Analysis of Purkinje Cell Responses in the Oculomotor Vermis during the Execution of Smooth Pursuit Eye Movements

Raghavan, Ramanujan Tens

January 2016

<p>Smooth pursuit eye movements are movements of the eyes that are used to foveate moving objects. Their precision and adaptation is believed to depend on a constellation of sites across the cerebellum, but only one region’s contribution is well characterized, the floccular complex. Here, I characterize the response properties of neurons in the oculomotor vermis, another major division of the oculomotor cerebellum whose role in pursuit remains unknown. I recorded Purkinje cells, the output neurons of this region, in two monkeys as they executed pursuit eye movements in response to step ramp target motion. The responses of these Purkinje cells in the oculomotor vermis were very different from responses that have been documented in the floccular complex. The simple spikes of these cells encoded movement direction in retinal, as opposed to muscle coordinates. They were less related to movement kinematics, and had smaller values of trial-by-trial correlations with pursuit speed, latency, and direction than their floccular complex counterparts. Unlike Purkinje cells in the floccular complex, simple spike firing rates in the oculomotor vermis remained unchanged over the course of pursuit adaptation, likely excluding the oculomotor vermis as a site of directional plasticity. Complex spikes of these Purkinje cells were only partially responsive to target motion, and did not fall into any clear opponent directional organization with simple spikes, as has been found in the floccular complex. In general, Purkinje cells in the oculomotor vermis were responsive to both pursuit and to saccadic eye movements, but maintained tuning for the direction of these movements along separate directions at a population level. Predictions of caudal fastigial nucleus activity, generated on the basis of our population of oculomotor vermal Purkinje cells, faithfully tracked moment-by-movement changes in pursuit kinematics. By contrast, these responses did not faithfully track moment-by-moments changes in saccade kinematics. These results suggest that the oculomotor vermis is likely to play a smaller role in influencing pursuit eye movements by comparison to the floccular complex.</p> / Dissertation

Neurosciences

Psychobiology

Cerebellum

Oculomotor Vermis

Primate

Smooth Pursuit

The Relationship Between Cerebellar Vermal Volume, Phonological Processing, and Working Memory

Caminiti, Emily

01 December 2022

The present study investigated the brain-behavior relationships between cerebellar vermal volume, phonological processing, and verbal working memory in children with Reading Disability (RD) and Attention-Deficit/Hyperactivity Disorder (ADHD). It was hypothesized that there would be differences in inferior posterior vermal volume between those with and without ADHD. Individuals with and without RD were not expected to differ in posterior inferior vermal volume and an interaction in the RD/ADHD group was expected. Children with RD/ADHD were expected to have similar volumes to children who have ADHD. It also was hypothesized that inferior posterior vermal volumes would be correlated with verbal working and phonological short-term memory; anterior vermal volumes were hypothesized to be correlated with elision, and superior posterior vermal volumes were hypothesized to be correlated with rapid object and rapid letter naming. Results indicated that there were no group differences in posterior inferior vermal volume between children with and without RD as well as with and without ADHD. There were also no relationships between phonological processing and verbal working memory. The findings in this study were unexpected and suggest the need for further study between phonological processing, verbal working memory, and vermal volume in children with ADHD and RD.

ADHD

Cerebellar vermis

Phonological processing

Reading Disability

Verbal working memory

Investigação de variação do número de cópias em fetos portadores de ventriculomegalia e malformação Dandy Walker / Investigation of variation of the number of copies in fetuses with ventriculomegaly and malformation Dandy Walker

