Applications
Math Biology® & DMA® technologies
dramatically improve humanity’s
health and wellness in many different sectors
DMA® (Deep Metabolism Assessment)
Sport
DMA has a significant application in Sports Medicine.
The methodology permits mapping the athletes’ status, verifying the level of physical stress, preventing injuries, optimizing nutrition programs, and maximizing a team’s performances.
The metabolism of athletes, as we know, is high-performing. The Deep Metabolism Assessment (DMA), enabled by Math Biology technology, allows you to detect the balance or imbalance of the different body areas in a few minutes. The method can detect the state of tissue oxygenation, blood perfusion, scarring processes, iron or electrolyte deficiency, the presence of toxins, and much more. Each detected imbalance can be investigated in detail with dedicated DMA protocols, giving the sports doctor of the professional athlete and the family doctor of any amateur sportsman important diagnostic, therapeutic and/or simple metabolic support insights for personalized treatments.
DMA® (Deep Metabolism Assessment)
Nutrition & Wellness
The availability of wearable technology enables low-cost, portable versions of the DMA technology that will empower the information available to individuals to monitor their health, to support their nutrition, and daily activities.
DMA® (Deep Metabolism Assessment)
Early Diagnosis and Personalised Medicine
The Math Biology biotechnologies detect the homeostasis level of the main hormones of the entire neuroendocrine axis: at the systemic level (sympathetic and parasympathetic system) but, even more critical, directly at the level of the main hormonal centers (hypothalamus, pituitary, epiphysis, thyroid, parathyroid, adrenal glands, pancreas, liver, gonads, etc.), allowing to interpret the metabolic feedback. By carefully reading the parameters and their absolute and reciprocal values, it is possible to detect hormonal deficiencies and excesses and enzymes and trace elements.
The Math Biology technology identifies the metabolic status, structural and cellular damages related to autoimmune diseases. For example, in rheumatoid arthritis, psoriasis, ankylosing spondylitis, Crohn’s disease, Hashimoto’s thyroiditis, and many others. The Deep Metabolism Assessment (DMA), enabled by Math Biology biotechnology, makes it possible to establish the cellular and tissue parameters out of balance. Based on the DMA, doctors can easily finetune the corrective actions, ranging from the choice of integrators to the personalized diets to the most suitable therapies minimizing the risk of side effects.
An essential application of the DMA technology is mapping the functioning of the different cerebral areas, evaluating, for example, excess or defects of neurotransmitters. In addition, DMA can support the diagnosis of neurodegenerative disorders such as Alzheimer’s, sclerosis, Parkinson’s.
The Deep Metabolism Assessment, by the Math Biology biotechnology, permits the investigation of the brain structures’ metabolic processes. The assessment considers both the systems: the limbic (e.g. hippocampus, amygdala, corpus callosum, epiphysis, hypothalamus), and the cortical (motor, frontal, prefrontal, temporal, parietal occipital, nuclei of the base). Doctors can evaluate the presence and the progress of neurodegenerations such as beta-amyloid plaque, axonic demyelination, and the formation and progression of neurofibrillary tangles. It is possible to observe the progression of damage from hypo-oxygenation or low blood flow, inflammation and infections of the brain and cerebellum, and electrical anomalies of the spinal column helpful in understanding diseases such as Multiple Sclerosis Sclerosis Lateral Amyotrophic, Parkinson’s disease, and many others.
The Deep Metabolism Assessment (DMA), enabled by the biotechnology Math Biology, permits evaluating the state of health of the entire group of organs dedicated to the complex digestive process. It is possible to assess the metabolic responses to inflammatory interleukins, interferons, hormones, digestive acids and enzymes, and heavy metals and parasites. Based on such evidence, doctors provide personalized dietary and corrections and/or easily identify additional medical investigations (clinical analyzes, imaging). The method also makes it possible to establish favorable or destabilizing interactions between the central nervous system and organs, helping to restore the best possible balance between mind and body through specific diets and optimizing the intervention of psychiatrists, neurologists, and psychologists on the psyche.
It is known that pediatric obesity and overweight can have different etiology: from wrong eating habits related to the culture, or the unavailability of certain foods, prejudices, or wrong beliefs, to metabolic diseases, to hormonal dysfunctions.
