Cognição, humor e atividades funcionais em pacientes com doença de Parkinson submetidos à estimulação cerebral profunda bilateral em núcleo subtalâmico / Cognition, mood and activities of daily living assessment in patients with Parkinson\'s disease submitted to bilateral deep brain stimulation in the subthalamic nucleus

Heluani, Alessandra Shenandoa

29 October 2014

Introdução: A estimulação cerebral profunda (DBS) tem sido utilizada para controle das alterações motoras nos pacientes com Doença de Parkinson (DP). O núcleo subtalâmico (NST) é o alvo preferencialmente escolhido na cirurgia. Entretanto, a técnica tem sido associada com declínio cognitivo, principalmente na fluência verbal, alterações de humor e de comportamento. Objetivo: Verificar a ocorrência de alterações na cognição, humor e atividades funcionais por meio de avaliação neuropsicológica. Métodos: Vinte e um pacientes submetidos à cirurgia no período de Maio de 2008 a Março de 2013 foram examinados por meio da avaliação neuropsicológica incluindo testes de memória, funções executivas, funções atencionais, linguagem, praxia, escala hospitalar de depressão e ansiedade (HADS) e atividades funcionais (Pfeffer), nas fases pré e pós-operatória. Os dados foram analisados utilizando SPSS versão 17.0 e os resultados foram comparados através do teste pareado t-Student ou chi-quadrado. Foi adotado um nível de significância igual ou menor que 5% (p < 0,05) para todas as análises. Resultados: Não foram encontradas diferenças significativas nas funções cognitivas, no humor e nas atividades funcionais avaliadas. Resultado marginal foi observado na memória episódica imediata verbal (p=0,051). Conclusão: DBS-NST parece não ter impacto negativo nas funções cognitivas e humor. Apesar da amostra ser relativamente pequena, a técnica parece ser segura do ponto de visto cognitivo em pacientes adequadamente selecionados / Introdution: Deep brain stimulation (DBS) has been used for control of motor disorders in patients with Parkinson\'s disease (PD). The subthalamic nucleus (STN) is the main target used in surgery. However, the technique has been associated with cognitive decline, mainly in verbal fluency, mood and behavior. Objective: To investigate the occurrence of changes in cognition, mood, and activities of daily living through neuropsychological assessment. Methods: Twenty one patients operated between May, 2008 and March, 2013 were submitted to pre- and post-operative neuropsychological testing including memory, executive functions, attentional functions, language and praxis assessment, and to hospital anxiety and depression scale (HADS) and activities of daily living (Pfeffer) scale rating as well. Data were analyzed using SPSS version 17.0 and the results were compared using the paired Student t-test or chi-square. A significance level equal or lower than 5% (p < 0.05) was adopted. Results: No significant differences were found in cognitive functions, mood and activities of daily living. Marginal results were observed in immediate verbal episodic memory (p=0.051). Conclusion: DBS - STN did not show a negative impact on cognitive function, mood and daily activities. Despite the relatively small sample, the technique appears to be safe from the cognitive point of view in appropriately selected patients

Cognição

Cognition

Deep brain stimulation

Doença de Parkinson

Estimulação cerebral profunda

Neuropsicologia

Neuropsychologia

Núcleo subtalâmico

Parkinson's disease

Subthalamic nucleus

Mechanisms of Deep Brain Stimulation for the Treatment of Parkinson's Disease: Evidence from Experimental and Computational Studies

