Related Content
Search Google Scholar for:
|
|
Science 4 March 1977:
Vol. 195. no. 4281, pp. 880 - 882
DOI: 10.1126/science.402692
|
|
Articles
Science, Vol 195, Issue 4281, 880-882
Copyright © 1977 by American Association for the Advancement of Science
Angiogenesis: a marker for neoplastic transformation of mammary papillary hyperplasia
SS Brem,
PM Gullino,
and
D Medina
Mouse mammary papillomas elicit new formation of vessels when transplanted onto the rabbit iris. This angiogenic capacity is a property of carcinomas but not of the resting mammary gland. In mouse papillary hyperplasias, however, this property appears much earlier than any morphological or clinical sign of carcinoma. A test for angiogenic capacity may reveal a step in the progression toward clinical malignancy and thus could be used to screen for neoplastic potential of hyperplastic epithelium in biopsy tissues.
THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
- Radiosensitization of solid tumors by Z-VAD, a pan-caspase inhibitor.
- L. Moretti, K. W. Kim, D. K. Jung, C. D. Willey, and B. Lu (2009)
Mol. Cancer Ther.
8, 1270-1279
| Abstract »
| Full Text »
| PDF »
- Sex-steroid regulation of vascular endothelial growth factor in breast cancer..
- S M Hyder (2006)
Endocr. Relat. Cancer
13, 667-687
| Abstract »
| Full Text »
| PDF »
- Angiogenesis of Breast Cancer.
- B. P. Schneider and K. D. Miller (2005)
J. Clin. Oncol.
23, 1782-1790
| Full Text »
| PDF »
- Randomized Phase III Trial of Capecitabine Compared With Bevacizumab Plus Capecitabine in Patients With Previously Treated Metastatic Breast Cancer.
- K. D. Miller, L. I. Chap, F. A. Holmes, M. A. Cobleigh, P. K. Marcom, L. Fehrenbacher, M. Dickler, B. A. Overmoyer, J. D. Reimann, A. P. Sing, et al. (2005)
J. Clin. Oncol.
23, 792-799
| Abstract »
| Full Text »
| PDF »
- Effect of Dietary Energy Restriction on Vascular Density during Mammary Carcinogenesis.
- H. J. Thompson, J. N. McGinley, N. S. Spoelstra, W. Jiang, Z. Zhu, and P. Wolfe (2004)
Cancer Res.
64, 5643-5650
| Abstract »
| Full Text »
| PDF »
- Targeting Angiogenesis for Mammary Cancer Prevention: Factors to Consider in Experimental Design and Analysis.
- H. J. Thompson, J. N. McGinley, P. Wolfe, N. S. Spoelstra, and K. K. Knott (2004)
Cancer Epidemiol. Biomarkers Prev.
13, 1173-1184
| Abstract »
| Full Text »
| PDF »
- From the Cover: Role of prostaglandin E2-dependent angiogenic switch in cyclooxygenase 2-induced breast cancer progression.
- S.-H. Chang, C. H. Liu, R. Conway, D. K. Han, K. Nithipatikom, O. C. Trifan, T. F. Lane, and T. Hla (2004)
PNAS
101, 591-596
| Abstract »
| Full Text »
| PDF »
- Cell Surface-Dependent Generation of Angiostatin4.5.
- H. Wang, R. Schultz, J. Hong, D. L. Cundiff, K. Jiang, and G. A. Soff (2004)
Cancer Res.
64, 162-168
| Abstract »
| Full Text »
| PDF »
- Vascular density profile of rat mammary carcinomas induced by 1-methyl-1-nitrosourea: implications for the investigation of angiogenesis.
- H. J. Thompson, J. N. McGinley, K. K. Knott, N. S. Spoelstra, and P. Wolfe (2002)
Carcinogenesis
23, 847-854
| Abstract »
| Full Text »
| PDF »
- Prognostic Value of Vascular Endothelial Growth Factor in Breast Cancer.
- G. Gasparini (2000)
Oncologist
5, 37-44
| Abstract »
| Full Text »
- Angiogenic Growth Factors in Preinvasive Breast Disease.
- S. C. Heffelfinger, M. A. Miller, R. Yassin, and R. Gear (1999)
Clin. Cancer Res.
5, 2867-2876
| Abstract »
| Full Text »
| PDF »
- The Pathophysiology of Angiogenesis.
- P.J. Polverini (1995)
Critical Reviews in Oral Biology & Medicine
6, 230-247
| Abstract »
| Full Text »
| PDF »
- Angiogenesis induced by "normal" human breast tissue: a probable marker for precancer.
- H. Jensen, I Chen, M. DeVault, and A. Lewis (1982)
Science
218, 293-295
| Abstract »
| PDF »
|
|
