The relationship between the phenotype and the genotype is complex in diseases caused by mutations in mitochondrial DNA (mtDNA). The 3243A-->G mutation in mtDNA frequently leads to sensorineural hearing impairment (HI), a phenotype that can be assessed in severity by audiometry; hence, consecutive audiograms can give an estimate of the rate of HI progression. We examined the audiological phenotype of 38 patients (14 men, 24 women; mean age: 45+/-14 years) who possessed the 3243A-->G mutation and who belonged to a population-based cohort ascertained in the province of Northern Ostrobothnia, Finland. The subjects took part in an otorhinolaryngologic examination, including audiometry. Factors modulating the severity of HI were analyzed, and the rate of HI progression was calculated. The better ear hearing level (BEHL) at frequencies 0.5, 1, 2, and 4 kHz (BEHL0.5-4kHz) was greater than 20 dB suggesting HI in 28 patients (74%). A good correlation (r=0.428, P=0.009) was found between BEHL0.5-4kHz and the degree of the mutant heteroplasmy. BEHL0.5-4kHz was worse in men than in women, and women outnumbered men among patients with normal hearing or mild HI. In addition, 181 consecutive audiograms were reviewed from 24 patients with HI. The rate of HI progression was calculated to be 2.9 dB/year in men and 1.5 dB/year in women, being clearly faster than the rates that have been observed in the corresponding age group in the general population. A high degree of mutant heteroplasmy, male gender, and age were found to increase the severity of HI. Phenotypic difference by gender may thus be a more universal phenomenon in mitochondrial diseases, not only being associated with Leber's hereditary optic neuropathy. This study provides the first estimate of the rate of disease progression among patients with the 3243A-->G mutation.