So, Rosa Qi Yue

January 2012

<p>Deep brain stimulation (DBS) is used to treat the motor symptoms of advanced Parkinson's disease (PD). Although this therapy has been widely applied, the mechanisms of action underlying its effectiveness remain unclear. The goal of this dissertation was to investigate the mechanisms underlying the effectiveness of subthalamic nucleus (STN) DBS by quantifying changes in neuronal activity in the basal ganglia during both effective and ineffective DBS.</p><p>Two different approaches were adopted in this study. The first approach was the unilateral 6-hydroxydopamine (6-OHDA) lesioned rat model. Using this animal model, we developed behavioral tests that were used to quantify the effectiveness of DBS with various frequencies and temporal patterns. These changes in behavior were correlated with changes in the activity of multiple single neurons recorded from the globus pallidus externa (GPe) and substantia nigra reticulata (SNr). The second approach was a computational model of the basal ganglia-thalamic network. The output of the model was quantified using an error index that measured the fidelity of transmission of information in model thalamic neurons. We quantified changes in error index as well as neural activity within the model GPe and globus pallidus interna (GPi, equivalent to the SNr in rats).</p><p>Using these two approaches, we first quantified the effects of different frequencies of STN DBS. High frequency stimulation was more effective than low frequency stimulation at reducing motor symptoms in the rat, as well as improving the error index of the computational model. In both the GPe and SNr/GPi from the rat and computational model, pathological low frequency oscillations were present. These low frequency oscillations were suppressed during effective high frequency DBS but not low frequency DBS. Furthermore, effective high frequency DBS generated oscillations in neural firing at the same frequency of stimulation. Such changes in neuronal firing patterns were independent of changes in firing rates.</p><p>Next, we investigated the effects of different temporal patterns of high frequency stimulation. Stimulus trains with the same number of pulses per second but different coefficients of variation (CVs) were delivered to the PD rat as well as PD model. 130 Hz regular DBS was more effective than irregular DBS at alleviating motor symptoms of the PD rat and improving error index in the computational model. However, the most irregular stimulation pattern was still more effective than low frequency stimulation. All patterns of DBS were able to suppress the pathological low frequency oscillations present in the GPe and SNr/GPi, but only 130 Hz stimulation increased high frequency 130 Hz oscillations. Therefore, the suppression of pathological low frequency neural oscillations was necessary but not sufficient to produce the maximum benefits of DBS.</p><p>The effectiveness of regular high frequency STN DBS was associated with a decrease in pathological low frequency oscillations and an increase in high frequency oscillations. These observations indicate that the effects of DBS are not only mediated by changes in firing rate, but also involve changes in neuronal firing patterns within the basal ganglia. The shift in neural oscillations from low to high frequency during effective STN DBS suggests that high frequency regular DBS suppresses pathological firing by entraining neurons to the stimulus pulses. </p><p>Therefore, results from this dissertation support the hypothesis that the underlying mechanism of effective DBS is its ability to entrain and regularize neuronal firing, therefore disrupting pathological patterns of activity within the basal ganglia.</p> / Dissertation

Biomedical engineering

6-OHDA rat model

Basal ganglia

computational model

Deep brain stimulation

Mechanisms

STN GPe SNr/GPi

Intracerebral quantitative chromophore estimation from reflectance spectra captured during deep brain stimulation implantation

Johansson, Johannes, Wårdell, Karin

January 2013

Quantification of blood fraction (fblood), blood oxygenation (S<img src="http://onlinelibrary.wiley.com/store/10.1002/jbio.201200055/asset/equation/tex2gif-inf-2.gif?v=1&amp;t=h70man4a&amp;s=4a6d004ec608a2a6ec8e8597f73bdb6be30286e8" />), melanin, lipofuscin and oxidised and reduced Cytochrome aa 3 and c was done from diffuse reflectance spectra captured in cortex, white matter, globus pallidus internus (GPi) and subthalamus during stereotactic implantations of 29 deep brain stimulation (DBS) electrodes with the aim of investigating whether the chromophores can give physiological information about the targets for DBS. Double-sided Mann-Whitney U -tests showed more lipofuscin in GPi compared to white matter and subthalamus (p &lt; 0.05). Compared to the other structures, fbloodwas significantly higher in cortex (p &lt; 0.05) and S<img src="http://onlinelibrary.wiley.com/store/10.1002/jbio.201200055/asset/equation/tex2gif-inf-4.gif?v=1&amp;t=h70man4c&amp;s=855c70105e88a292de25618487573dfc7d30e08a" /> lower in GPi (p &lt; 0.05). Median values and range for fblood were 1.0 [0.2–6.0]% in the cortex, 0.3 [0.1–8.2]% in white matter, 0.2 [0.1–0.8]% in the GPi and 0.2 [0.1–11.7]% in the subthalamus. Corresponding values for S<img src="http://onlinelibrary.wiley.com/store/10.1002/jbio.201200055/asset/equation/tex2gif-inf-6.gif?v=1&amp;t=h70man4e&amp;s=151ec25bee7270bcfc2292e70d6f4aea18348dbc" /> was 20 [0–81]% in the cortex, 29 [0–78]% in white matter, 0 [0–0]% in the GPi and 0 [0–92]% in the subthalamus. In conclusion, the measurements indicate very low oxygenation and blood volume for DBS patients, especially in the GPi. It would be of great interest to investigate whether this is due to the disease, the normal situation or an artefact of doing invasive measurements.

