Realization of Fricatives in Patients with Parkinson’s Disease Treated with Deep Brain Stimulation in the Subthalamic Nucleus or the Caudal Zona Incerta

Eklund, Elisabeth, Sandström, Lena

January 2013

Background In advanced Parkinson’s disease (PD) the motor symptoms can be treated with deep brain stimulation (DBS). Subthalamic nucleus (STN) has been the most common target and caudal zona incerta (cZi) is a more recent target for stimulation. Stimulation in both of these targets has proved to be positive for the motor symptoms but there is no consensus about how DBS affects the speech and the articulation. Aim The aim of this study was to investigate how fricatives are realized within patients suffering from PD treated with DBS in STN or cZi. Method 9 patients stimulated in STN and 10 patients stimulated in cZi were recorded reading a shorter text.  The recordings were made preoperatively (Pre) and 12 months after surgery with the stimulation switched off (sOff) and on (sOn). From the recordings the fricatives were extracted and assessed in a blinded and randomized procedure. Results For the patients stimulated in cZi the target fricative /s/ had significant lower correct realizations in the sOn condition compared to the other two conditions. The other target fricatives in cZi showed the same pattern as well. For the STN group no unequivocal pattern could be seen. Conclusions The results suggest that stimulation in cZi may affect the patients’ articulation of fricatives and thereby their extended articulatory movements more negative than stimulation in STN.

Parkinson’s disease

deep brain stimulation

subthalamic nucleus

caudal zona incerta

dysarthria

articulation

fricatives

Preoperativ SWAL-QOL och sväljningsfunktion hos Parkinson patienter selekterade till Deep Brain Stimulation

Sundstedt, Stina

January 2013

Abstract Objective Patients with Parkinson’s disease often have symptoms of dysphagia. These swallowingproblems have consequences for quality of life as well for the physical wellbeing of thepatients. AimThe aim of this study was to describe and correlate Swallowing Quality of Life (SWAL-QOL)scores, self-assessment of swallowing function using a visual analogue scale and the resultsfrom a fiber endoscopic evaluation of swallowing function in patients who had been selectedfor Deep Brain Stimulation in caudal zona incerta. A secondary aim was to correlate diseaseduration with results from SWAL-QOL and the fiber endoscopic evaluation of swallowingfunction. Method Ten male Parkinson’s patients (age 45-69 yrs, median 61.5 yrs) who were selected for DeepBrain Stimulation completing the Swallowing Quality of life form, as well as rating theirswallowing function using a visual analogue scale and undergoing a fiber endoscopicevaluation of their swallowing function.     Results The median total SWAL-QOL score was 94% while the mean was 91%. The median scorefrom the self-assessment was 85% while the mean was 93%. The total SWAL-QOL scorecorrelated with disease duration measured as years since diagnosis (r=-.72, p<.05). Diseaseduration measured as years with symptoms correlated with pre-swallow spillage (r>.63,p<.05).    Conclusions The results showed high levels of swallowing related quality of life for the studied group. Theself-assessment on the visual analogue scale and the fiber endoscopic evaluations alsorevealed that swallowing function was good in this sample. There were significantcorrelations between disease duration and some SWAL-QOL parameters as well as some ofthe outcomes from the fiber endoscopic evaluation.

Parkinson's disease

Deep brain stimulation

Swallowing Quality of Life

FEES

Visual analouge scale

Adult Hippocampal Neurogenesis and Memory Enhancement

Stone, Scellig S. D.

