Exploratory study of the feasibility and utility of the colored eco-genetic relationship map (CEGRM) in women at high genetic risk of developing breast cancer.

We report here the results of an exploratory feasibility study of the colored eco-genetic relationship map (CEGRM), a novel, recently-developed psychosocial assessment tool, which incorporates features of the genetic pedigree, family systems genogram, and ecomap. The CEGRM presents a simple, concise, visual representation of the social interaction domains of information, services, and emotional support through the application of color-coded symbols to the genetic pedigree. The interactive process of completing the CEGRM was designed to facilitate contemporary genetic counseling goals of: (a) understanding the client in the context of her/his social milieu; (b) bolstering client self-awareness and insight; (c) fostering active client participation and mutuality in the counseling interaction; (d) eliciting illuminating social narratives; and (e) addressing outstanding emotional issues. Twenty women participating in a breast imaging study of women from families with BRCA1/2 mutations completed and evaluated various aspects of the CEGRM. We found that efficient construction of the CEGRM was feasible, and that compliance was excellent. Participants developed insights into their social milieu through observing the visual pattern of relationships illustrated by the CEGRM. The process of co-constructing the CEGRM fostered the participant's active involvement in the session, marked by mutuality and increased empathy. In this clinical research context, the participants felt free to share poignant stories about their friends and families. Further studies are planned to refine the CEGRM and to examine its utility in cancer genetics research.

B-cell monoclonal lymphocytosis and B-cell abnormalities in the setting of familial B-cell chronic lymphocytic leukemia.

BACKGROUND: Among all hematologic malignancies, B-cell chronic lymphocytic leukemia (BCLL) has the highest familial clustering (three- to sevenfold increase), strongly suggesting a genetic component to its etiology. Familial BCLL can be used as a model to study the early pathogenesis of this disease. METHODS: We examined nine kindreds from the National Cancer Institute's Familial BCLL Registry, consisting of 19 affected members with BCLL and 33 clinically unaffected first-degree relatives. Flow cytometric immunophenotyping to detect a B-cell monoclonal lymphocytosis (BCML) was performed. Monoclonality was confirmed by polymerase chain reaction analysis of whole blood DNA. Cell cycle analysis for aneuploidy was conducted. RESULTS: In all affected individuals, we observed the classic BCLL CD5/CD19/CD20/CD23 immunophenotypic patterns. Six of the 33 unaffected individuals (18%) had evidence of BCML. Additional individuals (13/33, 39%) showed some other abnormality, whereas 14 individuals (42%) were normal. Based on an estimated prevalence of 0.7% for BCML in the general population, the finding of six subjects (18%) with clonal abnormalities in this relatively modest sample was significantly greater than expected (i.e., 18% vs. 0.7%, P < 5.7 x 10(-9)). CONCLUSIONS: Individual components of BCML and other B-cell abnormalities were observed in almost half of the apparently unaffected individuals. Our findings suggested that BCML may be an early detectable abnormality in BCLL. The spectrum of some of these observed abnormalities suggested the involvement of different B-cell subpopulations or different pathways in clonal evolution. Population-based, longitudinal studies will be required to determine the incidence of BCML and other B-cell abnormalities and their relation to disease progression in BCLL and other closely related B-cell lymphoproliferative disorders.