Characterizing structural neural networks in major depressive disorder using diffusion tensor imaging

Choi, Ki Sueng

13 January 2014

Diffusion tensor imaging (DTI) is a noninvasive MRI technique used to assess white matter (WM) integrity, fiber orientation, and structural connectivity (SC) using water diffusion properties. DTI techniques are rapidly evolving and are now having a dramatic effect on depression research. Major depressive disorder (MDD) is highly prevalent and a leading cause of worldwide disability. Despite decades of research, the neurobiology of MDD remains poorly understood. MDD is increasingly viewed as a disorder of neural circuitry in which a network of brain regions involved in mood regulation is dysfunctional. In an effort to better understand the neurobiology of MDD and develop more effective treatments, much research has focused on delineating the structure of this mood regulation network. Although many studies have focused on the structural connectivity of the mood regulation network, findings using DTI are highly variable, likely due to many technical and analytical limitations. Further, structural connectivity pattern analyses have not been adequately utilized in specific clinical contexts where they would likely have high relevance, e.g., the use of white matter deep brain stimulation (DBS) as an investigational treatment for depression. In this dissertation, we performed a comprehensive analysis of structural WM integrity in a large sample of depressed patients and demonstrated that disruption of WM does not play a major role in the neurobiology of MDD. Using graph theory analysis to assess organization of neural network, we elucidated the importance of the WM network in MDD. As an extension of this WM network analysis, we identified the necessary and sufficient WM tracts (circuit) that mediate the response of subcallosal cingulate cortex DBS treatment for depression; this work showed that such analyses may be useful in prospective target selection. Collectively, these findings contribute to better understanding of depression as a neural network disorder and possibly will improve efficacy of SCC DBS.

Depression

Diffusion tensor imaging

Deep brain stimulation

White matter

Connectivity

Depression, Mental

Affective disorders

Brain stimulation

Neurobiology

Multielectrode microstimulation for temporal lobe epilepsy

Arcot Desai, Sharanya

13 January 2014

Multielectrode arrays may have several advantages compared to the traditional single macroelectrode brain electrical stimulation technique including less tissue damage due to implantation and the ability to deliver several spatio-temporal patterns of stimulation. Prior work on cell cultures has shown that multielectrode arrays are capable of completely stopping seizure-like spontaneous bursting events through a distributed asynchronous multi-site approach. In my studies, I used a similar approach for controlling seizures in a rat model of temporal lobe epilepsy. First, I developed a new method of electroplating in vivo microelectrode arrays for durably improving their impedance. I showed that microelectrode arrays electroplated through the new technique called sonicoplating, required the least amount of voltage in current controlled stimulation studies and also produced the least amplitude and duration of stimulation artifact compared to unplated, DC electroplated or pulse-plated microelectrodes. Second, using c-fos immunohistochemistry, I showed that 16-electrode sonicoplated microelectrode arrays can activate 5.9 times more neurons in the dorsal hippocampus compared to a single macroelectrodes while causing < 77% the tissue damage. Next, through open-loop multisite asynchronous microstimulation, I reduced seizure frequency by ~50% in the rodent model of temporal lobe epilepsy. Preliminary studies aimed at using the same stimulation protocol in closed-loop responsive and predictive seizure control did not stop seizures. Finally, through an internship at Medtronic Neuromodulation, I worked on developing and implementing a rapid algorithm prototyping research tool for closed-loop human deep brain stimulation applications.