The emotional experience also plays a key role in establishing harmful eating behaviors. Finally, systemic diseases that involve antibiotics or other drugs affecting digestion can alter the intestinal microbiota to the point of causing malabsorption, chronic diarrhea, or resistant constipation. All these states are meticulously investigable by the biotechnology Math Biology, enabling the Deep Metabolism Assessment (DMA).
The subdivision into clusters allows health professionals (nutritionists, psychologists, doctors, physiotherapists, etc.) to establish the best behavioral, nutritional, therapeutic correction and implement monitoring to prevent future obesity and/or related diseases.
The Metabolism parameters obtained with Math Biology biotechnology constitute crucial additional data on the degree of improvement or worsening of the subject’s metabolic state.
Through the Deep Metabolism Assessment (DMA), enabled by Math Biology technology, Doctors obtain valuable information on the degree of functioning or impairment of all organs related to breathing. The investigation of lungs, heart, and related systemic and cerebral tissue oxygenation takes place by studying parameters such as Reactive Protein C, CPK (Creatine Phospho Kinase), Troponin, their mutual relationship, and their detection in various organs investigated. The parameters mentioned above, and other crucial information related to tissue oxygenation and the fluidity of the entire respiratory process, are provided by the DMA by the Math Biology non-invasive technology.
The Deep Metabolism Assessment (DMA), enabled by the Math Biology biotechnology, permits the meticulous investigation of the metabolic parameters’ alteration at the base of central and peripheral vasoconstriction or vasodilation and the blood perfusion in organs and brain districts. Strokes, hemorrhages, ischemias, and thrombi leave traces easily detectable by the Math Biology technology and method, empowering the health professional (specialist physician, general practitioner, nutritional biologist) with crucial and objective, to identify the best-personalized and integrated treatments.
Especially in the initial stages, any form of tumor, be it benign or malignant, leads to a metabolic increase due to the increase in cell proliferation of the organ affected by the degenerative process.
The Deep Metabolism Assessment (DMA), enabled by the Math Biology non-invasive technology, permits investigation of organs and early diagnoses.
The technology, permitting to evaluate the organ’s reactivity to inflammatory parameters (Interleukins), Oxidative (Free radicals), proliferative (C-MYC, C-RAS, etc.), and catabolic (nitrogenous waste, sugar and protein catabolites, etc.) provide additional, crucial metabolic information to the traditional clinical investigations.
The examination can be limited to one organ or system or extended to the whole body through a Total-body-DMA (Deep Metabolism Assessment).
Both in the first instance and the control procedure, the method allows important monitoring of the primary tumor and the onset of any metastases in the absolute absence of invasiveness.
A genetic mutation can be incompatible with life or lead early or late to ailments ranging from poor alcohol resistance to fibromyalgia. Even widespread diseases such as celiac disease or diabetes can impact a person’s life to a greater or lesser extent. The Deep Metabolism Assessment (DMA), enabled by Math Biology technology, allows the verification, quantification, and monitoring in a non-invasive way, the damage caused by genetic mutations and personalize behavioral suggestions, food supplements by Psychologists, Biologists, and Medical Doctors. Therapies.
Viruses are of many types and cause many kinds of ailments. Through the Deep Metabolism Assessment (DMA), enabled by the biotechnology Math Biology, it is possible to establish whether viral infections are present and which viruses are involved. It is possible to establish the “reservoir” district or which is most affected. Check for any tissue degeneration and any lesion present. Increase the timeliness of available treatments.
When you know you are intolerant or allergic to a specific substance or food, the most logical behavior is to avoid the source of the metabolic discomfort. However, the search for the cause is often complex or even due to genetics. Through the Deep Metabolism Assessment (DMA), enabled by the biotechnology Math Biology, it is possible to try to trace the cause of allergy or intolerance. Intolerance and allergies can also depend on parasites, fungi, heavy or toxic metals, and physical and psychological trauma. The Math Biology technology offers an investigation protocol suitable for each of the problems mentioned, helping the nutritionist establish the criteria for proper nutrition and detoxification or the doctor select a correct and personalized therapy.
DMA® (Deep Metabolism Assessment)
Telemedicine
The DMA enables a step forward in telemedicine, permitting evaluating several patient parameters in a non-invasive way. DMA bio-Sensors and protocols could be customized to monitor specific parameters easily and combined with additional information from other devices.