HOW IT WORKS
The Photo Biotech modality systems are a revolutionary non invasive therapy for body, hair , face and skin regeneration and rejuvenation. Photo Biotech uses phototherapy treatments with extra super luminous laser diodes and multiple wave lengths of light to treat target areas. Our advanced system safely penetrates and stimulates the cells causing an immediate regeneration in the skin, face, body or hair follicle and its supporting tissue. Proven and significant results are achieved using any modality of Photo Biotech System. With a proper treatment program these results can be further enhanced and maintained. Photo therapy is a breakthrough skin, body and hair treatment with all the benefits of plastic surgery without pain, invasiveness or down time. The biostimulation effects are a fantastic technological advances for treating various types of alopecia, telogen effluvium, P.acnes bacteria, porphyrins, cellulite, fat and collagen. Simply using these treatment modalities can reverse the signs of hair loss, aging, acne, fat or cellulite and hold off the need for more invasive procedures almost indefinitely. There is no use of anesthesia, gels, creams, numbing agents, needles and no downtime. It is safe, pain free, non invasive affordable, comfortable and can improve overall well being and appearance for years to come. These treatments can be used in conjunction with other treatments. Results are noticeable and measurable.
Phototherapy and Bio-Stimulation
Phototherapy uses low-level lasers or light-emitting diodes to elicit biological responses in the body. The effects of LLLT appear to be limited to a specified set of wavelengths of laser.
Phototherapy is an interdisciplinary branch of laser therapy that involves the study and application of light energy with respect to health and disease. Tissue in the human body is influenced through the nervous system. A symptom could result from a miscommunication in the nervous system and that specific tissue. Phototherapy incorporates bio-stimulation effects in rehabilitating the neurological miscommunication associated with a variety of symptoms. Laser bio-stimulation devices are common modalities used by a variety of practitioners, including: hair regeneration, BMI management, dermatology, surgical support, wound healing, tissue repair, and pain management.
Red Light Irradiation "has been shown to increase electron transfer in purified cytochrome oxidase, increase mitochondrial respiration and ATP synthesis in isolated mitochondria, and regulate cytochrome oxidase activity in cultured neuronal cells." Additionally, research explains that the mitochondrially generated a reactive oxygen function as a way for the molecules within the cell to communicate more effectively between the mitochondria, cytosol, and nucleus. Phototherapy has effectively shown to be a safe, non-invasive modality that is beneficial to cellular communication and accelerated healing in a variety of conditions.
Mechanism of Laser Bio-Stimulation
Photo Biotech's advanced proprietary dosimetry pertains to coherence, monochromaticity, wavelength, total fluence, pulse-structure, polarization state, and power density. Treatment repetition has proven results in the various modalities of Photo Biotech devices for treatment. The latter resulting in successful molecular, cellular and tissue mechanisms which transduce signals from the incident photons via chromophores and signaling pathways to the observed biological effects.
Photo Biotech has researched these events and has discovered a likely mechanism which applies in phototherapt involves alteration of mitochondrial respiration that both increases cellular ATP levels and at the same time produces intracellular reactive oxygen species (ROS). We believe that these ROS activate cellular pathways are designed to cope with low levels of oxidative stress. Redox-sensitive transcription factors such as NF-kB are activated, leading to expression of an array of gene products that prevent apoptosis and cell death, stimulate fibroblast proliferation, migration and collagen synthesis, modulate the inflammatory and anti-oxidant response, and stimulate angiogenesis and tissue repair.
Neuronal cells respond well to phototherapy due to their high mitochondrial activity, in addition, we have shown that vitro low level laser therapy has a biphasic dose response. This therapy can protect cultured cortical neurons from oxidative stress and from excitotoxicity.