Assessment of Plasma DNA Levels, Allelic Imbalance, and CA 125 as Diagnostic Tests for Cancer

doi:10.1093/jnci/94.22.1697

JNCI Journal of the National Cancer Institute 2002 94(22):1697-1703; doi:10.1093/jnci/94.22.1697
© 2002 by Oxford University Press

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Journal of the National Cancer Institute, Vol. 94, No. 22, 1697-1703, November 20, 2002
© 2002 Oxford University Press

ARTICLE

Assessment of Plasma DNA Levels, Allelic Imbalance, and CA 125 as Diagnostic Tests for Cancer

Hsueh-Wei Chang, Shing M. Lee, Steven N. Goodman, Gad Singer, Sarah K. R. Cho, Lori J. Sokoll, Fredrick J. Montz, Richard Roden, Zhen Zhang, Daniel W. Chan, Robert J. Kurman, Ie-Ming Shih

H. W. Chang, G. Singer, S. K. R. Cho, L. J. Sokoll, R. Roden, Z. Zhang (Department of Pathology), S. M. Lee, S. N. Goodman (The Oncology Center), F. J. Montz (Departments of Gynecology and Obstetrics), D. W. Chan (Department of Pathology and The Oncology Center), R. J. Kurman, I. M. Shih (Departments of Pathology, Gynecology, and Obstetrics) The Johns Hopkins University School of Medicine, Baltimore, MD.

Correspondence to: Ie-Ming Shih, M.D., Ph.D., Department of Pathology, The Johns Hopkins University School of Medicine, 418 N. Bond St., B-315, Baltimore, MD 21231 (e-mail: ishih{at}jhmi.edu).

Background: Allelic imbalance (AI), the loss or gain of chromosomalregions, is found in many cancers. AI can be detected in genomictumor DNA released into the blood after necrosis or apoptosis.We evaluated plasma DNA concentration, allelic status in plasmaDNA, and serum CA 125 level as screening tests for ovarian andother cancers. Methods: Plasma samples were obtained from 330women (44 normal healthy control individuals, 122 patients withvarious cancers, and 164 control patients with non-neoplasticdiseases). Plasma DNA concentration was determined in all samples.Allelic status was determined by digital single nucleotide polymorphism(SNP) analysis with eight SNP markers in plasma DNA from 54patients with ovarian cancer and 31 control patients. CA 125was determined in 63 samples. Receiver-operating characteristic(ROC) curves were plotted, and the areas under the ROC curves—ameasure of the overall ability of a diagnostic test with multiplecutoffs to distinguish between diseased and nondiseased individuals—weredetermined. Results: The area under the ROC curve for plasmaDNA concentration was 0.90 for patients with neoplastic diseaseversus healthy control individuals and 0.74 for patients withneoplastic diseases versus control patients with non-neoplasticdiseases. For control subjects given a specificity of 100% (95%confidence interval [CI] = 92% to 100%), the highest sensitivityachieved was 57% (95% CI = 49% to 67%). AI in at least one SNPwas found in 87% (95% CI = 60% to 98%) of patients with stageI/II ovarian cancer and 95% (95% CI = 83% to 99%) of patientswith stage III/IV ovarian cancer, but AI was not found in 31patients with non-neoplastic diseases (specificity = 100%, 95%CI = 89% to 100%). The area under the ROC curve assessing AIwas 0.95. Combining the serum CA 125 level with the plasma DNAconcentration increased the area under the ROC curve from 0.78(CA 125 alone) to 0.84. Conclusion: Plasma DNA concentrationmay not be sensitive or specific enough for cancer screeningor diagnosis, even when combined with CA 125. AI was detectedwith high specificity in plasma DNA from patients with ovariancancer and should be studied further as a screening tool.

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				B. G. Wang, H.-Y. Huang, Y.-C. Chen, R. E. Bristow, K. Kassauei, C.-C. Cheng, R. Roden, L. J. Sokoll, D. W. Chan, and I.-M. Shih Increased Plasma DNA Integrity in Cancer Patients Cancer Res., July 15, 2003; 63(14): 3966 - 3968. [Abstract] [Full Text] [PDF]

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