by admin | Oct 23, 2019 | Age Management, Stem Cell Research, Stem Cell Therapy
Autologous stem cell treatments offer several advantages over other forms of stem cell treatment. In autologous stem cell treatment, a patient’s own stem cells are retrieved, processed, and injected back into the patient’s body. There is no need for a stem cell donor, and the entire procedure can take place in the same medical office. Since the patient’s own cells are used for an autologous stem cell treatment, there is no risk of disease transmission from a donor (because there is no donor) and no risk of rejection (because they are the patient’s own stem cells).
Unfortunately, younger stem cells are better for regenerative medicine than older stem cells are. Moreover, older people have fewer stem cells that can be harvested than they did when they were younger. So while autologous stem cell treatment is still advantageous, it becomes more difficult to achieve as patients get older because their stem cells are fewer and less potent. Making matters worse, older stem cells compete against more youthful stem cells, making autologous stem cell treatments potentially even less effective in older patients.
Fortunately, stem cell researchers are coming up with ways to make the most out of the stem cells that older patients still have. They still take a sample of tissue, such as fat, and harvest the stem cells contained within it. However, instead of injecting all stem cells from the sample (both older and youthful stem cells), researchers select and use only youthful stem cells. Furthermore, they make the treatments even more effective by injecting other substances (e.g. extracellular matrix) that helps youthful stem cells survive, grow, and thrive.
To demonstrate the effectiveness of their approach, researchers collected mesenchymal stem cells from about a dozen older individuals aged 65 to 86 years old. They then assorted the stem cells into different groups, separating youthful from older stem cells. They then used special factors to help the youthful stem cells grow, increasing the numbers by an impressive 17,000 times. So while only 8% of stem cells produced by older individuals are “youthful,” this laboratory process increased those numbers to a point that they can be used for stem cell treatments—even stored for future use!
The next phase of the research will be to inject these youthful stem cells into older patients and assess their effectiveness. However, even these preliminary results are exciting, because they suggest that people of all ages can potentially benefit from autologous stem cell treatments, not just middle age and younger individuals.
Reference: Block, TJ et al. (2017). Restoring the quantity and quality of elderly human mesenchymal stem cells for autologous cell-based therapies. Stem Cell Research and Therapy. 2017 Oct 27;8(1):239.
by admin | Oct 21, 2019 | Health Awareness, Parkinson's Disease
Parkinson’s disease (PD) is a progressive nervous system condition which is diagnosed in more than 50,000 Americans each year. The disease affects movement and occurs when nerve cells in the brain don’t produce enough of the brain chemical dopamine.
Patients with Parkinson’s disease experience the death of neurons involved with the movement, which may lead to symptoms such as tremors, mobility challenges, slow movement, muscle rigidity, and speech changes. Cell death may be partially caused by a mutation for the protein α-synuclein (αS). While the mutated protein tends to cluster in neurons, ultimately causing their death, the normal protein resists clumping.
Researchers are now investigating whether estrogen could help to protect these movement neurons against clumping in people with PD.
Parkinson’s disease is most commonly seen in men and postmenopausal women, both of whom have low estrogen levels. While researchers still aren’t sure precisely how estrogen may act as a protective agent to safeguard movement neurons, studies have shown that brain-selective estrogen improved PD symptoms in mice. In the studies, the mice treated with estrogen therapy showed a higher rate of surviving neurons, as well as benefits in motor performance. It’s therefore suspected that estrogen treatment could be an effective therapy for delaying and reducing symptoms.
The exact causes of Parkinson’s disease are still being researched. While the condition can be genetic, most cases do not appear to run in families. As with many conditions, experts believe that environmental factors, including exposure to chemicals, could contribute to the disease. While there is still further research to be done both on the disease in general and the potential benefits of estrogen therapy, these most recent findings suggest that estrogen could hold promise as an emerging treatment for men and menopausal women with Parkinson’s disease.
by admin | Oct 18, 2019 | Adipose, Erectile Dysfunction, Stem Cell Research, Stem Cell Therapy
Prostate cancer is quite common among men in the United States. The main treatment options for prostate cancer include:
- External beam radiation – Radiation is applied to the prostate gland through the skin (noninvasive)
- Brachytherapy – Radioactive pellets the size of grains of rice are placed within the prostate gland (invasive)
- Radical prostatectomy – The entire prostate gland and some surrounding tissue is removed
About one-quarter of all men with prostate cancer ultimately choose to have a radical prostatectomy. Unfortunately, this procedure often leaves men with chronic problems afterward, such as urinary incontinence (i.e., the inability to hold or control urine) and erectile dysfunction (i.e., the inability to achieve and maintain a penile erection suitable for sexual intercourse). Almost 90% of men who undergo radical prostatectomy to treat prostate cancer develop erectile dysfunction. Drugs and penile injections are not always effective in treating this type of erectile dysfunction. Consequently, as many as three-quarters of men must live with permanent erectile dysfunction. While prostate cancer is essentially cured after radical prostatectomy, affected men have substantially worse quality of life, which also negatively affects their sexual partners.
In an effort to combat this difficult problem, researchers conducted a Phase 1 clinical trial in which they took stem cells from the patient’s own fat tissue (autologous stem cells), purified them, and injected them into the penile tissue of radical prostatectomy patients with erectile dysfunction. Eight of the 17 men who volunteered for the clinical trial regained erectile function and were able to engage in sexual intercourse after just one stem cell injection.
Importantly, stem cell treatment was only effective for men who had not developed urinary incontinence. Eight of 11 men who still could control their urine after radical prostatectomy regained their ability to achieve and maintain erections. Conversely, no man with urinary incontinence after radical prostatectomy had erectile function restored.
