One of the great promises of genetic testing is personalized medicine — allowing your physician to prescribe the medication that is optimal for you based on your genotype. This kind of information can save you significant time, money and unnecessary suffering. Your genetics can determine how effective a particular drug is for you. In addition, your genetics may place you at risk of side effects for some drugs.
- Abacavir hypersensitivity
- Aminoglycoside antibiotics-induced hearing loss
- Beta-blockers
- Beta-blockers, LVEF-response
- Carbamazepine hypersensitivity
- Clopidogrel metabolism
- Estrogen supplementation
- Interferon-alpha/ribaviron
- Methotrexate toxicity
- Metoprolol metabolism
- Phenytoin hypersensitivity
- Phenytoin metabolism
- Proton pump inhibitors
- Simvastatin-induced myopathy
- Variconazolemetabolism
- Warfarin sensitivity
Food Reactions
- Alcohol flush
- Bitter taste
- Caffeine metabolism
- Lactose intolerance
- Sweet taste
Nutritional Needs
- Genetic risk due to decreased vitamin B2
- Genetic risk for decreased vitamin A
- Genetic risk for decreased vitamin B12
- Genetic risk for decreased vitamin B6
- Genetic risk for decreased vitamin C
- Genetic risk for decreased vitamin D
- Genetic risk for increased vitamin E
- Genetic risk for decreased folate
Food Reactions
- Alcohol flush
- Bitter taste
- Caffeine metabolism
- Lactose intolerance
- Sweet taste
Nutritional Needs
- Genetic risk due to decreased vitamin B2
- Genetic risk for decreased vitamin A
- Genetic risk for decreased vitamin B12
- Genetic risk for decreased vitamin B6
- Genetic risk for decreased vitamin C
- Genetic risk for decreased vitamin D
- Genetic risk for increased vitamin E
- Genetic risk for decreased folate
Eating Behavior Traits
- Eating disinhibition
- Food desire
- Hunger
- Satiety - feeling full
- Snacking
- Sweet tooth
Food Reactions
- Alcohol flush
- Bitter taste
- Caffeine metabolism
- Lactose intolerance
- Sweet taste
Nutritional Needs
- Genetic risk due to decreased vitamin B2
- Genetic risk for decreased vitamin A
- Genetic risk for decreased vitamin B12
- Genetic risk for decreased vitamin B6
- Genetic risk for decreased vitamin C
- Genetic risk for decreased vitamin D
- Genetic risk for increased vitamin E
- Genetic risk for decreased folate
Exercise
- Achilles tendinopathy
- Aerobic capacity (VO2max)
- Blood pressure response to exercise
- BMI response to exercise
- Endurance training
- HDL cholesterol response to exercise
- Insulin sensitivity response to exercise
- Loss of body fat response to exercise
- Strength training
Your Body and Weight
- Genetic risk for decreased adiponectin
- Metabolism
- Obesity (Asian and Caucasian only)
- Weight loss-regain
Metabolic Health Factors
- Genetic risk for decreased HDL cholesterol
- Genetic risk for elevated blood sugar
- Genetic risk for elevated LDL cholesterol
- Genetic risk for elevated triglycerides
Eating Behavior Traits
- Eating disinhibition
- Food desire
- Hunger
- Satiety - feeling full
- Snacking
- Sweet tooth
Food Reactions
- Alcohol flush
- Bitter taste
- Caffeine metabolism
- Lactose intolerance
- Sweet taste
Nutritional Needs
- Genetic risk due to decreased vitamin B2
- Genetic risk for decreased vitamin A
- Genetic risk for decreased vitamin B12
- Genetic risk for decreased vitamin B6
- Genetic risk for decreased vitamin C
- Genetic risk for decreased vitamin D
- Genetic risk for increased vitamin E
- Genetic risk for decreased folate
Exercise
- Achilles tendinopathy
- Aerobic capacity (VO2max)
- Blood pressure response to exercise
- BMI response to exercise
- Endurance training
- HDL cholesterol response to exercise
- Insulin sensitivity response to exercise
- Loss of body fat response to exercise
- Strength training
Your Body and Weight
- Genetic risk for decreased adiponectin
- Metabolism
- Obesity (Asian and Caucasian only)
- Weight loss-regain
Metabolic Health Factors
- Genetic risk for decreased HDL cholesterol
- Genetic risk for elevated blood sugar
- Genetic risk for elevated LDL cholesterol
- Genetic risk for elevated triglycerides