Category Archives: Nevada Stem Cells

Dont count on seeing Cody Garbrandt in action this summer.

No Love was going to defend his Ultimate Fighting Championship (UFC) bantamweight title against T.J. Dillashaw this Saturday night (July 8). It was set to headline UFC 213 in Las Vegas, Nevada.

Garbrandts back issues couldnt heal in time to make the bout happen at this time. Many have wondered when No Love will be cleared. Garbrandt told the FOX Sports crew on TUF Talk that November is probably the earliest month he can return (via MMA Weekly):

I would say earliest is November. Give my back enough time [to heal]. I did two procedures, one here in the States that they told me I was going to be fine after the stem cells. I went back to training, I lasted for three days and I was in the worst pain. I couldnt even walk. Then they flew me over to Germany and that took the pain, the sciatic [nerve] down away, but Im still not able to do any of my life, full fighting. So Im just making sure my back holds up so I dont jump into a fight and have to pull out. Its not something I want to have to do. So hopefully November Ill be ready to go.

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Cody Garbrandt Likely Won't Return Until at Least November - MMA News

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If you have pain, we're here to help. Regenexx Procedures are patented stem cell and blood platelet procedures that are used to treat a wide range of joint and spine conditions.

Click a problem area to discover what Regenexx can do for you.

The Regenexx family of non-surgical stem-cell & blood platelet procedures are next generation regenerative injection treatments for those who are suffering from shoulder pain due to arthritis, rotator cuff and shoulder labrum tears, overuse injuries, and other degenerative conditions. Regenexx is also a viable alternative for those considering shoulder replacement surgery.

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Regenexx Procedures are advanced stem cell and blood platelet procedures for foot and ankle conditions. Before you consider ankle surgery, fusion or replacement, consider the worlds leading stem cell and prp injection treatments.

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The Regenexx family of non-surgical stem-cell & blood platelet procedures are next generation regenerative injection treatments for those who are suffering from pain or reduced range of motion due to basal joint / cmc arthritis, hand arthritis, or other injuries & conditions in the hand.

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The Regenexx family of non-surgical stem cell and blood platelet procedures offer next-generation injection treatments for those who are suffering from knee pain or may be facing knee surgery or knee replacement due to common injuries, arthritis, overuse and other conditions.

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The Regenexx family of non-surgical stem-cell & blood platelet procedures are next generation regenerative injection treatments for those who are suffering from pain, inflammation or reduced range of motion due tocommon elbow injuries, arthritis and overuse conditions.

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The Regenexx family of hip surgery alternatives are breakthrough, non-surgical stem-cell treatments for people suffering from hip pain due to common injuries, hip arthritis & other degenerative problems related to the hip joint.

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Regenexx has many non-surgical platelet and stem cell based procedures developed to help patients avoid spine surgery and high dose epidural steroid side effects. These procedures utilize the patients own natural growth factors or stem cells to treat bulging or herniated discs, degenerative conditions in the spine, and other back and neck conditions that cause pain.

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Regenexx has many non-surgical platelet and stem cell based procedures developed to help patients avoid spine surgery and high dose epidural steroid side effects. These procedures utilize the patients own natural growth factors or stem cells to treat bulging or herniated discs, degenerative conditions in the spine, and other back and neck conditions that cause pain.

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Regenexx Las Vegas | Nevada's Regenexx Provider

Laurence McClish MD

Laurence McClish MD is a board-certified orthopedic surgeon and long-standing member of the American Academy of Orthopedic Surgeons. While practicing orthopedic surgery in the Reno area Dr. McClish also became board-certified in anti-aging medicine through the American Academy of Anti-Aging Medicine (A4M) in 2004. Dr. McClish retired from full- time orthopedic surgery in Reno in 2010 to pursue further studies in age management medicine.

Since 2010, Dr. McClish completed a Masters Degree in Metabolic and Nutritional Medicine through the University of South Florida Medical School, and received advanced fellowship training in Anti-Aging, Regenerative and Functional Medicine from A4M. Also, since 2010 he has pursued advanced studies in Stem Cell Therapy. He returned to practice part-time orthopedic surgery at William Bee Ririe Hospital in Ely, Nevada in late 2010, and he continues to practice routine orthopedics there today.

Dr. McClish practices stem cell medicine in Reno, Nevada. His main focus is in transferring a patients own stem cells into that same patients arthritic joint(s). While no statements can be made regarding the curing of arthritis, many patients report significant lessening of symptoms. Dr. McClish will be happy to share his results with you, while at the same time maintaining patient confidentiality.

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Andrew C. Wesely MD

Dr. Andrew Wesely finished his primary training in Anesthesiology and Pain Management at the University of Alabama in Birmingham in 1993. He is Board Certified by the American Board of Anesthesiology with a Certificate of Added Qualification in Pain Management.

He has been practicing pain management in Reno since 1994, focusing primarily on nonoperative care for spinal pain and musculoskeletal disorders. Past and present professional affiliations include American society of Interventional Pain Physicians, Spine Intervention Society, American Society of Anesthesiologists, and the North American Neuromodulation Society.

