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Baby Teeth Stem Cells Restore Damaged Permanent Teeth

Posted by maxi@stemsave.com on Aug 28, 2018 3:44:00 PM

University of Pennsylvania researchers have utilized dental stem cells from baby teeth to restore injured teeth. The clinical trial involved the use of the patient’s own (autologous) stem cells to treat an injured permanent tooth. The stem cells were obtained from a healthy baby tooth [hence, posed no risk of rejection, since they were the patient’s own], expanded in the lab and implanted into the injured tooth. In follow-ups one year following the procedure, patients in the experimental group regained sensation in the previously injured tooth. The researchers also observed a significant regeneration of dentin, which is the hard part of the tooth, as well as vascularization in the pulp, which led to healthy root development and increased circulation.

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Topics: stem cells from teeth, baby teeth stem cells, baby tooth, tooth regeneration, natural tooth repair

Repairing Skin Ulcers with Stem Cells

Posted by anna@stemsave.com on Aug 22, 2018 11:13:00 AM

Researchers at the Salk Institute have developed a method to reprogram stem cells in skin ulcers and sores to differentiate into epithelial (skin) cells. The treatment advance has the potential to revolutionize treatment options for patients suffering from chronic skin conditions such as epidermolysis bullosa, ulcers and sores due to diabetes, bedsores and severe burns. Typically, there is an abundance of stem cells at the site of wounds such as ulcers. However, the stem cells prioritize dealing with inflammation and infection over the regeneration of skin tissue. The researchers sought to reprogram wound-resident mesenchymal stem cells in vivo [inside the body] by applying transduction factors, which directed the stem cells to generate skin tissue.  Hence, the treatment is designed to generate new skin at the site of the wound as opposed to the current approach of utilizing a skin graft.

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Topics: burn injuries, ulcers, epidermolysis bullosa, leg ulcers, stem cell graft

Stem Cells Root Out Root Canals

Posted by taylor@stemsave.com on Aug 16, 2018 10:45:00 AM

Doctors at the New Jersey Institute of Technology have developed a stem cell hydrogel designed to keep teeth alive following a root canal. This revolutionary, biological hydrogel is said to stimulate angiogenesis, which is the growth of blood vessels, and this key factor could help teeth remain both alive and more fortified, compared to a traditional root canal treatment. When patients require root canals, the decay inside the pulpal chamber and canals is cleared and replaced with gutta percha. This eliminates the infection, but also renders the tooth dead typically leading to the loss of the tooth entirely later on. The hydrogel, seeded with dental pulp stem cells and working in conjunction with the hydrogel’s promotion of angiogenesis,  has the potential to repopulate the tooth with living, functioning dental pulp and restoring function to the tooth.

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Topics: root canal therapy, stem cell therapy, root canal, tooth regeneration, stem cell treatment

Stem Cell Hydrogel Heals Aging Muscles

Posted by maxi@stemsave.com on Aug 10, 2018 10:25:00 AM

Researchers at Georgia Tech are investigating the efficacy of a stem cell infused hydrogel to facilitate the healing of muscular injuries, particularly common in elderly individuals as well as muscular dystrophy patients. The stem cells found in the hydrogel are called muscle satellite cells, and younger individuals have plentiful stores of these cells to actively and efficiently repair muscle injuries as soon as they happen.  However, as individuals age, stem cells become less plentiful and less active, hence, for older individuals, recovery from muscle injuries becomes more protracted and less certain. For individuals with muscular dystrophy, muscle cells are under constant stress. The research seeks to improve on the more common approach of injecting the stem cells directly into the site of damaged muscle, by using the hydrogel to protect the stem cells and ensure that as many of them as possible reach the affected site thereby improving the efficacy of the treatment.

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Topics: stem cell therapy, muscle regeneration, muscle strengthening, muscle repair

Treating Crohn’s Disease with Stem Cells

Posted by davids@stemsave.com on Aug 5, 2018 10:36:00 AM

In a clinical study, researchers at Queen Mary University of London will utilize autologous stem cells to reboot the immune system of Crohn’s disease patients, with the aim of greatly alleviating the inflammation of the bowel thus significantly improving the patients’ quality of life. Crohn’s disease is an autoimmune disorder in which portions of the bowel are attacked by the immune system leading to severe inflammation, malnutrition and debilitating abdominal pain. Though there is currently no effective cure, this stem cell treatment has shown promise in treating the erroneous attacks of the immune system on the bowel tissues. The treatment involves a stimulation of the bone marrow to release stem cells, which are then harvested, followed by an irradiation of the body to eliminate the malfunctioning immune system. The recovered healthy immune stem cells are then reinfused into the body to reboot the immune system and eliminate the inflammation of the bowels.

