary tumor at locations where epithelial cancer cells interface with the supporting stromal cells that provide a nurturing microenvironment, an observation that suggests that those regions may be the source of CTCs.
The research team was most surprised to observe that extracellular matrix (ECM) genes in general -- usually expressed primarily in stromal cells -- were highly expressed in all classic CTCs. Previous studies have suggested that the establishment of metastases depends on the appropriate cellular microenvironment -- 'soil' in which CTCs can plant themselves as 'seeds'- and that the expression of ECM genes is an important aspect of that environment. Expression of ECM genes by CTCs themselves suggests that the blood-borne cells may provide or help prepare their own 'soil.'
Analysis of CTCs from blood samples of human patients with pancreatic, breast or prostate cancer also found elevated expression of several ECM genes. One particular gene, SPARC, was highly expressed in all pancreatic CTCs as well as in 31 percent of breast CTCs. Further experiments revealed that suppressing SPARC expression in human pancreatic cancer cells reduced their ability to migrate and invade tissue, and significantly fewer metastases were generated when SPARC-suppressed pancreatic tumors were implanted into a mouse model, supporting the protein's role in a tumor's metastatic potential.
"Given our limited therapeutic options for pancreatic cancer, understanding the role of the ECM in this tumor seems to be of great importance," says Ting, who is an assistant professor of Medicine at Harvard Medical School. "Much effort has been focused on targeting the microenvironment to improve the efficacy of chemotherapy, and data indicating that environmental stromal cells can enhance a tumor's metastatic ability indicate that ECM proteins are important whether they are produced in stroma or within the tumor cells themselves. Now we need to investigate whether therapeutically targeting ECM can destroy both the tumor microenvironment and CTCs before they have a chance to metastasize."
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The above story is based on materials provided by Massachusetts General Hospital. Note: Materials may be edited for content and length.
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Gene expression patterns in pancreatic circulating tumor cells revealed
Posted: September 24, 2014 at 2:50 am
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Cedar Rapids IA Resources - Stem Cells: Get Facts on Uses ...
Posted: September 24, 2014 at 2:47 am
Jennifer Deasy has suffered from migraines since she was 11 years old more than half the 18-year-old Upper Dublin girls life. And she has an idea that just may ease the pain a bit for her and other migraine sufferers.
It also could net her a medical school scholarship.
Basically, her idea is to cure migraines with stem cell treatment.
Deasy has been named one of 12 semi-finalists for a National Academy Medical School Scholarship Challenge sponsored by the National Academy of Future Physicians and Medical Scientists.
Three of the 12 will be selected to present their research proposals at the November Congress of Future Medical Leaders in Washington, D.C., according to an academy press release. One will receive a medical school scholarship up to $185,000, with $10,000 scholarships going to the runners-up.
The winners will be determined by scholars attending the November Congress.
Deasy was one of 3,100 honor high school students who attended the February Congress, where students were challenged to identify an unsolved medical/scientific/world health problem and create an original investigation to solve that problem.
My guidance counselor nominated me to attend the February Congress, said Deasy, a 2014 Upper Dublin High School grad and current freshman at Franklin & Marshall. Attending medical school has been a dream for as long as I can remember.
I always found [medicine] cool and interesting, she said, noting her dad is an oral surgeon, three uncles are doctors and one is a nurse. She hopes to become a neurologist, both seeing patients and doing research on the brain and its workings with different hormones and how they can affect brain function, like seizures and migraines.
Pain medication or caffeine pills are currently used to treat migraine symptoms, she said. It is not known what causes the severe headaches often accompanied by nausea, and there is no cure. Continued...
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Upper Dublin girl names semi-finalist for medical school scholarship
Posted: September 24, 2014 at 2:47 am
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Newswise LOUISVILLE, Ky. William Tse, M.D., associate professor of medicine and eminent scholar in hematologic malignancies research at the Mary Babb Randolph Cancer Center at West Virginia University, has been named the new director of Bone Marrow Transplantation at the University of Louisville James Graham Brown Cancer Center, a part of KentuckyOne Health. Tse will join UofL Nov. 1.
Tse will hold the Marion F. Beard Endowed Chair in Hematology Research at UofL and become a member of the cancer centers Developmental Biology Program.