Dr. Wesely has undergone specialized training in Regenerative Medicine including both BMAC and Lipoaspiration MSC harvesting techniques and laboratory methods, preparation and administration of PRP, Prolotherapy, Neural Prolotherapy, and the full spectrum of spinal and joint injections. He currently holds working appointments at several medical and surgical practices in the Reno area, and has clinical privileges at all major area hospital systems and ambulatory surgical centers.

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Dr. Vincent C. Lombardi, phD

Dr. Vincent C. Lombardi, phD, currently serves as the Chief Scientific Officer for Sierra Stem Cell Institute. He also functions as the Director of Research at the Whittemore Peterson Institute for Neuro-Immune Disease, and has appointments within the University of Nevada School of Medicine, in Reno, Nevada. He brings an extensive research background in virology, microbiology, molecular biology, protein chemistry, and clinical diagnostics. He is the author or numerous scientific publications and has research experience in Fibromyalgia and Chronic Fatigue Syndrome.

The ability to apply current scientific findings into new diagnostic tools, procedures, and treatments for patients is known as Translational Medicine. Currently, a major push within the NIH is to leverage new technology and data analysis, along with collaboration between researchers and clinicians, to increase the speed at which new treatments reach patients. Dr. Lombardi serves Sierra Stem Cell Institute as the critical link between the basic science of stem cell biology, and their clinical application in patient care.

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Our Team - Stem Cell Therapy in Reno NV

Stem cell therapy is the process of isolating adult stem cells from abdominal fat and reintroducing them into the body wherever they can do the most good. The process begins with extracting a few ounces of fat from the patient in a mini liposuction procedure. After the fat is removed, the stem cells are isolated using a state-of-the-art centrifuge. Once isolated, the stem cells are are then reintroduced to the body by IV and/or targeted injections for more localized treatments. Local treatments can help with knee, shoulder, and other joint pain. Stem cells can also be applied to the face, neck, and scalp using a micro-needle system to give you a healthy and youthful look. All treatments are outpatient procedures, conducted in a sterile environment at ouroffice, utilizing state-of-the-art equipment. The process is safe and relatively painless with minimal downtime.

Stem cells are the bodys raw materials or natural building block-cells from which all other cells with specialized functions are generated.

Stem cells can maintain and repair tissues. Stem cells are unique in that they have the potential to develop into many different types of cells. Stem cells can seek out areas that need repair or restoration. Our bodys natural healing process isreasonablyefficient, but modern science can now accelerate your regenerative process.

There are primarily two types of stem cells used for treatments: embryonic and adult stem cells.

Embryonic stem cells are derived from embryos. Adult stem cells can be derived from a patients own body. Adult stem cells exist throughout the body, however the most abundant, and themost accessible source is your own adipose fat.

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Dynamic Stem Cell Therapy | Stem Cell Therapy Nevada

AtSierra Stem Cell Institute in Reno, NV we are driven by a passion to help those suffering from chronic, painful, musculoskeletal conditions. We employ Stem Cell and Platelet Rich Plasmainjections to help patients avoid surgery and heal in a more natural manner. We have treated patients from all over the country, but typically serve the Northern Nevada and Northern California region.

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Injections tailored to the orthopedic and spine problem. Learn More

Injections for various orthopedic joint problems, including spine problems. Learn More

Another powerful way of acquiring stem cells for injection therapy. Learn More

Knee arthritis Shoulder arthritis Ankle arthritis Rotator Cuff tendonitis and injuries Some knee injuries and sprains Ankle arthritis, sprains and injuries Facet arthritis of the spine Disc injuries of the spine SacroIliac arthritis, sprains and injuries

Decades of clinical experience showed us that a large group of patients are left struggling with pain and limited function, but their condition is not yet severe enough to warrant major surgery. Many patients do not obtain a satisfactory result with pain medications, chiropractic care, acupuncture, physical therapy, steroid injections, and other conservative treatments. In some cases, the outcomes for surgery are not consistently good. The emergence of biological therapies has opened up a wide variety of treatment options which can help patients avoid surgery, diminish pain, and restore function.

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Stem Cell Therapy Reno NV - Sierra Stem Cell Institute

University of Nevada, Las Vegas

16-4-2011 2:00 PM

16-4-2011 3:30 PM

Embryonic stem cell research has the potential to regenerate malfunctioning tissues and replace harmful cancer cells. Although it holds the potential to alleviate malicious disabilities and diseases, it raises ethical concerns due to the destruction of a fertilized human embryo. In certain religions (Catholics and Christians), embryonic stem cell research is detested due to the destruction of a human at its early stages of life (embryo). On the other hand, scientists believe that embryonic stem cells can somedayused to treat human diseases. (Hansen 879) This analysis on embryonic stem cell research will consider both the supporting and opposing side of the controversy. We will include non-bias point of views by presenting both sides of the argument. Our goal is to inform our audience of the problem by providing sources with information from both sides that allow our audience to understand the ethical controversy that surrounds embryonic stem cell research.

