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About NSI Stem Cell | Natural Stem Cell Therapy Therapy …

By Stem Cell Doctors

Using the latest regenerative medicine technology, at NSI Stem Cell, its our mission to improve the quality and quantity of the lives of our patients while avoiding invasive surgical techniques and harmful medications.

If your house is on fire, you call the fire department. However, you dont call the fire department to come and rebuild the damaged areas of your house. The same is true when living with chronic illness and injury. For crisis situations, different types of medication may be necessary, but medicine alone will not truly fix the problem. Instead, depending on your condition, its important to incorporate a variety of remedies including: diet, exercise, physical therapy and in some cases stem cell therapy.

Using the latest regenerative medicine technology, at NSI Stem Cell, its our mission to improve the quality and quantity of the lives of our patients while avoiding invasive surgical techniques and harmful medications.

We are home to doctors and clinicians that are seasoned, knowledgeable, and passionate about helping patients. We work hard to provide seamless, safe and effective care for each patient that walks through our doors with the most advanced technology available to reverse disease, repair tissue, and promote health.

Learn more about what NSI Stem Cell can do for you below.

We know you have many choices when it comes to stem cell centers, so why choose NSI Stem Cell? First, we provide extensive patient education. The honesty and education that we give empower our patients to make informed decisions that will benefit them and their health the most.

Chances are, youve seen numerous doctors and from that, have had no real success in alleviating pain and restoring function. At NSI Stem Cell, we know the importance of finding someone that not only understands your medical journey, but provides the very best individualized care possible.

During your first visit to NSI Stem Cell, our doctors will provide a physical exam as well as go over the patients in-depth medical history. Additionally, the patients desires and expected outcomes can be discussed at length. Our medical team will spend as much time as necessary with each patient in order to ensure a proper diagnosis as well as educate the patient thoroughly on their condition as well as their available options.

NSI Stem Cell Services Include:

Stem Cell Therapy Platelet Rich Plasma (PRP) Blood Injection Therapy Functional Rehabilitation Nutritional Counseling

Because our consultations are done on an individual level, we are able to create precise programs such as a combination of the services listed above to help you regain function and return to everyday activities.

What I like about the [NSI Stem Cell] office is the professionalism, the care, the support, the answers to my questions and the continuing help whenever I need it. Leah

Over the last four years I have been suffering from pain, burning, numbness to the point where I couldnt get out of bed, couldnt function, couldnt work. Through all the many doctors that I visited over the years they gave me all kinds of medications where I had terrible reactions from them, ended up in the hospital and I couldnt function anymore. When I finally came to NSI, they gave me a program, and I felt wonderful. All my pain, all my numbness has disappeared. Im off all kinds of medications, Ive lost a lot of weight and I feel absolutely wonderful. Ths staff is awesome, the doctor is awesome, Im just so thankful that I found them. Connie

Click here to listen to additional stem cell success stories and testimonials

How are stem cells used? Stem cells make it possible for the body to regenerate and heal itself after an injury or illness. When stem cells are harvested from the patient and injected back in, they heal damaged tissues and regenerate new healthy tissue. Better yet, because stem cells use your body to heal itself, they contain the building blocks for optimal health.

Stem cells are important because they are changing how patients heal from chronic illness and/or injury. Stem cells are also multi-potent meaning they have the ability to differentiate into muscle tendons, ligaments, bone, tissue and cartilage. They are key in helping a wound heal and/or repairing damage brought on by disease. Furthermore, unlike invasive surgeries, stem cell therapy has no recovery time.

The first successful cell transplantation happened in 1956, as Dr. E. Donnall Thomas performed the first successful bone marrow transplant between identical twins, where a healthy twin gave their bone marrow to the other twin who suffered from leukemia. The practice continued to evolve over the decades and in 2006, it was discovered that stem cells can be harvested from adult patients.

Stem cells are a naturally occurring cell type that can be found all throughout the human body. Adult stem cells are found in the bone marrow, but they are also abundantly stored in the fatty layer that lies just beneath the skin. In addition, stores of stem cells remain in the body throughout life. Bone marrow and adipose (fat) are the two most commonly used stem cells in stem cell therapy.

Have more questions? Contact us today to see how stem cell therapy can help your condition.

