Low frequency stimulation of the nucleus tegmenti pedunculopontini increases cortical metabolism in parkinsonian patients.

BACKGROUND AND PURPOSE: To evaluate the effects of 25-Hz deep brain stimulation of the nucleus tegmenti pedunculopontini (PPTg) on brain metabolic activity. METHODS: Six patients with Parkinson's disease (PD) who had bilateral stereotactic implantation of PPTg at least 12 months prior to evaluation were included in our study. All underwent, in separate sessions, 18-FDG-PET in core assessment programme for intra-cerebral transplantation as well as motor evaluation [Unified Parkinson's disease rating scale (UPDRS)--Section III] and a battery of cognitive testing. RESULTS: PPTg-ON (low bipolar contacts, 25 Hz) promoted a significant increase of glucose utilization in bilateral prefrontal areas including dorsolateral prefrontal cortex (DLPFC, BA9), orbito-frontal cortex (BA47), anterior cingulate (BA 25-32), superior frontal gyrus (BA 10) and supramarginal gyrus (BA40); a significant increase of uptake and consumption of FDG also occurred in the left ventral striatum, left subgyral (BA 46), right insula (BA 13) and right superior temporal gyrus (BA 22). PPTg-ON was associated with a significant decrease of glucose utilization in the left cerebellar anterior lobe (culmen) and right cerebellar posterior lobe (declive). In the same patients, PPTg-ON improved delayed recall (P < 0.05) and executive functions whilst the UPDRS revealed a modest (-21%) and variable treatment effect. CONCLUSIONS: Low frequency stimulation of PPTg, a sub-region of the pedunculopontine nucleus complex, causes a minor motor benefit but a peculiar profile of cognitive improvement associated with a significant increase in FDG consumption in both prefrontal areas and mono-lateral ventral striatum. These data are consistent with multiple limbic and/or associative domains modulated by PPTg stimulation in our patients with PD.

Deep brain stimulation in Parkinson's disease patients: biochemical evidence.

Deep brain stimulation (DBS) of the subthalamic nucleus (STN) in Parkinson's disease (PD) patients augments STN-driven excitation of the internal globus pallidus (GPi). However, other DBS-induced changes are largely unknown. Here we report the biochemical effects of STN-DBS in two basal ganglia stations (putamen--PUT--and GPi) and in a thalamic relay nucleus, the anteroventral thalamus (VA). In six advanced PD patients undergoing surgery, microdialysis samples were collected from GPi, PUT and VA before, during and after one hour of STN-DBS. cGMP was measured in the GPi and PUT as an index of glutamatergic transmission, whereas GABA was measured in the VA. During clinically effective STN-DBS, we found a significant decrease in GABA extracellular concentrations in the VA (-25%). Simultaneously, cGMP extracellular concentrations were enhanced in the PUT (+200%) and GPi (+481%). DBS differentially affects fibers crossing the STN area: it activates the STN-GPi pathway while inhibiting the GPi-VA one. These findings support a thalamic dis-inhibition, as the main responsible for the clinical effect of STN-DBS. This, in turn, re-establishes a more physiological level of PUT activity.

Pathological Gambling in Parkinson's disease patients: Dopaminergic medication or personality traits fault?

Impulse control disorders (ICDs) are clinically relevant in Parkinson disease (PD) patients, with an established association with PD medication. Aim of our study was to study whether the increased frequency of pathological gambling (PG), reported in subgroups of PD patients, is related to specific personality tracts additional to dopaminergic medications. Thirty-seven PD patients with a personal history of PG where enrolled. Twenty one PD patients, matched for disease and dopaminergic therapy, never experiencing PG, were enrolled as controls. All subjects were tested with the Minnesota Multiphasic Inventory Personality scales (MMPI-2). Our data showed that PD group with PG exhibited significantly higher mean values of the three validity scales in comparison to the non-PG-PD group, demonstrating an higher tendency to lie. Content scales showed a significant increase of cynicism and bizarre ideation scales score in the PG-PD group, not exhibiting pathological values at the validity scales, (p: 0.02) in comparison to non-PG PD patients. According to our results, PG seems to be associated with precise personality tracts. Personality profiles of cluster A personality disturbances - Axys 2 according with DSM-5 TR (paranoid type) at MMPI-2 might be a warning index helpful in selecting dopaminergic treatment, to avoid subsequent ICDs appearance.

Sleep episodes and daytime somnolence as result of individual susceptibility to different dopaminergic drugs in a PD patient: a polysomnographic study.

