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DOI: 10.1055/s-0038-1629754
123I-IBZM SPECT: Reconstruction Methodology and Results in Parkinsonism and Dystonia[*]
Publication History
Received:
25 March 1994
in revised form:
26 May 1994
Publication Date:
02 February 2018 (online)
Summary
In 58 patients with Parkinsonism or dystonia striatal dopamine D2 receptors were investigated using 123l-iodobenzamide (123I-IBZM) single-photon emission computed tomography (SPECT). The influence of SPECT reconstruction methodology on semiquantification and the clinical value of 123I-IBZM SPECT were evaluated. Delineation of the striatal uptake and striatum/frontal cortex (ST/FC) ratios were improved by the use of compensation procedures for scatter and attenuation as well as the choice of an adequate filter. Satisfactory results were achieved using a Metz prefilter with a comparatively high order number (i. e. high cut-off and low suppression of higher frequencies via roll-off). Regarding clinical diagnoses it was not possible to differentiate between advanced idiopathic Parkinson’s disease (IP) and Parkinsonism of other aetiology (OP) on the basis of 123I-IBZM SPECT. But patients with IP and favourable response to L-Dopa showed significantly higher ST/FC ratios than those with fluctuating response. In patients with dystonia ST/FC ratios were significantly higher compared to patients with IP or OP.
Zusammenfassung
Bei 58 Patienten mit Parkinsonismus oder Dystonie wurden SPECT-Studien der Striatalen Dopamin-D2-Rezeptoren mit 123J-lodobenzamid (123J-IBZM) durchgeführt. Der Einfluß der SPECT-Rekonstruktionsmethodik auf die Semiquantifizierung und die klinische Bedeutung der 123J-IBZM-SPECT wurden untersucht. Die Abgrenzbarkeit der Striatalen Speicherung und die Striatum/ Frontalhirn-(ST/FC-)Quotienten wurden sowohl durch die Anwendung von Korrekturverfahren für Streustrahlung und Schwächung als auch durch die Auswahl eines geeigneten Filters verbessert. Zufriedenstellende Ergebnisse wurden bei der Verwendung eines Metz-Filters mit vergleichsweise hoher Ordnung (d. h. hohem cut-off und niedriger Unterdrückung hoher Frequenzen durch den roll-off) erreicht. Hinsichtlich der klinischen Diagnose war es nicht möglich, auf der Grundlage der 123J-IBZM-SPECT zwischen fortgeschrittenem idiopathischen Morbus Parkinson (IP) und Parkinsonismus anderer Ätiologie (OP) zu unterscheiden. Patienten mit IP, die auf L-Dopa ansprachen, zeigen jedoch signifikant höhere ST/FC-Quotienten als diejenigen mit fluktuierendem Ansprechen. Bei Patienten mit Dystonie lagen die ST/FC-Quotienten signifikant höher als bei denjenigen mit IP oder OP.
* Herrn Prof. Dr. med. D. Emrich zum 65. Geburtstag
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Literatur
- 1 Blokland KAK, Reiber HHC, Pauwels EKJ. Quantitative analysis in single photon emission tomography (SPECT). Eur J Nucl Med 1992; 19: 47-61.
- 2 Brooks DJ, Ibanez V, Sawle GV. et al. Striatal D2 receptor status in patients with Parkinson’s disease, striatonigral degeneration, and progressive supranuclear palsy, measured with “C-raclopride and positron emission tomography. Ann Neurol 1992; 31: 184-92.
- 3 Brücke T, Podreka I, Angelberger P. et al. Dopamine D2 receptor imaging with SPECT: Studies in different neuropsychiatry disorders. J Cereb Blood Flow Metab 1991; 11: 220-8.
- 4 Brücke T, Wenger S, Asenbaum S. et al. Dopamine D2 receptor imaging and measurement with SPECT. In: Narabayashi T, Nagat-su T, Yanagisawa N, Mizuno Y. (eds). Advances in Neurology, Parkinson’s disease: from basic research to treatment. New York: Raven Press; 1993. 60 493-500.
