AlperT.: Comparison between the oxygen enhancement ratios for neutrons and X rays, as observed with Escherichia coli B. Brit. J. Radiol.36 (1963), 97.
2.
AlperT.MooreJ. L.: The interdependence of oxygen enhancement ratios for 250 kV X rays and fast neutrons. Brit. J. Radiol.40 (1967), 843.
3.
AtkinsH. L.FairchildM. S.RobertsonJ. S.LehmanW. D.: Comparison of irradiation by Californium-252 and radium on the skin of swine. Radiology96 (1970), 161.
4.
BadibA. O.WebsterJ. H.: Changes in tumour oxygen tension during radiation therapyActa radiol. Ther. Phys. Biol.8 (1969), 247.
5.
BarendsenG. W.BroerseJ. J.: Dependence of the oxygen effect on the energy of fast neutrons. Nature (Lond.)212 (1966), 722.
6.
BatemanJ. L.BiavatiB. J.BondV. P.: Dose dependence on fast neutron R.B.E. for lens opacification in mice. Radiology (1971), in press.
7.
BerryR. J.: Growing points in mammalian radiobiology and their implications for radiotherapy. Radiol. Clin.7 (1969), 281.
8.
BewleyD. K.: Physical aspects of the fast neutron beam. Brit. J. Radiol.36 (1963), 81.
9.
BewleyD. K.Fast neutron beams for radiotherapy. In:Current topics in radiation research. Edited by EbertM.HowardA.. North Holland Publishing Company, Amsterdam1970.
10.
BrennanJ.: Fast neutrons for radiation therapy. Radiol. Clin. N. Amer.7 (1969), 365.
11.
BroerseJ. J.BarendsenG. W.: Measurements of biological effects and physical parameters of neutrons from the (Be (3He, n) 11C reaction. Int. J. radiat. Biol.13 (1967), 189.
12.
BushongS. C.PrasadN.BrineyS. A.OliverG. D.: Radiocytogenetic determination of the oxygen enhancement ratio of Californium-252. Radiology96 (1970), 167.
13.
CatteralM.: Clinical experience with fast neutons from the Hammersmith cyclotron. Europ. J. Cancer7 (1971), 227.
14.
DuncanW.: Possibilities for the application of fast neutrons in Manchester. Europ. J. Cancer7 (1971), 237.
15.
DuncanW.GreeneD.MajorD.: Radiotherapeutical requirements with respect to depth, dose and collimation of fast neutron beams. Europ. J. Cancer7 (1970), 129.
16.
FairchildR. G.DrewR. M.AtkinsH. L.: The oxygen enhancement ratio for protracted irradiation with 252 Cf. Radiology96 (1970), 661.
17.
FieldS. B.: The relative biological effectiveness of fast neutrons for mammalian tissues. Radiology93 (1969), 915.
18.
FieldS. B.ParnellC. J.: The use of threshold detectors to determine changes in a fast neutron energy spectrum with depth in a phantom. Brit. J. Radiol.38 (1965), 618.
19.
FowlerJ. F.MorganR. L.: Pre-therapeutic experiments with fast neutron beam from the Medical Research Council cyclotron. General review. Brit. J. Radiol.36 (1963), 115.
20.
GrayL. H.CongerA. D.EbertM. et coll: The concentration of oxygen dissolved in tissues at the time of irradiation as a factor in radiotherapy. Brit. J. Radiol.26 (1953), 638.
21.
GreeneD.: A fast neutron source for radiotherapy. Nature (Lond.)202 (1964), 204.
22.
GreeneD.MajorD.: Collimation of 14 MeV neutron beams. Europ. J. Cancer7 (1971), 121.
23.
GreeneD.ThomasR. L.: An experimental unit for fast neutron radiotherapy. Brit. J. Radiol.41 (1968), 455.
24.
HallE. J.FairchildR. G.: Radiobiological measurements with Californium-252. Brit. J. Radiol.43 (1970), 263.
25.
HenkJ. M.KunklerP. B.ShahN. K. et coll.: Hyperbaric oxygen in radiotherapy of head and neck carcinoma. Clin. Radiol.21 (1970), 223.
26.
KerseyT.: Personal communication. (1970).
27.
KolstadP.: Vascularisation, oxygen tensions and radiocurability in cancer of the cervix. Scandinavian University Books, Stockholm1964.
28.
LindopP. J.: Tissue effects of radiation in relation to radiotherapy. In:Current topics in radiation research. Volume VI. Edited by EbertM.HowardA.. North Holland Publishing Company, Amsterdam1970.
29.
LomerP. D.GreeneD.: A fast neutron source for radiotherapy. Nature (Lond.)198 (1963), 200.
30.
LundbergD.: Personal communication. (1969).
31.
McNallyN. J.BewleyD. K.: A biological dosemeter using mammalian cells in tissue culture and its use in obtaining neutron depth dose curves. Brit. J. Radiol.42 (1969), 289.
32.
MarionJ. B.FowlerJ. L.: Fast neutron physics, Part I. Interscience Publishers, 1960.
33.
MarshallT.: Personal communication. (1970).
34.
MorganR. M.: Fast neutron therapy — Clinical applications. In:Modern trends in radiotherapy. Edited by DeeleyT.WoodC.. Butterworth, London1967.
35.
NiasA. W. H.GreeneD.: Changes in the biological parameters for mammalian cells as a function of position in a 14 MeV neutron field. Proc. Internat. Cong. Radiat. Biol. (Evian) (1971), in press.
36.
NiasA. W. H.MargaretFoxThomasR. L.: Effect of 14 MeV monoenergetic neutrons on HeLa cells and P388F cells in vitro. Int. J. radiat. Biol.13 (1967), 449.
37.
OliverG. D.JrWrightC. N.: Dosemetry of an implantable 252 Cf source. Radiology92 (1969), 143.
38.
ParisM. F.DowntonD. W.GlanfordC. W.: An experimental fast neutron radiotherapy system. J.R.N.S.S.23 (1968), 232.
39.
RandolphM. L.: Energy deposition in tissue and similar materials by 14.1 MeV neutrons. Radiat. Res.7 (1957), 47.
40.
SchleaC. S.StaddardD. H.: Californium isotopes proposed for intracavitary and interstitial radiation therapy with neutrons. Nature (Lond.)206 (1965), 1058.
41.
ShelineG. E.PhillipsT. L.FieldS. B. et coll.: Effects of fast neutrons on human skin. Amer. J. Roentgenol.111 (1971), 31.
42.
StoneR. S.: Neutron therapy and specific ionisation. Janeway Memorial Lecture 1947. Amer. J. Roentgenol.59 (1948), 771.
43.
U.S.A. E.C.: Development and production of Californium-252. Report No. 5, 1968.