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About NSI Stem Cell | Natural Stem Cell Therapy Therapy ...

Gene & Cell Therapy Defined | ASGCT – American Society of …

By Uncategorized

Gene therapy is a field of biomedical research with the goal of influencing the course of various genetic and acquired (so-called multi factorial) diseases at the DNA/RNA level. Cell therapy aims at targeting various diseases at the cellular level, i.e. by restoring a certain cell population or using cells as carriers of therapeutic cargo. For many diseases, gene and cell therapy are applied in combination. In addition, these two fields have helped provide reagents, concepts, and techniques that are illuminating the finer points of gene regulation, stem cell lineage, cell-cell interactions, feedback loops, amplification loops, regenerative capacity, and remodeling.

Gene therapy is defined as a set of strategies that modify the expression of an individuals genes or repair abnormal genes. Each strategy involves the administration of a specific nucleic acid (DNA or RNA). Nucleic acids are normally not taken up by cells, thus special carriers, so-called 'vectors' are required. Vectors can be of either viral or non-viral nature.

Cell therapy is defined as the administration of living whole cells for the patient for the treatment of a disease. The origin of the cells can be from the same individual (autologous source) or from another individual (allogeneic source). Cells can be derived from stem cells, such as bone marrow or induced pluripotent stem cells (iPSCs), reprogrammed from skin fibroblasts or adipocytes. Stem cells are applied in the context of bone marrow transplantation directly. Other strategies involve the application of more or less mature cells, differentiated in vitro (in a dish) from stem cells.

Historically, the discovery of recombinant DNA technology in the 1970s provided the tools to efficiently develop gene therapy. Scientists used these techniques to readily manipulate bacterial and viral genomes, isolate genes, identify mutations involved in human diseases, characterize and regulate gene expression and produce human proteins from genes (e.g. production of insulin in bacteria revolutionized medicine). Later, various viral and non-viral vectors were developed along with the development of regulatory elements (e.g. promoters that regulate gene expression), which are necessary to induce and control gene expression. Gene transfer in animal models of disease have been attempted and led to early success. Various routes of administrations have been explored (injection into the bloodstream, into the ventricles of the brain, into muscle etc).

The development of suitable gene therapy treatments for many genetic diseases and some acquired diseases has encountered many challenges, such as immune response against the vector or the inserted gene. Current vectors are considered very safe and recent gene therapy trials documented excellent safety profile of modern gene therapy products. Further development involves uncovering basic scientific knowledge of the affected tissues, cells, and genes, as well as redesigning vectors, formulations, and regulatory cassettes for the genes. While effective long-term treatments for many genetic and inherited diseases are elusive today, some success is being observed in the treatment of several types of immunodeficiency diseases, cancers, and eye disorders.

Historically, blood transfusions were the first type of cell therapy and are now considered routine. Bone marrow transplantation has also become a well-established medical treatment for many diseases, including cancer, immune deficiency and others. Cell therapy is expanding its repertoire of cell types for administration. Cell therapy treatment strategies include: isolation and transfer of specific stem cell populations, induction of mature cells to become pluripotent cells, administration of effector cells and reprogramming of mature cells into iPSCs. Administration of large numbers of effector cells has benefited cancer patients, transplant patients with unresolved infections, and patients with vision problems.

Several diseases benefit most from treatments that combine the technologies of gene and cell therapy. For example, some patients have a severe combined immunodeficiency disease (SCID) but unfortunately, do not have a suitable donor of bone marrow. Scientists have identified that patients with SCID are deficient in adenosine deaminase gene (ADA-SCID), or the common gamma chain located on the X chromosome (X-linked SCID). Several dozen patients have been treated with a combined gene and cell therapy approach. Each individuals hematopoietic stem cells were treated with a viral vector that expressed a copy of the relevant normal gene. After selection and expansion, these corrected stem cells were returned to the patients. Many patients improved and required less exogenous enzymes. However, some serious adverse events did occur and their incidence is prompting development of theoretically safer vectors and protocols. The combined approach also is pursued in several cancer therapies.