Neuroengineering

Deep Brain Stimulation

Closed-loop stimulation

Epilepsy

Brain disorders

Multielectrode arra

Memory

Temporal lobe epilepsy

Brain

Brain Diseases

Stereotactic functional procedures in the treatment of essential tremor

Sandvik, Ulrika

January 2011

Background: Essential tremor (ET) is the most common movement disorder. In cases resistant to pharmacological treatment, functional stereotactic neurosurgery can be an alternative. Lesional surgery has largely been replaced by deep brain stimulation (DBS). The current target of choice is the ventrolateral thalamus (Vim). Vim DBS has generally shown good results, but in some cases it is associated with a suboptimal effect as well as side effects. DBS in the posterior subthalamic area/caudal zona incerta (PSA/cZi) has recently shown promising effects. Recently the role of lesional therapy in selected cases has been discussed. Aim: The aim is to evaluate stereotactic functional procedures in the treatment of ET, with special emphasis on PSA DBS. Further the effects of DBS in the PSA are evaluated. The optimal target is also assessed by evaluating the effect of Vim and PSA DBS in relation to the position of the electrode. An attempt to identify patient-specific factors of prognostic importance for the outcome after DBS will be made. The quality of life (QoL) of patients treated with PSA DBS for ET will be assessed. Finally, the aim is also to analyze retrospectively the long-term outcome of lesional procedures (thalamotomies). Method: The thesis consists of five studies. The optimal electrode location is evaluated in a study analyzing the location of the electrode contact yielding the best effect in Vim DBS and PSA DBS groups. The efficacy of PSA DBS in 21 patients is evaluated in a prospective study. The correlation between outcome, age, tremor grade and gender is established in a prospective study consisting of 68 patients. Finally, the degree of improvement in QoL is determined in 16 patients operated on in the PSA. The very long-term effect of lesional surgery has been investigated in a retrospective study of nine patients who have undergone thalamotomy. Results: In the study of PSA DBS the total score on the Essential Tremor Rating Scale (ETRS) was reduced by 60% compared to the baseline value. Tremor of the arm was improved by 95%. The study evaluating the optimal contact location showed that the best effect was in the PSA in 54% and in the Vim in 12%. The efficacy of DBS was not related to age, gender, or the severity of tremor with regard to the percentage reduction of tremor on stimulation. In patients with a more severe tremor at baseline, a higher degree of residual tremor on stimulation was seen. With regard to QoL, the activities of daily living (ADL) according to the ETRS score were significantly improved, as well as according to the ADL and psychosocial subscores on the Questionnaire for Essential Tremor (QUEST) scale. No significant changes were found on the generic Short Form (SF-36) QoL scale. Thalamotomy had some positive effects, but also a significant amount of side effects that might be attributed to the surgery. Conclusions: The effect of PSA DBS was very satisfying and compares well with the results from Vim DBS. When both Vim and PSA DBS are considered, the optimal target seems to be located in the PSA. PSA DBS shows good results in improving ADL, but the results have been difficult to demonstrate on QoL scales. The efficacy of DBS could not be shown to be associated with gender or age. Nor was it associated with the severity of tremor regarding the percentage of tremor reduction on stimulation. The preoperative severity of tremor was the most important factor regarding outcome following DBS. With regard to thalamotomies, some possible remaining benefit of the surgery could be seen along with some severe side effects.

Essential Tremor

Stereotactic Functional Neurosurgery

Deep Brain Stimulation

Posterior Subthalamic Area

Thalamotomy

Zona incerta

caudal Zona incerta

Quality of Life

Vim

Η εκτίμηση της χειρουργικής αντιμετώπισης με εν τω βάθει εγκεφαλικό ερεθισμό των εξωπυραμιδικών κινητικών διαταραχών μέσω της SPECT νευροαπεικόνισης

