GniomCheck

80% of pathologies have a digestive origin

Discover the universe of your microbiota

GniomCheck is an innovative analysis of the intestinal flora based on the DNA of bacteria. This analysis not only identifies certain bacterial strains (like the methods known so far), but also detects and interprets almost the entire spectrum of intestinal bacteria. It requires a tiny stool sample, which can easily be taken at home, before being sent to the lab.

80% of pathologies have adigestive origin

What if the secret to your well-being was in your intestines?

Our belly is a key player in our health, our morale and even our weight!
The bacteria that line it and form the microbiota participate not only in digestion but also in the proper functioning of the immune system, the production of neurotransmitters, the regulation of appetite and many other mechanisms.

High Throughput Sequencing

Upon arrival in our laboratory, the sample undergoes quality control, then the microbial DNA is extracted through proprietary laboratory procedures, before being analyzed with the most modern high throughput sequencing (SHD) methods.

Analysis Pipeline

The quality of DNA sequences is checked in our proprietary software pipeline, then the sequences are compared to all known microbial genomes to determine your microbiota profile.

Microbiota Profile

Your profile is then studied by comparison with an exclusive knowledge base in order to determine the most diverse physiological properties, in particular concerning digestion, the tendency to gain weight, food intolerances, vitamin synthesis, etc.

What is Photobiomodulation?

Photobiomodulation therapy is defined as the utilization of non-ionizing electromagnetic energy to trigger photochemical changes within cellular structures that are receptive to photons. Mitochondria is particularly receptive to this process. At the cellular level, visible red and near infrared light (NIR) energy are absorbed by mitochondria, which perform the function of producing cellular energy called “ATP”. The key to this entire process is a mitochondrial enzyme called cytochrome oxidase c, a chromophore, which accepts photonic energy of specific wavelengths when functioning below par.

What are the Mechanisms ofPhotobiomodulation?

The current and widely accepted proposal is that low level visible red to near infrared light (NIR) energy is absorbed by mitochondria and converted into ATP for cellular use. In addition, the process creates mild oxidants (ROS), which leads to gene transcription and then to cellular repair and healing. The process also unclogs the chain that has been clogged by nitric oxide (NO).[1] The nitric oxide is then released back into the system. Nitric oxide is a molecule that our body produces to help its 50 trillion cells communicate with each other. This communication happens by transmission of signals throughout the entire body. Additionally, nitric oxide helps to dilate the blood vessels and improve blood circulation.

Photobiology is the study of the effects of non-ionizing radiation on biological systems. The biological effect varies with the wavelength region of the radiation. The radiation is absorbed by molecules in skin such as DNA, protein or certain drugs. The molecules are changed chemically into products that initiate biochemical responses in the cells.

Effective and painless therapy

This synergy allows the MILTA to act at an unequal depth, which is inaccessible to conventional LEDs, thanks to the informational propagation of photon up to 13 cm in the soft tissues.

This advance is very effective, painless, athermic, non-invasive & without any side effects which has been the subject of many scientific works since the 1970s. In order to make the practitioner’s work easier, MILTA has developed preset programs which allow them to choose the desired therapeutic action.

The NPCL (Nano-Pulsed Cold Laser) emissions in coherent infrared light, at 905 nanometers

Non-coherent emissions, pulsed by trichromatic RGB CSM diodes (400 to 650 nm)

Continuous non-coherent infrared emissions monochromatic diodes at 905 nanometers

A constant circular magnetic field (200 millitesla) equivalent to the terrestrial magnetic field

The effect of the magnetic tunnel potentialities the light propagation

Led Phototherapy

The field of phototherapy is experiencing a recent boom thanks to the development of LED technology. This low-voltage light source creates an emission belonging to the visible and infrared spectrum. Protecting the skin covering: this cold light source presents no risk of irritation or burning. Non-invasive: This method has no possible side effects. It has also been shown that it increases the effects of other treatments. Biological innovations integrated with the device.