Interstitial hypertension in carcinoma of uterine cervix in patients: possible correlation with tumor oxygenation and radiation response.
暂无分享,去创建一个
R K Jain | S. Kalnicki | R. Jain | Y. Boucher | W. Bloomer | Y Boucher | W D Bloomer | H D Roh | S Kalnicki | R Buchsbaum | H. Roh | S. Kalnicki | R. Buchsbaum
[1] C E LUMSDEN,et al. The significance of the tissue pressure of normal testicular and of neoplastic (Brown-Pearce carcinoma) tissue in the rabbit. , 1950, The Journal of pathology and bacteriology.
[2] J. Webster,et al. The prognostic significance of tumor response during radiotherapy in cervical carcinoma. , 1973, Radiology.
[3] P. Gullino. Extracellular Compartments of Solid Tumors , 1975 .
[4] R. Reed,et al. Interstitial fluid pressure in rats measured with a modified wick technique. , 1977, Microvascular research.
[5] U. Stendahl. A histopathologic malignancy grading system for indication of prognosis in invasive squamous cell carcinoma of the uterine cervix , 1981 .
[6] J. van Nagell,et al. Radiation‐induced tumor regression as a prognostic factor in patients with invasive cervical cancer , 1982, Cancer.
[7] R. Jain,et al. Tumor Blood Flow-Characterization, Modifications, and Role in Hyperthermia , 1984, IEEE Transactions on Sonics and Ultrasonics.
[8] B. Fertil,et al. Intrinsic radiosensitivity of human cell lines is correlated with radioresponsiveness of human tumors: analysis of 101 published survival curves. , 1985, International journal of radiation oncology, biology, physics.
[9] J. Schroeder,et al. Radiation enhancement of radiolabelled antibody deposition in tumors. , 1987, International journal of radiation oncology, biology, physics.
[10] R K Jain,et al. Transport of molecules in the tumor interstitium: a review. , 1987, Cancer research.
[11] D. Gridley,et al. Enhancement of monoclonal antibody binding to melanoma with single dose radiation or hyperthermia. , 1987, NCI monographs : a publication of the National Cancer Institute.
[12] L. Révész,et al. Prognostic significance of vascular density and a malignancy grading in radiation treated uterine cervix carcinoma. , 1988, Neoplasma.
[13] R. Gatenby,et al. Oxygen distribution in squamous cell carcinoma metastases and its relationship to outcome of radiation therapy. , 1988, International journal of radiation oncology, biology, physics.
[14] R K Jain,et al. Mechanisms of heterogeneous distribution of monoclonal antibodies and other macromolecules in tumors: significance of elevated interstitial pressure. , 1988, Cancer research.
[15] R K Jain,et al. Delivery of novel therapeutic agents in tumors: physiological barriers and strategies. , 1990, Journal of the National Cancer Institute.
[16] R K Jain,et al. Interstitial pressure gradients in tissue-isolated and subcutaneous tumors: implications for therapy. , 1990, Cancer research.
[17] A. Epenetos,et al. Enhancement of monoclonal antibody uptake in human colon tumor xenografts following irradiation. , 1990, Cancer research.
[18] R K Jain,et al. Interstitial hypertension in superficial metastatic melanomas in humans. , 1991, Cancer research.
[19] R. Jain,et al. P39 07 TP – RELATIONSHIP BETWEEN INTERSTITIAL FLUID PRESSURE AND TUMOR OXYGENATION , 1991 .
[20] R. Jain,et al. Interstitial fluid pressure in solid tumors following hyperthermia: possible correlation with therapeutic response. , 1992, Cancer research.