Stem Cell Elbow Repair

Stem Cell Elbow Treatment Consists of the Following:

  • 50 Million Mesenchymal Stem Cells applied via intra-articular injection
  • Full Blood Panel
  • MRI

 

PRICE: $3,300 USD
We require patients to be in town for at least 5 days. Below is what a typical schedule looks like, but exact details are subject to change depending on availability and schedule:

  • Day 1 – Arrive and rest
  • Day 2 – MRI
  • Day 3 – Bloodwork, Review MRI then payment
  • Day 4 – Treatment
  • Day 5 – Fly home

 

If you are in town for more than 5 days, the itinerary may not be on consecutive days.

Important Information:
An MRI is required for this treatment and is included in the price. We need accurate data on the joint to ensure patient health. If you have an MRI, CT, or X-ray from within the past year, please email the written radiology report to scans@zignagenix.net. We only need the written report, not the images. This will allow our doctors to determine if you are a good candidate for treatment.

The most common reason for disqualification is if the joint has osteophytes or a complete tear.

Stem Cell Elbow Repair

The stem cell elbow treatment is a revolutionary new approach to treating elbow injuries. Unlike traditional methods, which rely on surgery and physical therapy, our treatment uses stem cells to stimulate the body’s natural healing processes. Stem cells are powerful, regenerative cells that can guide cellular regeneration. When injected directly into damaged tissue, they can help repair and regenerate new, healthy tissue.

Our treatment is minimally invasive and has little to no downtime. You’ll be able to return to your normal activities within a few weeks, and you’ll start to feel the benefits of the treatment within a few months. You’ll experience less pain, increased mobility, and improved range of motion.

We’ve helped countless patients regain their strength, mobility, and quality of life. Our team of experienced medical professionals will work with you to develop a personalized treatment plan tailored to your unique needs and goals. We’re committed to helping you achieve your zignagenix and live life to the fullest.

If you’re ready to say goodbye to elbow pain and injury and hello to a stronger, healthier you, contact us today to schedule a consultation. We’re confident that our stem cell elbow repair treatment can help you achieve the results you’ve been dreaming of.
Call (307) 461-5393 For a Free Consultation
Benefits of our Stem Cell Elbow Repair Treatment:

  • Long-term pain relief: Our treatment utilizes the regenerative abilities of stem cells to promote tissue repair and healing, providing long-term pain relief.
  • Minimally invasive: Unlike traditional surgical treatments, our Stem Cell elbow Repair Treatment is minimally invasive, requiring only a single injection that takes a few minutes.
  • Faster recovery: Our treatment has a shorter recovery time compared to surgical procedures, allowing you to resume your daily activities faster.
  • Reduced risk of complications: Our stem cell therapy treatment is a low-risk alternative to surgery, with almost no chance of complications or infections.

 

At Zignagenix Clinic, we are committed to providing our clients with the highest quality care and cutting-edge treatment options. With our Stem Cell elbow Repair Treatment, you can be assured that you’re receiving safe, effective treatment that will get you back on your feet in no time.

Stop suffering from elbow pain and discover the power of stem cell therapy today. To book an appointment, visit our website or give us a call, and let our experts help you achieve your zignagenix and pain-free life!

What Can the Stem Cell Elbow Treatment Repair?

Mesenchymal stem cells (MSCs) have the potential to heal several different types of tissue damage, including damage to cartilage, labrum, ligament, tendon, and muscle. Here’s how MSCs can help with each of these conditions:

  • Arthritis (Cartilage Damage): Cartilage is the tissue that cushions the joints, allowing for smooth and pain-free movement. In arthritis, the cartilage becomes damaged or worn down, resulting in pain and stiffness. MSCs can help to regenerate cartilage tissue by guiding chondrocytes, which are the cells that make up cartilage. When MSCs are injected into the joint, they can reduce inflammation and promote the growth of new cartilage cells, leading to improved joint function and reduced pain.
  • Ligament Damage: Ligaments are the tough bands of tissue that connect bones to each other and help to stabilize joints. Injuries to ligaments can cause pain, inflammation, and instability. MSCs can help to heal ligament damage by promoting the growth of new tissue and preventing scar tissue formation. When injected into the injured area, MSCs can guide fibroblasts, the cells that make up ligament tissue, and promote the production of collagen, the substance that gives ligaments their strength and flexibility.
  • Tendon Damage: Tendons are the tough bands of tissue that connect muscles to bones. Tendon injuries can cause pain, swelling, and weakness in the affected area. MSCs can help to repair tendon damage by promoting the growth of new cells and reducing inflammation. When injected into the injured area, MSCs can guide tenocytes, the cells that make up tendon tissue, and promote the production of collagen, the substance that gives tendons their strength.
  • Muscle Damage: Muscles can become damaged due to injury, overuse, or age-related changes. Muscle damage can cause pain, weakness, and limited mobility. MSCs can help to repair muscle damage by promoting the growth of new muscle cells and reducing inflammation. When injected into the injured area, MSCs can guide myoblasts, the cells that make up muscle tissue, and promote the production of myosin and actin, the proteins that enable muscle contraction.

