Exosomes

WHAT ARE EXOSOMES?

Exosomes are like tiny messengers that carry important information between cells, helping them communicate and do their jobs effectively. When exosomes are injected from human umbilical cord tissues, our old cells receive important messages to repair and replicate into healthier, younger cells.

Available research indicates that exosomes possess anti-inflammatory properties and can potentially be used to support the regeneration of aging or damaged tissues, by delivering rejuvenating signals to the target cells. MSCs are naturally present in our bodies until a certain age, and by replenishing our bodies with them, we have the capacity to accelerate the healing process of injuries by promoting tissue repair, modulating inflammation, and improving immune responses.

HOW DO THEY WORK?

When administered to a target area, such as an injured or damaged tissue, exosomes are taken up by neighboring cells. Once inside the recipient cells, the bioactive molecules in the exosomes can influence gene expression, protein synthesis, and cellular functions. This process can lead to a series of beneficial effects, such as promoting tissue repair, reducing inflammation, and stimulating the growth of new blood vessels, which may collectively aid in the healing and regeneration of the injured area.

Studies have explored the potential applications of stem cell-derived exosomes in various areas, including peripheral nerve damage, traumatic brain injury, wound healing, bone fusion, tissue repair, inflammation modulation, skin health, cartilage health, ligament/tendon injuries, osteoarthritis, bone health, and women’s health. It is important to note that, as of now, there are no FDA-approved exosome products available in the United States.

EXOSOMES VS STEM CELL?

Unlike stem cells, exosomes do not carry live DNA. Remarkably, a significant portion of the therapeutic benefits attributed to stem cells actually stem from the actions of the exosomes they release. This feature sets exosomes apart as a superior choice, offering a safe and highly effective approach to tissue repair and rejuvenation.

EXOSOMES VS PRF?

A standard PRF injection typically provides a maximum of 12 growth factors to the treatment area. In contrast, exosome injections may deliver a significantly higher number, with approximately 700 growth factors. Exosome therapy is essentially potentially about 60 times more powerful and effective than PRF treatment.

SERVICES

SERVICES

EXOSOME MICRONEEDLING FACIAL | $650

A first of its kind, a highly concentrated exosome treatment solution for topical use in combination with microneedling. This hybrid exosome cocktail strikes the ideal balance between potency and stability, resulting in a powerful, potent, ultra-pure exosome treatment solution unlike any other. Bone marrow growth factors and ethically sourced umbilical cord exosomes. 60 times more regenerative than PRF.

PURPOSES IN VARIOUS AREAS, INCLUDING:

  • Acne & Acne Scars

  • Aging

  • Burns/Wounds

  • Enlarged Pores Hyperpigmentation Inflammation

  • Melasma

  • Sagging Skin

  • Sun Damage

  • Poor Skin Elasticity Uneven Skin Texture Wrinkles and Fine Lines

EXOSOME IV THERAPY | $7,000+

With Exosomes IV Therapy, each person’s results will vary, but studies have observed the benefits of exosome therapy extend several years after completion. Individual results will depend on the nature of the concerns. Depending on the situation, some health issues can be addressed with just 1-2 sessions, while others require an ongoing plan to achieve ideal results. Some may see results almost immediately while others may not see the full effects until 2-3 months after the procedure.

*Must book consultation first to determine dosage. Dosage depends on body weight.

STEM CELL-DERIVED EXOSOMES ARE NOT APPROVED AS DRUGS AND ARE EXCLUSIVELY SOLD FOR RESEARCH PURPOSES IN VARIOUS AREAS, INCLUDING:

  • Autoimmune Illnesses

  • Bone Fractures

  • Bone Fusion & Regeneration

  • Cartilage Regeneration (i.e. Meniscus tears)

  • COVID-19 Long-Haulers

  • Dementia

  • Injured Ligaments/Tendons (i.e. ACL tears)

  • Joint/Systemic Inflammation (i.e. Arthritis)

  • Multiple Sclerosis

  • Muscle Strains & Tears

  • Orthopedics

  • Osteoarthritis

  • Overuse Injuries (i.e. Shin Splints)

  • Peripheral Nerve Damage

  • Plantar Fasciitis

  • Rotator Cuff Injuries

  • Spinal Cord Injuries

  • Stroke

  • Tendinitis and Tendinopathy

  • Tissue Repair

  • Traumatic Brain Injury

  • & more…