Genome editing (gene editing) has recently gained significant attention, due to the discovery and application of the clustered regularly interspaced short palindromic repeats (CRISPR) system. Actually, genome editing dates back several years and earlier generation genome editing systems are currently tested in clinical trials (such as zinc-finger nucleases). The aim of genome editing is to disrupt a disease-causing mutation or correct faulty genes at the chromosomal DNA. Genome editing can be performed in the patients own cells in vitro and edited cells can be administered to the patient (thus genome editing can be combined with cell therapy). However, it is also possible to perform genome editing in vivo by administering the genome editing agent packaged in viral and non-viral vectors.

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Gene & Cell Therapy Defined | ASGCT - American Society of ...

Stem Cell Therapy | Advanced Regenerative Orthopedics

By Uncategorized

Stem Cell Therapy involves the use of stem cells to stimulate the bodys natural repair mechanisms to repair, regenerate or replace damaged cells, tissues and organs. This physician-directed therapy is very safe, ethical and does not entail the use of any fetal or embryonic cells or tissue. It has been described as the future of medicine by many prestigious groups including the National Institutes of Health and the Institute of Medicine.

The field of Stem Cell Therapy continues to evolve, focusing on cures rather than just treatments for essentially all types of chronic diseases and conditions, including diabetes and cardiovascular disease, as well as various forms of arthritis and various orthopedic problems. When cells are transplanted into a patient, they do not stay for more than a few days. However, the cells provide a large and robust stimulus to turn on native repair mechanisms. The number of stem cells present in the body and their functional capacity to repair damaged tissue declines with each advancing decade of life, and chronic diseases further impede their ability to respond to chronic injury or damage in the body. This is why research has led to new solutions, which include the use of umbilical cord blood as the source of cells, which have the most potent ability to generate new tissues without risk of rejection. We at Advanced Regenerative Orthopedics use stem cells that are supplied by an FDA-registered cord blood bank.

Stem Cell Therapy and Tissue Engineering are much simpler and effective options that use very powerful young cells to stimulate the patients own native repair mechanisms to regenerate new cartilage and bone. The physician-directed treatment at ARO is a comprehensive approach to a specific joint with the goal of reducing the disabling pain and increasing function.

At Advanced Regenerative Orthopedics, our goal is to provide minimally invasive treatments along with regenerative techniques to target your bodys natural healing ability. Used as part of our innovative, three-tiered approach, physician-directed arthritis stem cell treatment can help patients of all ages get pain relief, increase their joint mobility and enjoy a higher quality of life.

Stem cell therapy can be an effective treatment for those suffering from a broad range of arthritic conditions. By using stem cells for arthritis, Advanced Regenerative Orthopedics stimulates your bodys natural mechanism to repair, regenerate and replace damaged cells within your joints.

If you live in Tampa, Brandon, St. Petersburg, Clearwater, Lakeland, Sarasota, The Villages, Ocala, or the surrounding areas and are interested in learning more about using stem cells for arthritis or any other joint condition, please contact our courteous and efficient office staff today to schedule an appointment. We look forward to discussing the benefits of physician-directed arthritis stem cell treatment with you and determining the best course of treatment to restore your joint health.

As many of our patients travel to us from outside the state of Florida for our world class procedures, our team is very familiar with managing the care & travel for remote patients.

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Stem Cell Therapy | Advanced Regenerative Orthopedics

Platelet Rich Plasma Injections, PRP Injections …

By Platelet Rich Plasma Injections

Platelet Rich Plasmainjections are used to helpa variety of common conditions including: tennis elbow, achilles tendinitis and knee osteoarthritis. Find Relief with Platelet Rich Plasma Injections:

Sometimes, rest, ice, rehabilitation and other treatments fail to provide relief. If you aredealing with chronic joint pain, tendinitis and osteoarthritis, you may want to consider this new treatment option now available. Louisville sports medicine physician Dr. Stacie Grossfeld is offering Platelet Rich Plasmainjectionsat her office to give patients anew, innovativeform of pain relief.

PRP Injections: $380 Charge Cash Only This treatment option covers a blood draw and PRP related processes. After collecting 10 cc from the arm, it will be spun in a centrifuge and then the platelet rich plasma is injected into the affected joint or area. In total, this fee includes the blood draw, materials used to create the PRP substance, and the actual PRP injection.