Πασχάλη, Άννα

09 July 2013

Στην παρούσα μελέτη παρουσιάσαμε τα αποτελέσματα της λειτουργικής απεικόνισης με SPECT αιμάτωσης εγκεφάλου σε δύο διαφορετικές παθολογικές καταστάσεις, την νόσο του Παρκινσον και τη δευτεροπαθή δυστονία. Στο πρώτο μέρος της μελέτης διερευνήσαμε την ακεραιότητα της μελανοραβδωτής οδού και την αιματική εγκεφαλική ροή στα διάφορα στάδια της νόσου Parkinson. Στη μελέτη συμμετείχαν συνολικά 53 ασθενείς (27 άνδρες, 26 γυναίκες) που πληρούσαν τα κριτήρια της Ιδιοπαθούς νόσου του Parkinson και αξιολογήθηκαν σύμφωνα με την κλίμακα Unified Parkinson Disease Rating Scale (UPDRS) καθώς και την κλίμακα Hoehn-Yahr. Οι ασθενείς χωρίστηκαν σε 4 ομάδες σύμφωνα με την κλίμακα Hoehn-Yahr. Το πρωτόκολλο μελέτης των 53 ασθενών περιελάμβανε 2 απεικονιστικές εξετάσεις: Α) το SPECT εγκεφάλου με το ραδιοφάρμακο 123Ι- Ioflupane (DaTSCAN) και Β) το SPECT αιμάτωσης εγκεφάλου με το ραδιοφάρμακο 99m Tc-ECD (Neurolite ). Η νόσος Πάρκινσον είναι ένα υποκινητικό σύνδρομο και όπως καταδείξαμε από τη μέλετη ασθενών σε διάφορα στάδια της νόσου, το πρότυπο της αιμάτωσης του εγκεφάλου είναι αυτό της σταδιακής προσβολής περιοχών του φλοιού ως συνέπεια της απόσχισης των συνδέσεων του κυκλώματος βασικών γαγγλίων με το φλοιό. Συγκεκριμένα αποδείξαμε ότι στα αρχικά στάδια της νόσου παρατηρείται υποαιμάτωση περιοχών του μετωπιαίου λοβού (κινητικών, προκινητικών και περιοχών του προμετωπαίου λοβού) ενώ σε πιο προχωρημένα στάδια η προσβολή του φλοιού επεκτείνεται σε περιοχές του βρεγματικού και κροταφικού λοβού. Επίσης βρέθηκε θετική συσχέτιση μεταξύ της ειδικής σύνδεσης του ρ/φ στον αριστερό κερκοφόρο πυρήνα και της αιματικής εγκεφαλικής ροής στην περιοχή DLPFC του προμετωπιαίου λοβού αριστερά, καθώς επίσης και μεταξύ της ειδικής σύνδεσης του ρ/φ στο αριστερό κέλυφος και της αιματικής εγκεφαλικής ροής στην πρωτοταγή κινητική περιοχή αριστερά. Στο δεύτερο μέρος της εργασίας μελετήσαμε 21 ασθενείς με Ιδιοπαθή νόσο Parkinson που πληρούσαν τα κριτήρια για χειρουργική αντιμετώπιση με εν τω βάθει εγκεφαλικό ερεθισμό (DBS). Οι ασθενείς ήταν 11 γυναίκες και 10 άνδρες, μέσης ηλικίας 63±8 χρόνια, μέσης διάρκειας της νόσου 11.5±4.8 και σταδίου 2.9±0.8 κατά Hoehn and Yahr. Οι ασθενείς αυτοί υπεβλήθησαν σε 2 ξεχωριστές μελέτες SPECT αιμάτωσης εγκεφάλου, η πρώτη πριν το χειρουργείο (meds off) και η δεύτερη 6 μήνες μετά το χειρουργείο (DBS on/ off meds). Οι δύο αυτές μελέτες συγκρίθηκαν μεταξύ τους με το πρόγραμμα Neurogam και εξετάστηκαν συγκεκριμένα οι μεταβολές στην αιματική εγκεφαλική ροή των κινητικών περιοχών του εγκεφάλου. Παράλληλα εξετάσθηκε η κινητική βελτίωση των ασθενών κλινικά και με βάση την κλίμακα mUPDRS. Τα αποτελέσματα της μελέτης ήταν πολύ καλά καθώς οι 20 ασθενείς παρουσίασαν σημαντική κλινική βελτίωση μειώνοντας την κλίμακα mUPDRS κατά 44% και τη χορηγούμενη δόση levodopa από 850 ± 108 mg πριν το χειρουργείο σε 446 ± 188 mg στο διάστημα επανελέγχου. Επίσης στους 6 μήνες παρατηρήθηκε σημαντική αύξηση της αιματικής εγκεφαλικής ροής στην προκινητική και πρωτοταγή κινητική περιοχή του εγκεφαλικού φλοιού κατά 10.9% και σημαντική συσχέτιση αυτής με την κινητική βελτίωση των ασθενών (r=.89, p<.001). Από τη μελέτη μας προκύπτει ότι το DBS είναι ικανό να άρει την υποαιμάτωση τουλάχιστον των κινητικών περιοχών του φλοιού, οδηγώντας στην κινητική βελτίωση των ασθενών. Στο τρίτο μέρος της μελέτης μας ασχοληθήκαμε με την μελέτη ασθενών με δευτεροπαθή δυστονία που αποτελεί ένα υπερκινητικό σύνδρομο με ετερογένεια όσον αφορά την αιτιολογία του. Συγκεκριμένα μελετήσαμε το αποτέλεσμα της δράσης του DBS στην περιοχική αιματική εγκεφαλική ροή των κινητικών περιοχών του φλοιού σε συνάρτηση με το κλινικό αποτέλεσμα. Στο πρωτόκολλο πριελήφθησαν 6 ασθενείς με φαρμακευτικά ανθεκτική δευτεροπαθή δυστονία που υπεβλήθησαν σε DBS. Οι ασθενείς υπεβλήθησαν σε SPECT αιμάτωσης εγκεφάλου σε δύο διαφορετκές λειτουργικές καταστάσεις μετεγχειρητικά: DBS on & DBS off κατάσταση. Οι δύο μελέτες συγκρίθηκαν μεταξύ τους με το πρόγραμμα Neurogam. Η κινητική εκτίμηση των ασθενών έγινε με την κλίμακα Burke–Fahn–Mardsen Dystonia Rating Scale (BFMDRS) στις δυο διαφορετικές καταστάσεις (DBS on & DBS off). Δύο ασθενείς έδειξαν άριστη κλινική βελτίωση στον επανέλεγχο, σε δύο άλλους τα αποτελέσματα ήταν μέτρια και σε δύο τα αποτελέσματα της επέμβασης κρίθηκαν φτωχά. Ο μέσος βαθμός βελτίωσης της κλίμακας BFMDRS ήταν 49.1% (0–90.7%). Επίσης η ανάλυση των SPECT μελετών έδειξε σημαντική μείωση της rCBF στην κατάσταση on DBS κάτι που συσχετίστηκε με την κλινική βελτίωση. Όσον αφορά το μηχανισμό δράσης του εν τω βάθη εγκεφαλικού ερεθισμού, παρά τις πολλαπλές θεωρίες που υπάρχουν, φαίνεται, τουλάχιστον από το δικό μας μικρό δείγμα ασθενών, να λειτουργεί με το να επαναρυθμίζει το υπάρχων παθολογικό λειτουργικό κύκλωμα σε ένα νέο πιο αρμονικό ρυθμό, προσφέροντας στους ασθενείς μία νέα οδό επικοινωνίας του συστήματος των βασικών γαγγλίων με το φλοιό και στις περισσότερες περιπτώσεις να καταφέρνει να προσφέρει κινητική βελτίωση. / In the present study we present the results of functional brain imaging with regional Cerebral