Embryonic stem cellsResearch Moral and ethical aspects; Embryonic stem cellsResearchReligious aspects

Bioethics and Medical Ethics | Ethics and Political Philosophy | Health Policy | Philosophy of Science | Religious Thought, Theology and Philosophy of Religion | Science and Technology Policy | Social Welfare

Since August 02, 2011

Embryonic stem cell research

University of Nevada, Las Vegas

Embryonic stem cell research has the potential to regenerate malfunctioning tissues and replace harmful cancer cells. Although it holds the potential to alleviate malicious disabilities and diseases, it raises ethical concerns due to the destruction of a fertilized human embryo. In certain religions (Catholics and Christians), embryonic stem cell research is detested due to the destruction of a human at its early stages of life (embryo). On the other hand, scientists believe that embryonic stem cells can somedayused to treat human diseases. (Hansen 879) This analysis on embryonic stem cell research will consider both the supporting and opposing side of the controversy. We will include non-bias point of views by presenting both sides of the argument. Our goal is to inform our audience of the problem by providing sources with information from both sides that allow our audience to understand the ethical controversy that surrounds embryonic stem cell research.

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Digital Scholarship@UNLV - University of Nevada, Las Vegas

What is Regenerative Medicine? Regenerative Medicine Explained by Las Vegas, Summerlin, and Henderson Nevadas Top Pain Doctors

Regenerative medicine is a rapidly evolving, advanced technology in the management of many acute and chronic pain conditions. Chronic pain is a common condition that can cause numerous detrimental impacts on an individuals ability to function on a day-to-day basis. Musculoskeletal pain, specifically, has historically been regarded as the number one cause of chronic disability in the United States. Further, chronic musculoskeletal pain has also been found to be the leading contributing factor to higher rates of physician appointments. Across both acute and chronic conditions, prevalence rates have estimated that approximately 100 million adults experience difficulties with regard to back pain every year. Regenerative medicine has not been approved to treat all cases of pain; however, depending on the individuals specific pain condition, regenerative medicine may be considered as an appropriate and effective treatment.

Drawing from research in the areas of biology, chemistry, computer science, engineering, genetics, medicine, and robotics, regenerative medicine involves the construction of biological substitutes for many of the tissues found in the body. The general idea behind regenerative medicine, or tissue engineering, is drawing from the work of science and technology so that researchers are able develop biological substitutes, which will act to restore, maintain, and improve the functioning of damaged or lost tissue.

Regenerative medicine is a relatively new procedure, though its origins date back as early as 1962, when the first synthetic skin substitute was used. While there are many misconceptions maintained regarding regenerative medicine, advances in technology have allowed for the development of new procedures for treating many common orthopedic conditions, which do not require an operation. In fact, many of the regenerative medicine interventions are minimally invasive. The common orthopedic conditions that have been successfully treated through the use of regenerative medicine procedures include arthritis, as well as injuries to the bodys cartilage, spinal discs, bone, tendons, ligaments, muscle, or other bodily tissue.

Regenerative medicine is believed to have originally emerged from a number of scientific and technological advances that span a diverse spectrum of fields. Also known as tissue engineering, regenerative medicine utilizes existing living tissue cells and biocompatible materials, along with both biochemical (such as growth factors found in the body) and physical factors to generate tissue-like constructs that may be used to repair tissue that has been damaged as the result of an injury or to replace an organ failing as the result of normal aging.

Tissue-based procedures related to regenerative medicine originated from early techniques in skin grafting. Originally developed in 1962, the first successful tissue-engineered procedures were performed in the 1970s. Beginning by harvesting a skin biopsy, Howard Green and his colleagues at Harvard Medical School perfected techniques in growing skin epidermis. This technology has also historically been applied clinically to help individuals with other conditions. Since the 1960s, regenerative therapy has drawn from stem cell technology to provide bone marrow transplants to help individuals suffering from leukemia.

For a number of years, scientists have been interested in stem cells because of their regenerative properties, as well as their ability to develop into any type of tissue that is found within the body. It is for these reasons that stem cells contain the potential for what is believed to be limitless clinical applications in the health care field. In fact, stem cell research is advancing the treatment options available as well as improving treatment outcome rates for diseases, such as Parkinsons disease, Type I diabetes, heart disease, Duchenes muscular dystrophy, Alzheimers disease, stroke, osteoarthritis, rheumatoid arthritis, and vision and hearing loss. This technology has also been utilized in the treatment of injuries, such as spinal cord injuries and severe burns. There are many scientists and researchers who firmly maintain the hope that in the future stem cell technology will lead to the possibility of repairing and replacing damaged or diseased tissue.

Indeed, the first tissue to be bioengineered was the skin. Following this, scientists were also able to successfully bioengineer cartilage. Both of these products, which were produced through tissue engineering, are available commercially to health care providers today. While these products arose on the market quickly and inspired enthusiasm for the possibility of generating all of the types of tissue that make up the human body through the use of tissue engineering, there are a number of problems that have prevented this progress. For example, both skin tissue and cartilage tissue do not require extensive vascularization, as other types of tissue do. This means that the generating process to engineer the tissue of both skin and cartilage can be completed using more simplified techniques, such as merely combining cells together.