31 August 2012

Hippocampal neurogenesis continues throughout life in mammals. These adult-generated dentate granule cells (DGCs) are generally believed to contribute to hippocampal memory processing and are generated at varying rates in response to neuronal network activity. Deep brain stimulation (DBS) allows clinicians to influence brain activity for therapeutic purposes and raises the possibility of targeted modulation of adult hippocampal neurogenesis. It has recently been shown that DBS may ameliorate cognitive decline associated with Alzheimer’s disease (AD), and while underlying mechanisms are unknown, one possibility is activity-dependent regulation of hippocampal neurogenesis. To this end, whether or not adult-generated DGCs can assume functional roles of developmentally-generated neurons, and stimulation-induced enhanced neurogenesis can benefit memory function in the normal and diseased brain, warrant study. First, we examined separate cohorts of developmentally- and adult-generated DGCs in intact mice and demonstrated similar rates of activation during hippocampus-dependent spatial memory processing, suggesting functional equivalence. Second, we examined the neurogenic and cognitive effects of targeted entorhinal cortex (EC) stimulation in mice using parameters analogous to clinical high frequency DBS. Stimulation increased the generation of DGCs. Moreover, stimulation-induced neurons were functionally recruited by hippocampal spatial memory processing in a cell age-dependent fashion that is consistent with DGC maturation. Importantly, stimulation facilitated spatial memory in the same maturation-dependent manner, and not when stimulation-induced promotion of adult neurogenesis was blocked, suggesting a causal relationship. Finally, we are in the process of testing whether similar stimulation facilitates spatial memory in a transgenic (Tg) disease model of AD that exhibits amyloid neuropathology and cognitive impairment. Preliminary results suggest stimulation promotes neurogenesis and rescues impaired spatial memory in Tg animals. When considered in the context of promising clinical results, this body of work suggests stimulation-induced neurogenesis could provide a novel therapeutic modality in settings where functional hippocampal regenerative therapy is desirable.

neurogenesis

memory

hippocampus

deep brain stimulation

dentate gyrus

adult hippocampal neurogenesis

granule cell

learning

0317

Adult Hippocampal Neurogenesis and Memory Enhancement

Stone, Scellig S. D.

31 August 2012

Hippocampal neurogenesis continues throughout life in mammals. These adult-generated dentate granule cells (DGCs) are generally believed to contribute to hippocampal memory processing and are generated at varying rates in response to neuronal network activity. Deep brain stimulation (DBS) allows clinicians to influence brain activity for therapeutic purposes and raises the possibility of targeted modulation of adult hippocampal neurogenesis. It has recently been shown that DBS may ameliorate cognitive decline associated with Alzheimer’s disease (AD), and while underlying mechanisms are unknown, one possibility is activity-dependent regulation of hippocampal neurogenesis. To this end, whether or not adult-generated DGCs can assume functional roles of developmentally-generated neurons, and stimulation-induced enhanced neurogenesis can benefit memory function in the normal and diseased brain, warrant study. First, we examined separate cohorts of developmentally- and adult-generated DGCs in intact mice and demonstrated similar rates of activation during hippocampus-dependent spatial memory processing, suggesting functional equivalence. Second, we examined the neurogenic and cognitive effects of targeted entorhinal cortex (EC) stimulation in mice using parameters analogous to clinical high frequency DBS. Stimulation increased the generation of DGCs. Moreover, stimulation-induced neurons were functionally recruited by hippocampal spatial memory processing in a cell age-dependent fashion that is consistent with DGC maturation. Importantly, stimulation facilitated spatial memory in the same maturation-dependent manner, and not when stimulation-induced promotion of adult neurogenesis was blocked, suggesting a causal relationship. Finally, we are in the process of testing whether similar stimulation facilitates spatial memory in a transgenic (Tg) disease model of AD that exhibits amyloid neuropathology and cognitive impairment. Preliminary results suggest stimulation promotes neurogenesis and rescues impaired spatial memory in Tg animals. When considered in the context of promising clinical results, this body of work suggests stimulation-induced neurogenesis could provide a novel therapeutic modality in settings where functional hippocampal regenerative therapy is desirable.