Diedrichs, Cibele

08 November 2017

INTRODUÇÃO: A ventriculomegalia é a malformação congênita de sistema nervoso central (SNC) mais prevalente, e a malformação Dandy Walker (apesar de menos prevalente) é, assim como a ventriculomegalia, uma doença com um importante impacto pré e pós-natal na morbidade e mortalidade fetal. A etiologia dessas patologias é heterogênea e o fator genético está entre as principais causas. A técnica mais usada no período pré-natal para rastreamento genético é o cariótipo por banda G; contudo esta técnica não revela todas as anormalidades genéticas. Portanto, em fetos com alteração morfológica ultrassonográfica detectada e cariotipagem tradicional normal, o estudo molecular pode ser oferecido para uma investigação etiológica e aconselhamento genético. OBJETIVO: Este estudo visa investigar a presença de CNVs (do inglês, copy number variations) utilizando cariotipagem por array em amostras de DNA obtidas de fetos portadores de ventriculomegalia (VM) ou Malformação de Dandy-Walker (MDW), com resultado de cariótipo clássico normal. MÉTODO: Foram selecionadas 29 gestantes com fetos portadores de VM e MDW. Das 29 amostras colhidas, 2 foram excluídas devido PCR positivo para infecções congênitas e outras 3 excluídas devido cariótipo por banda G apresentando anomalias cromossômica. Um total de 24 fetos foram incluídos no estudo, sendo 19 portadores de ventriculomegalia e 5 casos de MDW diagnosticados na ultrassonografia pré-natal. Todos os casos apresentavam cariótipo por banda G normal e PCR negativo para infecções congênitas no líquido amniótico. O DNA fetal foi extraído do cordão umbilical através da cordocentese entre 20 e 34 semanas e foi analisado pelo SNP array. As CNVs encontradas foram comparadas com banco de dados e literatura e posteriormente classificadas patogênicas, significado clínico incerto (VUS; do inglês variation of uncertain clinical significance) ou benignas. RESULTADOS: Nos 5 fetos com MDW a média da idade gestacional do diagnóstico foi de 26,8 semanas (SD 1,78 semanas). Todos os fetos eram do sexo feminino. Encontradas 6 CNVs. Todas consideradas benignas. Nos 19 fetos portadores de VM, a média do diâmetro no nascimento foi de 29,9 mm (DP 15,21mm). A média da idade gestacional do diagnóstico foi de 27 semanas (DP: 3,41 semanas). O sexo masculino representou 57,8% dos casos e o feminino, 42,1%. Foram encontradas 41 CNVs (22 benignas e 16 VUS) além de 15 eventos de perda de heterozigosidade (LOH). Nenhuma CNV foi considerada patogênica. CONCLUSÃO: Foi possível detectar CNVs utilizando cariotipagem por array em 22, dos 24 casos selecionados de VM e MDW; determinar qual a região cromossômica alterada, além de associar essas regiões com genes envolvidos. Os genes envolvidos foram estudados e comparados com o banco de dados. Contudo para correlacionar os achados ultrassonográficos com os achados citogenômicos encontrados ainda necessitamos de mais estudos acumulativos para enriquecer os bancos de dados existentes e melhorar a assistência pré-natal, diagnóstico e prognóstico dos pacientes portadores de ventriculomegalia e malformação Dandy Walker / BACKGROUND: Ventriculomegaly is the most prevalent congenital central nervous system (CNS) anomalies. Dandy Walker malformation (DWM), although lower prevalent, is, like ventriculomegaly, a disease with a significant prenatal and postnatal impact on fetal morbidity and mortality. The etiology of these pathologies is heterogeneous and the genetic factor is among the main causes. The most used technique in the prenatal period for genetic tracing is the K-band karyotype. However, this technique does not reveal all genetic abnormalities. Therefore, in fetuses with detected ultrasound morphological alteration and normal traditional karyotyping, the molecular study may be offered for an etiological investigation and genetic counseling. OBJECTIVE: To investigate copy number variations (CNVs) using a single nucleotide polymorphism (SNP) array and identify changes in chromosomal regions in fetuses with ventriculomegaly (VM). METHOD: Twenty nine pregnant women with fetuses with ventriculomegaly and DWM were selected. Of the 29 samples collected, 2 were excluded due to positive PCR for congenital infections and another 3 excluded due to G-band karyotype presenting chromosomal abnormalities. A total of 24 fetuses were included in the study, 19 of whom had ventriculomegaly and 5 MDW cases diagnosed on prenatal ultrasonography. All cases presented normal G-band karyotype and negative PCR for congenital infections in the amniotic fluid. The fetal DNA was extracted from the umbilical cord by cordocentesis between 20 and 34 weeks and was analyzed by the SNP array. The CNV were compared with databases and literature and then classified into three groups: pathogenic CNVs, CNVs with uncertain clinical significance (VUS) and benign CNVs. RESULTS: In the 5 fetuses with MDW the mean gestational age of the diagnosis was 26.8 weeks (SD 1.78 weeks). All fetuses were female. Found 6 CNVs. All CNVs considered benign. In the 19 fetuses with MV, the mean of the cerebral ventricle diameter at birth was 29.9 mm (SD 15.21 mm). The mean gestational age of the diagnosis was 27 weeks (SD: 3.41 weeks). The male gender represented 57.8% of the cases and female, 42.1%. We found 41 CNVs (22 benign and 16 VUS) in addition to 15 heterozygosity loss (LOH). No CNV was considered pathogenic. CONCLUSION: It was possible to detect CNVs using array in 22 of the 24 selected cases of VM and DWM; determine the altered chromosomal region, and associate these regions with the genes involved. The genes involved were studied and compared to the database. However, to correlate ultrasonographic findings with the cytogenetic anomalies detected, we still need more cumulative studies to enrich existing databases and improve prenatal care, diagnosis and prognosis of patients with VM and DWM