Dr. Tse is emerging as one of the thought leaders in bone marrow transplantation, said Donald Miller, M.D., Ph.D., director of the JGBCC. He has trained and worked at several of the leading blood cancer programs in the nation. We look forward to his leading our program at UofL.
Tse has been at West Virginia since 2009, where he also is the co-leader the Osborn Hematologic Malignancies Program. Prior to joining West Virginia, Tse was on the faculty at the University of Colorado Denver, where he was the director of translational research program for bone marrow transplantation and hematologic malignancies. He also previously was with Case Western Reserve University and the Fred Hutchinson Cancer Research Center/University of Washington Medical Center.
Tse is active in national organizations, serving in several capacities with the American Society of Hematology, including section chair for the annual meetings Oncogene Section and bone marrow transplantation outcome section, as well as the American Society of Clinical Oncology as an annual meeting abstract reviewer and the section chair on geriatric oncology. Tse also serves leadership roles on several editorial boards including as the senior editor of the American Journal of Blood Research, stem cell biomarkers section editor for Biomarker Research, senior editor of the American Journal of Stem Cells and the academic editor of PLoS One.
A graduate of the Sun Yat-Sen University School of Medicine in Guangzhou, Guangdong, in China, he did a thoracic surgical oncology residency at Sun Yat-Sen University Cancer Center in Guangzhou before completing postdoctoral research fellowships in medical biophysics, immunology and cancer at the Princess Margaret Hospital/Ontario Cancer Institute and the Hospital for Sick Children in Ontario, Canada. He completed clinical pathology and internal medicine residencies at North Shore-Long Island Jewish Hospital before undertaking a senior medical fellowship in clinical research and medical oncology divisions at the Fred Hutchinson Cancer Research Center at the University of Washington Medical Center.
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Tse Named Director of Bone Marrow Transplantation Division at University of Louisville
Posted: September 24, 2014 at 2:47 am
Sept. 23, 2014
A multidisciplinary team at the University of Wisconsin-Madison and the Morgridge Institute for Research is creating a faster, more affordable way to screen for neural toxins, helping flag chemicals that may harm human development.
The National Institutes of Health (NIH) announced today that the UW-Madison and Morgridge team is among 11 universities receiving support to continue the promising work as part of the Tissue Chip for Drug Screening program. The team will receive approximately $7 million over the three-year project.
Inside wells about a fifth the size of a dime, the team grew neural tissues from a combination of cell types that represent the main components of a developing brain. This image shows the entire structure formed in the well, with nuclei in blue, neurons in green and glial cells in red.
Confocal microscopy image: Michael Schwartz
The next phase of the NIH program aims to improve ways of predicting drug safety and effectiveness. Researchers will collaborate to refine existing 3-D human tissue chips and combine them into an integrated system that can mimic the complex functions of the human body.
"We aim to get more treatments to more patients more efficiently," says Christopher P. Austin, director of the NIH's National Center for Advancing Translational Sciences (NCATS). "That is exactly why we are supporting the development of human tissue chip technology, which could be revolutionary in providing a faster, more cost-effective way of predicting the failure or success of drugs prior to investing in human clinical trials."
The UW-Madison team has succeeded in getting human pluripotent stem cell-derived neural progenitor cells to grow in a 3-D hydrogel environment. From there, the cells differentiate, self-organize, and mature into complex neural tissues. About one-fifth the circumference of a dime, the microenvironments assemble into three-dimensional tissue models that mimic the structure and function of the developing brain.
In tandem with the biological work, the team is testing a machine-learning algorithm that can predict toxic responses to compounds added to these constructed environments. Early results on a 2-D system with 45 known toxins or control compounds produced 100 percent accuracy.
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UW-Madison team developing tissue chip to screen neurological toxins
Posted: September 24, 2014 at 12:40 am
New undergraduate course about science fiction and stem cells
Visit USC on YouTube: http://www.youtube.com/usc Learn more about the University of Southern California: http://www.usc.edu USC is pleased to introduce a new undergraduate course starting...
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New undergraduate course about science fiction and stem cells - Video
Posted: September 24, 2014 at 12:40 am
Scientists to clone Michael Jackson using stem cells
Scientists to clone Michael Jackson using stem cells.
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Scientists to clone Michael Jackson using stem cells - Video
