1040 



ADVENTURES IN RADIOISOTOPE RESEARCH 



Cancer anaemia 597 — 609 



iron metabolism in 605 — 607 

 Capillary wall 



phosphatides, penetration through 



262-272 

 rate of ion penetration 425 — 436 

 rate of passage of water through 

 437-442 

 Carbon- 14 



effect of muscular excercise and 

 urethane administration on animal 

 tissue 821 — 824 

 effect of X-rays on incorporation, 

 into desoxyribonucleic acid 791,792 

 into tissues of animals 793, 794 

 into mouse tissues 795 — 812 

 into suckling rats 813 — 820 

 incorporation into DNA 853 — 855 

 in glucose, effect of insulin 1001, 1002 

 loss in red corpuscles 1008, 1010 

 study of metabolic depressors and 

 accelerators 992 — 996 

 Carbon, radioactive 29, 30 

 Catabolism of ethylalcohol in the mouse, 



effect of X-rays on 847 — 850 

 Catabolism of methylalcohol in the 

 mouse effect of X-rays on 841 — 846 

 Cats' teeth, phosphorous exchange iia 



183-186 

 Cell, muscle, rate of phosphate penetra- 

 tion 443-453 

 Cell nviclei, phosphatide turnover in 



359-361 

 Cell walls, rate of passage of water 



through 437-442 

 Cephalin, 



cat, turnover experiments 340 

 fast and slow, difference in 343, 344 

 frog, turnover experiments 339 

 rat experiments 338 

 turnover of, 309-345, 358 

 laying hen experiments 339 

 rabbit experiments 331 — 336, 343 

 Cerium 50 

 Chicks, 



blood volume determination 519 

 embrvo, origin of phosphorous com- 

 pounds in 293-303 

 phosphatide experiments on 266, 267 

 Chloride content of the mineral consti- 

 tuents of the skeleton 241 — 245 

 Chloride penetration into corpuscles 



510, 511 

 Clinical investigations 536 — 609 

 Cobalt uptake by neurospora 914 

 Corpuscles, 



blood volume determination based 



on labelled 517-520 

 chloride penetration into 510, 511 

 content of human subjects 567 — 570 

 human, penetration of radio phos- 

 phorus 496 

 interaction of plasma phosphate with 

 phosphorous compounds present 

 471-492 

 labelhng of 523-526 



phosjahate accumulation in 506 — 510 



phosphate ion uptake 482 — 484, 

 493-499 



phosphatides origin in 486 — 491 



plasma adhesion 527, 528 



plasma, inorganic phosjahorus penetra- 

 tion 381-383 



red, 



amount in circulation 989 — 992 

 avian, life cycle of 984 — 988 

 cancer in mice 597 — 609 

 content 561 — 572 

 determination in rabbit 523 — 530 

 labelling of 516-535, 953-956 

 life cycle in hen 688 — 691 

 loss of carbon- 14, 1008 

 phosphorus content in frog 401 

 potassium labelled in blood volume 



measurements 573 — 579 

 thorium B distribution 591 



renewal of acid soluble phosphorous 

 compounds 378 — 380 



sodium penetration into 511 — 513 



temperature effect on penetration 

 rate of phosphate 499 — 501 



thorium B labelled red 531-535 



volume by the CO method 565, 566 



volume using radio-iron indicator 

 571, 572 



white, life cycle of human 988 

 Cosmic radiation 15 

 Coster 21 

 Christiansen 24 

 Curie, Madame Marie 15, 16 



D 



Desoxyribosenucleic acid, 



formation in sarcomata 738 — 742 



formation of 851 — 853 



X-rav effect on incorporation of 

 carbon-14 791, 792 

 Deuterium as a tracer 25 

 Diffusion, in metals 122 — 126 



measurements, application of radio- 

 active recoil in 127 — 139 

 Dinitro-cyclo-pentylphenol (D. P. P.), 



effect on incorporation of labelled 



acetate carbon-14 into tissue frac- 

 tions 408 — 416 

 Diplogen and fish 468-470 

 Dissolution velocity of molecular layers 



89-96 

 DNA 28, 853-863, 874, 875 



growth promotion 870 — 872 

 DNA molecule, interference with 859 — 



863 

 Dynamic state of body constituents 952 

 Dysprosium 51, 55, 56, 57, 58 



E 



Einstein 11, 12 

 Electrochemistry 75 — 88 

 Electrolytic dissociation, Svante Arrhe- 

 nius' theory of 934, 935 



