Hypertrophic cardiomyopathy (HCM) is defined as primary hypertrophy of the heart muscle, usually the left ventricle which is not dilated. HCM is a relatively common disease with a prevalence estimated at about 1 in 500. It is a complex disease with relatively stereotypical anatomical features but a very variable clinical presentation with a major risk of complication. All forms may be observed from almost asymptomatic hypertrophy to severe familial forms with multiple cases of sudden death. Over the last few years, molecular studies of the genetic abnormalities responsible for HCM have improved our understanding of the clinical variability of this disease. Schematically, HCM is caused by mutation of one of 4 genes which code the proteins of the sarcomere: the gene of the heavy chain of beta-myosin, the gene of cardiac T-troponin, the gene of alpha-tropomyosin and the gene of protein C linked to cardiac myosin. The main problem for clinicians is not making the diagnosis, which is relatively simple by echocardiography, but to assess the risk of complications, especially in adolescents and young adults. Patients over 40 to 45 years of age pose fewer problems as their disease is generally associated with a better prognosis since they have already survived to that age. There are many prognostic factors of sudden death, a reflection of the multifactorial character of sudden death in this disease. Four major risk factors have been identified: a family history of sudden death, abnormal blood pressure changes on exercise, a history of syncope and non-sustained ventricular tachycardia on 24 or 48-hour Holter monitoring. In children and adolescents, only the first three factors may be used, knowing that syncope, though rare, carries a very poor prognosis. On the other hand, in adults up to 40, all 4 factors are valid. Unfortunately, their positive predictive value is relatively poor, all the patients with one of these risk factors not automatically experiencing sudden death. On the other hand, their negative predictive value is excellent. Therefore, a patient with none of these factors has an excellent prognosis and should be allowed to lead a normal life. The risk is considered to be high when 2 or 3 of the factors are associated, theoretically justifying aggressive management (amiodarone? defibrillator?). Finally, there is no established management protocol in cases with a single risk factor. The discovery of mutations causing HCM will probably open up new methods of assessing the risk of sudden death in this disease. It would seem to be possible to assess the impact of the genotype on prognosis. However, this "genetic stratification" remains the realm of top research teams and is not yet accessible routinely in clinical practice.