AmnionGraft
Help in rapid healing and minimal scarring after wound care
AmnionGraft is an amniotic membrane obtained from the placenta of a newborn under appropriate laboratory (cGMP) conditions for rapid healing and minimal scarring after wound care
Contains Many:
– Growth factors;
– Steroid hormones (estrogen, progesterone),
– Oxidation-reduction enzymes;
– Secondary enzymes and many other growth factors
The amniotic membrane is described as a “live enzyme bank”
– Speeds up wound healing,
– Reduces pain,
– Lowers the risk of infection,
– Minimizes scar formation.
What is an Amniotic Membrane?
The amniotic membrane is part of the placenta. It is the tissue closest to the baby during intrauterine development and protects the baby from any harm by serving as an immune-privileged protective barrier throughout the baby’s development in the womb.
Mechanism of Action of the Amniotic Membrane
The amniotic membrane uses growth factors to support healing and provide mechanical protection. It starts epithelialization by creating a matrix for cellular migration and proliferation and suppresses inflammation. By reducing the contact of exposed nerve endings with air, it reduces pain. It acts as a natural barrier in the wound area and has a preventative effect on scar formation.
it is Safe The amniotic membrane, which functions as a biological dressing is:
Non-allergenic
Non-toxic
Non-synthetic
Areas of Use
Ophthalmology
Provides rapid epithelialization on the surfaces of the cornea and conjunctiva. Reduces inflammation and scar tissue.
Orthopedics
AmnionGraft can be a successful alternative to currently used products for targeted bone regeneration.
Wound Care
AmnionGraft is suitable for use in accelerating wound healing, reducing pain, and improving quality of life by reducing amputation and mortality caused by peripheral wounds.
Urology - Gynecology
The widely recognized ability of AmnionGraft to assist in tissue healing and regenerative repair can also be considered for use in the field of urology.
Neurosurgery
AmnionGraft has the potential to assist in nerve healing and axonal regeneration, providing functional improvement in patients.