Increased putamen hypercapnic vasoreactivity in levodopa-induced dyskinesia
Vincent A. Jourdain, Katharina A. Schindlbeck, Chris C. Tang, Martin Niethammer, Yoon Young Choi, Daniel Markowitz, Amir Nazem, Dominic Nardi, Nicholas Carras, Andrew Feigin, Yilong Ma, Shichun Peng, Vijay Dhawan, David Eidelberg
Vincent A. Jourdain, Katharina A. Schindlbeck, Chris C. Tang, Martin Niethammer, Yoon Young Choi, Daniel Markowitz, Amir Nazem, Dominic Nardi, Nicholas Carras, Andrew Feigin, Yilong Ma, Shichun Peng, Vijay Dhawan, David Eidelberg
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Research Article Neuroscience

Increased putamen hypercapnic vasoreactivity in levodopa-induced dyskinesia

Abstract

In a rodent model of Parkinson’s disease (PD), levodopa-induced involuntary movements have been linked to striatal angiogenesis — a process that is difficult to document in living human subjects. Angiogenesis can be accompanied by localized increases in cerebral blood flow (CBF) responses to hypercapnia. We therefore explored the possibility that, in the absence of levodopa, local hypercapnic CBF responses are abnormally increased in PD patients with levodopa-induced dyskinesias (LID) but not in their nondyskinetic (NLID) counterparts. We used H215O PET to scan 24 unmedicated PD subjects (12 LID and 12 NLID) and 12 matched healthy subjects in the rest state under normocapnic and hypercapnic conditions. Hypercapnic CBF responses were compared to corresponding levodopa responses from the same subjects. Group differences in hypercapnic vasoreactivity were significant only in the posterior putamen, with greater CBF responses in LID subjects compared with the other subjects. Hypercapnic and levodopa-mediated CBF responses measured in this region exhibited distinct associations with disease severity: the former correlated with off-state motor disability ratings but not symptom duration, whereas the latter correlated with symptom duration but not motor disability. These are the first in vivo human findings linking LID to microvascular changes in the basal ganglia.

Authors

Vincent A. Jourdain, Katharina A. Schindlbeck, Chris C. Tang, Martin Niethammer, Yoon Young Choi, Daniel Markowitz, Amir Nazem, Dominic Nardi, Nicholas Carras, Andrew Feigin, Yilong Ma, Shichun Peng, Vijay Dhawan, David Eidelberg

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Figure 5

Clinical correlates of hypercapnic and dopaminergic cerebral blood flow responses in the putamen dissociation region.

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Clinical correlates of hypercapnic and dopaminergic cerebral blood flow ...
We used multiple regression analysis to determine the relationship between hypercapnic or levodopa-mediated cerebral blood flow (CBF) responses measured in the putamen dissociation region and clinical descriptors of disease progression: symptom duration and off-state motor severity ratings were according to the Unified Parkinson’s Disease Rating Scale (UPDRS part III) (see Methods). In levodopa-induced dyskinesia (LID; n = 12) and non-LID (NLID; n = 12) subjects, partial correlation leverage plots of multiple regression analysis revealed a “double dissociation” in the clinical correlates of the two CBF response measures in this region. (A) Hypercapnic CBF responses measured in the putamen levodopa dissociation region correlated with off-state motor disability ratings but not with symptom duration. (B) By contrast, levodopa-mediated CBF responses in this region measured in the same subjects correlated with symptom duration but not with off-state motor disability ratings. Analogous findings were observed for correlations of the hypercapnic and levodopa-mediated CBF responses measured in the ventral putamen interaction cluster (Figure 3A). (Leverage plots of the combined data from LID [dark gray] and NLID [light gray] subjects depict the effects of the clinical descriptors on each of the response measures determined in this brain region. The values displayed on each axis represent residuals following adjustment for the other variables in the multiple regression analysis.) P values denote significance levels of partial correlations according to the multiple regression analysis.