Driven particularly by the discoveries of the bodys own ability to organize itself and regenerate tissue following cell death or loss, the primary goal of regenerative medicine, or tissue engineering, for pain, is to generate new tissue to replace tissue that has been injured, diseased, or is degenerating owing to advancing age.

Given that regenerative medicine involves the use of living cells, however, there are a number of ethical and legal issues surrounding the use of platelet-rich plasma and particularly that of embryonic stem cells. Of utmost importance in regenerative medicine is mimicking the environment from which the stem cells were drawn. While the FDA does not currently maintain any approval requirements with regard to adult stem cells, stem cell therapy does not currently have FDA approval. Moreover, physicians frequently go off label, when prescribing patients a form of treatment. This essentially means that the physician believes another type of drug, which has not undergone any clinical trials for that specific diagnosis, would greatly benefit the patient.

Of utmost importance in regenerative medicine is mimicking the environment from which the stem cells were drawn. This will allow the engineered cells to function as if they are still in their native tissue. In terms of musculoskeletal chronic pain, there are generally three types of regenerative medicine. These include the following.

One type of regenerative medicine is stem cell therapy. This procedure is believed to be ideal for patients experiencing low back or neck pain owing to a degeneration of the vertebral discs or joint pain owing to osteoarthritis, such as that in the knees, hips, or shoulders. Through cell division, stem cells are naturally able to renew themselves and to differentiate, or specialize, into a wide range of different types of tissue found within the body. As such, stem cells can also be found at many sites within the body, including human embryos, skin cells, bone marrow, peripheral blood, placental blood, placental tissue, and adipose tissue. There are two general types of stem cells found within the body, which include embryonic stem cells and adult stem cells.

Beginning in the 1960s, stem cell technology was used to effectively treat individuals needing bone marrow transplants, such as individuals suffering from leukemia. Currently, stem cell technology is regarded as an interventional procedure for the treatment of a number of chronic pain conditions. Generally, this procedure involves extracting the patients own stem cells and other supporting cells from one of the known sites for stem cells. This material is then purified, concentrated, and injected into the damaged tissue. It is important that this concentration is not altered in any way.

The procedure for stem cell therapy is generally non-surgical and there is very little recovery time. Thus, stem cell therapy can potentially help patients avoid surgery and the potential side effects that are associated with it. Most patients report some soreness at the site of the stem cell injection, which may or may not be accompanied by bruising. There have been no reports of serious side effects following stem cell therapy.

Another type of regenerative medicine for the treatment of chronic pain is amniotic membrane therapy. The human amniotic membrane is comprised of several unique properties that make it ideal for use in regenerative medicine. The amniotic membrane is composed of two types of cells: epithelial cells and stromal cells. Both the epithelial cells and the stromal cells exhibit characteristics that are similar to stem cells in that they are able to differentiate in vivo. Previous literature examining animal models on the use of amniotic membrane following a minimally invasive surgical procedure called a laminectomy has shown the amniotic membranes effectiveness in reducing epidural fibrosis and scar adhesion. Studies examining the use of the amniotic membrane in human models provide some evidence for its effectiveness. In particular, amniotic membrane use has been supported as an efficacious treatment for general tissue damage, such as tendonitis.

Similar to that of stem cells, the procedure for using amniotic membrane as an interventional therapy for the treatment of chronic pain conditions is generally non-surgical and there is very little recovery time. Thus, amniotic membrane procedures can provide the benefit of not undergoing surgery. This allows many patients to avoid going on disability or be subjected to the other side effects that can often occur following major surgery. Amniotic membrane therapy involves injecting a concentrated compound of the patients own amniotic membrane to the site of the injury. Most patients report some soreness at the site of the injection, which may or may not be accompanied by bruising.

The concentrated compound used in the platelet-rich plasma technique is created from a sample of blood from the patient. This blood is centrifuged to separate the almost-clear fluid called the serum (which is found as the top layer), the platelets and white blood cells (found in the middle), and the red blood cells (found at the bottom). Estimates have suggested that the middle layer is comprised of a platelet concentration of around one million platelets/uL. A typical platelet concentration would fall somewhere between 150,000-350,000 platelets/uL. Further, this fluid also contains highly concentrated (up to three to five times greater) growth factor. This concentrated compound is then injected into the site of the injury, where the platelets synthesize and release other active proteins. These actions are believed to account for the regenerative effect that platelet-rich plasma therapy has on damaged tissue. More specifically, the synthesizing of platelets and the release of proteins enhances the recruitment, proliferation, and differentiation of cells, which are the underlying processes in generating new tissue at the cellular level. Most patients report only some soreness at the site of the injection following the procedure, which may or may not be accompanied by bruising.