The association between excessive daytime somnolence (EDS) and idiopathic Parkinson's disease (PD) is often reported but still debated. The possible role of antiparkinsonian therapy or primarily of PD on excessive diurnal sleepiness is controversial. We describe the case of a 61-year-old patient affected by PD who experienced sleep episodes (SE) occurring during pramipexole plus L-Dopa therapy. Polysomnographic sleep studies and subjective evaluations of daytime sleepiness (Epworth Sleepiness Scale) were carried out under administration of pramipexole plus L-Dopa, L-Dopa monotherapy and cabergoline plus L-Dopa. The polysomnography revealed two sleep events during pramipexole plus L-Dopa. Moreover, the polysomnographic data showed an increase of both diurnal and nocturnal sleep under pramipexole plus L-Dopa compared with cabergoline plus L-Dopa and L-Dopa as monotherapy. In addition, while Epworth Sleepiness Scale (ESS) Score showed a mild sleepiness under pramipexole (ESS score=11), ESS scores were normal under both L-Dopa and cabergoline plus L-Dopa. Sleep episodes also disappeared under both L-Dopa and cabergoline plus L-Dopa (2- and 12-month follow-up). We hypothesize that an individual susceptibility to specific antiparkinsonian drug may play a significant role in the genesis of sleepiness in our PD patient.

Wearing-off detection in clinical practice: the wearing off real practice key (WORK-PD) study in Parkinson's disease.

OBJECTIVE: Verifying the validity and feasibility of the WOQ-19 as a useful tool in routine clinical practice and in management of patients. METHODS: 532 consecutive Parkinson's disease (PD) patients were recruited from 6 different neurological outpatient units, specialized in movement disorders, of central Italy. Inclusion criteria were diagnosis of PD and any current pharmacological treatment of PD while exclusion criteria were evident cognitive or depressive impairment, infusion with dopamine agonists or Duodopa, or Deep Brain Stimulation therapy. Patients were asked to complete the Italian version of WOQ-19 before the neurological visit. A medical form for the collection of demographic and clinical data of patients and for the evaluation of comprehensibility and usability the WOQ-19 was filled by the neurologist during the visit. RESULTS: Our data confirmed that WOQ-19 was able to identify WO in 69% of patients, a percentage similar to the recently reported in the Italian WOQ-19 validation study. Motor symptoms were more frequent than non-motor symptoms (80% vs. 20%). Patients who experienced WO had a higher age of PD onset, more severe disease, longer disease duration and were more likely to be female. CONCLUSIONS: The WOQ-19 was understandable for the patient, easily administered and suitable for routine outpatient use. It could be also particularly useful in clinical practice in the early identification of non-motor symptoms, often under reported by patients and revealed only with clinical support.

Cognition and emotion in different stages and subtypes of Parkinson's disease.

This paper reviews the main neuropsychological features of movement disorders such as Parkinson's disease (PD), progressive supranuclear palsy (PSP), multiple system atrophy (MSA), Huntington's disease (HD), corticobasal degeneration (CBD), and diffuse Lewy body disease (DLBD). These neurodegenerative disorders all share a prominent frontal lobe-like syndrome which can be explained by damage to connections between the basal ganglia and the cortical areas involved in movement, and in behavioural and mood control. In this paper different types of cognitive and mood alteration are described in an attempt to identify additional reasons for the differential diagnosis of parkinsonism-like syndromes.

Frontal lobe dysfunction in essential tremor: a preliminary study.

27 patients with essential tremor (ET) were studied to determine the cognitive feature of this condition. 15 familial cases and 12 cases with a family history Parkinson's disease (PD) were identified. Performances on frontal lobe tasks of ET patients were compared with those of 15 patients with PD and 15 healthy control subjects. The ET patients showed significant impairments both in attentional and conceptual thinking tasks, similar to those observed in the PD group. Despite the nosographic independence of the two conditions, data showed that the frontal lobe feature of ET was similar to those of PD, thus possibly suggesting a common dysregulation of dopamine pathways.

Dopamine hypersensitivity in migraine: role of the apomorphine test.

We investigated the effects of apomorphine administration at two different doses (2-10 micrograms/kg, s.c.) in 35 migraineurs in headache-free period and in 20 age-matched healthy control subjects, with and without pretreatment with domperidone. Neither patients or controls complained of headache at either dose, whereas at the dose of 10 micrograms/kg migraineurs showed a statistically significant higher incidence of dopaminergic symptoms (nausea, vomiting, drowsiness, yawning, dizziness, sweating) than controls. Furthermore, symptoms due to postsynaptic dopamine receptors activation (i.e., nausea and vomiting) only appeared in migraineurs. No symptom, however, resembled those characterizing a spontaneous migraine attack. In conclusion, migraineurs show a lower threshold for dopamine receptor activation than normal subjects.

Area tempestas modulates the behavioural responses to nociceptive stimuli in rats.