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Topics: Crohn's Disease, stem cell therapy, stem cell treatment

Stem Cells Used to Understand ALS and Alzheimer’s

Posted by barb@stemsave.com on Jul 30, 2018 12:42:00 PM

A City of Hope researchers are utilizing stem cells to understand the genetic mutations that occur in astrocytes, a type of neuron, as well as damage to the myelin sheath, which is integral to the development of ALS and Alzheimer’s. Stem cells were used to create a model of Alexander disease, which is a neurological disorder similar to ALS and Alzheimer’s in its pathology, part of which involves a genetic mutation that hinders the production of an adequate myelin sheath, a fatty membrane that covers neurons and expedites signal transduction. Using this technique, the researchers homed in on the CHI3L protein, which seems to be primarily responsible for neuroinflammation and stunted neuronal development, including an inadequate myelin sheath.

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Topics: Alzheimer's disease, regenerative treatments

Stem Cell Infused Lungs Show Promise in Addressing Donor Lung Shortage

Posted by davids@stemsave.com on Jul 25, 2018 1:19:00 PM

 

Researchers at the University of Texas Medical Branch are using autologous (the patient’s own) stem cells to successfully transplant entire lungs without the risk of rejection. In animal models, researchers obtained a lung from a donor and removed all blood and cells, leaving a lung scaffold. Then, they obtained autologous lung stem cells from the subject and seeded the lung scaffold so that the lung would be repopulated. This created a brand new lung for transplantation, comprised of cells that would not be rejected because they are the patient’s own. When implanted back into the body, the engineered lungs were able to grow and vascularize with no additional treatments or infusions. This protocol could potentially be expanded to provide life-saving organs for hundreds of thousands of patients waiting for organ transplants, which, besides the obvious shortage, still pose a risk of immune rejection.

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Topics: regenerative medicine, stem cells, donor organs, organs from stem cells

Stem Cell Grown “Alzheimer’s in a Dish” Sheds Light on the Disease

Posted by anna@stemsave.com on Jul 19, 2018 4:05:00 PM

Researchers at the Massachusetts General Hospital are advancing Alzheimer’s research by creating lab grown models of affected neurons, which will allow for a vastly improved and nuanced understanding of the inner-workings of Alzheimer’s. Alzheimer’s is a neurological disorder that is difficult to diagnose and currently, can only be confirmed during a post-mortem autopsy, which usually reveals the neural inflammation that is believed to be the cause of most of the symptoms leading to the ultimate loss of memory and basic skills. Using stem cells, the researchers were able to grow neurons that exhibit both neuroinflammation and the indicative tangles and plaques of Alzheimer’s. This major breakthrough should enable the development of more targeted, effective treatments - and possibly a cure for Alzheimer’s, which currently affects millions of people worldwide and has no effective treatment options.

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Topics: Alzheimer's disease, treating Alzheimer's, stem cells, neurological treatments, neurological disorders

Stem Cell Implant to Treat Cardiomyopathy

Posted by pamela@stemsave.com on Jul 14, 2018 4:36:00 PM

A Phase I clinical trial has been approved to assess the efficacy of a stem cell graft procedure that seeks to provide a more robust treatment option for  the millions of individuals who suffer from cardiomyopathy. Cardiomyopathy is a disease which affects cardiac muscle, making it extremely difficult to for the heart to pump blood, straining and wearing down the cardiac muscles further. Prolonged cardiomyopathy can require surgical intervention, and in severe cases, a heart transplant. By implanting a thin membrane of collagen scaffold – seeded with the patient’s own stem cells, over the affected area, the stem cell graft changes the status quo on cardiomyopathy treatments by allowing the damaged heart muscle to mend itself. While current surgical treatments lack long-term efficacy in clinical applications, this novel approach was developed to specifically concentrate the stem cells to the site of the damaged tissue thereby increasing cellular repair and survival.

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Topics: Ischemic Cardiomyopathy, cardiomyopathy, heart disease, stem cell graft

Meniscus Tears Repaired with Stem Cells

Posted by devin@stemsave.com on Jul 9, 2018 10:36:00 AM

A study cited in the Journal of Medical Cases has demonstrated successful results utilizing autologous (the patient’s own) stem cells to repair a torn meniscus without surgical intervention. Meniscal injuries are the most frequent knee injuries, and they are particularly common in athletes, but can also occur due to aging. Typically, meniscal tears are treated with surgical intervention, which requires “stitches” meant to hold the tear together until it heals, or cutting out the torn part entirely. The surgical intervention method, though safe, requires extensive physical therapy to strengthen supporting muscles, as well as weeks of recovery time on crutches. Imaging of a tear following a stem cell therapy showed that 9 months after a stem cell injection, the tear healed to the point where it was virtually unnoticeable.

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Topics: stem cell therapy, meniscus tear treatments, stem cell repair, meniscus tear repair

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