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Bionetics

contact@bionecticshealth.com

colorado office: 720-897-9711

Vegas office: 702-640-0396

Regenerative Stem Cell Therapy

Starting Price $199 per month
upon approved credit

Become Pain-Free In Days!

Non Surgical. Drug Free. Clinically Proven.

Our Satified Clients

At Bionetic Health

We offer patients to benefit from cells and growth factors sourced from the umbilical cord, specifically Wharton’s Jelly and umbilical cord blood cells. These resources are meticulously screened and ethically sourced. Unlike some practices, we strictly avoid the use of embryonic or fetal cells.

We offer patients high doses of umbilical cord cells, comparable to treatments available in South and Central America. However, Our Approach is distinct. Our cells are "naive," meaning they are fresh and have not been cultured in a lab. While lab-cultured cells may lower treatment costs, the long-term effects are uncertain. Even if allowed, we adamantly oppose the use of cultured cells. Although naive cells may come with a higher price tag, we believe they offer superior benefits for our patients' overall well-being.

Features

  • Stem Cell derived Wharton’s Jelly and Umbilical Cord blood cells for highest potency.
  • Rigorous screening and ethical sourcing.
  • We strictly avoid embryonic or fetal cells.
  • Employing fresh “naive” cell, cells, untouched by lab culture.

What Makes Mesenchymal Stem Cells (MSCs) Different?

Migration

Mesenchymal Stem Cells (MSCs) have a special ability to move to specific tissues, going where the body needs them most. 

Repair

MSCs from Wharton's Jelly contains clinically significant growth factors, cytokines, and extracellular vesicles that allow for the damaged tissue to be regenerated.

Immunimodulation

MSCs from Wharton's Jelly are considered "immune privileged" due to their very low likelihood of triggering an immune response, reducing the risk of adverse reactions

Inflammation Reduction

MSCs reduce the signal cells that promote inflammation (like TNF-alpha and TNF-gamma)

How Stem Cells Work

Regenerative medicine is a cellular-level therapy that aims to improve the function of damaged or diseased tissue or organs by introducing cells to replace damaged cells. Today, regenerative medicine is being used to treat medical conditions across a range of medical specialties, including orthopedics, rheumatology, cardiology, neurology, and immunology.

When an area of the body is injured or not functioning properly, distress signals are sent through the bloodstream. These signals serve to recruit mesenchymal stem cells to the affected area.

Once in the affected area, stem cells dock on other cells and begin to produce signalling proteins that work to regulate inflammation, aid in angiogenesis, and promote tissue repair.

Stem cells then mature to carry out the functions of the cells that are needed. In this way, they compensate for the cells that are damaged, nonfunctional, or lacking to improve organ function, and consequently improve disease symptoms.

  • What Are Stem Cells?

    Stem cells are fundamentally the building blocks of life and have the potential to differentiate into many different types of cells within the body. Stem cells are actively involved in repairing, regenerating, and rebuilding damaged or absent tissue in the body that has been affected by disease, infection, or injury.

  • Type of Stem Cells Used?

    We use only the best source of stem cells, containing the highest therapeutic quality bioactive biomolecules of Wharton’s jelly derived stem cells and its extracellular matrix along with amniotic membranes available. The main therapeutic medium used are umbilical cord stem cells, exosomes, placental stem cells, amniotic stem cells, and PRP.

  • Source of Stem Cells?

    All the stem cells that we attain are from ethically obtained healthy live cesarean births. The mothers are donating willfully, and they must go through an extensive medical history questionnaire as well as several blood tests to make sure they are healthy and free from all communicable diseases. Once the umbilical cord and placental tissues are removed, the tissues are tested again, as well as the mother and infant.

  • How Do Stem Cells Heal?

    Receptors on stem cells allow them to migrate to areas that need healing and effect change in that area, potentially becoming new cells in the area and create new tissue to help improve functionality. They secrete chemicals which activate and attract your body’s native stem cells to initial tissue regeneration. There are numerous scientific evidence that show amazing reparative potential of these cells.

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Frequently Ask Question

Typically, we see results within two to four weeks. In general, it can take up to three to six months to see results after the first transplantation of stem cells. This includes a reduction in pain and improvements in the functionality of the joint. Improvements are seen continually till around the 6-month mark. Many of our patients’ report feeling 90-100% improved within 3 months.

Research has observed patients reporting benefits as far as 6 years after their stem cell injections. In one study the researchers noted the same amount of progress was noted 4 years after as was noted 3 months after the treatment.

Stem cell injections offer a minimally invasive alternative to surgery for joint and pain management, often yielding quicker recovery times and lower risk of complications. Unlike surgery, which can be invasive and may require lengthy rehabilitation, stem cell therapy harnesses the body's natural healing mechanisms to regenerate damaged tissue, promoting long-term relief. Additionally, stem cell injections can target the root cause of pain and inflammation, addressing underlying issues rather than simply treating symptoms. This approach presents a promising avenue for patients seeking effective pain management without the drawbacks of surgery.

If you have an MRI or X-ray already done, feel free to bring it in before the procedure, but imaging is not required for treatment. Some patients refuse to get imaging or can’t due to certain circumstances. We’ve performed hundreds of treatments without imaging and will use our ultrasound when needed. We will determine where the injections are needed based on your symptoms, history, and physical exams.

Tendons and ligaments are connective tissues that provide support and stability to joints and bones. Sports injuries, such as sprains and strains, can occur when these connective tissues are stretched or torn. Umbilical cord mesenchymal stem cells (UC-MSCs) have been proposed as a potential therapeutic option for these types of injuries due to their ability to differentiate into various types of cells, including fibroblasts (connective tissue cells), and their ability to release various growth factors and other signaling molecules that can promote tissue repair and regeneration.
Similar to other orthopedic problems, the process of how UC-MSCs may help to heal tendons and ligaments and sports injuries is not fully understood, but it is thought that they may work through a combination of different mechanisms, including:
  1. Fibroblast differentiation: UC-MSCs can differentiate into fibroblasts, the cells that make up tendons and ligaments, which can help to repair and regenerate damaged or lost connective tissue.
  2. Chondrogenic differentiation: UC-MSCs can differentiate into chondrocytes, the cells that make up cartilage, which can help to repair and regenerate damaged or lost cartilage.
  3. Paracrine signaling: UC-MSCs can release various growth factors and other signaling molecules that can promote the proliferation and differentiation of fibroblasts, as well as the synthesis of extracellular matrix components, such as collagen and proteoglycans, which are essential for the formation and maintenance of tendons and ligaments.
  4. Anti-inflammatory effects: UC-MSCs can modulate the immune response, which can help to reduce inflammation in the injured area, which can contribute to the healing process.
  5. Angiogenesis: UC-MSCs can also promote the formation of new blood vessels, which can help to supply oxygen and nutrients to the injured area and support the repair and regeneration of connective tissue.
Typically patients will experience some level of soreness and bruising lasting roughly a week as a result of the bone marrow harvesting procedure. Additional complications have not been observed. Over a hundred studies and clinical trials have demonstrated the safety and minimal side-effect profile of stem cell therapy.

Our Satified Clients

Who Is It For?

Treatments are designed to work for both athletes recovering from injuries and those who experience chronic pain. Amnion-derived fluid has potential clinical benefits in a variety of applications and has been used to treat injuries such as:

Cosmetic Treatments

Podiatry/Orthopedics

<span data-metadata=""><span data-buffer="">Pain Management