Platelet-rich plasma therapy has received an extensive amount of attention within the literature. In fact, platelet-rich plasma therapy has been shown to have beneficial effects on the expression of genes and matrix synthesis within tendons. Furthermore, platelet-rich plasma therapy is linked with the proliferation of cells and increases in total collagen production. Results from studies examining the effectiveness of platelet-rich plasma treatment have provided support for its benefits in treating lateral epicondylitis, patellar tendinopathy, Achilles tendinopathy, rotator cuff tendinopathy, rotator cuff tears, medial collateral ligament and anterior cruciate ligament tears, and osteoarthritis. Platelet-rich plasma therapy is also used to treat other acute and chronic pain conditions including tendonosis, muscle strain, muscle fibrosis, arthritis, arthrofibrosis, articular cartilage defects, meniscal injury, and chronic synovitis or joint inflammation. Given that platelet-rich plasma therapy for chronic pain is non-surgical, there is very little recovery time and very few risks.

Patients who are interested in whether or not regenerative medicine is an appropriate treatment option for providing relief for their pain condition are encouraged to seek out a consultation with a physician that is an expert in the area of regenerative medicine. This consultation will likely include an in-depth medical evaluation regarding the individuals underlying condition, and the potential for using regenerative medicine to treat the condition. This consultation will also include guidance from the expert physician regarding the procedures involved in regenerative medicine and what to expect. Indeed, many individuals hold misconceptions regarding the use and application of regenerative stem cell therapy; therefore, the consultation appointment serves to provide the patient with education regarding the process and to address any of the patients questions or concerns.

There are a number of pain conditions, including musculoskeletal conditions that are expected to benefit from regenerative medicine. During the initial consult with an expert physician in the area of regenerative medicine, your doctor will give you a medical evaluation consisting of a brief yet detailed personal history. The goal of this is to ensure an accurate diagnosis of the source of the pain, in order to determine the most appropriate regenerative medicine procedure. Indeed, in some cases of chronic pain, the precise cause is not identified. In these instances, the physician will want to ensure that certain diagnoses are ruled out. Your physician will also generally assess for your degree of risk for persistent difficulties.

Chronic pain can arise from a number of sources and many cases of chronic pain can originate because of a degenerative process or pathology. Damage to muscles, joints, or ligaments that comprise the spinal region can also be the main source of both acute and chronic pain. In general, back and neck pain is characterized by sensations of pain and discomfort that arises in the back and may radiate out toward the limbs. The specific symptoms or sensations of pain are widely varied. Some patients will experience the pain as a highly specific sharp stab, while others will describe the pain as more generalized and widespread. Further, the symptoms of chronic pain are expected to fluctuate over time. For instance, often dependent on environmental circumstances, a patient may fluctuate in and out of recurring symptoms and exacerbations of pain.

While the specific symptom clusters generally depend on the underlying cause, some common complaints include:

Pain experienced within the body is thought to provide a strong indication that there is likely tissue damage or an underlying injury. In general, a number of treatments available for these common conditions merely help the patient cope with the debilitating pain, rather than addressing the underlying injury. New technology in the field of regenerative medicine has provided advancements in the types of treatments available for chronic pain. Indeed, these forms of treatment target the underlying problem, by promoting the body to heal itself through the use of stem cells.

Patients who suffer from the following list of conditions are potential candidates for regenerative medicine procedures.

Spondylolisthesis refers to the degenerative process of the individual bones of the spine, called the vertebrae. Most commonly caused by degenerative disc disease, spondylolisthesis is a condition that occurs when the vertebra becomes dislocated and slips over another. It is often referred to under nonspecific low back pain, because a large portion of patients with this anatomical deformity do not present with any related symptoms, including pain. During spondylolysis, the nerves around the weakened and slipped vertebrae can become compressed. Annual prevalence rates of within the general population estimate that approximately 12% of the population have had difficulties with regard to this condition.

Spinal stenosis is a common condition characterized by a restriction of the spinal canal, which is caused by a narrowing of the spinal column. The characteristic feature of spinal stenosis is neurogenic claudication, which is an inflammation of the nerves fanning out from the spinal cord. People with spinal stenosis often experience pain while walking. It is generally recommended that patients attempt more conservative forms of treatment prior to beginning regenerative medicine intervention.

These are genetically linked problems that relate to the curvature of the spine (e.g., scoliosis or kyphosis), and generally involve the entire spine. These difficulties are relatively uncommon. Recent prevalence rates are not available; however, early estimates suggest that spinal deformities occur in about 0.8% to 1.9% of the general population.

Degenerative disc disease is a condition related to the changes that occur within the intervertebral discs as people age. This aging of the intervertebral disc can cause tears, which is believed to be the source of the pain associated with degenerative disc disease. The pain associated with this particular disease can occur throughout the spine, however in some instances, the pain was reported to be localized to the affected intervertebral disc. Previous treatments for degenerative disc disease have generally been limited to physical therapy, over-the-counter or prescription pain medications, steroid injections, and spinal fusion surgery. New advances in technology have lead to the use of stem cell therapy for the treatment of degenerative disc disease. This involves extracting the patients own stem cells. This is typically done from the patients hip, as it is the ideal location for obtaining bone marrow. This marrow is then concentrated and injected into the site of the injury.

