Even in the absence of dementia or depression, patients with advanced PD are likely to show clinically significant impairments on neuropsychological measures sensitive to changes in dorsolateral prefrontal regions participating in cognitive basal ganglia-thalamocortical circuits.
Thirty-six patients with Parkinson's disease (PD) were randomized to either medical therapy (N ؍ 18) or unilateral GPi pallidotomy (N ؍ 18). The primary outcome variable was the change in total Unified Parkinson's Disease Rating Scale (UPDRS) score at 6 months. Secondary outcome variables included subscores and individual parkinsonian symptoms as determined from the UPDRS. At the six month follow-up, patients receiving pallidotomy had a statistically significant reduction (32% decrease) in the total UPDRS score compared to those randomized to medical therapy (5% increase). Following surgery, patients' showed improvement in all the cardinal motor signs of PD including tremor, rigidity, bradykinesia, gait and balance. Drug-induced dyskinesias were also markedly improved. Although the greatest improvement occurred on the side contralateral to the lesion, significant ipsilateral improvement was also observed for bradykinesia, rigidity and drug-induced dyskinesias. A total of twenty patients have been followed for 2 years to assess the effect of time on clinical outcome. These patients have shown sustained improvement in the total UPDRS ( p < 0.0001), "off" motor ( p < 0.0001) and complications of therapy subscores ( p < 0.0001). Sustained improvement was also seen for tremor, rigidity, bradykinesia, percent on time and drug-induced dyskinesias. Neurol 2003;53:558 -569 Over the past decade, there has been a marked resurgence of interest in surgery for Parkinson's disease (PD). Several factors have contributed to this: (1) the need for better therapies to treat the continued worsening of parkinsonian motor symptomatology and the development of drug-induced dyskinesias and motor fluctuations, (2) advances in our understanding of the physiological basis of parkinsonism and the rationale for surgery, 1,2,4 and (3) the report by Laitinen and colleagues of improvement in parkinsonian motor signs after pallidotomy. 3 Although there are now numerous reports on the benefits of pallidotomy for PD, 5-15 there has been only one randomized clinical trial comparing the effects of pallidotomy to best medical therapy. 16 In some of the previous studies, nontremulous 7 or predominately asymmetric 6 patients were selected, whereas in others nonstandardized methods of clinical evaluation were used. 10,12,13 Therefore, it is difficult to compare the results of pallidotomy across studies and to assess the effect of pallidotomy for patients regardless of symptom profile. AnnWe present here the results of a randomized, prospective clinical trial comparing the effectiveness of pallidotomy to best medical management in patients followed up for 6 months. In addition, we present data for the first 20 patients who have been followed up for 2 years. Patients and Methods Patient Recruitment and AssessmentPatients were recruited from the Movement Disorders Center at Emory and Grady Memorial Hospital Clinics. To limit patient attrition, we limited the geographical location for patient recruitment to a 500-mile radius from the City of Atlanta...
Goldberg (1985) hypothesized that as language output changes from internally to externally guided production, activity shifts from supplementary motor area (SMA) to lateral premotor areas, including Broca's area. To test this hypothesis, 15 right-handed native English speakers performed three word generation tasks varying in the amount of internal guidance and a repetition task during functional magnetic resonance imaging (fMRI). Volumes of significant activity for each task versus a resting state were derived using voxel-by-voxel repeated-measures t tests (p <.001) across subjects. Changes in the size of activity volumes for left medial frontal regions (SMA and pre-SMA/BA 32) versus left lateral frontal regions (Broca's area, inferior frontal sulcus) were assessed as internal guidance of word generation decreased and external guidance increased. Comparing SMA to Broca's area, Goldberg's hypothesis was not verified. However, pre-SMA/BA 32 activity volumes decreased significantly and inferior frontal sulcus activity volumes increased significantly as word generation tasks moved from internally to externally guided.
The supracallosal medial frontal cortex can be divided into three functional domains: a ventral region with connections to the limbic system, an anterior dorsal region with connections to lateral prefrontal systems, and a posterior dorsal region with connections to lateral motor systems. Lesion and functional imaging studies implicate this medial frontal cortex in speech and language generation. The current functional magnetic resonance imaging (fMRI) study of word generation was designed to determine which of these three functional domains was substantially involved by mapping individual subjects' functional activity onto structural images of their left medial frontal cortex. Of 28 neurologically normal right-handed participants, 21 demonstrated a prominent paracingu- late sulcus (PCS), which lies in the anterior dorsal region with connections to lateral prefrontal systems. Activity increases for word generation centered in the PCS in 18 of these 21 cases. The posterior dorsal region also demonstrated significant activity in a majority of participants (16/28 cases). Activity rarely extended into the cingulate sulcus (CS) (3/21 cases) when there was a prominent PCS. If there was no prominent PCS, however, activity did extend into the CS (6/7 cases). In no case was activity present on the crest of the cingulate gyrus, which is heavily connected to the limbic system. Thus, current findings suggest that medial frontal activity during word generation reflects cognitive and motor rather than limbic system participation. The current study demonstrates that suitably designed fMRI studies can be used to determine the functional significance of anatomic variants in human cortex.
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