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Stem cells treatment procedure

stem cells procedure

Treatment with adipose stem cells is a short and harmless procedure that can be done within a day. Obtaining Adipose-Derived Stem Cells (ADSCs) is much easier and less invasive than performing a bone marrow extraction. In addition, adipose tissue contains much larger volumes of mesenchymal stem cells than bone marrow does. We use the patient's own adipose tissue to extract the stem cells necessary for the treatment.

Our technology allows us to complete the entire procedure in the same day, using less than minimally manipulative methods, and what is more important total safety. A high-dose of stem cells can be obtained in just a couple of hours. This inpatient treatment is short, and there is no need to ship samples to an outside laboratory and wait days for the cells to be returned for an injection on a second visit. This quickened process provides increased stem cell counts without manipulation. Treatment process is done in 4 simple stages:


Treatment procedure video


HARVESTING

A small amount of fat (200 cc) is taken from patient’s waist area – method is similar to liposuction.

Harvesting Adipose-Derived Stem Cells (ADSCs) is much easier procedure than in a case of bone marrow extraction – the adipose tissue contains much larger volumes of stem cells than bone marrow does. As we use the patient's own adipose tissue to extract the stem cells it means that the donor and the recipient are the same person, so there is no danger of host rejection.


SEPARATION

Stem cells are separated from fat cells in high-speed stem cell centrifuge machine where centrifugal force separates dormant stem cells from harvested fat.


ACTIVATION

Isolated stem cells, after enrichment with patient’s blood plasma are photo activated in AdiLight machine and prepared for transfer in the body.


TREATMENT

Activated stem cells are added to saline drip bag and returned to patient’s body via standard IV drip while patient is peacefully resting.

Healing is a complex process, involving mechanisms at both the molecular and cellular levels, but simplified it looks like this: When activated stem cells return to patient's body, they are circulating the system for a short time until they become attracted to proteins which is secreted in the area of the damaged tissue. Stem cells then rush and home to that injured area, and start turning into new tissue.

stem cells treatment procedure process

New inovative methods for boosting stem cells treatment results

Various conditions and diseases lead to metabolism disorders, impaired immune system and increased generation of free radicals.

Specific symptoms of every disease cause certain neurological, musculoskeletal and general health disorders and dysfunctions.

Stem cells, as undifferentiated cells, are bearers of health recovery. In order to increase their volume and hardiness, and to improve chances for implantation, we should detoxify the body, speed up its regenerative processes and reduce the symptoms of any disease.

Standard medical practice uses a large amount of pharmacological agents which reduce the body's natural ability for self-defense and regeneration, leading to failure of metabolic and immunological processes, hemodynamics and cells regenerative ability.

An excellent foundation process for stem cell treatment includes:


LASER BLOOD STIMULATION

Numerous studies showed a large influence of laser light on white blood cells - growth factors of antibodies, interferons and interleukins, lowering of blood cholesterol, increase in blood viscosity, antibacterial and antiviral effect. Laser blood stimulation also increases the blood flow, the flow of nutrients, strengthens the immune system which increases body resistance to diseases and increases the number and stability of stem cells.

The treatment accelerates the healing process, active and resilient stem cells which could be separated and activated in later processes. In addition to these effects, laser blood stimulation has some specific helpful side effects.


OXYGEN:

Every cell needs oxygen to live. Diseases that are hard and persistent create extreme conditions in the body which endanger metabolism and oxygenation on cellular level. Every cell (including stem cells) needs certain amount of oxygen and energy to survive. Oxygenation achieves blood vessels dilation, has anti-inflammatory effect and boosts the immune system. Approximately 8 times increased formation of the perfusion-promoting hormone prostacyclin leads to significant vasodilatation trough the entire body.

Increased blood flow is achieved on all levels. Capillary blood flow enables enlarged number of stabile and resilient stem cells, which increases the percent of their survival during extraction and activation.

Increasing oxygen level in tissues leads to decreased volume of free radicals, increased oxidoreduction and as a result - diseased tissue/organ becomes more resilient and prone to easier and faster adoption of stem cells with its receptors.

Oxygenation as an independent therapy can be used for treatment of:


PHYSIOTHERAPY:

Physiotherapy is very important and adjusted to every patient dependent on their health condition and diseases.

In preparatory period it is paramount to impact the symptoms:



Activating organism in this preparatory period is the basis for fast and efficient stem cell treatment. After treatment with stem cells, rehabilitation continues.



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