Genetic Analysis of Craniofrontonasal Syndrome
This study will determine whether all patients with craniofrontonasal syndrome (CFNS) have a mutation of a gene called ephrin-B1 (EFNB1). CFNS is one of a group of conditions called craniosynostosis syndromes that result from closure of one or more of the fibrous joints between the bones of the skull before brain growth is complete. Because of the premature closure, the brain is not able to grow in its natural shape; instead, there is growth in areas of the skull where the joints have not yet closed. In CFNS, it results in malformation of the skull and face. It is known that the EFNB1 mutation can cause CFNS, and this study will see if the gene change is present in all patients with the disorder.
This study includes patients and family members affected with CFNS. Participants have 1 to 2 teaspoons of blood drawn for genetic studies. A second blood sample may be requested for further research. Some blood may be used to establish a cell line for later studies. This involves growing the white blood cells from the blood sample. The cells can be kept in the laboratory to make more DNA or can be frozen for later use in studies of craniosynostosis. Patients may also have their medical records reviewed to relate gene changes to clinical features in CFNS.
|Official Title:||Genetic Analysis of Craniofrontonasal Syndrome|
|Study Start Date:||January 5, 2005|
|Estimated Study Completion Date:||September 17, 2008|
The scientific objective of this study is to determine if all patients with Craniofrontonasal Syndrome (CFNS) contain mutations in the ephrin-B1 (EFNB1) gene in Xq12. We will use mutational analysis of EFNB1 as our principal tool to study the genetics of CFNS. Previously, we had mapped the CFNS locus to a 13 cM region in Xp22 using linkage analysis of 12 unrelated CFNS families with 2 or more affected family members in 2-4 generations. More recently there have been two reports that 23 independent CFNS patients all have mutations in the EFNB1 located at Xq12. Hence, either CFNS displays genetic heterogeneity with at least two genes (one in Xp22 and EFNB1) or our previous linkage analysis was inaccurate and all CFNS patients have EFNB1 mutations.
We have previously collected a large number of coded blood samples from patients with DFNS. We propose to sequence the EFNB1 in all 12 of our previously published CFNS families as well as 6 additional families, 22 sporadic CFNS patients, and two CFNS patients with chromosomal anomalies.
We will be sending letters to all physicians who have referred CFNS patients to us in the past for molecular studies. This letter will outline the recent developments identifying EFNB1 as the CFNS gene. We would like to utilize the referring physicians as liaisons between our lab and CFNS patients. Through the referring physicians, we will invite the patients and their families to join a new study if they are interested in obtaining their genetic testing results. All of our results will be confirmed by a CLIA-certified lab prior to being given to patients or referring physicians.
Please refer to this study by its ClinicalTrials.gov identifier: NCT00339846
|United States, Pennsylvania|
|Childrens Hospital, Philadelphia|
|Philadelphia, Pennsylvania, United States, 19104|