by admin | Oct 3, 2019 | Exosomes, Stem Cell Therapy
Much of the medical research and clinical applications of stem cell therapy have thus far focused on stem cells and their potential to repair damaged or diseased tissue that has not responded to conventional therapies. Though there has been a lot of evidence to suggest that the use of certain types of stem cells can be safe, experts have suggested that strategies for therapy using exosomes that can avoid the use of living stem cells may provide an even better opportunity to slow the progression of various diseases.
Paracrine secretions have been shown to play a significant role in the ability of stem cells to improve disease conditions, and exosomes are a key element of these secretions. From a functional standpoint, exosomes enable stem cells to transfer their genetic information to other cells residing in the damaged tissue.
Because these are responsible for some of the critical benefits of stem cells, researchers have speculated that the use of exosomes rather than stem cells may provide specific advantages in some therapeutic contexts. A review in Stem Cells International has provided a comprehensive overview of what is known so far about the potential role of exosomes in stem cell therapy.
Exosomes are released from a wide variety of stem cell types and influence the functioning of nearby cells and tissues. Their use alone may offer better therapeutic results. Indeed, they have shown particular promise in addressing symptoms of many conditions.
Researchers are hopeful that exosomes will be able to help patients in new and innovative ways, more research is needed to determine the best way to apply them in stem cell therapy.
Reference: Han, C. et al. (2016). Exosomes and their therapeutic potentials of stem cells. Stem Cells International, 1-11.
by admin | Oct 1, 2019 | Aesthetics, Stem Cell Research, Stem Cell Therapy
You don’t need a microscope to recognize aging skin. Aging skin has fine lines and wrinkles; it sags because it has lost elasticity; it is discolored and blotchy. But if you did look at aging skin under a microscope, you would notice that it lacks collagen, elastin, and many other helpful proteins. There would be many old cells and a few young ones. Indeed, old skin looks different under a microscope than new skin, and it is these differences at the cellular level that causes the aging we see on people’s faces. Stem cell facial therapy may be an option for one seeking to improve or prevent the signs of aging.
Fortunately, these cellular changes may not be a curse. Stem cell therapy may be able to replace the proteins that are lost during aging and replace old cells with newer, healthier cells. In short, stem cell facial therapy may be able to can rejuvenate skin and reverse the signs of aging.
The team of Korean stem cell researchers recently completed a study in which they collected mesenchymal stem cells from various sources and used them to rejuvenate human skin. The researchers collected stem cells from fat tissue (adipose), bone marrow, and umbilical cord samples. Umbilical cord tissue is tissue that is normally discarded after childbirth as medical waste. In the laboratory, the scientists then cleaned and purified each of these types of mesenchymal stem cells.
In laboratory studies, the researchers found that mesenchymal stem cells produced substantial amounts of skin rejuvenating factors including collagen type I, collagen type IV, fibronectin, and elastin. Interestingly, they found that umbilical cord mesenchymal stem cells produced a 100-fold greater amount of GDF-11 than adipose or bone marrow stem cells. This is important because GDF-11 is a cytokine that stimulates the production of collagen and elastin. GDF-11 also attracts human dermal fibroblasts (i.e. healthy skin cells) that then, in turn, produce their own collagen and elastin. These substances make skin healthy, elastic, vibrant, plump, and full.
Given the remarkable amounts of GDF-11 that umbilical cord-derived stem cells produced, the researchers decided to conduct a clinical trial to test the effect of these cells on aging skin. The scientists created a cream that contained the substances produced by the stem cells, including exosomes and beneficial proteins. The women who volunteered for the study applied the cream to their faces once per day. Within 2 to 4 weeks, the women had increased skin density (i.e. thickness/fullness) and substantially reduced wrinkles, especially around the eyes. Moreover, treatment with the stem cell-derived cream did not cause irritation, stinging, or any other adverse reaction.