The antinociception of opiates is mediated through the activation of opioid receptors in several mid brain and brain stem areas. This paper reports that the forebrain area termed area tempestas (AT), first identified as a convulsant trigger area, is also a component of the endogenous pain suppression system. Unilateral AT application of DAMGO, morphine and U-50,488H in rats at doses in the nanogram range produced marked and dose-dependent increases in the latency to respond to nociceptive stimuli. A lower effect is found after application of DPDPE and DADLE. Antinociception is more evident in the hot plate than in the tail flick test. In the former test, the effect was restricted to the paws contralateral to the hemisphere of injection. Unilateral AT application of naltrexone (4 ng) reduced in the contralateral paws the antinociceptive effect that the bilateral AT application of morphine (20 ng/hemisphere) had induced in both body sides. Unilateral application of naltrexone, (20 ng) ICI 154, 129 (20 ng) and Win 44,441-3 (8 ng) antagonized the antinociceptive effect elicited by the systemic injection of morphine (2.5 mg/kg s), DPDPE (20 mg/kg s) and U-50,488H (20 mg/kg s), respectively. In the hot plate test, the antagonism was found in the paws ipsilateral and contralateral to the hemisphere of injection of the antagonists.

Tetrabenazine improves levodopa-induced peak-dose dyskinesias in patients with Parkinson's disease.

Since levodopa-induced peak dyskinesias (LIDs) may reflect, in part, a disproportionate phasic release of dopamine from synaptic vesicles, we examined the ability of the vesicular depletor tetrabenazine (TBZ) to reduce LIDs in 10 dyskinetic advanced Parkinson's disease (PD) patients. After basal evaluation, the patients received, through a slow titration, oral TBZ twice a day for six weeks (up to 50 mg daily) before being re-assessed after a challenge with levodopa. The primary outcome measure was the change in the Unified Parkinson's Disease Rating Scale (UPDRS) dyskinesia score (items 32 to 34). TBZ was well tolerated. A clear treatment effect on LIDs emerged (up to 45%, p<0.05). In two patients a little worsening of motor performance necessitated an increase of the antiparkinsonian therapy, which did not worsen peak-dose LIDs. The patients experienced a clear benefit in terms of their quality of life. In this open-label pilot study, orally administered TBZ resulted in objective and subjective improvements in LIDs. Larger pharmacological studies are in progress.

Multiple myeloma and paget disease with abnormal skull lesions and intracranial hypertension.

We report a 73 years old man with a diagnosis of Paget Disease (PD) and symptomatic Multiple Myeloma (MM). Coexistence of MM and PD has rarely been described. PD mimics many of the features of bone destructive process in MM, making differential diagnosis more complicated. In addition, the presence of serious muscolo-skeletal and metabolic complications in both diseases makes management of patients difficult, worsening the prognosis.The comparison of these two diseases has led to the characterization of a common molecular mechanism represented by the receptor activator of nuclear factor-kB ligand (RANKL)/Osteoprotegerin signaling pathway. The improved comprehension of these mechanisms led to the development of new pharmacologic agents (bisphosphonates, cytokines inhibitors) effective for the treatment of these bone diseases.

Deep brain stimulation of pedunculopontine tegmental nucleus (PPTg) promotes cognitive and metabolic changes: a target-specific effect or response to a low-frequency pattern of stimulation?

Deep brain stimulation (DBS) is a reliable treatment for advanced Parkinson's disease (PD) patients, but a possible risk of worsening cognitive functions, although modest, may postpone or halt DBS clinical indication. In a small cohort of PD patients we have pioneered the simultaneous implantation of both the subthalamic nucleus (STN) and the pedunculopontine tegmental nucleus (PPTg). Here we describe the cognitive test performance and the corresponding cortical metabolic activity, as assessed through 18-fluorodeoxyglucose (FDG)-positron emission tomography (PET), of these six PD patients tested in PPTg-ON vs- PPTg-OFF condition. PPTg-ON condition (at low frequency, 25 Hz) induced better performance in tests exploring both executive and attentive domains, which were coupled with an increased glucose utilization in prefrontal and frontal bilateral cortical areas, including both lateral (i.e., BA9) and more antero-medial cortices (BA 25-32). Moreover, during PPTg-ON, a surprising increase of FDG consumption was also observed in the left ventral striatum. These data are consistent with the hypothesis of a positive effect of 25 Hz PPTg-DBS on PD patients' cognitive profile, probably due to a facilitatory effect exerted by PPTg on both associative and limbic pathways.

Pathological gambling from dopamine agonist and deep brain stimulation of the nucleus tegmenti pedunculopontine.