The researchers noted that the stem cell treatment was very well tolerated by all men, and described the procedure as safe.
While larger clinical trials are needed to confirm these results, autologous stem cells taken from a patient’s own fat tissue were able to restore erectile function in most of the men treated. This research suggests that men who do not lose urinary function may benefit from this procedure. On the other hand, men who become incontinent after radical prostatectomy may not benefit from this particular stem cell therapy. Randomized, placebo-controlled clinical trials will help clarify this issue. In the meantime, these results are encouraging news to thousands of men who suffer from permanent erectile dysfunction as a result of their radical prostatectomies.
Reference: Haahr, MK et al. (2016). Safety and Potential Effect of a Single Intracavernous Injection of Autologous Adipose-Derived Regenerative Cells in Patients with Erectile Dysfunction Following Radical Prostatectomy: An Open-Label Phase I Clinical Trial. EBioMedicine. 2016 Jan 19;5:204-10.
by admin | Oct 17, 2019 | Aesthetics, Hair Regrowth, Stem Cell Therapy
Androgenetic alopecia is the medical term for pattern baldness. Pattern baldness can manifest in several ways such as a receding hairline, a bald spot in the crown of the head, and/or generalized thinning hair. Pattern baldness is the most common form of hair loss. Approximately 4 out of 5 men will experience some degree of androgenetic alopecia by the time they reach age 70. Androgenetic alopecia affects a substantial number of women as well. Pattern baldness is not lethal, but it can create substantial amounts of psychological suffering and greatly diminishes the quality of life for both men and women.
The two first-line treatments for androgenetic alopecia in men are finasteride or minoxidil. Finasteride is an oral medication, while minoxidil is topical, i.e. it is placed on this directly on the scalp. These baldness treatments are modestly effective in a certain percentage of men. Patients may also be treated with dutasteride, light therapy, platelet-rich therapy, or surgery. Minoxidil is the main form of treatment for women with androgenetic alopecia. If minoxidil fails to help regrow hair or stop the balding process, women may alternate treatments including spironolactone, finasteride, cyproterone acetate, or flutamide. As with male pattern baldness, female pattern baldness is somewhat resistant to treatment, leaving most women to cover their baldness with wigs or concealers.
One important observation about androgenetic alopecia is that while the number of hair follicle stem cells remains the same in people who are balding, the number of more actively proliferating progenitor cells drops dramatically. In other words, it is theoretically possible to treat androgenetic alopecia with hair follicle stem cells that contain actively proliferating progenitor cells.
Indeed, researchers recently tested this hypothesis in a group of 11 patients with androgenetic alopecia. The researchers collected a bit of tissue from each patient and then purified the sample to collect hair follicle stem cells with actively proliferating progenitor cells. The doctors then injected those stem cells into balding areas on the patients’ scalps. For comparison, some were treated with a placebo injection, i.e. saltwater.
Patients treated with hair follicle stem cells enjoyed a 29% increase in hair density over the treated area. by contrast. Patients treated with placebo had less than a 1% increase in her density over the same time period. The researchers also noticed that they were substantially more stem cells in and around hair follicles in balding areas.
The authors of this research concluded that isolated cells are capable of improving hair density in patients with androgenetic alopecia. While additional, larger studies are needed to confirm these results, the current study provides strong evidence that bald and balding patients may benefit from autologous stem cell treatment.
Reference: Gentile P. et al. (2017). Stem cells from human hair follicles: first mechanical isolation for immediate autologous clinical use in androgenetic alopecia and hair loss. Stem Cell Investigation. 2017 Jun 27;4:58.
by admin | Oct 15, 2019 | Health Awareness, Parkinson's Disease
For some time now, gut health has been suspected to play a key role in chronic conditions. We now know that there is significant interaction between the body’s immune system and bacteria in the intestinal tract, and researchers have become increasingly interested in how the immune system ties into conditions such as Parkinson’s disease (PD). But how do these factors all connect?
The Potential Role of Gut Infections in Parkinson’s Disease
Emerging research suggests Parkinson’s disease could have an autoimmune component. Autoimmune conditions occur when the body’s immune system confuses healthy cells for pathogens and sets out to destroy them. A small percentage of PD cases are caused by mutations in genes that code for the proteins PINK1 and Parkin, which help clear out damaged mitochondria. Individuals with these mutations are more likely to develop PD before the age of 50.
Yet, when scientists removed PINK1 and Parkin from mice in a recent study, thereby giving them the same mutations linked to Parkinson’s disease in humans, they did not develop the disease. The research team theorized that factors other than these genetic mutations alone would likely be required for PD to develop. In particular, they believed exposure to specific germs could trigger Parkinson’s disease in individuals with this mutation.
To test this theory, the mice were exposed to E. coli. As the researchers suspected, they experienced PD-like symptoms later in life, along with a loss of dopaminergic neurons in the brain. This suggests that in individuals with certain genetic mutations, gut infections can trigger an immune system response which targets healthy cells.
What the Findings Mean
This research has also led scientists to the conclusion that in people without functioning PINK1 and Parkin, intestinal infections can trigger PD, thereby demonstrating a clear gut-brain connection in the disease. While this doesn’t suggest that all PD cases are autoimmune, it does pose the theory that there could be an immune system element in some cases. Although the mystery surrounding Parkinson’s disease still remains, this discovery points to an interplay between the gut, genetics, and brain, which may ultimately pave the way for further developments in the realm of treatment.
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