This clinical study will need to be repeated in larger numbers of volunteers; however, the results are quite remarkable. Researchers were able to collect stem cells from umbilical cord tissue and prepare a cosmetic that reversed some of the signs of facial aging. Conveniently, this treatment did not require injections but could be applied topically. If future research confirms this work, treatment with a cosmetic/cosmeceutical made from umbilical cord stem cells could be a painless way to achieve facial skin rejuvenation.
Reference: Kim, YJ. (2018). Conditioned media from human umbilical cord blood-derived mesenchymal stem cells stimulate rejuvenation function in human skin. Biochemistry and Biophysics Reports. 2018 Oct 25;16:96-102.
by admin | Sep 27, 2019 | Alzheimer’s Disease, Health Awareness
When it comes to chronic conditions like Alzheimer’s disease, experts are consistently exploring new research which could shed light on causative factors. The disease, as with many other serious illnesses, is believed to be caused by a combination of genetic, lifestyle, and environmental factors that impact the brain over time. Yet, researchers have recently discovered new findings involving gum bacteria and its potential role in Alzheimer’s, among other conditions. Neurodegenerative disease experts are debating one question: Could Alzheimer’s be linked to gum bacteria?
The Brain-Mouth Connection
According to an article published in Experimental Biology, bacteria involved in gum disease is suspected to have the ability to travel throughout the body. The bacterium, Porphyromonas gingivalis, is the key agent behind periodontitis and is believed to exude toxins connected to Alzheimer’s disease, rheumatoid arthritis, and aspiration pneumonia. Samples of these bacteria were found in the brains of individuals with Alzheimer’s, and researchers used animal studies to demonstrate how the bacterium can make its way from the mouth to the brain.
The bacteria were more common in the brain samples of Alzheimer’s patients compared to people without the disease of roughly the same age. Its key toxins, called gingipains, were present in these individuals. Based on animal studies, it appears that the migration of the bacteria from the mouth to the brain can be stopped with chemicals that interact with gingipains.
The Critical Importance of Oral Care
Dentists have long urged patients to take caution against periodontitis, the most serious form of gum disease. Left unaddressed, it can lead to tooth loss and can damage the soft tissue and bone that support the teeth. Yet, experts now believe that it can also have body-wide effects. Previous research has suggested that it the bacteria that causes the disease could travel through the bloodstream and cause other conditions, such as coronary artery disease or stroke. These newest findings suggest that proper dental care is especially important for individuals with genetic risk factors for Alzheimer’s disease or Rheumatoid Arthritis.
While gum disease is common, it’s often preventable. Although genetic factors may play a role in a person’s likelihood for developing periodontitis, there are many controllable factors which can also be addressed. Avoiding or quitting smoking, brushing and flossing regularly, and having dental cleanings at least once per year are some of the most effective strategies for avoiding gum disease and its potential complications.
Contact us at Stemedix to learn more about this and other promising studies!
by admin | Sep 26, 2019 | Stem Cell Therapy
Reflex sympathetic dystrophy (RSD), now also known as Complex Regional Pain Syndrome (CRPS), is a condition that is thought to arise for a combination of reasons, but its etiology is not clear. People with the disorder experience changes to their skin, swelling, and bone loss. One hallmark of the condition is the experience of nonspecific pain that is sensitive to weather. Unfortunately, managing RSD is often difficult. Patients with RSD/CRPS may have a hard time walking because of pain and may need assistive devices.
Clinical management of RSD/CRPS often involves things like pharmaceutical medications and restorative therapies, but these strategies are limited in their effectiveness. As a result, most patients with RSD experience chronic pain and a lower quality of life than those without the disorder. A case report has described the innovative use of stem cells to treat a patient with Stage 3 RSD. The rationale for using stem cells against RSD is that stem cells have provided regenerative benefits in a variety of other disorders and are capable of promoting the generation of blood vessels, which can support healing.
