DowsettD. J.: A quantitative analytic display program (QUAD) designed for radioisotope brain scans. Comput. Biol. Med.2 (1972), 27.
2.
GottschalkA.: Brain scanning. Is it becoming unnecessarily complicated?Amer. J. Roentgenol.111 (1971), 851.
3.
HandaJ.HandaH.HamamotoK.TorizukaK.KousakaT.: Sequential brain imaging as an aid in understanding disease etiologySem. nucl. Med.1 (1971), 56.
4.
HannanW. J.BessentR. G.: Pitfalls in gamma camera field uniformity correction. Brit. J. Radiol.47 (1974), 820.
5.
HatamA.BergvallU.LewanderR.LarssonS.LindM.: Contrast medium enhancement with time in computer tomography. Differential diagnosis of intracranial lesions. Acta radiol. (1975) Suppl. 346, p. 63.
6.
HirschbiegelH.SchwiegerG.: Verlaufmessungen der Einlagerung von Technetium-99m in Hirntumoren im Hinblick auf ihre artdiagnostische Bedeutung. Strahlentherapie140 (1970), 4999.
7.
LarssonS.LindM.SoderborgB.: Objective symmetry detector method for gammaencephalography. I. Physical characteristics. Acta radiol. Ther. Phys. Biol.14 (1975), 63.
8.
LindM.: Objective symmetry detector method for gammaencephalography. IV. Investigation of brain tumours. Acta radiol. Diagnosis16 (1975), 585.
9.
LindM.: Objective symmetry detector method for gammaencephalography. V. Variation in the subjective analysis of brain scintigrams. Acta radiol. Diagnosis17 (1976), 129.
10.
LindM.: Objective symmetry detector method for gammaencephalography. VI. Comparison with subjective evaluation of brain scintigraphy. Acta radiol. Diagnosis17 (1976), 289.
11.
LindM.LarssonS.: Objective symmetry detector method for gammaencephalography. III. Diagnosis of abnormal 99TcmO4 distribution in the skull. Acta radiol. Ther. Phys. Biol.14 (1975), 273.
12.
LindM.SoderborgB.: Objective symmetry detector method for gammaencephalography. II. Normal range. Acta radiol. Ther. Phys. Biol.14 (1975), 145.
13.
MooreG. E.: Use of radioactive diiodofluorescein in the diagnosis and localization of brain tumours. Science107 (1948), 569.
14.
MooreG. E.PeytonW. T.HunterS. W.FrenchL.: The clinical use of sodium fluorescein and radioactive diiodofluorescein in the localization of tumours of the central nervous system. Minn. Med.31 (1948). 1073.
15.
MundingerF.AsaiA.: Ergebnisse der digitalen Gammaencephalographie bei Hirntumoren. Vergleich von Wismut-206, Quecksilber-203-Neohydrin und Technetium-99m. Arch. Psych. Z. Ges. Neurol.210 (1967), 297.
16.
MundingerF.OstertagCh.: Radio-isotope in der neurologischneurochirurgischen Diagnostik. Hippokrates42 (1971). 135.
17.
PlaniolT.: Diagnostic des lésions intra-craniennes par les radio-isotopes (gammaencéphalographie). Masson et Cie, Paris1959.
18.
PlaniolT.: Gamma-encephalography after ten years of utilization in neurosurgery. Progr. Neurol. Surg.1 (1966). 93.
19.
PophamM. G.: Numerical methods for the detection of abnormalities in radionuclide brain scans. In: Progress in nuclear medicine. Volume 1. p. 115. Edited by PotchenE. J.McCreadyV. R.S. Karger. Basel1972.
20.
PophamM. G.BullJ. W. D.EmeryE. W.: Interpretation of brain scans by computer analysis. Brit. J. Radiol.43 (1970), 835.
21.
WendeS.: Technik und Wert der Gamma-Enzephalographie. Fortschr. Röntgenstr.98 (1963), 466.
22.
van der WerffJ. Th.PrickJ. J.WalderH. A. D.WenHian Tan: Gamma- encephalografie (In Dutch.)Ned. Tijdschr. Geneesk.108 (1964), 646.