Blood Flow SPECT (rCBF SPECT) in two different neurological disorders; Parkinson’ Disease (PD) and Secondary Dystonia. In the first case of Parkinson’s Disease, our first purpose was to investigate the differences and associations between cortical perfusion and nigrostriatal dopamine pathway in different stages of Parkinson’s disease (PD). For that purpose we recruited 53 non-demented PD patients divided into four groups according to the Hoehn and Yahr (HY) staging system. Each patient underwent two separate brain single photon emission computed tomography (SPECT) studies (perfusion and dopamine transporter binding). Perfusion images of each patient were quantified and compared with a normative database provided by the NeuroGam software manufacturers. Compared with controls, PD patients showed impairments of cerebral perfusion that increased with clinical severity. Furthermore Dopamine transporter binding in the left caudate nucleus and putamen significantly correlated with blood flow in the left dorsolateral prefrontal cortex (DLPFC) and primary motor cortex respectively. We concluded that there are significant perfusion deficits, that are associated with PD progression, implying a multifactorial neurodegeneration process apart from dopamine depletion in the substantia nigra pars compacta (SNc). Given the fact that high-frequency deep brain stimulation (DBS) of the subthalamic nucleus (STN) has become an established therapeutic approach for the management of patients with medically intractable idiopathic Parkinson’s disease (PD), our second purpose was to to assess regional cerebral blood flow (rCBF) changes related to motor improvement after Deep Brain Stimulation of the Subthalamic Nucleus (STN DBS). For that purpose we studied twenty-one PD patients (11 females and 10 males, mean age 63±8, mean disease duration 11.5±4.8, mean Hoehn and Yahr stage:2.9±0.8), that underwent two rCBF SPECT studies at rest, once preoperatively in the off-meds state and the other postoperatively (at 6±2 months) in the off-meds/on-stimulation state. Patients were classified according to the Unified Parkinson Disease Rating Scale (UPDRS) and Hoehn and Yahr (H&Y) scale. Neurogam software was used to register, quantify and compare two sequential brain SPECT studies of the same patient in order to investigate rCBF changes during STN stimulation in comparison with preoperative rCBF. The results showed that all patients presented clinical improvement during the first months after surgery resulting in a 44% reduction of the UPDRS motor score. The administered mean daily levodopa dose significantly decreased from 850 ± 108 mg before surgery to 446 ± 188 mg during off meds state (p < .001, paired t-test). At the 6 month postoperative assessment we noticed rCBF increases in the pre-supplementary motor area (pre-SMA) and the premotor cortex (PMC) (mean rCBF increase=10.9%), the dorsolateral prefrontal cortex and in associative and limbic territories of the frontal cortex (mean rCBF increase=8.2%). A correlation was detected between the improvement in motor scores and the rCBF increase in the pre-SMA and PMC (r=.89, p<.001). Our study suggests that STN stimulation leads to improvement in neural activity in the frontal motor/associative areas. The correlation between motor improvement and rCBF increase in higher order motor cortical areas suggests that even the short term stimulation achieves its therapeutic benefit by restoring the activity within these cortical regions. In the third part of our study we investigated the effect of deep brain stimulation (DBS) on regional cerebral blood flow (rCBF) in cases of secondary dystonia in correlation with clinical outcomes. For that purpose we studied six patients with medically intractable secondary dystonia who underwent DBS surgery. Burke–Fahn–Mardsen Dystonia Rating Scale (BFMDRS) was used for the assessment of dystonia, in the on & off DBS state. Single photon emission computed tomography (SPECT) of the brain was performed postoperatively in the two stimulation states (ON-DBS and OFFDBS) and the changes of rCBF in the three following brain regions of interest (ROIs): primary motor cortex, premotor and supplementary motor cortex, and prefrontal cortex were evaluated. Two patients exhibited excellent response to DBS, two patients got moderate benefit after the procedure, and in two patients, no clinical improvement was achieved. A mean improvement of 49.1% (0–90.7%) in BFMDRS total scores was found postoperatively. Brain SPECT data analysis revealed an overall decrease in rCBF in the investigated ROIs, during the ON-DBS state. Clinical improvement was significantly correlated with the observed decrease in rCBF in the presence of DBS. We concluded that when conservative treatment fails to relieve severely disabled patients suffering from secondary dystonia, DBS may be a promising therapeutic alternative. Moreover, thiat study indicates a putative role of brain SPECT imaging as a postoperative indicator of clinical responsiveness to DBS.

