BIOMAT Database Logo BIOMAT Database Logo

Survival of mouse type B spermatogonia for the study of the biological effectiveness of 1 MeV, 2.3 MeV and 5.6 MeV fast neutrons. 1987

A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler

The most radiation-sensitive cells in the testis are B and intermediate spermatogonia. We have used a histological scoring technique to compare three neutron beams of different mean energies (1 MeV at the ECN, Petten, 2.3 MeV at the Gray Laboratory, Northwood, and 5.6 MeV at the Oncological Centre, Krakow). CBA inbred mice, 14-20 weeks old, were exposed to whole-body irradiation with single doses of either X-rays (0.1-1 Gy) or neutrons (0.2-0.25 Gy). Relative biological effectiveness values, calculated at the level of 50 per cent reduction in survival of B spermatogonia, were 5.7 at the ECN, Petten, 4.6 at the Gray Laboratory and 3.0 at the Oncological Centre in Krakow. The Do value for the B spermatogonia after X-rays was 0.34 +/- 0.02 Gy when the data from the three centres were combined. Do values for neutrons for the examined spermatogonia were 0.08 Gy, 0.09 Gy and 0.11 Gy at the ECN, Petten, the Gray Laboratory and the Oncological Centre, respectively.

UI MeSH Term Description Entries
D008297 Male Males
D009502 Neutrons Electrically neutral elementary particles found in all atomic nuclei except light hydrogen; the mass is equal to that of the proton and electron combined and they are unstable when isolated from the nucleus, undergoing beta decay. Slow, thermal, epithermal, and fast neutrons refer to the energy levels with which the neutrons are ejected from heavier nuclei during their decay. Neutron
D012062 Relative Biological Effectiveness The ratio of radiation dosages required to produce identical change based on a formula comparing other types of radiation with that of gamma or roentgen rays. Biological Effectiveness, Relative,Effectiveness, Biologic Relative,Effectiveness, Biological Relative,Relative Biologic Effectiveness,Biologic Effectiveness, Relative,Biologic Relative Effectiveness,Biological Relative Effectiveness,Effectiveness, Relative Biologic,Effectiveness, Relative Biological,Relative Effectiveness, Biologic
D002470 Cell Survival The span of viability of a cell characterized by the capacity to perform certain functions such as metabolism, growth, reproduction, some form of responsiveness, and adaptability. Cell Viability,Cell Viabilities,Survival, Cell,Viabilities, Cell,Viability, Cell
D005214 Fast Neutrons Neutrons, the energy of which exceeds some arbitrary level, usually around one million electron volts. Fast Neutron,Neutron, Fast,Neutrons, Fast
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D013093 Spermatogonia Euploid male germ cells of an early stage of SPERMATOGENESIS, derived from prespermatogonia. With the onset of puberty, spermatogonia at the basement membrane of the seminiferous tubule proliferate by mitotic then meiotic divisions and give rise to the haploid SPERMATOCYTES. Spermatophores,Spermatogonias,Spermatophore
D013094 Spermatozoa Mature male germ cells derived from SPERMATIDS. As spermatids move toward the lumen of the SEMINIFEROUS TUBULES, they undergo extensive structural changes including the loss of cytoplasm, condensation of CHROMATIN into the SPERM HEAD, formation of the ACROSOME cap, the SPERM MIDPIECE and the SPERM TAIL that provides motility. Sperm,Spermatozoon,X-Bearing Sperm,X-Chromosome-Bearing Sperm,Y-Bearing Sperm,Y-Chromosome-Bearing Sperm,Sperm, X-Bearing,Sperm, X-Chromosome-Bearing,Sperm, Y-Bearing,Sperm, Y-Chromosome-Bearing,Sperms, X-Bearing,Sperms, X-Chromosome-Bearing,Sperms, Y-Bearing,Sperms, Y-Chromosome-Bearing,X Bearing Sperm,X Chromosome Bearing Sperm,X-Bearing Sperms,X-Chromosome-Bearing Sperms,Y Bearing Sperm,Y Chromosome Bearing Sperm,Y-Bearing Sperms,Y-Chromosome-Bearing Sperms
D014916 Whole-Body Irradiation Irradiation of the whole body with ionizing or non-ionizing radiation. It is applicable to humans or animals but not to microorganisms. Radiation, Whole-Body,Total Body Irradiation,Irradiation, Total Body,Irradiation, Whole-Body,Whole-Body Radiation,Irradiation, Whole Body,Irradiations, Total Body,Irradiations, Whole-Body,Radiation, Whole Body,Radiations, Whole-Body,Total Body Irradiations,Whole Body Irradiation,Whole Body Radiation,Whole-Body Irradiations,Whole-Body Radiations
D051379 Mice The common name for the genus Mus. Mice, House,Mus,Mus musculus,Mice, Laboratory,Mouse,Mouse, House,Mouse, Laboratory,Mouse, Swiss,Mus domesticus,Mus musculus domesticus,Swiss Mice,House Mice,House Mouse,Laboratory Mice,Laboratory Mouse,Mice, Swiss,Swiss Mouse,domesticus, Mus musculus

Related Publications

A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Relative biological effectiveness of x-rays and fast neutrons in inducing translocations in mouse spermatogonia.
September 1973, Mutation research,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Survival of mouse type-B spermatognoia for the study of the biological effectiveness of very high-energy neutrons.
January 1969, International journal of radiation biology and related studies in physics, chemistry, and medicine,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
The effectiveness of 5.6 MeV neutrons compared with gamma rays on the survival of crypts in mouse intestine: preliminary results.
January 1985, Radiobiologia, radiotherapia,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
[BIOLOGICAL ACTIONS OF 14.1 MEV FAST NEUTRONS].
January 1963, [Nisshin igaku] The Japanese journal of medical progress,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Mouse testis weight loss and survival of differentiated spermatogonia following irradiation with 250 kV X-rays and 5.5 MeV fast neutrons.
January 1985, Neoplasma,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
[Biological effectiveness of fast neutrons with a mean energy of 22 MeV].
January 1988, Radiobiologiia,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Chromosomal rearrangements induced in mouse spermatogonia by 14.5-MeV neutrons.
February 1975, Mutation research,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Relative biological effectiveness of 0.4-1.8 Mev neutrons for acute effects in the mouse.
January 1960, Radiology,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Dose-fractionation studies on mouse gut and marrow: an intercomparison of 250 kV X-rays and 5.6 MeV fast neutrons.
January 1985, Radiobiologia, radiotherapia,
A Gasinska, and A de Ruiter-Bootsma, and J A Davids, and M Folkard, and J F Fowler
Relative biological effectiveness of fast neutrons for apoptosis in mouse hair follicles.
December 2007, Journal of veterinary science,
Copied contents to your clipboard!