For more information about this treatment option, or to make an appointment, callOrthopaedic Specialists at a (502)212-2663. Follow along for more information about platelet rich plasma injections.

PRP or Platelet Rich Plasma is plasma with more platelets.Plasma is the liquid part of our blood that transports our platelets, and red and white blood cells. Platelets generally comprise about 10% of our blood. In order to prepare the injection, the physician must draw blood from the patient. Then the platelets are separated from the red and white blood cells to increase their concentration through centrifugation. This is then combined with the remaining blood to be used as an injection.

Typically, PRP is injected directly into theinjuredarea.Forexample, for tendinitis in the knee, the physician will inject a local anesthetic and the PRP directly into the inflamed tissue. Depending on the level of discomfort, most patients do not require more than two injections to find relief. After the injection, the patient may have residual pain for a day, and up to a week. The swelling and stiffness will decrease and the outcome is positive.

PRP injections have been known to treat chronic tendon injuries, acute ligament and muscle injuries, knee arthritis, fractures and even offer relief post-operatively. Some of the best athletes have used PRP injections to treat their injuries. This includes Alex Rodriguez, Brian Urlacher, Kobe Bryant and Tiger Woods. These injections have helped many athletesreturn to the court, green and fields faster than other forms of treatment.

In the June 2013 issue of American Journal of Sports Medicine, researchers reported some interesting results using PRP injections to heal competitive athletes. According to the study, 30 out of 34 throwing athletes with MRI documented partial ulnar collateral ligament tears got better and were able return to play after receiving platelet rich plasmainjections. (The ulnar collateral ligament is situated on the inner side of the elbow). All the throwing athletes had failed a comprehensive course of conservative treatment prior to receiving PRP injections. Based on these orthopedic research findings, this would be another area in orthopedic medicine where PRP can be useful.

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Platelet Rich Plasma Injections, PRP Injections ...

Types of Adult Stem Cells Stem Cell Institute StemCell …

By Adult Stem Cells

Stem cells reside in adult bone marrow and fat, as well as other tissues and organs of the body including the umbilical cord. These cells have a natural ability to repair damaged tissue, however in people with degenerative diseases they are not released quickly enough to fully repair damaged tissue. In the case of fat stem cells they may not be released at all. The process of actively extracting, concentrating and administering these stem cells has been shown in clinical trials to have beneficial effects in degenerative conditions. Few patients have access to clinical trials. We offer patients and their doctors access to these therapies now. Stem cell treatments are not covered by insurance.

Adult stem cells can be extracted from most tissues in the body, including the bone marrow, fat, and peripheral blood. They can also be isolated from human umbilical cords and placental tissue. Once the cells have been harvested, they are sent to the lab where they are purified and assessed for quality before being reintroduced back in the patient. Common types of adult stem cells are mesenchymal and hematopoietic stem cells.

Umbilical cord mesenchymal stem cells reside in the *umbilical cords of newborn babies. HUCT-MSC stem cells, like all post-natal cells, are adult stem cells.

The Stem Cell Institute utilizes cord-derived mesenchymal stem cells that are separated from the umbilical cord tissue. For certain indications, these cells are expanded into greater numbers at Medistem laboratory in Panama under very strict, internationally recognized guidelines.

Among many other things, mesenchymal stem cells from the umbilical cord tissue are known to help reduce inflammation, modulate the immune system and secrete factors that may help various tissues throughout the body to regenerate.

The bodys immune system is unable to recognize HUCT mesenchymal stem cells as foreign and therefore they are not rejected. Weve treated hundreds of patients with umbilical cord stem cells and there has never been a single instance rejection (graft vs. host disease). HUCT MSCs also proliferate/differentiate more efficiently than older cells, such as those found in the bone marrow and therefore, they are considered to be more potent.

Through retrospective analysis of our cases, weve identified proteins and genes that allow us to screen several hundred umbilical cord donations to find the ones that we know are most effective. We only use these cells and we call them golden cells.

We go through a very high throughput screening process to find cells that we know have the best anti-inflammatory activity, the best immune modulating capacity, and the best ability to stimulate regeneration.

Human umbilical cord tissue-derived mesenchymal stem cells (MSCs) that were isolated and grown in our laboratory in Panama to create master cell banks are currently being used in the United States.