Central nervous system

Cerebellar vermis

Citogenética

Cuidado pré-natal

Cytogenetics

Deoxyribonucleases

Desoxirribonucleases

Hidrocefalia

Hydrocephalus

Prenatal care

Sistema nervoso central

Vermis cerebelar

Investigação de variação do número de cópias em fetos portadores de ventriculomegalia e malformação Dandy Walker / Investigation of variation of the number of copies in fetuses with ventriculomegaly and malformation Dandy Walker

Cibele Diedrichs

08 November 2017

INTRODUÇÃO: A ventriculomegalia é a malformação congênita de sistema nervoso central (SNC) mais prevalente, e a malformação Dandy Walker (apesar de menos prevalente) é, assim como a ventriculomegalia, uma doença com um importante impacto pré e pós-natal na morbidade e mortalidade fetal. A etiologia dessas patologias é heterogênea e o fator genético está entre as principais causas. A técnica mais usada no período pré-natal para rastreamento genético é o cariótipo por banda G; contudo esta técnica não revela todas as anormalidades genéticas. Portanto, em fetos com alteração morfológica ultrassonográfica detectada e cariotipagem tradicional normal, o estudo molecular pode ser oferecido para uma investigação etiológica e aconselhamento genético. OBJETIVO: Este estudo visa investigar a presença de CNVs (do inglês, copy number variations) utilizando cariotipagem por array em amostras de DNA obtidas de fetos portadores de ventriculomegalia (VM) ou Malformação de Dandy-Walker (MDW), com resultado de cariótipo clássico normal. MÉTODO: Foram selecionadas 29 gestantes com fetos portadores de VM e MDW. Das 29 amostras colhidas, 2 foram excluídas devido PCR positivo para infecções congênitas e outras 3 excluídas devido cariótipo por banda G apresentando anomalias cromossômica. Um total de 24 fetos foram incluídos no estudo, sendo 19 portadores de ventriculomegalia e 5 casos de MDW diagnosticados na ultrassonografia pré-natal. Todos os casos apresentavam cariótipo por banda G normal e PCR negativo para infecções congênitas no líquido amniótico. O DNA fetal foi extraído do cordão umbilical através da cordocentese entre 20 e 34 semanas e foi analisado pelo SNP array. As CNVs encontradas foram comparadas com banco de dados e literatura e posteriormente classificadas patogênicas, significado clínico incerto (VUS; do inglês variation of uncertain clinical significance) ou benignas. RESULTADOS: Nos 5 fetos com MDW a média da idade gestacional do diagnóstico foi de 26,8 semanas (SD 1,78 semanas). Todos os fetos eram do sexo feminino. Encontradas 6 CNVs. Todas consideradas benignas. Nos 19 fetos portadores de VM, a média do diâmetro no nascimento foi de 29,9 mm (DP 15,21mm). A média da idade gestacional do diagnóstico foi de 27 semanas (DP: 3,41 semanas). O sexo masculino representou 57,8% dos casos e o feminino, 42,1%. Foram encontradas 41 CNVs (22 benignas e 16 VUS) além de 15 eventos de perda de heterozigosidade (LOH). Nenhuma CNV foi considerada patogênica. CONCLUSÃO: Foi possível detectar CNVs utilizando cariotipagem por array em 22, dos 24 casos selecionados de VM e MDW; determinar qual a região cromossômica alterada, além de associar essas regiões com genes envolvidos. Os genes envolvidos foram estudados e comparados com o banco de dados. Contudo para correlacionar os achados