PBM Photomedicine.

PBM is a state-of-the-art medical center with the most advanced medical procedures in Latin America.

Biophotonic medicine allows for the precise and highly accurate treatment of various types of diseases though the use of high and low-intensity lasers.

These lasers are highly specialized and employ non-invasive procedures to enhance health with high efficacy, quite simply, it’s the medicine of the future.

Biophotonic treatments are capable of eliciting a powerful biological response that can be performed though photobiomodulation or PBM, and in combination with photosensitizers that are activated exclusively at the irradiation point in photodynamic therapy or PDT.

The application technique allows light to enter the body, achieving a scattering effect through tissues according to complex radiative transfer equations.

Each light particle can change direction more than 400 times per centimeter.

Therefore, biophotonic medicine relies on specific programming and doses based on intelligent technology that, through light transport simulations, considers a six-layer model: stratum corneum, epidermis, melanin, basal layer, dermis, and subcutaneous tissue until reaching the final target point.

Specific dose programming for each case allows for reproducible results in individuals with diverse morphologies.

The optical dosimeter adjusts for each condition to achieve the optimal scheme of cellular stimulation, inhibition, or destruction.

Observable benefits with biophotonic medicine, specifically in the photobiomodulation aspect, include hormonal modulation, inflammation reduction, improved circulation, blood pressure regulation, glucose level regulation, modulation of brain waves for neurodegenerative conditions, and cognitive enhancements.

Photobiomodulation treatment can halt the progression of conditions related to mitochondrial dysfunction and oxidative stress, including Parkinson’s disease.

It significantly reduces the size of infarctions produced by strokes in the acute treatment phase.

Target tissues for PBM treatments may include arteries, veins, joints, soft tissues, internal organs, tumors, and bone structures.

Depending on the therapeutic goal, it is possible to stimulate or inhibit specific cellular or mitochondrial functions, induce the secretion of energy reserves, promote nuclear transcription, and release signaling factors into the bloodstream.

The profound biological effects produced in biophotonic treatments can be measured throughout the body.

Proper light dosage triggers nuclear transcription that improves cellular function for various applications, such as wound healing, tissue regeneration, and the migration and endogenous activation of stem cells.

The effectiveness of Photobiomodulation is finely tuned through strategic choices in wavelength, power density, total deposited energy, and pulsation mode.

The dynamic dose-response of Photobiomodulation follows a two-phase pattern with opposing effects, emphasizing the need for a personalized approach to achieve optimal therapeutic results in each patient.

The dose is adjusted for each treatment based on the characteristics of the target tissue and the surrounding tissues to ensure an optimal outcome.

Photodynamic Therapy is a photopharmacological approach that uses low to moderate optical powers, where a photosensitizer is administered and then selectively activated by light in a precisely delimited area.

This allows for highly targeted action through localized tissue irradiation and is a highly effective tool for cancer, psoriasis, macular degeneration, among others.

The specific type of light that is used in PDT must be selected to produce the maximum possible activation of the photosensitizer.

However, since many photosensitizers are activated by blue and green light, which do not penetrate deeply into the body, they are not commonly used for treatments in internal organs.

Our intra-corporeal light injection systems can provide photoactivation at arbitrarily large depths within the soft tissues of the body, marking a significant step in addressing conditions typically considered unattainable.

Non-thermal applications of light generate conditions that benefit from treatments with localized thermal effects produced by high-intensity light sources.

Real-time monitoring allows for these treatments to be carried out safely and effectively, resulting in antitumor treatments via direct damage such as hyperthermia and ablation of tumor tissues, as well as the regeneration of collagen fibers in joints and skin, musculoskeletal conditions, and highly effective aesthetic procedures.

Cutting-edge devices used in biophotonic medicine employ intelligent programming for the personalized application of precision radiometric light treatment, based on photobiomodulation, photodynamic therapy, and high-intensity laser treatments.

In all its modalities, biophotonic medicine requires systems to generate, transport, and deposit light in target cellular tissues with high precision.

This requires directing light to the treatment area and producing the absorption of the desired amount of energy.

To achieve this, a personalized approach is necessary in establishing optimal optical doses, as each body presents optically distinct conditions: skin color, epidermal and dermal thickness, as well as subcutaneous tissue.

PBM.

The medical technology of the future, now in your hands.

We care for your health, We care for your life!