Mutations in BRCA1 and BRCA2 account for about 40% of families with an inherited susceptibility to breast and/or ovarian cancer. Mutational analysis of these two genes has become the standard of care for families with a strong suggestion of inherited susceptibility. Methodologies for screening vary, but one of the more popular techniques is dHPLC, due to its combination of high sensitivity and low cost. The presence of a large number of polymorphisms in the two BRCA genes complicates dHPLC analysis, often leading to complex elution profiles. There are concerns that a pattern produced by a sample heterozygous for a polymorphism may be very similar to that produced by a sample heterozygous for a unique mutation within the same amplicon. Further molecular analysis is often required to resolve whether any given shift is due to a polymorphism or a disease-causing mutation. The use of ancestral haplotypes was explored as a means to minimize the need for further analysis. Groups of 86 patients were genotyped for 12 BRCA1 polymorphisms or 20 BRCA2 polymorphisms. For BRCA1, eight distinct haplotypes were identified, which are largely derivatives of two main lineages. For BRCA2, 17 distinct haplotypes were identified, leading to a much more complex polymorphic pattern. With this knowledge, we have defined a system to determine which patients, if any, require further investigations. This method could be used to supplement any comprehensive screening methodology for other large genes that lie within strong regions of linkage disequilibrium such as NF1, CFTR, MLH1, or MSH2.