ultrassonográficos com os achados citogenômicos encontrados ainda necessitamos de mais estudos acumulativos para enriquecer os bancos de dados existentes e melhorar a assistência pré-natal, diagnóstico e prognóstico dos pacientes portadores de ventriculomegalia e malformação Dandy Walker / BACKGROUND: Ventriculomegaly is the most prevalent congenital central nervous system (CNS) anomalies. Dandy Walker malformation (DWM), although lower prevalent, is, like ventriculomegaly, a disease with a significant prenatal and postnatal impact on fetal morbidity and mortality. The etiology of these pathologies is heterogeneous and the genetic factor is among the main causes. The most used technique in the prenatal period for genetic tracing is the K-band karyotype. However, this technique does not reveal all genetic abnormalities. Therefore, in fetuses with detected ultrasound morphological alteration and normal traditional karyotyping, the molecular study may be offered for an etiological investigation and genetic counseling. OBJECTIVE: To investigate copy number variations (CNVs) using a single nucleotide polymorphism (SNP) array and identify changes in chromosomal regions in fetuses with ventriculomegaly (VM). METHOD: Twenty nine pregnant women with fetuses with ventriculomegaly and DWM were selected. Of the 29 samples collected, 2 were excluded due to positive PCR for congenital infections and another 3 excluded due to G-band karyotype presenting chromosomal abnormalities. A total of 24 fetuses were included in the study, 19 of whom had ventriculomegaly and 5 MDW cases diagnosed on prenatal ultrasonography. All cases presented normal G-band karyotype and negative PCR for congenital infections in the amniotic fluid. The fetal DNA was extracted from the umbilical cord by cordocentesis between 20 and 34 weeks and was analyzed by the SNP array. The CNV were compared with databases and literature and then classified into three groups: pathogenic CNVs, CNVs with uncertain clinical significance (VUS) and benign CNVs. RESULTS: In the 5 fetuses with MDW the mean gestational age of the diagnosis was 26.8 weeks (SD 1.78 weeks). All fetuses were female. Found 6 CNVs. All CNVs considered benign. In the 19 fetuses with MV, the mean of the cerebral ventricle diameter at birth was 29.9 mm (SD 15.21 mm). The mean gestational age of the diagnosis was 27 weeks (SD: 3.41 weeks). The male gender represented 57.8% of the cases and female, 42.1%. We found 41 CNVs (22 benign and 16 VUS) in addition to 15 heterozygosity loss (LOH). No CNV was considered pathogenic. CONCLUSION: It was possible to detect CNVs using array in 22 of the 24 selected cases of VM and DWM; determine the altered chromosomal region, and associate these regions with the genes involved. The genes involved were studied and compared to the database. However, to correlate ultrasonographic findings with the cytogenetic anomalies detected, we still need more cumulative studies to enrich existing databases and improve prenatal care, diagnosis and prognosis of patients with VM and DWM

Citogenética

Cuidado pré-natal

Desoxirribonucleases

Hidrocefalia

Sistema nervoso central

Vermis cerebelar

Central nervous system

Cerebellar vermis

Cytogenetics

Deoxyribonucleases

Hydrocephalus

Prenatal care