PURPOSE: Clinical history data reported on test requisition forms (TRFs) for hereditary cancer multigene panel testing (MGPT) are routinely used by genetic testing laboratories. More recently, publications have incorporated TRF-based clinical data into studies exploring yield of testing by phenotype and estimating cancer risks for mutation carriers. We aimed to assess the quality of TRF data for patients undergoing MGPT. PATIENTS AND METHODS: Ten percent of patients who underwent hereditary cancer MGPT between January and June 2015 at a clinical laboratory were randomly selected. TRF-reported cancer diagnoses were evaluated for completeness and accuracy for probands and relatives using clinical documents such as pedigrees and chart notes as the comparison standard in cases where these documents were submitted after the time of test order. RESULTS: TRF-reported cancer sites and ages at diagnosis were complete for > 90.0% of proband cancer diagnoses overall, and the completion rate was even higher (> 96.0%) for breast, ovarian, colorectal, and uterine cancers. When reported, these data were accurate on TRFs for > 99.5% of proband cancer sites and > 97.5% of proband ages at diagnosis. Cancer site and age at diagnosis data were also complete on the TRF for the majority of cancers among first- and second-degree relatives. Completeness decreased as relation to the proband became more distant, whereas accuracy remained high across all degrees of relation. CONCLUSION: Data collected as part of cancer genetic risk assessment is completely and accurately reported on TRFs for the majority of probands and their close relatives and is comparable to information directly obtained from clinic notes, particularly for breast and other cancers commonly associated with hereditary cancer syndromes.
PURPOSE: Clinical history data reported on test requisition forms (TRFs) for hereditary cancer multigene panel testing (MGPT) are routinely used by genetic testing laboratories. More recently, publications have incorporated TRF-based clinical data into studies exploring yield of testing by phenotype and estimating cancer risks for mutation carriers. We aimed to assess the quality of TRF data for patients undergoing MGPT. PATIENTS AND METHODS: Ten percent of patients who underwent hereditary cancer MGPT between January and June 2015 at a clinical laboratory were randomly selected. TRF-reported cancer diagnoses were evaluated for completeness and accuracy for probands and relatives using clinical documents such as pedigrees and chart notes as the comparison standard in cases where these documents were submitted after the time of test order. RESULTS: TRF-reported cancer sites and ages at diagnosis were complete for > 90.0% of proband cancer diagnoses overall, and the completion rate was even higher (> 96.0%) for breast, ovarian, colorectal, and uterine cancers. When reported, these data were accurate on TRFs for > 99.5% of proband cancer sites and > 97.5% of proband ages at diagnosis. Cancer site and age at diagnosis data were also complete on the TRF for the majority of cancers among first- and second-degree relatives. Completeness decreased as relation to the proband became more distant, whereas accuracy remained high across all degrees of relation. CONCLUSION: Data collected as part of cancer genetic risk assessment is completely and accurately reported on TRFs for the majority of probands and their close relatives and is comparable to information directly obtained from clinic notes, particularly for breast and other cancers commonly associated with hereditary cancer syndromes.
Authors: Jonathan W Wischhusen; Chinedu Ukaegbu; Tara G Dhingra; Hajime Uno; Fay Kastrinos; Sapna Syngal; Matthew B Yurgelun Journal: Cancer Epidemiol Biomarkers Prev Date: 2019-10-15 Impact factor: 4.254
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Authors: Kelly Dufraing; Kaat Van Casteren; Joke Breyne; Nicky D'Haene; Claude Van Campenhout; Sara Vander Borght; Karen Zwaenepoel; Etienne Rouleau; Ed Schuuring; Jan von der Thüsen; Elisabeth Dequeker Journal: BMC Cancer Date: 2022-07-06 Impact factor: 4.638
Authors: Steven N Hart; Eric C Polley; Amal Yussuf; Siddhartha Yadav; David E Goldgar; Chunling Hu; Holly LaDuca; Laura P Smith; June Fujimoto; Shuwei Li; Fergus J Couch; Jill S Dolinsky Journal: Hum Mutat Date: 2020-07-09 Impact factor: 4.878
Authors: Chunling Hu; Eric C Polley; Siddhartha Yadav; Jenna Lilyquist; Hermela Shimelis; Jie Na; Steven N Hart; David E Goldgar; Swati Shah; Tina Pesaran; Jill S Dolinsky; Holly LaDuca; Fergus J Couch Journal: J Natl Cancer Inst Date: 2020-12-14 Impact factor: 13.506