neurogenesis

memory

hippocampus

deep brain stimulation

dentate gyrus

adult hippocampal neurogenesis

granule cell

learning

0317

Advanced MEMS Microprobes for Neural Stimulation and Recording

Akhavan Fomani, Arash

January 2011

The in-vivo observation of the neural activities generated by a large number of closely located neurons is believed to be crucial for understanding the nervous system. Moreover, the functional electrical stimulation of the central nervous system is an effective method to restore physiological functions such as limb control, sound sensation, and light perception. The Deep Brain Stimulation (DBS) is being successfully used in the treatment of tremor and rigidity associated with advanced Parkinson's disease. Cochlear implants have also been employed as an effective treatment for sensorineural deafness by means of delivering the electrical stimulation directly to the auditory nerve. The most significant contribution of this PhD study is the development of next-generation microprobes for the simultaneous stimulation and recording of the cortex and deep brain structures. For intracortical applications, millimetre length multisite microprobes that are rigid enough to penetrate into the cortex while integrated with flexible interconnection cables are demanded. In chronic applications, the flexibility of the cable minimizes the tissue damage caused by the relative micro-motion between the brain and the microprobe. Although hybrid approaches have been reported to construct such neural microprobes, these devices are brittle and may impose severe complications if they break inside the tissue. In this project, MEMS fabrication processes were employed to produce non-breakable intracortical microprobes with an improved structural design. These 32 channel devices are integrated with flexible interconnection cables and provide enough mechanical strength for penetration into the tissue. Polyimide-based flexible implants were successfully fabricated and locally reinforced at the tip with embedded 15 µm-thick gold micro-needles. In DBS applications, centimetre long microprobes capable of stimulating and recording the neural activity are required. The currently available DBS probes, manufactured by Medtronic, provide only four cylindrical shaped electrode sites, each 1.5 mm in height and 1.27 mm in diameter. Although suitable for the stimulation of a large brain volume, to measure the activity of a single neuron but to avoid measuring the average response of adjacent cells, recording sites with dimensions in the range of 10 - 20 µm are required. In this work, novel Three Dimensional (3D) multi channel microprobes were fabricated offering 32 independent stimulation and recording electrodes around the shaft of the implant. These microprobes can control the spatial distribution of the charge injected into the tissue to enhance the efficacy and minimize the adverse effects of the DBS treatment. Furthermore, the device volume has been reduced to one third the volume of a conventional Medtronic DBS lead to significantly decrease the tissue damage induced by implantation of the microprobe. For both DBS and intracortical microprobes, the impedance characteristics of the electrodes were studied in acidic and saline solutions. To reduce the channel impedance and enhance the signal to noise ratio, iridium (Ir) was electroplated on gold electrode sites. Stable electrical characteristics were demonstrated for the Ir and gold electrodes over the course of a prolonged pulse stress test for 100 million cycles. The functionality and application potential of the fabricated microprobes were confirmed by the in-vitro measurements of the neural activity in the mouse hippocampus. In order to reduce the number of channels and simplify the signal processing circuitry, multiport electrostatic-actuated switch matrices were successfully developed, fabricated, and characterized for possible integration with neural microprobes to construct a site selection matrix. Magnetic-actuated switches have been also investigated to improve the operation reliability of the MEMS switching devices.

Neural Microprobes

MEMS

Deep Brain Stimulation and Recording

Intracortical Stimulation and Recording

Electrical and Computer Engineering

Analysis of deep brain stimulation and ablative lesions in surgical treatment of movement disorders : with emphasis on safety aspects /

Blomstedt, Patric,

January 2007

Diss. (sammanfattning) Umeå : Univ., 2007. / Härtill 6 uppsatser.

Fatores de risco para alterações cognitivas no pós-operatório de implante DBS-STN na doença de Parkinson : análise de neuroimagem e variaveis clínicas

