Skip to main content

BIOLOGICAL EFFECTS

The LUXYVET laser diode technology both for therapeutic treatments and for surgical interventions, both on small and large animals, brings various benefits. The laser light that is emitted by the device produces many positive biological and therapeutic effects.

BIOSTIMULATION

Treating the affected area of the animal by means of the use of a diode laser, using a  specific wavelength, we can produce a biostimulation of the tissues.

This leads to a stimulation of metabolic processes and an improvement in tissue regeneration.

In particular, the interaction between the infrared at 810nm of the laser and the mitochondrion catalyzes the production reaction of ATP synthesis, fuel necessary for all repair processes. Furthermore, the same interaction produces cellular mitosis in particular of fibroblasts, which synthesize the components of the extracellular matrix.

HEMOSTATIC EFFECT

The application of the Luxyvet laser produces hemostasis, i.e. the interruption of bleeding; this produce a drier and clearly visible operating area. Furthermore, with this effect the risk of bleeding during surgery is limited, avoiding the necrotic effect too.

These results are mainly produced by the interaction of the 810nm laser with the heme of hemoglobin.

ANTI-INFLAMMATORY EFFECT

It is the process that reduces inflammation on the mucosal and  tissues

When we irradiate the inflamed tissue with the Luxyvet laser, we reduce the concentration of cytokines, present in all inflammatory processes. The laser naturally fulfills the function that an anti-inflammatory drug would perform chemically.

Fibroblast
Cell structure
Mitochondrion
Structure of the mitochondrion
Hemoglobin
Melanin
Nomenclature
Cytokines

BIOSTIMULATION

Treating the affected area of the animal by means of the use of a diode laser, using a  specific wavelength, we can produce a biostimulation of the tissues.

This leads to a stimulation of metabolic processes and an improvement in tissue regeneration.

In particular, the interaction between the infrared at 810nm of the laser and the mitochondrion catalyzes the production reaction of ATP synthesis, fuel necessary for all repair processes. Furthermore, the same interaction produces cellular mitosis in particular of fibroblasts, which synthesize the components of the extracellular matrix.

Fibroblast
Cell structure
Mitochondrion
Structure of the mitochondrion

HEMOSTATIC EFFECT

The application of the Luxyvet laser produces hemostasis, i.e. the interruption of bleeding; this produce a drier and clearly visible operating area. Furthermore, with this effect the risk of bleeding during surgery is limited, avoiding the necrotic effect too.

These results are mainly produced by the interaction of the 810nm laser with the heme of hemoglobin.

Hemoglobin
Melanin

ANTI-INFLAMMATORY EFFECT

It is the process that reduces inflammation on the mucosal and  tissues

When we irradiate the inflamed tissue with the Luxyvet laser, we reduce the concentration of cytokines, present in all inflammatory processes. The laser naturally fulfills the function that an anti-inflammatory drug would perform chemically.

Effetto Biologico Biological Effects
Nomenclature
Cytokines

ANALGESIC EFFECT

The emission of laser light, applied to specific areas of the patient, allows to produce an antalgic effect, i.e. the physiological reduction of pain.

In particular, this is achieved thanks to the interaction of the laser light with the neuromodulators/neurotransmitters of pain, obtaining the polarization of the myelinated and unmyelinated bundles, modulating the response of the Oligodendrocytes of the central nervous system and of the Schwann cells of the peripheral nervous system.

DECONTAMINATION

The laser light emitted by the Luxyvet devices allows to obtain a decontaminating and bactericidal effect. In particular, the induced thermal stimulation produced by the device involves the elimination of viruses, gram+ and gram- pathogenic bacteria and the complete eradication of pathogens.

SURGICAL EFFECT

The Luxyvet laser cauterizes tissue as it cuts, reducing bleeding during surgery and increasing visibility. Furthermore, its high precision allows surgeons to operate in a specific and controlled target areas, avoiding damage to the surrounding tissues and the risk of any complications, especially improving postoperative healing.