In patients with Parkinson's disease, aberrant or excessive dopaminergic stimulation is commonly indicated as the trigger factor in unmasking impulse control disorders (ICDs) such as pathological gambling. We had the opportunity to follow a patient who experienced Parkinson's disease 7 years ago when he was using pramipexole and again, recently, when he was treated with levodopa (L-dopa) and low frequency stimulation of the nucleus of the pedunculopontine tegmentus (PPTg) but no dopamine agonists. The same patient had shown, when studied with fluorodeoxyglucose-positron emission tomography in the condition PPTg-ON, a peculiar increased activity in the left ventral striatum. This case report confirms that, in a predisposed personality, ICD may arise from the perturbation of endogenous pathways, which connect the brainstem to the basal ganglia.

Cerebellar magnetic stimulation decreases levodopa-induced dyskinesias in Parkinson disease.

BACKGROUND: The neural mechanisms and the circuitry involved in levodopa-induced dyskinesia (LID) are still partially obscure. LID can be considered the consequence of an abnormal pattern or code of activity that originates and is conveyed from the basal ganglia to the thalamus and the cortical motor areas. However, not only striatothalamocortical motor circuits but also other interconnected pathways could be implicated in its pathogenesis. METHODS: In a series of experiments, we applied repetitive transcranial magnetic stimulation (rTMS) over the lateral cerebellum in a group of patients with advanced Parkinson disease, to investigate whether modulation of cerebellothalamocortical circuits by means of rTMS may result in a modification of a dyskinetic state induced by levodopa ingestion. RESULTS: We found that a single session of cerebellar continuous theta burst stimulation (cTBS) was capable of transiently reducing LID. In the same patients, we observed that cerebellar cTBS changed the profile of activation of intracortical circuits in the contralateral primary motor cortex. Cerebellar cTBS reduced short intracortical inhibition and increased long intracortical inhibition, inducing a cortical reorganization that is associated with a reduction of LID. Furthermore, in another experiment, we observed that a 2-week course of bilateral cerebellar cTBS induced persistent clinical beneficial effects, reducing peak-dose LID for up to 4 weeks after the end of the daily stimulation period. CONCLUSIONS: Our study demonstrates that cerebellar continuous theta burst stimulation has an antidyskinetic effect in Parkinson disease patients with levodopa-induced dyskinesia, possibly due to modulation of cerebellothalamocortical pathways.

Acute vs chronic effects of l-dopa on bladder function in patients with mild Parkinson disease.

OBJECTIVE: To compare acute and chronic effects of l-dopa on bladder function in levodopa-naive Parkinson disease (PD) patients who had urinary urgency. METHODS: We evaluated 26 l-dopa-naive PD patients at a university-based PD center with a first urodynamic session with a double examination: in the off treatment condition and 1 hour after acute challenge with carbidopa/l-dopa 50/200 mg; then, a chronic l-dopa monotherapy was administered (mean dose 300 +/- 150 mg). Two months later, patients underwent a second urodynamic session with a single evaluation 1 hour after the acute carbidopa/l-dopa challenge. RESULTS: The first acute l-dopa challenge significantly worsened bladder overactivity (neurogenic overactive detrusor contractions threshold [NDOC-t; 32% of worsening] and bladder capacity [BC; 22% of worsening]); on the contrary, l-dopa challenge during chronic administration ameliorated the first sensation of bladder filling (FS; 120% of improvement), NDOCT-t (93% improvement), and BC (33% of improvement) vs the values obtained with acute administration. An 86% significant improvement of FS in comparison with the basal value was observed. CONCLUSIONS: The acute and chronic l-dopa effects may be due to the different synaptic concentrations or to the activation of postsynaptic mechanisms obtained by chronic administration.

Repetitive transcranial magnetic stimulation of the motor cortex ameliorates spasticity in multiple sclerosis.

OBJECTIVE: To investigate whether repetitive transcranial magnetic stimulation (rTMS) can modify spasticity. METHODS: We used high-frequency (5 Hz) and low-frequency (1 Hz) rTMS protocols in 19 remitting patients with relapsing-remitting multiple sclerosis and lower limb spasticity. RESULTS: A single session of 1 Hz rTMS over the leg primary motor cortex increased H/M amplitude ratio of the soleus H reflex, a reliable neurophysiologic measure of stretch reflex. Five hertz rTMS decreased H/M amplitude ratio of the soleus H reflex and increased corticospinal excitability. Single sessions did not induce any effect on spasticity. A significant improvement of lower limb spasticity was observed when rTMS applications were repeated during a 2-week period. Clinical improvement was long-lasting (at least 7 days after the end of treatment) when the patients underwent 5 Hz rTMS treatment during a 2-week protocol. No effect was obtained after a 2-week sham stimulation. CONCLUSIONS: Repetitive transcranial magnetic stimulation may improve spasticity in multiple sclerosis.