Application of PIXE analysis to the study of the regional distribution of trace elements in normal human brain H. DuflouW. MaenhautJ. De Reuck Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 1 - 17
Applications of neutron activation analysis to the study of age-related neurological diseases W. D. EhmannW. R. MarkesberyC. M. Thompson Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 19 - 33
Origin and resolution of the aluminum controversy concerning Alzheimer’s neurofibrillary degeneration S. S. KrishnanJ. E. HarrisonD. R. Crapper McLachlan Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 35 - 42
Studies of aluminum in rat brain J. J. LipmanA. B. BrillM. Cholewa Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 43 - 53
Application of trace metal analysis to basic problems in neurobiology studies of patients with Reye’s syndrome J. M. AndresR. W. HurdH. A. Van Rinsvelt Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 55 - 67
Trace elements in the human central nervous system studied with neutron activation analysis L. O. PlantinUlla Lying-TunellK. Kristensson Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 69 - 75
Possible pathogenic mechanisms on trimethyltin-induced lesions in the hippocampus of adult and neonatal rats Louis W. Chang Applications of Trace Metal Analysis to Basic Problems in Neurobiology Pages: 77 - 88
Elemental imaging by EELS and EDXS in the analytical electron microscope R. D. LeapmanC. E. FioriK. E. Gorlen Localization of Trace Elements Pages: 89 - 102
Elemental analysis using differential absorption techniques H. RarbackF. CinottiR. Rosser Localization of Trace Elements Pages: 103 - 113
Some medical applications of the oxford scanning proton microprobe D. J. T. VauxG. W. GrimeF. Watt Localization of Trace Elements Pages: 115 - 133
Hint of polar distribution in calcium channels under PIXE analysis Hans-Dieter ReissKurt Traxel Localization of Trace Elements Pages: 135 - 142
A proton microprobe scanning across the vertebra of a flat fish,Paralichthys olivaceus M. IshikawaT. IshiiK. Kitao Localization of Trace Elements Pages: 143 - 157
Elemental microanalysis of individual blood cells P. M. O’BrienG. J. F. Legge Localization of Trace Elements Pages: 159 - 166
Distribution of elements in rabbit liver lobule T. CichockiB. GonsiorM. Sych Localization of Trace Elements Pages: 167 - 177
Noninvasive techniques for measuring body elemental composition S. H. Cohn In-Vivo Determinations Pages: 179 - 190
In-vivo and in-vitro measurements of lead and cadmium David R. ChettleDiana M. FranklinLillian J. Somervaille In-Vivo Determinations Pages: 191 - 208
Prospects for microcomputerized-tomography using synchrotron radiation Carl A. CarlssonGeorg MatschekoPer Spanne In-Vivo Determinations Pages: 209 - 217
X-ray microtomography of biological tissues using laboratory and synchrotron sources J. C. ElliottD. K. BowenS. T. Davies In-Vivo Determinations Pages: 219 - 227
Contrast agents for nuclear magnetic resonance imaging M. H. Mendonca DiasPaul C. Lauterbur In-Vivo Determinations Pages: 229 - 239
Biological monitoring, by in vivo XRF measurements, of occupational exposure to lead, cadmium, and mercury Staffan SkerfvingJan-Ove ChristofferssonSören Mattsson In-Vivo Determinations Pages: 241 - 251
Effects of essential divalent metals on carcinogenicity and metabolism of nickel and cadmium Kazimierz S. KasprzakMichael P. WaalkesLionel A. Poirier Cancer-Related Topics Pages: 253 - 273
Localization of vanadium-containing particles in the lungs of uranium/vanadium miners A. S. PaschoaM. E. WrennK. W. Jones Cancer-Related Topics Pages: 275 - 282
Determination of ruthenium on DNA by XRF L. WielopolskiR. ZhangS. H. Cohn Cancer-Related Topics Pages: 283 - 290
Actions of a tumor-promoting phorbol ester in a cloned rat pituitary cell I. J. BoyerM. A. Brostrom Cancer-Related Topics Pages: 291 - 292
Electron spectroscopic imaging (ESI) applied to the detection of potential Ca2+-binding sites in plant cells Werner HerthHans-Dieter Reiss Techniques Pages: 293 - 299
Neutron activation analysis of bulk and selected trace elements in bones using a low flux SLOWPOKE reactor M. D. GrynpasK. P. H. PritzkerR. G. V. Hancock Techniques Pages: 333 - 344
Description of an XRF system for multielemental analysis L. WielopolskiR. ZhangS. H. Cohn Techniques Pages: 345 - 356
Chromium, nickel, and arsenic determinations in human samples by thermal and epithermal neutron activation analyses Sheldon LandsbergerAnita Simsons Techniques Pages: 357 - 362
A hydrogen-peroxide digestion system for tissue trace-metal analysis Nancy W. Alcock Techniques Pages: 363 - 370
Biomedical applications of photon-induced X-ray fluorescence Roberto Cesareo Techniques Pages: 371 - 382
Chemical state analysis of sulfur and phosphorus in biological samples by X-ray fluorescence Q. W. QiK. FuruyaY. Gohshi Techniques Pages: 383 - 392
Localization of99mTc in bone by means of autoradiography W. J. VisserT. J. F. Savelkoul Techniques Pages: 393 - 395
Use of laser microprobe mass analysis (LAMMA) for localizing multiple elements in soft and hard tissues A. H. VerbuekenF. L. Van de VyverM. E. De Broe Techniques Pages: 397 - 416
Reliability of the ICP-AES for trace elements studies of biological materials M. A. ChaudhriP. Hannaker Techniques Pages: 417 - 421
Proton computed tomography applied to small biomedical samples Akira ItoHiroko Koyama-Ito Techniques Pages: 423 - 423