Santos, Fabiane Caillava dos

January 2017

Atualmente se tem bem estabelecido o tratamento para Doença de Parkinson, dentre eles o DBS (Deep Brain Stimulation). Embora haja controvérsias, muitos estudos têm demonstrado os efeitos adversos do DBS sobre a cognição, humor e comportamento. Assim, este estudo buscou investigar a associação entre os prejuízos cognitivos no pós-operatório e a volumetria cerebral em pacientes parkinsonianos submetidos a DBS, verificando se a correlação entre ambos pode ser considerada fator de risco para os prejuízos encontrados no pós-operatório. Fizeram parte da população estudada 25 indivíduos, 80% do sexo masculino, que foram submetidos ao procedimento cirúrgico de estimulação cerebral profunda (DBS) no Hospital de Clínicas de Porto Alegre (HCPA), em Porto Alegre entre 2012 e 2015. Estes sujeitos foram submetidos a uma bateria de testes cognitivos, bem como a testes clínicos e a ressonância magnética computadorizada nos períodos pré e pós-operatório em 6 meses. Os dados foram analisados através de estatísticas descritivas, coeficiente de correlação de Pearson e Teste t. Os resultados serão considerados significativos a um nível de significância máximo de 5% (p≤ 0,05) e o software estatístico utilizado para a análise será o SPSS versão 20.0. Quanto aos aspectos cognitivos avaliados, somente a fluência verbal fonêmica mostrou redução significativa entre os períodos pré e pós-operatório (p=0,003). A transfixação dos ventrículos foi associada à perda na fluência verbal semântica (p=0,009) e na memória (p=0,016) no pós-operatório. A presença de lesão na substância branca foi associada ao maior prejuízo na função executiva (p=0,017), fluência verbal semântica (p=0,039) e memória (p=0,050). Conclusão: Os prejuízos na fluência verbal semântica e memória no pós-operatório foram associados à presença de lesão na substância branca e a transfixação dos ventrículos pelo cabo com 6 eletrodos. A perda na função executiva foi associada a presença de lesão na substância branca. Os danos na fluência verbal fonêmica no pós-operatório, embora difiram estatisticamente, não foram associados a quaisquer achados da RM. / Currently, the treatment for Parkinson's Disease has been well established, among them DBS (Deep Brain Stimulation). Although controversial, many studies have demonstrated the adverse effects of DBS on cognition, mood, and behavior. Thus, this study sought to investigate the association between cognitive impairment in the postoperative period and cerebral volume in patients with Parkinson's disease who underwent DBS, and whether the correlation between the two can be considered as a risk factor for the possible postoperative losses. Twenty-five subjects, 80% male, who underwent deep brain stimulation (DBS) at the Hospital de Clínicas in Porto Alegre, Porto Alegre, between 2012 and 2015, were submitted to a cognitive battery, as well as clinical trials and computerized magnetic resonance imaging in the preoperative and postoperative periods at 6 months. Data were analyzed through descriptive statistics, Pearson's correlation coefficient and t-test. The results will be considered significant at a maximum significance level of 5% (p≤0.05) and the statistical software used for analysis will be SPSS version 20.0. Concerning the cognitive aspects evaluated, only phonemic verbal fluency showed a significant reduction between the pre and postoperative periods (p = 0.003). The transfixation of the ventricles was associated with loss of semantic verbal fluency (p = 0.009) and memory (p = 0.016) in the postoperative period. The presence of lesion in the white matter was associated with greater impairment in executive function (p = 0.017), semantic verbal fluency (p = 0.039) and memory (p = 0.050). Conclusion: The losses in the semantic verbal fluency and memory in the postoperative period were associated with the presence of white matter lesion and the transfixation of the ventricles by the cable with electrodes. The loss of executive function was associated with the presence of injury in the white matter. Damage to phonemic verbal fluency in 8 the postoperative period, although statistically different, was not associated with any MRI findings.

Doença de Parkinson

Cognição

Estimulação encefálica profunda

Fatores de risco

Parkinson’s Disease

Cognition

Deep Brain Stimulation

Terapia hormonal oral vs. não-oral em mulheres na pós-menopausa e o risco de primeiro episódio de tromboembolismo venoso : revisão sistemática e meta-análise

