Impact of regional striatal dopaminergic function on kinematic parameters of Parkinson’s disease
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- 作者:Myung Jun Lee ; Sha-Lom Kim ; Chul Hyoung Lyoo ; J. O. Rinne…
- 关键词:FP ; CIT PET ; Finger tapping ; Kinematic analysis ; Parkinson’s disease
- 刊名:Journal of Neural Transmission
- 出版年:2015
- 出版时间:May 2015
- 年:2015
- 卷:122
- 期:5
- 页码:669-677
- 全文大小:525 KB
- 参考文献:Albouy G, Sterpenich V, Vandewalle G, Darsaud A, Gais S, Rauchs G, Desseilles M, Boly M, Dang-Vu T, Maquet P et al (2012) Neural correlates of performance variability during motor sequence acquisition. Neuroimage 60:324-31View Article PubMed
Aldridge JW, Anderson RJ, Murphy JT (1980) Sensory-motor processing in the caudate nucleus and globus pallidus: a single-unit study in behaving primates. Can J Physiol Pharmacol 58(10):1192-201View Article PubMed
Alexander GE, Crutcher MD (1990) Functional architecture of basal ganglia circuits: neural substrates of parallel processing. Trends Neurosci 13(7):266-71View Article PubMed
Anderson RJ, Aldridge JW, Murphy JT (1979) Function of caudate neurons during limb movements in awake primates. Brain Res 173(3):489-01View Article PubMed
Bajaj NP, Gontu V, Birchall J, Patterson J, Grosset DG, Lees AJ (2010) Accuracy of clinical diagnosis in tremulous parkinsonian patients: a blinded video study. J Neurol Neurosurg Psychiatry 81(11):1223-228. doi:10.-136/?jnnp.-009.-93391 View Article PubMed
Barbe MT, Amarell M, Snijders AH, Florin E, Quatuor EL, Schonau E, Fink GR, Bloem BR, Timmermann L (2014) Gait and upper limb variability in Parkinson’s disease patients with and without freezing of gait. J Neurol 261:330-42View Article PubMed
Benamer HT, Patterson J, Wyper DJ, Hadley DM, Macphee GJ, Grosset DG (2000) Correlation of Parkinson’s disease severity and duration with 123I-FP-CIT SPECT striatal uptake. Mov Disord 15(4):692-98View Article PubMed
Bergman H, Deuschl G (2002) Pathophysiology of Parkinson’s disease: from clinical neurology to basic neuroscience and back. Mov Disord 17(Suppl 3):S28–S40View Article PubMed
Crutcher MD, DeLong MR (1984) Single cell studies of the primate putamen. II. Relations to direction of movement and pattern of muscular activity. Exp Brain Res 53(2):244-58View Article PubMed
Desmurget M, Grafton S (2000) Forward modeling allows feedback control for fast reaching movements. Trends Cogn Sci 4(11):423-31View Article PubMed
Djaldetti R, Treves TA, Ziv I, Melamed E, Lampl Y, Lorberboym M (2009) Use of a single [123I]-FP-CIT SPECT to predict the severity of clinical symptoms of Parkinson disease. Neurol Sci 30(4):301-05. doi:10.-007/?s10072-009-0100-4 View Article PubMed
Espay AJ, Beaton DE, Morgante F, Gunraj CA, Lang AE, Chen R (2009) Impairments of speed and amplitude of movement in Parkinson’s disease: a pilot study. Mov Disord 24(7):1001-008. doi:10.-002/?mds.-2480 View Article PubMed
Espay AJ, Giuffrida JP, Chen R, Payne M, Mazzella F, Dunn E, Vaughan JE, Duker AP, Sahay A, Kim SJ, Revilla FJ, Heldman DA (2011) Differential response of speed, amplitude, and rhythm to dopaminergic medications in Parkinson’s disease. Mov Disord 26(14):2504-508. doi:10.-002/?mds.-3893 View Article PubMed Central PubMed
Gibb WR, Lees AJ (1988) A comparison of clinical and pathological features of young- and old-onset Parkinson’s disease. Neurology 38(9):1402-406View Article PubMed
Heldman DA, Giuffrida JP, Chen R, Payne M, Mazzella F, Duker AP, Sahay A, Kim SJ, Revilla FJ, Espay AJ (2011) The modified bradykinesia rating scale for Parkinson’s disease: reliability and comparison with kinematic measures. Mov Disord 26(10):1859-863. doi:10.-002/?mds.-3740 View Article PubMed Central PubMed