- 5 Cordes M, Hierholzer J, Schelosky L. et al. IBZM-SPECT imaging in Parkinson’s disease. In: Narabayashi T, Nagatsu T, Yana-gi-sawa N, Mizuno Y. (eds). Advances in Neurology, Parkinson’s disease: from basic research to treatment. New York: Raven Press; 1993. 60 525-8.
- 6 Costa DC, George MS, Ell PJ. et al. Dopamine D2 receptor availability in patients with Gilles de la Tourette syndrome studied with SPECT. In: Schmidt HAE, Höfer R. (eds). Nuclear medicine in research and practice. European Nuclear Medicine Congress, Vienna, September 1-5,1991. Stuttgart, New York: Schattauer, Nucl Med; 1992. 28 414-7.
- 7 Costa DC, Verhoeff NPLG, Cullum ID. et al. In vivo characterisation of 3-iodo-6-meth-oxybenzamide 123I in humans. Eur J Nucl Med 1990; 16: 813-6.
- 8 Giobbe D, Castellano GC, Podio V. Dopamine D2 receptor imaging with SPECT using IBZM in 16 patients with Parkinson disease. Ital J Neurol Sei 1993; 14: 165-9.
- 9 Guttman M, Seeman P. L-DOPA reverses the elevated density of D2 dopamine receptors in Parkinson’s diseased striatum. J Neural Transm 1985; 64: 93-103.
- 10 Ichise M, Toyama H, Fornazzari L, Ballinger JR, Kirsh C. Iodine-123-IBZM dopamine D2 receptor and technetium-99m-HMPAO brain SPECT in the evaluation of patients with and subjects at risk for Huntington’s disease. J Nucl Med 1993; 34: 1274-81.
- 11 Jaszczak RJ, Greer KL, Floyd CE, Harris CC, Coleman RE. Improved SPECT quantification using compensation for scattered photons. J Nucl Med 1984; 25: 893-900.
- 12 Jellinger K. Overview of morphological changes in Parkinson’s disease. In: Yahr MD, Bergmann KJ. (eds). Advances in Neurology, Parkinson’s disease. New York: Raven Press; 1986. 45 1-18.
- 13 Jordan K, Knoop BO. Meßtechnik in der Emissions-Computertomographie. In: Diet-helm L, Heuck F, Olsson O, Strnad F, Vieten H, Zuppinger A. (Hrsg). Handbuch der medizinischen Radiologie Band XV/1B. 1988: 149-313.
- 14 Knoop BO. Klinische Anwendung digitaler Bildrekonstruktion zur Quantifizierung von Profilmessungen im Ganzkörperzähler und zur nichtinvasiven Nierendurchblutungsbestimmung. Dissertation, Universität Bremen 1982
- 15 Kung HF, Alavi A, Chang W. et al. In vivo SPECT imaging of CNS D-2 dopamine receptors: initial studies with Iodine-123-IBZM in humans. J Nucl Med 1990; 31: 573-9.
- 16 Laulumaa V, Kuikka JK, Soininen H. et al. Imaging of D2 receptors of patients with Parkinson’s disease using single photon emission tomography and iodobenzamide I 123. Arch Neurol 1993; 50: 509-12.
- 17 Leenders KL, Quin N, Frackowiak RSJ, Marsden CD. Brain dopaminergic system studied in patients with dystonia using positron emission tomography. In: Fahn S, Marsden CD, Calne DB. (eds). Advances in Neurology, Dystonia 2. New York: Raven Press; 1988. 50 243-7.
- 18 Luig H, Schober O, Eilles C. et al. Filterwahl bei der Myokardtomographie mit einer rotierenden Gammakamera (»Myokard-SPECT«). Sitzung der Arbeitsgemeinschaft »Kardiovasculäre Nuklearmedizin« der Deutschen Gesellschaft für Nuklearmedizin vom 5. März 1991. Nucl-Med 1992; 31: 263-4.
