Lactose is a milk sugar that belongs to the group of disaccharides, composed of glucose and galactose, and is an important energy source, especially in infants. The enzyme responsible for the breakdown of lactose in the digestive system is lactase, and reduced enzyme functionality is one of the key reasons for lactose intolerance, i.e., the inability to properly digest lactose. If lactase is not expressed on the microvilli, we refer to this as lactase deficiency, which can manifest as malabsorption or intolerance. There are four types of lactase deficiency, depending on the timing and characteristics: congenital, developmental, primary, and secondary lactose intolerance. Primary lactose intolerance, also known as adult hypolactasia, is associated with a genetic predisposition. Adult hypolactasia occurs due to a decline in enzyme activity and is linked to lactose non-persistence. Individuals who retain normal lactase activity in adulthood are considered lactose persistent. It is known that the population of Northwestern Europe is generally lactose tolerant, while Southern Europe, Africa, and certain Asian countries have a higher prevalence of adult hypolactasia. Variants of the LCT gene that lead to lactose non-persistence are located on chromosome 2 in introns 13 and 9 of the MCM6 gene. Using the molecular-genetic method PCRRFLP, we analyzed nucleotide changes in DNA to determine the presence of LCT-13190 C>T (rs4988235) and LCT-22018 G>A (rs182549) polymorphisms in 350 subjects (175 men and 175 women) from the Croatian population. In our sample, the frequency of the T allele for the LCT13910C>T polymorphism was 33.6%, and the A allele for the LCT-22018G>A polymorphism was 35.0%, with no statistically significant difference between genders. The results obtained for the Croatian population are consistent with those of neighboring countries and align with the existing north-south gradient in Europe for the LCT-13910T allele.