Νόσος του Parkinson

616.804 27

Deep brain stimulation (DBS)

Parkinson disease

SPECT

Cognição, humor e atividades funcionais em pacientes com doença de Parkinson submetidos à estimulação cerebral profunda bilateral em núcleo subtalâmico / Cognition, mood and activities of daily living assessment in patients with Parkinson\'s disease submitted to bilateral deep brain stimulation in the subthalamic nucleus

Alessandra Shenandoa Heluani

29 October 2014

Introdução: A estimulação cerebral profunda (DBS) tem sido utilizada para controle das alterações motoras nos pacientes com Doença de Parkinson (DP). O núcleo subtalâmico (NST) é o alvo preferencialmente escolhido na cirurgia. Entretanto, a técnica tem sido associada com declínio cognitivo, principalmente na fluência verbal, alterações de humor e de comportamento. Objetivo: Verificar a ocorrência de alterações na cognição, humor e atividades funcionais por meio de avaliação neuropsicológica. Métodos: Vinte e um pacientes submetidos à cirurgia no período de Maio de 2008 a Março de 2013 foram examinados por meio da avaliação neuropsicológica incluindo testes de memória, funções executivas, funções atencionais, linguagem, praxia, escala hospitalar de depressão e ansiedade (HADS) e atividades funcionais (Pfeffer), nas fases pré e pós-operatória. Os dados foram analisados utilizando SPSS versão 17.0 e os resultados foram comparados através do teste pareado t-Student ou chi-quadrado. Foi adotado um nível de significância igual ou menor que 5% (p < 0,05) para todas as análises. Resultados: Não foram encontradas diferenças significativas nas funções cognitivas, no humor e nas atividades funcionais avaliadas. Resultado marginal foi observado na memória episódica imediata verbal (p=0,051). Conclusão: DBS-NST parece não ter impacto negativo nas funções cognitivas e humor. Apesar da amostra ser relativamente pequena, a técnica parece ser segura do ponto de visto cognitivo em pacientes adequadamente selecionados / Introdution: Deep brain stimulation (DBS) has been used for control of motor disorders in patients with Parkinson\'s disease (PD). The subthalamic nucleus (STN) is the main target used in surgery. However, the technique has been associated with cognitive decline, mainly in verbal fluency, mood and behavior. Objective: To investigate the occurrence of changes in cognition, mood, and activities of daily living through neuropsychological assessment. Methods: Twenty one patients operated between May, 2008 and March, 2013 were submitted to pre- and post-operative neuropsychological testing including memory, executive functions, attentional functions, language and praxis assessment, and to hospital anxiety and depression scale (HADS) and activities of daily living (Pfeffer) scale rating as well. Data were analyzed using SPSS version 17.0 and the results were compared using the paired Student t-test or chi-square. A significance level equal or lower than 5% (p < 0.05) was adopted. Results: No significant differences were found in cognitive functions, mood and activities of daily living. Marginal results were observed in immediate verbal episodic memory (p=0.051). Conclusion: DBS - STN did not show a negative impact on cognitive function, mood and daily activities. Despite the relatively small sample, the technique appears to be safe from the cognitive point of view in appropriately selected patients