Jellinger KA (1999) Post mortem studies in Parkinson’s disease—is it possible to detect brain areas for specific symptoms? J Neural Transm Suppl 56:1-9View Article PubMed
Jueptner M, Weiller C (1998) A review of differences between basal ganglia and cerebellar control of movements as revealed by functional imaging studies. Brain 121:1437-449View Article PubMed
Kato M, Kimura M (1992) Effects of reversible blockade of basal ganglia on a voluntary arm movement. J Neurophysiol 68(5):1516-534PubMed
Ling H, Massey LA, Lees AJ, Brown P, Day BL (2012) Hypokinesia without decrement distinguishes progressive supranuclear palsy from Parkinson’s disease. Brain 135:1141-153. doi:10.-093/?brain/?aws038 View Article PubMed Central PubMed
Lyoo CH, Ryu YH, Lee MJ, Lee MS (2012) Striatal dopamine loss and discriminative sensory dysfunction in Parkinson’s disease. Acta Neurol Scand 126:344-49View Article PubMed
Ma Y, Dhawan V, Mentis M, Chaly T, Spetsieris PG, Eidelberg D (2002) Parametric mapping of [18F]FPCIT binding in early stage Parkinson’s disease: a PET study. Synapse 45(2):125-33. doi:10.-002/?syn.-0090 View Article PubMed
Marsden CD (1984) Which motor disorder in Parkinson’s disease indicates the true motor function of the basal ganglia? Ciba Found Symp 107:225-41PubMed
Miller NS, Kwak Y, Bohnen NI, Muller M, Dayalu P, Seidler RD (2013) The pattern of striatal dopaminergic denervation explains sensorimotor synchronization accuracy in Parkinson’s disease. Behav Brain Res 257:100-10View Article PubMed
Nagy A, Paroczy Z, Norita M, Benedek G (2005) Multisensory responses - 作者单位:Myung Jun Lee (1) (2)
Sha-Lom Kim (2)
Chul Hyoung Lyoo (2)
J. O. Rinne (3)
Myung-Sik Lee (2)
1. Department of Neurology, Pusan National University Hospital, Pusan National University School of Medicine and Medical Research Institute, Busan, Republic of Korea
2. Department of Neurology, Gangnam Severance Hospital, Yonsei University of College of Medicine, 712 Eonju-ro, Gangnam-gu, Seoul, Republic of Korea
3. PET Center, University of Turku, Turku, Finland - 刊物类别:Medicine
- 刊物主题:Medicine & Public Health
Neurology
Pharmacology and Toxicology
Psychiatry - 出版者:Springer Wien
- ISSN:1435-1463
文摘
Among the cardinal parkinsonian motor deficits, the severity of bradykinesia correlates with striatal dopamine loss. However, the impact of regional striatal dopamine loss on specific components of bradykinesia remains unknown. Using gyroscopes, we measured the amplitude, speed, and frequency of finger tapping in 24 untreated patients with Parkinson’s disease (PD) and 28 healthy controls. Using positron emission tomography (PET) studies and [18F]-N-3-fluoropropyl-2-beta-carboxymethoxy-3-beta-(4-iodophenyl) nortropane (FP-CIT) in PD patients, we investigated the relationship between the mean values, variability and decrements of various kinematic parameters of finger tapping on one side (e.g. the mean, variability and decrement) and contralateral striatal FP-CIT binding. Compared with controls, PD patients had reduced amplitudes and speeds of tapping and showed greater decrement in those parameters. PD patients also exhibited greater irregularity in amplitude, speed, and frequency. Putaminal FP-CIT uptake levels correlated with the mean speed and amplitude, and caudate uptake levels correlated with mean amplitude. The variability of amplitude and speed correlated only with the caudate uptake levels. Neither caudate nor putaminal uptake correlated with frequency-related parameters or decrement in amplitude or speed. Reduced amplitude and speed of repetitive movement may be related to striatal dopaminergic deficit. Dopaminergic action in the caudate nucleus is required to maintain consistency of amplitude and speed. Although decrement of amplitude and speed is known to be specific for PD, we found that it did not mirror the degree of striatal dopamine depletion.