A Genomic Checkup is . It analyzes specific variations in your genetic code (called SNPs, or single nucleotide polymorphisms). Unlike a full genome sequence (which reads every single letter of your 3 billion DNA base pairs), a targeted genomic checkup looks at thousands of well-researched "hotspots" linked to common diseases.
That is the promise of the . It is not science fiction. It is not a crystal ball. It is a sophisticated blood or saliva test that reads your DNA to predict, prevent, and personalize your medical future. What Is It, Exactly? For decades, a standard “checkup” meant blood pressure, cholesterol, blood sugar, and a physical exam. These are reactive measures—they tell you what is happening right now .
The new model, thanks to the Chequeo Genómico: Read the blueprint, reinforce the weak walls, and never wait for the roof to cave in.
Variants in genes related to vitamin D receptors, celiac disease (HLA-DQ2/DQ8), or chronic inflammation (like IL-6 or TNF-alpha) can explain mysterious fatigue, joint pain, or brain fog.
This is life-saving. Your genes determine if common drugs—from blood thinners like warfarin to antidepressants like escitalopram—will work, do nothing, or cause severe side effects. Knowing this before a prescription can prevent emergency room visits.
Your liver’s detox pathways (Phase 1 and Phase 2) are genetically hardwired. Some people are “slow detoxifiers” (GST or SOD genes), meaning they are more vulnerable to environmental toxins, smoke, or alcohol. The checkup flags this. The Two Most Common Reactions Reaction A: “So it’s fate. If my gene says ‘high risk for diabetes,’ I’m doomed.” False. Genes load the gun; lifestyle pulls the trigger. A genomic checkup is most powerful when it reveals a weakness you didn’t know you had. Example: You have a PPARG gene variant that lowers insulin sensitivity. Knowing that, you can prioritize strength training and low-glycemic carbs—dramatically reducing your real-world risk.
Are you genetically prone to high triglycerides, LDL cholesterol, or hypertension? Some people can eat eggs guilt-free; others have a genetic variation that makes them hyper-responders to dietary cholesterol. The test reveals your unique roadmap.
Why does Keto work for your friend but not for you? Why do you crave caffeine? Certain genes (like FTO, MTHFR, or CYP1A2) influence how you metabolize fats, carbohydrates, caffeine, and even folate. The result: a personalized nutrition guide, not a generic diet.