The patient, who was a female Registered Nurse, had been experiencing pain in her left lower extremity after an operation aimed at fixing a complex fracture. Following the surgery, the patient had been suffering from nonspecific pain and was diagnosed with a form of RSD/CRPS. She subsequently underwent months of aggressive therapy, but the therapy failed in helping her to walk. Instead, she was left unable to bear weight on her left leg.
Given that the patient’s problems persistent despite conventional treatment options, the patient was given stem cell therapy. Specifically, cells were harvested from the bone marrow and grafted to the calf in the hopes that blood flow would be enhanced, and the symptoms would be eliminated. According to the author of the report, the results of this stem cell therapy were excellent.
After just 2 weeks, skin symptoms were already going away, as was the patient’s pain. Critically, the patient was also able to put some weight on her left leg. By 30 days post-procedure, she was able to rid herself of assistive walking devices. These results demonstrate the promise of stem cells to help with complex and difficult-to-manage medical conditions like RSD/CRPS. Further research will help to determine the best way that stem cells may be used to treat other RSD patients.
Reference: Schwartz, R.G. Stem cells for the treatment of complex regional pain syndrome (CRPS)/ reflex sympathetic dystrophy (RSD): A case study Pan American Journal of Medical Terminology, 1(2), 89-92.
by admin | Sep 24, 2019 | Adipose, Stem Cell Research, Stem Cell Therapy
Crohn’s disease is a chronic illness that can affect any part of the gastrointestinal tract but mostly affects the small and large intestines. People with Crohn’s disease often have inflammation of the large bowel (Crohn’s disease is an inflammatory bowel disease or IBD). This colitis causes abdominal pain, cramping, diarrhea, along with bleeding and infections in the gastrointestinal tract. Crohn’s disease can interfere with a person’s ability to absorb nutrients, leading to malnutrition and weight loss. The medical community is debating whether it is possible to treat experimental colitis with fat-derived stem cells.
The standard medical treatment for Crohn’s disease involves one or more powerful drugs. When the disease flares up, patients usually must take steroids either orally or intravenously. They may also receive disease-modifying therapy such as immunomodulators and biologic medications. Many patients do enjoy remission once they receive these powerful drugs; however, side effects can be difficult to tolerate. Patients who cannot tolerate these powerful drugs or do not achieve disease remission may have to take steroids every day. Chronic steroid use has many severe and sometimes permanent side effects. If these treatments fail, patients may need to have surgery to remove a portion of their intestines that have been damaged by Crohn’s disease.
In an effort to find safe and effective treatments for Crohn’s disease, researchers have been testing stem cells in laboratory animals. In one study, scientists used a chemical to cause colon inflammation (colitis) in mice. This chemical causes many of the symptoms of humans with Crohn’s disease experience such as diarrhea, tissue damage, and weight loss. The researchers then treated some of the mice with mesenchymal stem cells gathered from human fat tissue (adipose) to see if stem cells could improve the symptoms.
Remarkably, human stem cell treatment reduced diarrhea, inflammation, and disease severity in mice with colitis. The chemical colitis caused mice to lose approximately 15 to 20% of their body weight. Mice that received stem cell treatment regained most of the weight they had lost. Researchers also noted that mice treated with adipose-derived mesenchymal stem cells lived significantly longer than those that did not receive stem cell treatment.
Of course, this research was performed in laboratory animals, but it lays important groundwork for testing in humans. Indeed, since the publication of this report, researchers have been able to show that adipose-derived stem cells helped patients with Crohn’s disease. This exciting work will no doubt lead to future studies that may help pave the way to wider use of stem cells in the treatment of inflammatory bowel disease, such as Crohn’s disease.
Reference: Gonzalez, M. (2009). Adipose-Derived Mesenchymal Stem Cells Alleviate Experimental Colitis by Inhibiting Inflammatory and Autoimmune Responses. Gastroenterology. Volume 136, Issue 3, March 2009, Pages 978-989
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