Carolyn Farrell

Genetic Cancer Risk Assessment and Counseling: Recommendations of the National Society of Genetic Counselors

These cancer genetic counseling recommendations describe the medical, psychosocial, and ethical ramifications of identifying at-risk individuals through cancer risk assessment with or without genetic testing. They were developed by members of the Practice Issues Subcommittee of the National Society of Genetic Counselors Cancer Genetic Counseling Special Interest Group. The information contained in this document is derived from extensivereview of the current literature on cancer genetic risk assessment and counseling as well as the personal expertise of genetic counselors specializing in cancer genetics. The recommendations are intended to provid information about the process of genetic counseling and risk assessment for hereditary cancer disorders rather than specific information about individual syndromes. Key components include the intake (medical and family histories), psychosocial assessment (assessment of risk perception), cancer risk assessment (determination and communication of risk), molecular testing for hereditary cancer syndromes (regulations, informed consent, and counseling process), and follow-up considerations. These recommendations should not be construed as dictating an exclusive course of management, nor does use of such recommendations guarantee a particular outcome. These recommendations do not displace a health care providers professional judgment based on the clinical circumstances of a client.

Locus heterogeneity, anticipation and reduction of the chromosome 2p minimal candidate region in autosomal dominant familial spastic paraplegia.

ABSTRACTWe examined 11 Caucasian pedigrees with autosomal dominant ‘uncomplicated’ familial spastic paraplegia (SPG) for linkage to the previously identified loci on chromosomes 2p, 14q and 15q. Chromosome 15q was excluded for all families. Five families showed evidence for linkage to chromosome 2p, one to chromosome 14q, and five families remained indeterminate. Homogenity analysis of combined chromosome 2p and 14q date gave no evidence for a fourth as yet unidentified SPG locus. Recombination events reduced the chromosome 2p minimum candidate region (MCR) to a 3 cM interval between D2S352 and D2S367 and supported the previously reported 7 cM MCR for chromosome 14q. Age of onset (AO) was highly variable, indicating that subtypes of SPG are more appropriately defined on a genetic basis than by AO. Comparison of AO in parent-child pairs was suggestive of anticipation, with a median difference of 9.0 years (p <0.0001).

Consideration of hereditary nonpolyposis colorectal cancer in BRCA mutation-negative familial ovarian cancers

Inherited mutations account for approximately 10% of all epithelial ovarian cancers. Breast cancer (BRCA1 and BRACA2) gene mutations are responsible for up to 85% of inherited breast and/or ovarian cancer. Another condition that has been associated with ovarian cancer is hereditary nonpolyposis colorectal cancer syndrome (HNPCC), which carries a lifetime risk of up to 13% for ovarian cancer. The objective of this study was to determine the incidence of HNPCC‐related gene mutations in patients with familial ovarian cancer who previously tested negative for BRCA1 and BRCA2 gene mutations.

Fine mapping and genetic heterogeneity in the pure form of autosomal dominant familial spastic paraplegia

Abstract We evaluated seven families segregating pure, autosomal dominant familial spastic paraplegia (SPG) for linkage to four recently identified SPG loci on chromosomes 2q (1), 8q (2), 12q (3), and 19q (4). These families were previously shown to be unlinked to SPG loci on chromosomes 2p, 14q, and 15q. Two families demonstrated linkage to the new loci. One family (family 3) showed significant evidence for linkage to chromosome 12q, peaking at D12S1691 (maximum lod=3.22). Haplotype analysis of family 3 did not identify any recombinants among affected individuals in the 12q candidate region. Family 5 yielded a peak lod score of 2.02 at marker D19S868 and excluded linkage to other known SPG loci. Haplotype analysis of family 5 revealed several crossovers in affected individuals, thereby potentially narrowing the SPG12 candidate region to a 5-cM region between markers D19S868 and D19S220. Three of the families definitively excluded all four loci examined, providing evidence for further genetic heterogeneity of pure, autosomal dominant SPG. In conclusion, these data confirm the presence of SPG10 (chromosome 12), potentially reduce the minimum candidate region for SPG12 (chromosome 19q), and suggest there is at least one additional autosomal dominant SPG locus.

Uterine carcinosarcoma associated with hereditary nonpolyposis colorectal cancer.

BACKGROUND: Hereditary nonpolyposis colorectal cancer (HNPCC) was originally described as a genetic disorder predominantly involving colorectal cancer. Numerous neoplasms are known to be associated with this condition. Sarcomas have also been reported within families with HNPCC. The challenge is determining if these cancers are sporadic or hereditary. CASE: We report on a 46-year-old woman with uterine carcinosarcoma and a family history suspicious for HNPCC. Genetic testing identified a germline MLH1 mutation. Immunohistochemistry testing of the carcinosarcoma revealed loss of MLH1 expression with preservation of MSH2 expression. CONCLUSION: The loss of MLH1 protein expression suggests the germline mutation contributed to the development of the carcinosarcoma. Hereditary nonpolyposis colorectal cancer should be included in the differential diagnosis of persons with uterine carcinosarcoma when noted within a family history suspicious for HNPCC.

The role of hereditary nonpolyposis colorectal cancer in the management of familial ovarian cancer

Purpose: Familial ovarian cancer is most often associated with hereditary breast and ovarian cancer, implicating mutations in the BRCA1 and BRCA2 genes. Hereditary nonpolyposis colorectal cancer, another common syndrome, is also associated with ovarian cancer and is caused by DNA mismatch repair genes. We sought to identify the role of hereditary nonpolyposis colorectal cancer in women with family histories of ovarian cancer.Methods: The likelihood of a genetic syndrome in 226 oophorectomized women in the Gilda Radner Familial Ovarian Cancer Registry was determined by pedigree analysis using clinical criteria and by calculating the probability of a mutation in genes responsible for hereditary breast and ovarian cancer and hereditary nonpolyposis colorectal cancer using available risk models.Results: Some 86% had a BRCA gene mutation likelihood of 7.8% or higher, warranting consideration of hereditary breast and ovarian cancer. Of the 32 women below this threshold, 4 (12.5%) had family histories that met criteria for clinical diagnosis of hereditary nonpolyposis colorectal cancer. In addition, 16 women (7%) with a BRCA mutation likelihood greater than 7.8% met clinical criteria for hereditary nonpolyposis colorectal cancer or warranted its inclusion in the differential diagnosis. Among all study respondents, 9% had family histories warranting consideration of hereditary nonpolyposis colorectal cancer.Conclusion: Hereditary nonpolyposis colorectal cancer should be considered in the differential diagnosis of women with family histories of ovarian cancer.