- 19 McNeill H, Brown SA, Rafols JA, Shoulson I. Atrophy of medium spiny I striatal dendrites in advanced Parkinson’s disease. Brain Res 1988; 455: 148-52.
- 20 Newiger H. Kollimatoren für planare und tomographische Szintigraphie mit einer Gammakamera: Simulation, Messung und Optimierung. Dissertation, Medizinische Hochschule Hannover 1987
- 21 Nikkinen P, Liewendahl K, Savolainen S, Launes J. Validation of quantitative brain dopamine D2 receptor imaging with a conventional single-head SPET camera. Eur J Nucl Med 1993; 20: 680-3.
- 22 Nygaard TG. Dopa-responsive dystonia. Delineation of the clinical syndrome and clues to pathogenesis. In: Narabayashi H, Nagatsu T, Yanagisawa N, Mizuno Y. (eds). Advances in Neurology, Parkinson’s disease: from basic research to treatment. New York: Raven Press; 1993. 60 577-85.
- 23 Oertel WH, Schwarz J, Tatsch K. et al. IBZM-SPECT as predictor for dopamimetic responsiveness of patients with de novo Parkinsonian syndrome. In: Narabayashi T, Nagatsu T, Yanagisawa N, Mizuno Y. (eds). Advances in Neurology, Parkinson’s disease: from basic research to treatment. New York: Raven Press; 1993. 60 519-24.
- 24 Pizzolato G, Chierichetti F, Rossato A. et al. Dopamine receptor SPECT imaging in Parkinson’s disease: A [123I]-IBZM and [“mTc]-HM-PAO study. Eur Neurol 1993; 33: 143-8.
- 25 Rinne UK, Lönnberg P, Koskinen V. Dopamine receptors in the Parkinsonian brain. J Neural Transm 1981; 51: 97-106.
- 26 Rivest J, Quinn N, Marsden CD. Dystonia in Parkinson’s disease multiple system atrophy, and progressive supranuclear palsy. Neurology 1990; 40: 1571-8.
- 27 Schwarz J, Tatsch K, Vogl T. et al. Marked reduction of striatal dopamine D2 receptors as detected by l23IBZM-SPECT in a Wilson’s disease patient with generalized dystonia. Movem Disord 1992; 7: 58-61.
- 28 Sorenson JA. Methods for quantitative measurements of radioactivity in vivo by whole body counting. In: Instrumentation in nuclear medicine. Vol. 2. Hine GJ, Sorensen JA. eds. New York: Academic Press; 1974: 311-48.
- 29 Tatsch K, Schwarz J, Oertel WH, Kirsch CM. SPECT imaging of dopamine D2 receptors with 123I-IBZM: initial experience in controls and patients with Parkinson’s syndrome and Wilson’s disease. Nucl Med Commun 1991; 12: 699-707.
- 30 Verhoeff NPLG, Brücke T, Podreka I. et al. Dynamic SPECT in two healthy volunteers to determine the optimal time for in vivo D2 dopamine receptor imaging with 123I-IBZM using the rotating gamma camera. Nucl Med Commun 1991; 12: 687-97.
- 31 Verhoeff NPLG, Buell U, Costa DC. et al. Basics and recommendations for brain SPECT. Nucl-Med 1992; 31: 114-31.
- 32 Verhoeff NPLG, Speelman JD, Kuiper MA. et al. Dopamine D2 receptor imaging with 123I-iodobenzamide SPECT in patients with the Parkinsonian syndrome: clinical significance. In: NPLG Verhoeff. Neuroreceptor li-gand imaging by single photon emission computerized tomography Amsterdam. Ro-dopi; 1993: 206-25.
- 33 Wienhard K, Coenen HH, Pawlik G. et al. PET studies of dopamine receptor distribution using [18F]fluoroethylspiperone: findings in disorders related to the dopaminergic system. J Neural Transm 1990; 81: 195-213.