 

Overall, MSCs have the potential to regenerate and repair damaged tissue by guiding the cellular regeneration and promoting the growth of new cells and extracellular matrix. When injected into the affected area, MSCs can reduce inflammation, prevent and remove scar tissue formation, and improve tissue function and mobility.

How do Mesenchymal Stem Cells Guide the Removal of Scar Tissue in an Injured Elbow?

Mesenchymal stem cells (MSCs) can help to guide the removal of scar tissue in injured elbows in several ways. Here are some of the ways MSCs can promote the removal of scar tissue:

  • Production of enzymes and cytokines: MSCs produce enzymes and cytokines that can help to break down scar tissue and promote its removal. Matrix metalloproteinases (MMPs) are a family of enzymes that can degrade extracellular matrix, the substance that makes up scar tissue. MSCs can produce MMPs, which can break down scar tissue and promote the growth of new tissue.
  • Guiding specific cell types: MSCs can guide many different cell types, depending on the microenvironment in which they are located. In the case of elbow injuries, MSCs can guide fibroblasts and chondrocytes, which are the cells that make up ligament and cartilage tissue, respectively. When MSCs guide these cells, they can help to replace scar tissue with new, healthy tissue.
  • Modulation of the immune system: MSCs can modulate the immune system, which plays a key role in inflammation and tissue repair. When tissue is injured, the immune system responds by triggering an inflammatory response. However, if the inflammatory response is too severe or prolonged, it can lead to the formation of scar tissue. MSCs can help to modulate the immune response by reducing inflammation and promoting the growth of new tissue.
  • Promotion of angiogenesis: Angiogenesis is the process by which new blood vessels are formed. Injured tissue requires a robust blood supply to promote healing and removal of scar tissue. MSCs can promote angiogenesis by secreting growth factors that stimulate the growth of new blood vessels. By promoting angiogenesis, MSCs can help to promote the removal of scar tissue by providing the injured tissue with the oxygen and nutrients it needs to repair itself.

 

How do Mesenchymal Stem Cells Regenerate Cartilage for Arthritis?

In osteoarthritis, mesenchymal stem cells (MSCs) have been shown to have the potential to regenerate cartilage through several mechanisms:

  • Production of chondrogenic factors: MSCs can guide the regeneration of chondrocytes, which are the primary cells that produce cartilage. By producing chondrogenic factors, MSCs can promote the differentiation of MSCs into chondrocytes and increase the production of cartilage.
  • Production of extracellular matrix components: MSCs can also promote the production of extracellular matrix components, such as collagen and proteoglycans, which are important components of cartilage.
  • Reduction of inflammation: Inflammation is a major contributor to cartilage degeneration in osteoarthritis. MSCs can suppress inflammation and contribute to a less inflammatory environment, allowing for the production and maintenance of cartilage.
  • Paracrine signaling: MSCs can also release various growth factors, cytokines, and chemokines that promote cell proliferation, differentiation, and tissue repair. By modulating the activity of nearby cells, MSCs can help to promote cartilage regeneration.

Overall Benefits of Mesenchymal Stem Cells

Mesenchymal stem cells have the potential to regenerate cartilage in osteoarthritis through:

  • Differentiation into chondrocytes
  • Production of extracellular matrix components
  • Reduction of inflammation
  • Paracrine signaling to promote cell proliferation and tissue repair

Elbow MRI Included with Stem Cell Treatment

At Dream Body Clinic, we have our own MRI machine on site for joint treatments. The Esaote S Scan Open MRI is a spacious and non-enclosed machine, making it a great option for patients with claustrophobia. However, we need the patient’s height, weight, and waist size to ensure they fit comfortably in the machine.

The treatment is for one elbow and includes one elbow MRI. It’s also possible to treat both elbows or multiple joints during the same visit. The MRI allows us to visualize bones and soft tissues such as cartilage, tendons, and ligaments. We prioritize accuracy and safety, ensuring that we understand the specific issues with your elbow before proceeding with treatment.

If our doctors determine that you are not a good candidate for treatment based on the MRI findings, the cost of the MRI ($500 USD) will not be refunded. Alternatively, if you have had an MRI within the last six months, you can submit it for review. If eligible, we will discount the cost of treatment by $500 USD. Please send the MRI report to scans@dreambodyclinic.net and bring the CD or thumb drive with images for your treatment.