Rovinski, Denise

January 2017

Atualmente se tem bem estabelecido o tratamento para Doença de Parkinson, dentre eles o DBS (Deep Brain Stimulation). Embora haja controvérsias, muitos estudos têm demonstrado os efeitos adversos do DBS sobre a cognição, humor e comportamento. Assim, este estudo buscou investigar a associação entre os prejuízos cognitivos no pós-operatório e a volumetria cerebral em pacientes parkinsonianos submetidos a DBS, verificando se a correlação entre ambos pode ser considerada fator de risco para os prejuízos encontrados no pós-operatório. Fizeram parte da população estudada 25 indivíduos, 80% do sexo masculino, que foram submetidos ao procedimento cirúrgico de estimulação cerebral profunda (DBS) no Hospital de Clínicas de Porto Alegre (HCPA), em Porto Alegre entre 2012 e 2015. Estes sujeitos foram submetidos a uma bateria de testes cognitivos, bem como a testes clínicos e a ressonância magnética computadorizada nos períodos pré e pós-operatório em 6 meses. Os dados foram analisados através de estatísticas descritivas, coeficiente de correlação de Pearson e Teste t. Os resultados serão considerados significativos a um nível de significância máximo de 5% (p≤ 0,05) e o software estatístico utilizado para a análise será o SPSS versão 20.0. Quanto aos aspectos cognitivos avaliados, somente a fluência verbal fonêmica mostrou redução significativa entre os períodos pré e pós-operatório (p=0,003). A transfixação dos ventrículos foi associada à perda na fluência verbal semântica (p=0,009) e na memória (p=0,016) no pós-operatório. A presença de lesão na substância branca foi associada ao maior prejuízo na função executiva (p=0,017), fluência verbal semântica (p=0,039) e memória (p=0,050). Conclusão: Os prejuízos na fluência verbal semântica e memória no pós-operatório foram associados à presença de lesão na substância branca e a transfixação dos ventrículos pelo cabo com 6 eletrodos. A perda na função executiva foi associada a presença de lesão na substância branca. Os danos na fluência verbal fonêmica no pós-operatório, embora difiram estatisticamente, não foram associados a quaisquer achados da RM. / Currently, the treatment for Parkinson's Disease has been well established, among them DBS (Deep Brain Stimulation). Although controversial, many studies have demonstrated the adverse effects of DBS on cognition, mood, and behavior. Thus, this study sought to investigate the association between cognitive impairment in the postoperative period and cerebral volume in patients with Parkinson's disease who underwent DBS, and whether the correlation between the two can be considered as a risk factor for the possible postoperative losses. Twenty-five subjects, 80% male, who underwent deep brain stimulation (DBS) at the Hospital de Clínicas in Porto Alegre, Porto Alegre, between 2012 and 2015, were submitted to a cognitive battery, as well as clinical trials and computerized magnetic resonance imaging in the preoperative and postoperative periods at 6 months. Data were analyzed through descriptive statistics, Pearson's correlation coefficient and t-test. The results will be considered significant at a maximum significance level of 5% (p≤0.05) and the statistical software used for analysis will be SPSS version 20.0. Concerning the cognitive aspects evaluated, only phonemic verbal fluency showed a significant reduction between the pre and postoperative periods (p = 0.003). The transfixation of the ventricles was associated with loss of semantic verbal fluency (p = 0.009) and memory (p = 0.016) in the postoperative period. The presence of lesion in the white matter was associated with greater impairment in executive function (p = 0.017), semantic verbal fluency (p = 0.039) and memory (p = 0.050). Conclusion: The losses in the semantic verbal fluency and memory in the postoperative period were associated with the presence of white matter lesion and the transfixation of the ventricles by the cable with electrodes. The loss of executive function was associated with the presence of injury in the white matter. Damage to phonemic verbal fluency in 8 the postoperative period, although statistically different, was not associated with any MRI findings.

Embolia pulmonar

Tromboembolia venosa

Terapia de reposição hormonal

Mulheres

Parkinson’s Disease

Cognition

Deep Brain Stimulation

ADAPTIVE LEARNING OF NEURAL ACTIVITY DURING DEEP BRAIN STIMULATION

January 2015

abstract: Parkinson's disease is a neurodegenerative condition diagnosed on patients with clinical history and motor signs of tremor, rigidity and bradykinesia, and the estimated number of patients living with Parkinson's disease around the world is seven to ten million. Deep brain stimulation (DBS) provides substantial relief of the motor signs of Parkinson's disease patients. It is an advanced surgical technique that is used when drug therapy is no longer sufficient for Parkinson's disease patients. DBS alleviates the motor symptoms of Parkinson's disease by targeting the subthalamic nucleus using high-frequency electrical stimulation. This work proposes a behavior recognition model for patients with Parkinson's disease. In particular, an adaptive learning method is proposed to classify behavioral tasks of Parkinson's disease patients using local field potential and electrocorticography signals that are collected during DBS implantation surgeries. Unique patterns exhibited between these signals in a matched feature space would lead to distinction between motor and language behavioral tasks. Unique features are first extracted from deep brain signals in the time-frequency space using the matching pursuit decomposition algorithm. The Dirichlet process Gaussian mixture model uses the extracted features to cluster the different behavioral signal patterns, without training or any prior information. The performance of the method is then compared with other machine learning methods and the advantages of each method is discussed under different conditions. / Dissertation/Thesis / Masters Thesis Electrical Engineering 2015