These cells serve as the starting material for cellular products used in MSC clinical trials for two Duchennes muscular dystrophy patients under US FDAs designation of Investigational New Drug (IND) for single patient compassionate use. (IND 16026 DMD Single Patient)

The bone marrow stem cell is the most studied of the stem cells, since it was first discovered to in the 1960s. Originally used in bone marrow transplant for leukemias and hematopoietic diseases, numerous studies have now expanded experimental use of these cells for conditions such as peripheral vascular disease, diabetes, heart failure, and other degenerative disorders.

At Stem Cell Institute, we use purified autologous (patients own) mesenchymal stem cells from bone marrow in our spinal cord injury protocol along with umbilical cord tissue mesenchymal stem cells.

Fat stem cells are essentially sequestered and are not available to the rest of the body for repair or immune modulation. Fat derived stem cells have been used for successful treatment of companion animals and horses with bone and joint injuries for the last 10 years with positive results.

Experimental studies suggest fat derived stem cells not only can develop into new tissues but also suppress pathological immune responses as seen in autoimmune diseases. In addition to orthopedic conditions, Stem Cell Institute pioneered treating patients with osteoarthritis, rheumatoid arthritis, multiple sclerosis, and other autoimmune diseases using fat derived stem cells. However, we no longer use a patients own stem cells from fat because weve found that mesenchymal stem cells from umbilical cord tissue are superior.

Dr. Riordan published the first scientific article on treating humans (3 multiple sclerosis patients) with adipose-derived stem cells. We have treated many patients with adipose-derived mesenchymal stem cells in Panama but we no longer do so because we have found that umbilical cord-derived MSCs modulate the immune system and control inflammation better. HUCT MSCs also proliferate much more efficiently.

Articles Authored by our Doctors and Scientists about Fat Derived Stem Cells:

*All donated cords are the by-products of normal, healthy births. Each cord is carefully screened for sterility and infectious diseases under International Blood Bank standards.

Visit link: Types of Adult Stem Cells Stem Cell Institute

This entry was posted on July 9, 2018 at 12:43 am and is filed under Fat Stem Cells. You can follow any responses to this entry through the RSS 2.0 feed. Both comments and pings are currently closed. |

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Types of Adult Stem Cells Stem Cell Institute StemCell ...

Difference between Adult and Embryonic Stem Cells

By Adult Stem Cells

Key Difference: The adult stem cells are derived from adult tissue, and have the ability to regenerate into all the cell types of the organ from which they originate. Embryonic Stem Cells, on the other hand, are stem cells that are derived from the inner cell mass of a blastocyst. Blastocyst is an early-stage of the embryo that it reaches approximately 4-5 days after fertilization.

A stem cell is a reserve cell that each creature has in its body. The stem cell has the ability to grow into any cell that is required by the body and to multiply, so that it can replace any and all dead or damaged adult cells.

Many systems in our body have a supply of stem cells that helps it to heal and replace any dead or damage parts. Some of these parts include the skin system, liver system, etc., which is why it is easier for the body to heal these parts, as it can just replace the damaged parts. However, there are other systems in our body, such as the heart, spinal cord, brain and pancreas, which so not have a supply of stem cells. Researchers are currently working to develop stem cells that may help us to heal and/or replace these parts.

Stem Cells are greatly beneficial as they have the ability to divide or self-renew indefinitely. There are four main types of stem cells as categorized by the researchers working with them. These are adult stem cells, fetal stem cells, embryonic stem cells, and more recently, induced stem cells.

Adult Stem Cells are undifferentiated cells, which means that they have not become specialized stem cells with a particular function. These cells have the ability to divide or self-renew indefinitely. They also have to ability to generate all the cell types of the organ from which they originate.

The adult stem cells are derived from adult tissue, and depending on the tissues they are derived from, they have the ability to regenerate into all the cell types of the organ from which they originate.

Embryonic Stem Cells, on the other hand, are stem cells that are derived from the inner cell mass of a blastocyst. Blastocyst is an early-stage of the embryo that it reaches approximately 4-5 days after fertilization. At this stage, the embryo has consist of 50150 cells. Here the embryos are generated by IVF (in vitro fertility) clinics, so that the researchers can study the stem cells and their implications.