Herniated disc is a condition characterized by damaged intervertebral discs, causing them to bulge or break. The intervertebral discs within the spine column undergo a significant amount of daily stress. Over time, this stress is believed to cause the disc to rupture, bulge, or herniate. In other words, the material comprising the intervertebral disc expands, putting pressure on the spinal column as well as the surrounding nerves. This pressure from the bulging disc is believed to be the source of significant pain. Further, this condition is more commonly found among aging individuals. While physical therapy has shown some promise in terms of improving the condition of the herniated disc, it requires a significant portion of time. Other treatments include surgical procedures, which cut out and remove bulging or herniated disc material. This type of procedure involves a number of risks as the disc is significantly weaker following the surgery and removal of tissue, which is believed to place the individual at an increased risk for future difficulties. New techniques within the field of regenerative medicine include utilizing the patients stem cells and support cells (which includes platelets) to regenerate and rebuild the network of cells comprising the injured disc.

Plantar fasciitis is a common form of chronic pain within the heel and foot. The flat, thick connective tissue found on the bottom of the foot, which connects the ball of the foot to the heel is known at the plantar fascia. The plantar fascia creates support for the arch of the foot. When this connective tissue becomes strained, there is a risk for damage to occur in the form of tiny tears on the ligament itself. In general, treatments available for providing relief for the pain associated with plantar fascia only target the symptoms of pain. Thus, regenerative procedures are believed to be the ideal choice to treat the pain of plantar fascia, as they promote the bodys own process of healing damaged tissue. Indeed, several research studies have provided empirical support for the use of platelet rich plasma therapy as an effective therapy for plantar fascia.

The sacroiliac joint is large and located at the base of the spine, connecting the spine with the hip. In many instances of sacroiliac joint pain, the individual is able to identify the injury that occurred prior to the onset of pain. However, acute events do not account for all cases of sacroiliac joint pain. Presently, there are limited treatment options available for sacroiliac joint pain. Indeed, evidence in terms of the effectiveness of steroid injections, radiofrequency neurotomy, and pulsed radiofrequency for the treatment of pain related to this joint is generally poor. However, there is some evidence, albeit limited, that regenerative procedures are effective in providing the patient relief from pain. Further, some evidence exists that suggests that the benefits of prolotherapy last much longer than that of steroid injections.

Lumbar radiculopathy, which can also be known as sciatica, is believed to occur when a herniated disc (typically between the fifth lumbar (L5) and the first sacral spinal nerve (S1)) pushes against a nerve. This pain travels down the leg. The primary goal of therapy is to reduce the size of the bulging disc, thereby reducing the compressive effect the bulging disc had on the nerve root. While there are a number of treatments available for treating lumbar radiculopathy pain, should these treatments be ineffective in relieving patients from their pain, they may be an appropriate candidate for stem cell repair.

Cervical radioculopathy is a chronic pain condition that occurs when a disc in the neck is pushing against the cervical nerve causing pain to travel down the arms. This condition is commonly found among young adults either through a herniated disc or an injury. Older adults, however, struggling with these symptoms of neck pain, are expected to have osteophyte formation causing foraminal narrowing, decreased disc height, and degenerative changes in the intervertebral joints.

A small number of patients have back pain so severe and unremitting that they must have surgery in order to try and gain some relief. As a result of this surgery, some patients continue to suffer from ongoing symptoms of back pain. These cases are recognized as failed back surgery, as the goal of the original surgery was to provide the patient with relief from pain. In these cases, pain in the lower back is caused by scar tissue that develops around the spinal nerves of the epidural space following surgery. Other factors that likely explain pain that persists following back surgery include disc herniation, post-operative pressure that is persistently placed on the spinal nerve, and altered joint mobility. Individuals with a history of anxiety, depression, or difficulty falling asleep or staying asleep are considered to be at an increased risk for developing a chronic pain condition following back surgery. Symptoms of chronic pain that occurred as a result of failed back surgery primarily include diffuse, dull, and aching pain across the back and lower limbs. Additionally, some patients may experience sharp, pricking, or stabbing pain in the limbs. Provided that other treatments have failed at providing the individual with relief from pain, failed back surgery patients may be considered for treatment using regenerative medicine.

In general, the procedure takes approximately 30 minutes. The expert physician generally sees patients at a clinic and is able to complete the procedure without the use of general aesthesia. Further, by completing this procedure on an outpatient basis, there is no recovery period. In fact, individuals are able to return directly to work and their usual activities following the procedure.

Generally, regenerative medicine involves extracting the patients own stem cells and other supporting cells from one of the known sites for stem cells. This material is then purified, concentrated, and injected into the damaged tissue. It is important that this concentration is not altered in any way. Most individuals report very little discomfort from this procedure. Some minor soreness at the site of the injection may be reported. Further, patients may experience mild bruising.

Patients are expected to achieve a number of benefits through regenerative medicine, such as:

There are a number of treatments available to provide patients with relief from chronic pain. Following an accurate diagnosis by a physician specializing in pain conditions, it is generally recommended that patients who were referred for regenerative medicine first undergo an initial consultation with an expert pain specialist. While there is evidence that these treatments are beneficial to a wide variety of pain conditions, there are a number of individuals whose pain does not respond to treatment. For these individuals with intractable pain, more aggressive and long-term forms of treatment are available to combat their debilitating symptoms. Further, regenerative medicine is not approved for all pain conditions. Your doctor will help determine which treatment is right for you.

