BACKGROUND: Stool-based DNA testing for colorectal cancer is becoming a favored alternative to existing DNA screening tests. However, current methods of analysis often become more complicated and costly with increased sensitivity. The high-resolution melting assay (HRMA) is a simple and rapid mutation scanning method with low cost and superb accuracy. In this study, we verified the accuracy of HRMA for screening KRAS/TP53 mutations in stool-isolated DNA from patients with colorectal cancer. MATERIALS AND METHODS: Comparing to direct DNA sequencing, the accuracy of HRMA was verified by detecting KRAS/TP53 mutations in 2 independent stages. In study stage I, both tissue and stool samples from colorectal neoplasm patients were analyzed. In study stage II, stool samples from patients with colorectal neoplasms, and normal controls in clinical screening settings were examined. RESULTS: In study stage I, the HRMA identified 14 of 17 target mutations (82.4%) in stools from cancer patients, and 4 of 5 (80.0%) target mutations in stools from advanced adenoma patients. The mutation detection rate in fecal samples (45.0%; 18/40) and referred tissue samples (55.0%; 22/40) was highly consistent (κ = 0.79). The HRMA detected 1% mutant DNA in a background of wild type DNA. In study stage II, the HRMA assay detected 58.8% (20/34) mutations in tumor samples, 41.5% (17/41) in advanced adenomas samples, and 3.33% (2/60) in age-matched normal control samples. The results from HRMA and DNA sequencing revealed 100% sensitivity and specificity in both tissue and stool samples. CONCLUSION: HRMA is a simple, reliable, and sensitive method for detecting DNA mutations in the stool samples from patients with colorectal neoplasms.
BACKGROUND: Stool-based DNA testing for colorectal cancer is becoming a favored alternative to existing DNA screening tests. However, current methods of analysis often become more complicated and costly with increased sensitivity. The high-resolution melting assay (HRMA) is a simple and rapid mutation scanning method with low cost and superb accuracy. In this study, we verified the accuracy of HRMA for screening KRAS/TP53 mutations in stool-isolated DNA from patients with colorectal cancer. MATERIALS AND METHODS: Comparing to direct DNA sequencing, the accuracy of HRMA was verified by detecting KRAS/TP53 mutations in 2 independent stages. In study stage I, both tissue and stool samples from colorectal neoplasmpatients were analyzed. In study stage II, stool samples from patients with colorectal neoplasms, and normal controls in clinical screening settings were examined. RESULTS: In study stage I, the HRMA identified 14 of 17 target mutations (82.4%) in stools from cancerpatients, and 4 of 5 (80.0%) target mutations in stools from advanced adenomapatients. The mutation detection rate in fecal samples (45.0%; 18/40) and referred tissue samples (55.0%; 22/40) was highly consistent (κ = 0.79). The HRMA detected 1% mutant DNA in a background of wild type DNA. In study stage II, the HRMA assay detected 58.8% (20/34) mutations in tumor samples, 41.5% (17/41) in advanced adenomas samples, and 3.33% (2/60) in age-matched normal control samples. The results from HRMA and DNA sequencing revealed 100% sensitivity and specificity in both tissue and stool samples. CONCLUSION: HRMA is a simple, reliable, and sensitive method for detecting DNA mutations in the stool samples from patients with colorectal neoplasms.
Authors: Mohammad Hadi Karbalaie Niya; Ali Basi; Aghigh Koochak; Fahimeh Safarnezhad Tameshkel; Nasser Rakhshani; Farhad Zamani; Farid Imanzade; Hamid Rezvani; Mohammad Mahdi Adib Sereshki; Masoud Reza Sohrabi Journal: Asian Pac J Cancer Prev Date: 2016-12-01
Authors: Itzhak Avital; Russell C Langan; Thomas A Summers; Scott R Steele; Scott A Waldman; Vadim Backman; Judy Yee; Aviram Nissan; Patrick Young; Craig Womeldorph; Paul Mancusco; Renee Mueller; Khristian Noto; Warren Grundfest; Anton J Bilchik; Mladjan Protic; Martin Daumer; John Eberhardt; Yan Gao Man; Björn Ldm Brücher; Alexander Stojadinovic Journal: J Cancer Date: 2013-03-01 Impact factor: 4.207