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Journal Abstract Search

253 related items for PubMed ID: 10537310

  • 1. The relationship of DNA ploidy to chromosomal instability in primary human colorectal cancers.
    Miyazaki M, Furuya T, Shiraki A, Sato T, Oga A, Sasaki K.
    Cancer Res; 1999 Oct 15; 59(20):5283-5. PubMed ID: 10537310
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  • 5. [Detection of chromosomal aberration using fluorescence in situ hybridization in DNA diploid colorectal carcinomas].
    Jibiki M, Tagawa Y, Miyashita K, Hara S, Yasutake T, Nakazaki T, Obatake M, Sawai T, Morinaga M, Akama F.
    Gan To Kagaku Ryoho; 1993 Apr 15; 20(6):759-62. PubMed ID: 8489281
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  • 6. Numerical abnormalities of chromosomes 17 and 18 in sporadic colorectal cancer: Incidence and correlation with clinical and biological findings and the prognosis of the disease.
    Garcia J, Duran A, Tabernero MD, Garcia Plaza A, Flores Corral T, Najera ML, Gomez-Alonso A, Orfao A.
    Cytometry B Clin Cytom; 2003 Jan 15; 51(1):14-20. PubMed ID: 12500293
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  • 7. Numerical aberrations of chromosomes 8, 9, 11, and 17 in squamous cell carcinoma of the pharynx and larynx: a fluorescence in situ hybridization and DNA flow cytometric analysis of 50 cases.
    Hardisson D, Alvarez-Marcos C, Salas-Bustamante A, Alonso-Guervós M, Sastre N, Sampedro A.
    Oral Oncol; 2004 Apr 15; 40(4):409-17. PubMed ID: 14969820
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  • 9. Genetic changes in colorectal carcinoma tumors with liver metastases analyzed by comparative genomic hybridization and DNA ploidy.
    Nakao K, Shibusawa M, Ishihara A, Yoshizawa H, Tsunoda A, Kusano M, Kurose A, Makita T, Sasaki K.
    Cancer; 2001 Feb 15; 91(4):721-6. PubMed ID: 11241239
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  • 10. Multicolor FISH and cytometric analyses allow classification of urothelial carcinomas into two subtypes, low- and high-grade tumors.
    Ikemoto K, Furuya T, Matsuda K, Kawauchi S, Oga A, Ikeda J, Liu XP, Sasaki K.
    Int J Oncol; 2004 Oct 15; 25(4):893-8. PubMed ID: 15375537
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  • 11. [The relationships among DNA ploidy type determined by laser scanning cytometry, the overexpression of p53 protein and the numerical aberrations of chromosome 7 in bladder cancer].
    Kawamura K, Ikeda R, Suzuki K.
    Hinyokika Kiyo; 2000 Jun 15; 46(6):377-83. PubMed ID: 10934605
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  • 14. Alteration of numerical chromosomal aberrations during progression of colorectal tumors revealed by a combined fluorescence in situ hybridization and DNA ploidy analysis of intratumoral heterogeneity.
    Katsura K, Sugihara H, Nakai S, Fujita S.
    Cancer Genet Cytogenet; 1996 Sep 15; 90(2):146-53. PubMed ID: 8830725
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  • 15. Detection of 20q13 gain by dual-color FISH in breast cancers.
    Kobayashi Y, Esato K, Noshima S, Oga A, Sasaki K.
    Anticancer Res; 2000 Sep 15; 20(1B):531-5. PubMed ID: 10769720
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  • 16. Heterogeneity studies identify a subset of sporadic colorectal cancers without evidence for chromosomal or microsatellite instability.
    Georgiades IB, Curtis LJ, Morris RM, Bird CC, Wyllie AH.
    Oncogene; 1999 Dec 23; 18(56):7933-40. PubMed ID: 10637503
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  • 17. [Detection of numerical chromosomal aberrations by FISH in "DNA-diploid" head and neck squamous cell carcinomas].
    Nakai S, Katsura K, Sugihara H, Fujita S.
    Gan To Kagaku Ryoho; 1995 Jun 23; 22 Suppl 2():149-52. PubMed ID: 7611779
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  • 18. Correlation between DNA ploidy by flow cytometry and chromosome 3 aberration in oral squamous cell carcinoma.
    Hemmer J, Kraft K, Van Heerden WF.
    Oncol Rep; 2006 Jan 23; 15(1):243-6. PubMed ID: 16328063
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  • 19. Breast cancer in males: DNA content and sex chromosome constitution.
    Wolman SR, Sanford J, Ratner S, Dawson PJ.
    Mod Pathol; 1995 Apr 23; 8(3):239-43. PubMed ID: 7617646
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  • 20. Genomic alterations detected by comparative genomic hybridization in primary lung adenocarcinomas with special reference to the relationship with DNA ploidy.
    Hayashi M, Kawauchi S, Ueda K, Kaneda Y, Oga A, Furuya T, Hamano K, Sasaki K.
    Oncol Rep; 2005 Dec 23; 14(6):1429-35. PubMed ID: 16273235
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