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Geneometry
The term Geneometry is consisted of the terms `gene` for genes und `metry` for measurement and it thereby means as much as ´measuring our genes`.

The Geneometry system was invented by the Bluezones Research Group, together with the working group of Dr. Haslberger and HealthBioCare in Vienna. The aim is to give personalized recommendations for each individual, based on different analysis methods, to achieve the best health status.

For this, it combines different epigenetic and genetic analysis methods. These analyses allow to draw conclusion on the human blueprint- the DNA. The wide-ranging analysis of gene activity, measurement of micro-RNA and DNA-methylation, and of different relevant SNP s, allow a deep sight into our DNA constellation. This broad knowledge allows a totally individually customized nutritional recommendation, which can together, with the knowledge of epigenetic mechanisms of action, lead to an optimization of the human health status.

It is a newly established analysis system that allows to give recommendations for an individual personalized health level.

Geneometrics
Geneometrics describes the bioinformatic part of Geneometry. These are sophisticated algorithm-based processes, which provide specific information to evaluate and monitor health- performance status. These algorithms are based on the measurement of different gene variations in combination with individual factors such as age, gender weight and body composition, and therefore the right amount of nutraceuticals can be assessed for each individual.

DNA-Methylation
Through the determination of the methylation status of different specific and relevant genes we get information of the activeness of our genes. With the administration of epigenetic effective substances, we can interact with these genes and can switch them on or off (5).

SNP-analysis
Through modern SNP-analysis, it is possible to determine possible risk genes for the development of diseases. Furthermore, this knowledge helps us to decide how every individual can be treated to achieve the best health and performance status according to their gene composition (9).

Micro-RNA-Analysis
Micro-RNAs are known to be an important part of the epigenetic regulation system, as they are responsible for the fine-tuning of the gene expression. With the determination of single specific Micro-RNAs, an insight into the current individual epigenetic regulation system can be given and enables one to interact precisely to achieve the best outcome and treatment (10).

Geneometry Healthy Aging Panel
Hereby, selected aging relevant epigenetic markers, such as inflammation and DNA stability as well as the length of telomere, are measured. With this information it is possible to give individualized recommendations, to slow down the aging process (4).

Geneometry Metabolic Health Panel
It is well known, that epigenetic regulation plays an important role in the human metabolic health. This knowledge about nutrigenomics and nutriepigenomics  is used to give personalized nutrition recommendations. Under this aspect, different epigenetic mechanisms, such as DNA-methylation, miRNA and SNPs, are examined to furthermore improve the personal metabolic health through an individualized diet plan.

Advantages
This newly und wide-ranging combination of different analysis methods provides a wide range of information about our DNA constellation as well as body and health status. This wide-ranging knowledge allows us to give a special adapted nutritional recommendation for each individual and to achieve positive effects via epigenetic regulations.