The Control of Variables in Radiopathological Studies on Mammalian Nervous Tissue

scientific article published on 01 January 1966

The Control of Variables in Radiopathological Studies on Mammalian Nervous Tissue is …
instance of (P31):
scholarly articleQ13442814

External links are
P356DOI10.1080/09553006614550071
P953full work available at URLhttp://www.tandfonline.com/doi/pdf/10.1080/09553006614550071
P698PubMed publication ID5296664

P2093author name stringW. Zeman
A. Carsten
P2860cites workBrookhaven symposia in biologyQ27709794
Fortschritte der MedizinQ27710920
Early effects of intensive x-ray irradiation of the diencephalon in the rat.Q51315137
Demyelinating or malacic myelopathy. A delayed effect of localized x-irradiation in experimental ratsQ78896691
Radiation myelopathyQ79044860
Recovery from partial-body x-irradiation as measured by the lethality of two exposuresQ79185472
Arterial hypertension and irradiation damage to the nervous systemQ79568642
P433issue1
P407language of work or nameEnglishQ1860
P304page(s)65-74
P577publication date1966-01-01
P1433published inInternational Journal of Radiation Biology and related Studies in Physics, Chemistry, and MedicineQ27711278
P1476titleThe control of variables in radiopathological studies on mammalian nervous tissue
The Control of Variables in Radiopathological Studies on Mammalian Nervous Tissue
P478volume10

Reverse relations

cites work (P2860)
Q72286017Delayed radiation lesions of the human spinal cord. Report of five cases
Q39376268Editorial: Post-therapeutic radiation injuries of the nervous system. Reflections on their prevention
Q70663511Effects of60Co radiation on the cellular responses in degenerating dorsal columns in the rat spinal cord
Q66985474Hyperbaric oxygen after irradiation and its effects on the production of radiation myelitis
Q46354012No disturbance of myelination in the central nervous system by selective 3H beta-irradiation
Q71084889Radiation myelopathy in the rat: An interpretation of dose effect relationships
Q36291381Radiation-induced damage in the central nervous system: an interpretation of target cell responses.