Three analyses, more than 60 markers. Genetics reveals your predispositions, the microbiome reveals your inner ecosystem, blood values reveal your current state. Here you can see exactly what is examined.
Your genetic blueprint shows how your body processes nutrients, responds to stress and detoxifies harmful substances. More than 30 gene variants across nine metabolic areas, plus indicators for individual metabolic responses.
In partnership with Nordic Laboratories, Copenhagen
Regulates how fats are removed from the bloodstream, influencing triglyceride levels and insulin concentration.
Controls HDL metabolism and is considered an independent risk factor for coronary heart disease.
Influences the breakdown of triglyceride-rich lipoproteins and your overall fat metabolism.
Determines your cholesterol levels and your response to dietary interventions.
Protects LDL and HDL from oxidation and reduces the risk of atherosclerosis.
Key enzyme in folate metabolism. T-allele carriers require methyl-folate rather than standard folic acid.
Second variant in the same gene, influences the efficiency of folate utilisation.
Controls the conversion of homocysteine to methionine within the methylation cycle.
Regulates an essential cofactor of methionine synthase.
Determines your need for choline, a central nutrient for cell membranes and liver metabolism.
Regulates homocysteine levels via the methionine cycle.
Influences the breakdown of dopamine, noradrenaline and oestrogens.
Phase I enzyme that converts environmental toxins and carcinogens into reactive intermediates.
Second variant in the same gene, influencing the activation of harmful substances.
Phase II enzyme that removes xenobiotics and carcinogens from the body.
Plays a role in detoxifying oxidative stress, particularly active in the lungs.
Catalyses the conjugation of reduced glutathione with harmful substances.
Detoxifies potentially mutagenic and carcinogenic quinones, protecting against oxidative stress.
Pro-inflammatory cytokine that regulates CRP expression and influences obesity risks.
Pro-inflammatory cytokine that modifies glucose homeostasis and insulin resistance.
Control inflammation activation across multiple gene loci.
Negative regulator of the pro-inflammatory response, balancing immune activity.
Regulates vascular tone via endothelial nitric oxide.
Destroys free radicals in the mitochondria, critical for cellular health.
Antioxidant enzyme catalase that converts hydrogen peroxide into water and oxygen.
Glutathione peroxidase that maintains redox balance and requires selenium as a cofactor.
Vitamin D receptor variant influencing calcium absorption and the risk of osteoporosis.
Second variant in the VDR gene, influencing bone turnover and bone density.
Third VDR variant, relevant for bone mineral density.
Encodes collagen type 1, a main component of the bone matrix.
Regulates adipocyte differentiation and insulin sensitivity.
The most important genetic risk factor for type 2 diabetes worldwide.
Glucose transporter in the liver that regulates blood sugar levels.
Classic obesity variant influencing appetite regulation and body weight.
Converts beta-carotene into active vitamin A. Variants reduce the conversion rate.
Liver enzyme that activates vitamin D into its active form.
Vitamin D-binding protein that transports vitamin D metabolites to target tissues.
Influences vitamin B12 absorption and the microbiome.
Plays a role in vitamin C metabolism and antioxidant balance.
Determines whether you can tolerate lactose as an adult.
Genetic risk for gluten intolerance and coeliac disease.
Determines how quickly your body breaks down caffeine.
Regulates alcohol metabolism; variants lead to a flush reaction.
Risk for iron overload and haemochromatosis.
Determine your salt sensitivity and blood pressure response.
Controls the conversion of plant-based omega-3 fatty acids into EPA and DHA.
Your gut microbiome shapes digestion, immunity, inflammation levels and energy balance. More than 1,000 bacterial species are analysed from a stool sample and translated into functional indicators.
Analysed with Biomes Diagnostics · Results within 2 to 3 weeks
The primary score of your microbiome. Shows how stable and resilient your gut ecosystem is currently functioning.
Scientifically the strongest microbiome marker. Correlates with metabolic flexibility, immune function and long-term health.
The most important risk marker. Elevated proteobacteria indicate dysbiosis, inflammation and mucosal stress.
Functional health marker. Shows how well your microbiome balances inflammatory processes.
Evaluates the integrity of your gut lining. Relevant in the context of leaky gut and systemic inflammation.
Shows how effectively your microbiome produces certain vitamins independently.
Evaluates bacterial clusters associated with metabolism and weight management.
Your blood values show how your body is functioning today. More than 25 functional markers that go far beyond a standard blood count and can be interpreted in direct relation to your genetics and microbiome.
Including erythrocyte indices such as MCV, MCH and MCHC — central baseline markers for anaemia, inflammation and cellular health.
Liver enzyme, elevated in liver damage or cellular stress.
More specific liver marker, important for the diagnosis of liver disease.
Highly sensitive marker for liver stress, often elevated with alcohol consumption.
Enzyme from liver and bone, important for detox function and bone health.
Breakdown product of red blood cells, indicates liver function and bile flow.
Current blood sugar level without food intake.
Shows how much insulin your body needs to regulate blood sugar.
Long-term blood sugar value over the past 2 to 3 months — the most important diabetes marker.
Classic baseline value for the lipid profile.
The good cholesterol, transporting cholesterol back to the liver.
The bad cholesterol — an important risk marker for atherosclerosis.
Storage form of fats, elevated with insulin resistance and dietary issues.
Genetically determined, independent risk factor for cardiovascular disease — often overlooked in standard check-ups.
Highly sensitive inflammation marker — one of the most important values for assessing cardiovascular risk.
Central functional marker for methylation, elevated with B vitamin deficiency.
Essential vitamin for methylation, nerve function and blood formation.
Co-factor in methylation, often additionally relevant.
Iron store, important for oxygen transport and energy production.
Storage form of vitamin D, relevant for bone health, immune function and mood.
Trace element essential for the thyroid and antioxidant systems.
Proportion of EPA and DHA in cell membranes — one of the most effective levers for inflammation resilience.
Three analyses. A personal evaluation. A plan tailored to your body. €990, one-time.
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