Engineering

Electrical engineering

Deep brain stimulation

Dirichlet process Gaussian mixture model

Matching pursuit decomposition

Parkinson's disease

Fatores de risco para alterações cognitivas no pós-operatório de implante DBS-STN na doença de Parkinson : análise de neuroimagem e variaveis clínicas

Santos, Fabiane Caillava dos

January 2017

Atualmente se tem bem estabelecido o tratamento para Doença de Parkinson, dentre eles o DBS (Deep Brain Stimulation). Embora haja controvérsias, muitos estudos têm demonstrado os efeitos adversos do DBS sobre a cognição, humor e comportamento. Assim, este estudo buscou investigar a associação entre os prejuízos cognitivos no pós-operatório e a volumetria cerebral em pacientes parkinsonianos submetidos a DBS, verificando se a correlação entre ambos pode ser considerada fator de risco para os prejuízos encontrados no pós-operatório. Fizeram parte da população estudada 25 indivíduos, 80% do sexo masculino, que foram submetidos ao procedimento cirúrgico de estimulação cerebral profunda (DBS) no Hospital de Clínicas de Porto Alegre (HCPA), em Porto Alegre entre 2012 e 2015. Estes sujeitos foram submetidos a uma bateria de testes cognitivos, bem como a testes clínicos e a ressonância magnética computadorizada nos períodos pré e pós-operatório em 6 meses. Os dados foram analisados através de estatísticas descritivas, coeficiente de correlação de Pearson e Teste t. Os resultados serão considerados significativos a um nível de significância máximo de 5% (p≤ 0,05) e o software estatístico utilizado para a análise será o SPSS versão 20.0. Quanto aos aspectos cognitivos avaliados, somente a fluência verbal fonêmica mostrou redução significativa entre os períodos pré e pós-operatório (p=0,003). A transfixação dos ventrículos foi associada à perda na fluência verbal semântica (p=0,009) e na memória (p=0,016) no pós-operatório. A presença de lesão na substância branca foi associada ao maior prejuízo na função executiva (p=0,017), fluência verbal semântica (p=0,039) e memória (p=0,050). Conclusão: Os prejuízos na fluência verbal semântica e memória no pós-operatório foram associados à presença de lesão na substância branca e a transfixação dos ventrículos pelo cabo com 6 eletrodos. A perda na função executiva foi associada a presença de lesão na substância branca. Os danos na fluência verbal fonêmica no pós-operatório, embora difiram estatisticamente, não foram associados a quaisquer achados da RM. / Currently, the treatment for Parkinson's Disease has been well established, among them DBS (Deep Brain Stimulation). Although controversial, many studies have demonstrated the adverse effects of DBS on cognition, mood, and behavior. Thus, this study sought to investigate the association between cognitive impairment in the postoperative period and cerebral volume in patients with Parkinson's disease who underwent DBS, and whether the correlation between the two can be considered as a risk factor for the possible postoperative losses. Twenty-five subjects, 80% male, who underwent deep brain stimulation (DBS) at the Hospital de Clínicas in Porto Alegre, Porto Alegre, between 2012 and 2015, were submitted to a cognitive battery, as well as clinical trials and computerized magnetic resonance imaging in the preoperative and postoperative periods at 6 months. Data were analyzed through descriptive statistics, Pearson's correlation coefficient and t-test. The results will be considered significant at a maximum significance level of 5% (p≤0.05) and the statistical software used for analysis will be SPSS version 20.0. Concerning the cognitive aspects evaluated, only phonemic verbal fluency showed a significant reduction between the pre and postoperative periods (p = 0.003). The transfixation of the ventricles was associated with loss of semantic verbal fluency (p = 0.009) and memory (p = 0.016) in the postoperative period. The presence of lesion in the white matter was associated with greater impairment in executive function (p = 0.017), semantic verbal fluency (p = 0.039) and memory (p = 0.050). Conclusion: The losses in the semantic verbal fluency and memory in the postoperative period were associated with the presence of white matter lesion and the transfixation of the ventricles by the cable with electrodes. The loss of executive function was associated with the presence of injury in the white matter. Damage to phonemic verbal fluency in 8 the postoperative period, although statistically different, was not associated with any MRI findings.

Doença de Parkinson

Cognição

Estimulação encefálica profunda

Fatores de risco

Parkinson’s Disease

Cognition

Deep Brain Stimulation