In terms of the procedure, regenerative medicine involves an extraction of the patients own stem cells and other supporting cells from one of the known sites for stem cells. This material is then purified, concentrated, and injected into the damaged tissue. It is important that this concentration is not altered in any way. Most individuals report very little discomfort from this procedure. Some minor soreness at the site of the injection may be reported. Further, patients may experience mild bruising, again, at the site of the injection. This procedure is generally regarded as safe and can be done on an outpatient basis.

Historically, very few studies exist regarding the effectiveness of regenerative medicine on many different pain conditions. However, evidence is mounting regarding its effectiveness for a range of pain conditions that failed to respond to first-line interventions. Improvements to the system and its procedure are impending, given the significant advances in technology. Thus, regenerative medicine may emerge in future studies as an ideal method of treating chronic pain.

NOTE: Adult stem cells are autologous, meaning that they are drawn from an adult patient and then returned to that same patient in the form of treatment. Presently, the FDA does not have any approval requirements in terms of the collection of adult stem cells. The FDA has not approved the use of stem cells to combat aging or to prevent, treat, or cure any disease or medical condition mentioned.

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Regenerative Medicine | Nevada Pain - Las Vegas, Henderson

Page Summary: Embryonic stem research cannot take place apart from dead human embryos. Embryonic stem cells cannot be culled without killing the embryo. Whether these tiny human beings are explicitly killed for research purposes or not, the ethics of the matter do not change.

The National Institutes of Health (NIH) tells us this about stem cells:

Because stem cells can differentiate into specialized cell types, they have the potential to replace or repair damaged tissue, be used for organ transplants and treat all sorts of diseases. Much research is left to be done, but the use of stem cells could potentially cure diabetes, Parkinson's disease, spinal chord injuries, heart conditions, and more.

Before going further, it must be emphasized that there are different types of stem cells, which carry vastly different ethical implications. Until recently, researchers worked with two kinds of stem cells: embryonic stem cells (hESCs) and "somatic" or "adult" stem cells. Embryonic stem cells are the undifferentiated cells from which all our body parts, organs, tissues, etc. originally developed. These cells are obtained by transferring the inner cell mass of the embryo into a culture dish, but can only be done by killing the embryo. This is what makes embryonic stem cell research an ethical question. Adult stem cells are undifferentiated cells found in various tissues throughout the body, including the brain, bone marrow, umbilical cord blood, muscle, skin, teeth, etc., and are thought to maintain and repair damaged tissue. These can be obtained without harm to the donor.

In 2007, a new stem cell method was discovered that actually "reprograms" ordinary cells (like skin cells) to revert into an embryonic stem cell-like state. These stem cells are called Induced Pluripotent Stem Cells (iPSCs) and are essentially no different than embryonic stem cells, with one exception: they do not require the killing of embryos. The scientist who discovered this reprogramming technique, Dr. Shinya Yamanaka of Japan, said the following:

Dr. Yamanaka states that iPSCs overcome two main problems with embryonic stem cell research: (1) immune rejection: since the embryonic stem cells that would theoretically be introduced into patients do not carry the same genetic code, the body may reject them (as has been observed in studies on mice); and (2) the ethical dilemna: the only way to derive embryonic stem cells is to kill embryos. With the discovery of iPSCs, embryo-like stem cells can be derived from a patient's own cells, which carry the same genes and will not be rejected by the body, and, more importantly, they do not require the killing of embryos.

Despite the ethical controversy surrounding embryonic stem cell research, and the scientific advances which allow for the ethical controversy to be avoided altogether, the U.S. government began providing federal funding for embryonic stem cell research in 2001. Prior to this, federal funds could not be used for embryonic stem cell research, but President Bush changed that when he adopted a policy that allowed government funding to be applied towards research on a limited number of embryonic stem cell lines. The statement that spelled out those limitations reads as follows:

President Bush tried to toe the moral line by ensuring that no new embryos would be created and destroyed for stem cell research. On March 9, 2009, President Obama issued a new executive order, revoking the former policy. Federal funding can now be used for embryonic stem cell research, without regard to creation date and without regard to the future life of the embryo. Dr. Curt Civin, who serves as the founding director of the University of Maryland Center for Stem Cell Biology and Regenerative Medicine defends the practice this way, "This was already life that was going to be destroyed, the choice is throw them away or use them for research." Dr. Civin conveniently ignores a third option: embryo adoption. Frozen embryos need not be consigned to the trashcan or the microscope!