The Embryonic Stem Cells are also known as pluripotent stem cells as they have the ability to differentiate into any cell type, which means that they have a possibility of infinite applications within the human body. Like the adult stem cells, they also have the ability to regenerate indefinitely, as practically, they entire human body grows from single embryo.

However, embryonic stem cell research has been subject to much controversy, due to the fact the stem cells are taken from an embryo. Many claim that this is inhumane, and that embryos are life and should have the same rights. Many people also look down upon and criticize the fact that these embryos are generated by IVF, which some consider to be against nature.

Comparison between Adult and Embryonic Stem Cells:

Adult Stem Cells

Embryonic Stem Cells

Description

Adult stem cells are undifferentiated cells, found throughout the body after development, that multiply by cell division to replenish dying cells and regenerate damaged tissues.

Embryonic stem cells (ES cells) are stem cells that are derived from the inner cell mass of a blastocyst, an early-stage preimplantation embryo.

Also known as

Somatic stem cells, Multipotent stem cells

Pluripotent stem cells

Derived from

Adult Tissue

5 day old embryo

Features

Benefits

They have the potential to increase healing and for potentially regenerating an entire organ from a few cells.

Diseases that could potentially be treated by pluripotent stem cells include a number of blood and immune-system related genetic diseases, cancers, and disorders; juvenile diabetes; Parkinson's; blindness and spinal cord injuries.

Controversy

The use of human adult stem cells in research and therapy is not considered to be controversial.

The use of human embryonic stem cells in research and therapy is controversial as they are derived from human 5 day old embryos generated by IVF (in vitro fertility) clinics designated for scientific research.

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Difference between Adult and Embryonic Stem Cells

Stem Cells, Characteristics, Properties, Different …

By Adult Stem Cells

Classification of stem cells

The Stem Cells Transplant Institute uses adult autologous mesenchymal stem cells derived from adipose tissue.

Stem cells come from two main sources; embryonic stem cells and adult stem cells. Adult stem cells do not require the destruction of an embryo and their collection and use in research is not controversial. Adult stem cells are undifferentiated totipotent or multipotent cells, found throughout the body after embryonic development.

Stem cells are also classified based on where they are collected from;allogenicstem cells are collected from the same species,xenogeneicstem cells are collected from a different species, andautologousstem cells are collected from the intended recipient.

Stem cellscan be classified by the extent to which they can differentiate into differentcelltypes. These four mainclassificationsare totipotent, pluripotent, multipotent, or unipotent. Mesenchymal stem cells, or MSCs, are multipotent stromal cellsthat can differentiate into a variety ofcelltypes, including: osteoblasts (bonecells), chondrocytes (cartilage cells), myocytes (musclecells) and adipocytes (fatcells).

The Stem Cells Transplant Institute uses adipose derived stem cells removed from either the patients abdomen or thigh and placed in a centrifuge machine that spins them very quickly, concentrating the stem cells and growth factors.

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Stem Cells, Characteristics, Properties, Different ...

Facts About Cellular Therapies

By Uncategorized

Cellular therapy (CT) is the transplantation of human cells to replace or repair damaged tissue and/or cells. With new technologies, innovative products, and limitless imagination, many different types of cells may be used as part of a therapy or treatment for a variety of diseases and conditions. Some of the cells that may be used include hematopoietic (blood-forming) stem cells (HSC), skeletal muscle stem cells, mesenchymal stem cells, lymphocytes, dendritic cells, and pancreatic islet cells.

While the research is evolving, various cell types will be developed into treatments as novel cell therapies and studied for potential applications. Hematopoietic stem cell transplantation (also called bone marrow transplant) is the most frequently used cell therapy and is used to treat a variety of blood cancers and hematologic conditions. Potential applications of cell therapies include treating cancers, autoimmune disease, urinary problems, and infectious disease, rebuilding damaged cartilage in joints, repairing spinal cord injuries, improving a weakened immune system, and helping patients with neurological disorders.

Regenerative Medicine

Hematopoietic Stem Cells

Hematopoietic Stem Cells for Donation

How are Stem Cells Regulated?