Cognição

Doença de Parkinson

Estimulação cerebral profunda

Neuropsicologia

Núcleo subtalâmico

Cognition

Deep brain stimulation

Neuropsychologia

Parkinson's disease

Subthalamic nucleus

Deep brain stimulation of the subthalamic nucleus in Parkinson's disease:a clinical study

Erola, T. (Tuomo)

02 May 2006

Abstract Deep brain stimulation (DBS) of the subthalamic nucleus (STN) has been gaining importance in the treatment of advanced Parkinson's disease. This study was undertaken to evaluate the beneficial effects of bilateral STN stimulation on patient's clinical symptoms and quality of life related to the potential risks and side effects of the treatment. A consecutive series of 42 patients operated on for Parkinson's disease with STN DBS in Oulu University Hospital were included. A subgroup of these patients was evaluated using the Unified Parkinson's Disease Rating Scale (UPDRS), neuropsychological tests, and Health Related Quality of Life (HRQoL) instruments i.e. the Parkinson's Disease Questionnaire (PDQ-39) and the Finnish version of the Nottingham Health Profile (NHP). The costs of the treatment were calculated from the perspective of the health care provider. The possible effects of bilateral STN-operation on cardiovascular autonomic function were analyzed by measuring various time- and frequency domain indexes as well as non-linear indexes of heart rate variability (HRV) from 24-hour EKG recording before and 12 months after the operation. This study showed that STN DBS significantly improves the clinical symptoms and HRQoL of parkinsonian patients. The dyskinesia and clinical fluctuation scores were reduced very significantly in the UPDRS IV subscale. The clinical fluctuations were reduced by 53 %. After DBS best motor response (UPDRS III) scores also improved significantly. The HRQoL measured with both instruments improved significantly. Improvement was seen in the PDQ-39 summary index and the subscales of activities of daily living, emotional well-being, stigma and bodily discomfort. Only communication became worse during the follow-up. There was a statistically significant improvement in the score of the subscales of NHP measuring problems with energy, sleep, emotional reactions and social isolation. One patient died from pulmonary embolism and another contracted a late postoperative intracerebral hemorrhage leading to a permanent deterioration of her neurological condition to the bedridden stage. Other complications were much milder. Clinical improvement and improvement in HRQoL were positively correlated. STN DBS does not influence tonic autonomic cardiovascular regulation. The incremental costs of performing bilateral STN DBS in Finland compared to preoperative medical treatment amounted to an average of 25 591 EUR per patient during the first postoperative year. The majority of parkinsonian patients experienced significant and long lasting relief in their motor symptoms and an improvement in HRQoL following STN stimulation.

Parkinson disease

autonomic nervous system

cost-benefit analysis

deep brain stimulation

quality of life

subthalamic nucleus

treatment outcome

The effects of volitional breathing and carbon dioxide inhalation on human local field potentials

Ahmad Bahuri, Nor Faizal

January 2014

Breathing is an automatic process that we hardly pay any attention to in our daily life. As a social species, we interact using body movement, speech and emotion and these actions require modification of the respiratory pattern. While we understood how the respiratory rhythm is generated, we do not have clear evidence on how higher cortical signals modulate the respiratory pattern. The deep cortical structures in the human brain are inaccessible under normal circumstances, and deep brain stimulation electrode recordings offer an opportunity to understand the neurophysiological interactions ofdeeper brain structures. In this thesis, I investigated deep brain stimulation recordings from implanted electrodes in chronic neuropathic pain subjects in the right and left anterior cingulate cortices, the ventral posterior lateral nucleus of the thalamus and periventricular gray region. The objectives of this research were to elucidate the feed-forward mechanisms of volitional breathing, cortical autonomic regulation, and to investigate whether any of the investigated nuclei haveany carbon dioxide-sensitive neurons which may encode respiratory sensation. The results show lateralisation of the cortical autonomic control whereby the left anterior cingulate exhibits increases in beta band activity (30 to 90 Hz) with cognition and vocalisation tasks. Meanwhile, right anterior cingulate activity increases with hyperoxia. Respiration using various carbon dioxide concentrations shows a constant rise in the alpha band (8 to 14 Hz) activity in the PVG which suggests a sensitive, nonspecific neuronal activity related to systemic carbon dioxide levels.

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