The temporal and spatial changes in cell proliferation within the irradiated crypts of the murine small intestine.
暂无分享,去创建一个
S. Roberts | C. Potten | G. Owen | Christopher S Potten | Gary Owen | Stephen A Roberts | Christopher S. Potten
[1] S. Siegel,et al. Nonparametric Statistics for the Behavioral Sciences , 2022, The SAGE Encyclopedia of Research Design.
[2] A. Cairnie,et al. Cell proliferation studies in the intestinal epithelium of the rat. I. Determination of the kinetic parameters. , 1965, Experimental cell research.
[3] H. Withers,et al. Microcolony survival assay for cells of mouse intestinal mucosa exposed to radiation. , 1970, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[4] L. V. van Putten,et al. LOCATION OF THE G0‐PHASE IN THE CELL CYCLE OF THE MOUSE HAEMOPOIETIC SPLEEN COLONY FORMING CELLS , 1972 .
[5] C. P. Leblond,et al. Origin, differentiation and renewal of the four main epithelial cell types in the mouse small intestine. V. Unitarian Theory of the origin of the four epithelial cell types. , 1974, The American journal of anatomy.
[6] D. Appleton,et al. THE CELL CYCLE TIME IN THE RAT JEJUNAL MUCOSA , 1974, Cell and tissue kinetics.
[7] J. Hendry,et al. Differential regeneration of intestinal proliferative cells and cryptogenic cells after irradiation. , 1975, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[8] C. Potten,et al. Extreme sensitivity of some intestinal crypt cells to X and γ irradiation , 1977, Nature.
[9] C. Potten,et al. CIRCADIAN RHYTHMS OF PRESUMPTIVE STEM CELLS IN THREE DIFFERENT EPITHELIA OF THE MOUSE , 1977, Cell and tissue kinetics.
[10] D. Appleton,et al. Variation in the cell cycle time in the crypts of lieberkühn of the mouse , 1979, Virchows Archiv. B, Cell pathology including molecular pathology.
[11] E. Frindel,et al. Study of a CFUs stimulating factor liberated by bone marrow cells after total and partial body irradiation. , 1980, Experimental hematology.
[12] C. Potten. The cell kinetic mechanism for radiation-induced cellular depletion of epithelial tissue based on hierarchical differences in radiosensitivity. , 1981, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[13] D. Major,et al. The correction of intestinal microcolony counts for variation in size. , 1981, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[14] J. Hendry,et al. Cell death (apoptosis) in the mouse small intestine after low doses: effects of dose-rate, 14.7 MeV neutrons, and 600 MeV (maximum energy) neutrons. , 1982, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[15] C. Potten,et al. Response of intestinal cells of differing topographical and hierarchical status to ten cytotoxic drugs and five sources of radiation. , 1983, British Journal of Cancer.
[16] M. Balzi,et al. S-phase cell distribution in the small intestine irradiated at different times of the day. II. Recovery phase. , 1983, Acta radiologica. Oncology.
[17] M. Balzi,et al. S-phase cell distribution in the small intestine irradiated at different times of the day. I. Acute irradiation injury. , 1983, Acta radiologica. Oncology.
[18] Nicholas A. Wright,et al. The biology of epithelial cell populations , 1984 .
[19] C. Potten,et al. The recruitability and cell-cycle state of intestinal stem cells. , 1984, International journal of cell cloning.
[20] C. Potten,et al. Recruitment of Cells in the Small Intestine into Rapid Cell Cycle by Small Doses of External γ or Internal β-radiation , 1985 .
[21] C. Potten,et al. Radiation-induced mitotic delay: duration, dose and cell position dependence in the crypts of the small intestine in the mouse. , 1986, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[22] M. Loeffler,et al. Intestinal Cell Proliferation. I. A Comprehensive Model of Steady‐State Proliferation In the Crypt , 1986, Cell and tissue kinetics.
[23] C. Potten,et al. Cell Migration Velocities In the Crypts of the Small Intestine After Cytotoxic Insult Are Not Dependent On Mitotic Activity , 1986, Cell and tissue kinetics.
[24] C. Potten,et al. Circadian Variation In Migration Velocity In Small Intestinal Epithelium , 1986, Cell and tissue kinetics.
[25] C. Potten,et al. Further studies on the response of intestinal crypt cells of different hierarchical status to eighteen different cytotoxic agents. , 1987, British Journal of Cancer.
[26] J. Moore,et al. Estimates of the number of clonogenic cells in crypts of murine small intestine , 1987, Virchows Archiv. B, Cell pathology including molecular pathology.
[27] J. Hendry,et al. The doubling time of regenerating clonogenic cells in the crypts of the irradiated mouse small intestine. , 1988, International journal of radiation biology.
[28] E. Wright,et al. Local regulation of haemopoietic stem cell proliferation in mice following irradiation , 1989, Cell and tissue kinetics.
[29] N. Wright,et al. The measurement of villus cell population size in the mouse small intestine in normal and abnormal states: a comparison of absolute measurements with morphometric estimators in sectioned immersion‐fixed material , 1989, Cell and tissue kinetics.
[30] M. Meistrich,et al. Probability of self‐renewing divisions of spermatogonial stem cells in colonies, formed after fission neutron irradiation , 1990, Cell and tissue kinetics.