The Role of Standards and Accreditation

Considerations for Health Care Consumers

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Facts About Cellular Therapies

Stem Cell Therapy – Nebraska Orthopaedic and Sports Medicine

By Uncategorized

We are pleased to offer our newestnatural and minimally invasivetreatment alternative for joint and tendon pain.

In this procedure, bone marrow blood is removed from the pelvis, is minimally processed, and injected into the patients problem area(s) to improve joint or tendon pain.

The patients own (autologous) stem cells and platelet-rich plasma will work to stimulate the healing process of tissue that is already present.

Please note that Stem Cell Therapy is not FDA approved and is not covered by insurance.

Nebraska Orthopaedic & Sports Medicine has decades of experience providing the latest in orthopaedic procedures. We offer the entire range of treatments from conservative to surgical. The doctors at Nebraska Orthopaedic and Sports Medicine can help you choose the best treatment for YOU. Many clinics offering stem cell treatments for orthopaedic conditions are NOT orthopaedic doctors. When considering a clinic for stem cell treatment, you need to consider a doctors training and experience. Nebraska Orthopaedic & Sports Medicine is the only orthopaedic clinic in the region offering this exciting procedure.

Patients between the ages of 18-64 who have seen a physician for their condition and have exhausted all non-surgical measures (physical therapy, NSAIDs, cortisone injections, bracing, etc.) are ideal for Stem Cell Therapy

The most common areas of treatment include the hip, knee and shoulder, but can be injected into any joint or tendon causing the patient pain. All of this is done within the clinic-setting for patient comfort and convenience.

Because this is a newer treatment, the long-term outcomes are not fully understood and no guarantees can be made regarding outcomes.

Patients can expect to feel results over 1-3 months, although in some circumstances, relief may take as long as 6-9 months.

Patients interested in Stem Cell Therapy should call (402) 488-3322 to request a consultation with Scott A. Swanson, M.D.

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Stem Cell Therapy - Nebraska Orthopaedic and Sports Medicine

Stem Cell Therapy – Revive Medical Center

By Stem Cell Medical Center

Revive Medical Center Chiropractor Lawrenceville GA

Staying healthy has never been more difficult, and sometimes it seems like health challenges are coming from every direction. Whether it is eating a healthy diet and cooking great meals for the kids or dealing with the aftermath of a serious car accident, living a healthier lifestyle can be a real challenge.

That is why you need the right partner in your quest for good health, and Revive Medical Center Chiropractor Lawrenceville GA is here to help you get healthy and stay that way. Whether you want to shed a few pounds after the holidays, get a handle on your allergies, lessen the impact of migraine headaches or improve your overall appearance, Revive Medical Center Chiropractor Lawrenceville GA is always here to help.

At Revive Medical Center Chiropractor Lawrenceville GA, we offer a full range of services designed to improve your health and help you look and feel your best. When you look good, you feel good, so we offer joint injections for easier movement, vitamin infusions for better health, trigger point therapy and tissue regeneration therapy (TRT) and platelet rich plasma (PRP) therapy, all designed to help you feel better right away. We even offer treatment for your hair loss, so you can regain your youthful appearance no matter what your age.

Revive Medical Center Chiropractor Lawrenceville GA also offers a full range of beauty treatments, including facials to improve your appearance and boost your self-esteem. We also offer a full range of allergy testing, including testing for both seasonal and food allergies. No matter what your concerns, Revive Medical Center is always here to help.

Chiropractic care is good for your body, mind and spirit, and Revive Medical Center Chiropractor Lawrenceville GA is your chiropractic specialist. We offer a full range of chiropractic care, including both physical therapy and decompression. Whether you need chiropractic treatment in conjunction with traditional medical care or on its own, you can find what you need at Revive Medical Center Chiropractor Lawrenceville GA.

We also offer recovery services for auto accident victims and workers comp cases, so you can get back to work quickly and regain your formerly good health. Whether you have been involved in a serious car crash, a workplace accident or something else, just give us a call and let us design a treatment program for you.

Revive Medical Center Chiropractor Lawrenceville GA is dedicated to your good health, from your physical well-being to your appearance. If you want to improve the way you look and the way you feel, just give us a call or check us out online. You will be glad you did.

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Stem Cell Therapy - Revive Medical Center