Stem Cell Elbow Treatment Studies

  • Stem Cells for Cartilage Regeneration – Moving Towards Clinical Applicability
  • Mesenchymal Stem Cells Research in Cartilage Repair
  • Use of Mesenchymal Stem Cells to Grow Cartilage and Bone
  • Mesenchymal Stem Cells for Cartilage Repair
  • Adult Stem Cells for Cartilage Tissue Engineering
  • Embryonic vs. Mesenchymal Stem Cells in Cartilage Repair
  • Adult and Embryonic Stem Cells in Cartilage Repair
  • Engineered Mesenchymal Stem Cells for Cartilage Repair
  • Mesenchymal Stem Cell Therapy in Osteoarthritis: Reparative Pathways, Safety, and Efficacy Study Review

How Long Do Results Last with Stem Cell Elbow Treatment?

The results from Stem Cell Elbow Treatment are long-lasting, as your body can heal itself similarly to how it did when you were younger. The healing process does not occur rapidly; consider how many years it took to reach your current condition.

We recommend exploring our Anti-Aging Stem Cell Protocol for continued care, as the body’s healing capacity diminishes over time, and the number of stem cells in your system will not increase. This treatment involves an IV of 100 million stem cells, administered annually to maintain optimal levels, ensuring your elbows continue to feel excellent.

Risks and Side Effects of Stem Cell Elbow Treatment

The stem cell elbow treatment is very safe, with only a few documented side effects:

  • Tightness and soreness: Some patients may experience tightness and soreness in the joint the night after treatment or the following day. This can be easily managed with tramacet, which we provide to every patient.
  • Non-responders: A small percentage of patients may not respond to treatment, similar to how some medications may not work for everyone (e.g., Tylenol for headaches).
  • Infection risk: As with any injection, there is a minimal risk of infection. We use iodine and microdacyn to minimize this risk, and to date, we have not had any patients experience infections.
  • Cancer history: We do not treat patients who have had cancer within the past five years. While there is no conclusive evidence linking stem cells to cancer exacerbation, we prefer to err on the side of caution until more information is available.

Our lab boasts over eight years of experience cultivating mesenchymal stem cells safely and effectively.

The mesenchymal stem cells administered via intra-articular injection will remain active in your system for 8 months to a year. During this time, they will interact with immune cells to target inflammation, guiding cellular regeneration. After 8 to 12 months, any MSCs still present will differentiate into osteoblasts (bone cells), adipocytes (fat cells), or chondrocytes (cartilage cells), ultimately being removed by your immune system without causing any adverse reactions.

Pre-Treatment Care Protocol

  • Stop taking non-steroidal anti-inflammatory drugs (NSAIDs) at least one week before treatment and refrain from using them for at least two weeks post-treatment.
  • Avoid cortisone or corticoid steroid injections within three months prior to treatment, as they can confuse the inflammatory process.
  • Discontinue prednisone at least one week before treatment and remain off for at least two weeks after.

Post-Treatment Care Protocol

  • We advise taking two weeks off from exercise or sports post-treatment. After this, follow our 4-week physical rehab protocol developed by our orthopedic surgeon for optimal recovery.
  • After six weeks, you may resume your favorite activities or exercise routine, but do so gently and listen to your body. If you experience pain during exercise, take time off to allow for healing.
  • Refrain from using NSAIDs, prednisone, or anti-inflammatory supplements such as ginkgo biloba or turmeric for at least two weeks post-treatment, ideally for six weeks.
  • Avoid corticoid steroid injections (e.g., cortisone shots) for at least 3 to 6 months post-treatment.

Supplements for Faster Recovery

While supplements are not necessary for stem cells to work, they can expedite recovery. Think of stem cells as managers on a construction site—they guide the repair process, but the workers need the right materials. We collaborate with Dr. Yoni Whitten, a movement expert, who has developed an excellent presentation on supplements for a speedy recovery. Access his seminar on fast recovery supplements at www.painfixprotocol.com.

How to Book a Stem Cell Elbow Treatment at Dream Body Clinic

Dream Body Clinic is your one-stop solution for safe, effective, and cutting-edge regenerative medicine treatments. Our state-of-the-art stem cell elbow treatment can help you achieve a pain-free life.

Led by Dr. Arick, our team has extensive experience in regenerative medicine and is dedicated to providing high-quality care and treatment options tailored to your specific needs.

Our facilities are fully equipped with the latest technology, including ultrasound-guided injections, ensuring precise, safe, and effective treatments.

For a safe and effective way to heal your elbow and improve your quality of life, contact us today to schedule a consultation.

Call (833) 445-9089 for a Free Consultation

If you are ready to get the Stem Cell Elbow Treatment, click the image below for details on how to book your appointment.

Call (307) 461-5393 For a Free Consultation