Largely lost in the discussion is the fact that, in the eight years that the federal government has funded embryonic stem cell research, the proposed benefits are still wholly speculative (President Obama admits the potential benefit "remains unknown"). To date no human embryonic stem cells have actually been used to cure or treat diseases (although the FDA recently cleared the California-based company Geron to use human embryonic stem cells for clinical trial). Adult stem cells, on the other hand, have already helped with over 73 diseases (this according to the Family Research Council and peer-reviewed published research). Time will tell what scientists can do with iPSCs, but remarkable research is already being done. In fact, Dr. Oz surprised Michael J. Fox and Oprah Whinfrey when he declared on her show that "the stem cell debate is dead". It is not embryonic stem cell research that will ultimately cure diseases like Parkinson's, he maintains, but rather iPSCs. Dr. Oz believes iPSC based cures are less than ten years away.

Of course, even if you want to defend the ethical merits of embryonic stem cell research, do not confuse the debate over the federal funding of embryonic stem cell research with the debate over embryonic stem cell research itself. The opportunity for private corporations to acquire and study fetal tissue samples has long been in place. For those individuals and companies who have no ethical qualms with the "therapeutic" killing of embryos, they have the legal freedom to pursue their research on their own time and their own dime. Objecting taxpayers need not foot the bill, until now. That's how the federal funding of embryonic stem cell research changes the debate. To better illustrate this distinction, let's compare embryonic stem cell research with legal prostitution. As you may or may not know, prostitution is lawful throughout much of the state of Nevada. Despite the fact that lots of people find prostitution to be morally reprehensible, the state of Nevada has made it lawful for its citizens to engage in. Now what if, instead of just making prostitution legal, Nevada also made it state funded requiring its citizens to pay the operating costs of brothels across the state? You see where we're going with this. A strong case can be made for outlawing embryonic stem cell research outright, just as a strong case can be made for outlawing prostitution outright. But even if you're going to defend the merits of the practices in question, how can it possibly be reasonable for objecting citizens to be made to pay for them?!

The reason people who oppose abortion tend to also oppose embryonic stem cell research is because extracting stem cells from embryos kills them. Embryonic stem cell lines cannot be established apart from dead embryos. Therefore, since embryos (just like fetuses and newborns and infants and adults) are human beings, embryonic stem cell research is unjust and unjustified. It is the killing of one person (actually many persons) in the theoretic attempt to save other people. Is it justifiable to kill one person in order to spare someone else from disease? At its essence, the driving philosophy behind embryonic stem cell research is one that places less value on individual human life than it does on the "greater human good". While this may sound altruistic on the surface, it has been the historic basis for all manner of human rights abuses.

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Facts About Abortion: Stem Cell Research and Abortion

Welcome to the Most Advanced Regenerative Medical Practice Welcome to the Regenerative Cell Institute!

Regenerative medicine is revolutionizing the way we practice medicine and the Regenerative Cell Institute of Las Vegas, Nevada, is leading the way! Dr. Crispino Santos is a pioneer of regenerative medicine and his expertise in stem cell therapy and stem cell extraction techniques enables him to offer the most innovative stem cell therapy procedures and platelet rich plasma (PRP) treatments to heal the body, naturally rejuvenate tissue, and prevent disease.

Regenerative Cell Institute specializes in minimally invasive stem cell therapy and PRP treatments for pain management, joint pain, spinal pain, and aesthetic procedures.

As a relatively new and rapidly evolving field of interventional pain management, regenerative medicine uses adult stem cells to help the body regenerate, rebuild, and heal itself.

Regenerative Cell Institute (RCI) specializes in all areas of regenerative medicine, using the most advanced stem cell extraction methods and proprietary concentration techniques to deliver the best stem cell therapy and platelet rich plasma (PRP) treatments and ensure patients receive the highest level of care.

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Regenerative Cell Institute Las Vegas | Stem Cell Therapy ...

November 22, 2014

Stem Cell breakthrough!: World Stem Cell Institute a 501 c3 Non-Profit organized to perform stem research, educate the public, and patient Funding are on the threshold of a stem cell breakthrough!

Mr. Newcomer the CEO of World Stem Cell Institute http://worldstemcellinstitute.org/ have been studying and performing research on stem cells since 1962 after seeing a movie in a college genetics class which showed the development of a chick.

Read more October 11, 2014

Interview with Dr. Ernesto Gutierrez from the World Stem Cells Clinic by Healthcare Elsewhere show with John Cote on iTunes!

Dr. Gutierrez is the medical director and president of the World Stem Cells Clinic in Cancun, Mexico. The clinic was established in 2010 and treats numerous conditions including autism, multiple sclerosis, rheumatoid arthritis, lupus, chronic kidney disease, Charcot-Marie-Tooth disease (CMT) and Chronic Obstructive Pulmonary Disease (COPD). Dr. Gutierrez states that he uses the patients own stem cells to treat and heal their conditions. While he does not claim to cure these conditions, he states that the treatment intends to reverse some of the damage and control the progression of the condition.

Read more October 6, 2014

Educating Medical Professionals &Patients on Stem Cell Advancements with Dr. Ernesto Gutierrez

Dr. Ernesto Gutierrez, M.D. was interviewed recently for the Healthcare Elsewhere show with John Cote on iTunes! They discussed several things from patient experiences to the latest advances in cellular therapies now available for our patients.

Read more September 29, 2014

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Stem Cell Therapies News - World Stem Cells, LLC