Caracterização ultraestrutural das células imunorreativas a 5-bromo-2-deoxiuridina (BRDU) na zona ventricular e sub-ventricular adulta e de sua relação com o peptideo regulador CART. / Ultrastructural characterization of 5-brome-2-deoxyuridine (BrdU) immunoreactives cells in adult ventricular and subventricular zone and its relationship with regulating peptide CART.

Haemmerle, Carlos Alexandre dos Santos

17 March 2015

O maior nicho neurogênico no encéfalo adulto está ao redor dos ventrículos laterais, mas a identificação das células que iniciam tal formação é controversa. Há uma inervação do peptídeo CART que pode abrir perspectivas para o entendimento de seu papel na modulação da neurogênese. Propormos estudar a citoarquitetura ultra-estrutural das células proliferativas na região periventricular e descrever a organização dessa região e sua inervação por axonios imunorreativos ao CART. Utilizamos ratos e camundongos adultos, preparados para análise ultraestrutural e neuroquímica em microscópios eletrônicos de transmissão e varredura de alta-resolução, de luz e laser confocal. O estudo da proliferação e inervação ocorreu com a administração do marcador de fase S BrdU e anticorpos anti-BrdU, anti-CART, anti-DCX, anti-GFAP e anti-GFP. Cada tipo celular do nicho neurogênico apresentou uma densidade própria de ir-BrdU. Identificamos células de revestimento ventricular inervadas por axônios. A maior densidade de inervação ir-CART ocorre ao longo do trajeto dos neurônios em formação. / The major neurogenic niche in adult brains surrounds the lateral ventricles, but the identity of the cell that initiates this process in controversial. There is an innervation made by the CART peptide that may lead to perspectives for understanding its role in modulation of neurogenesis. We propose to study the ultrastructural cytoarchitecture of proliferative cells in this region and its innervation by CART immunoreactive axons. We used adult rats and mice, prepared for ultrastructural and neurochemical analysis by transmission and high-resolution scanning electron, light and laser confocal microscopes. The proliferation and innervation studies occured with the S-phase marker BrdU and anti-Brdu, anti-CART, anti-DCX, anti-GFAP, anti-GFP antibodies. Each sort of cells in neurogenic niche presented a proper density of BrdU staining. We identified the cells lining the ventricle being innervated by axons. The major density of CART innervation occurs along the pathway of neurons in maturation process.

Axon

Axônio

Epêndima

Ependyma

Lateral ventricle

Neurogênese

Neurogenesis

Ventrículo lateral

Caracterização ultraestrutural das células imunorreativas a 5-bromo-2-deoxiuridina (BRDU) na zona ventricular e sub-ventricular adulta e de sua relação com o peptideo regulador CART. / Ultrastructural characterization of 5-brome-2-deoxyuridine (BrdU) immunoreactives cells in adult ventricular and subventricular zone and its relationship with regulating peptide CART.

Carlos Alexandre dos Santos Haemmerle

17 March 2015

O maior nicho neurogênico no encéfalo adulto está ao redor dos ventrículos laterais, mas a identificação das células que iniciam tal formação é controversa. Há uma inervação do peptídeo CART que pode abrir perspectivas para o entendimento de seu papel na modulação da neurogênese. Propormos estudar a citoarquitetura ultra-estrutural das células proliferativas na região periventricular e descrever a organização dessa região e sua inervação por axonios imunorreativos ao CART. Utilizamos ratos e camundongos adultos, preparados para análise ultraestrutural e neuroquímica em microscópios eletrônicos de transmissão e varredura de alta-resolução, de luz e laser confocal. O estudo da proliferação e inervação ocorreu com a administração do marcador de fase S BrdU e anticorpos anti-BrdU, anti-CART, anti-DCX, anti-GFAP e anti-GFP. Cada tipo celular do nicho neurogênico apresentou uma densidade própria de ir-BrdU. Identificamos células de revestimento ventricular inervadas por axônios. A maior densidade de inervação ir-CART ocorre ao longo do trajeto dos neurônios em formação. / The major neurogenic niche in adult brains surrounds the lateral ventricles, but the identity of the cell that initiates this process in controversial. There is an innervation made by the CART peptide that may lead to perspectives for understanding its role in modulation of neurogenesis. We propose to study the ultrastructural cytoarchitecture of proliferative cells in this region and its innervation by CART immunoreactive axons. We used adult rats and mice, prepared for ultrastructural and neurochemical analysis by transmission and high-resolution scanning electron, light and laser confocal microscopes. The proliferation and innervation studies occured with the S-phase marker BrdU and anti-Brdu, anti-CART, anti-DCX, anti-GFAP, anti-GFP antibodies. Each sort of cells in neurogenic niche presented a proper density of BrdU staining. We identified the cells lining the ventricle being innervated by axons. The major density of CART innervation occurs along the pathway of neurons in maturation process.

Axônio

Epêndima

Neurogênese

Ventrículo lateral

Axon

Ependyma

Lateral ventricle

Neurogenesis

Die Magnetresonanztomographie im Therapiemonitoring liposomaler Glukokortikosteroide in zwei Tiermodellen der Multiplen Sklerose unter Berücksichtigung von Läsions- und Seitenventrikelgröße sowie Liquorsignalintensität / Magnetic resonance imaging in therapy monitoring of liposomal glucocorticosteroids in two animal models of multiple sclerosis in consideration of the size of lesion and lateral ventricle as well as cerebrospinal fluid signal intensity

Kehrer, Dominique Peter

20 March 2012

No description available.

610 Medizin, Gesundheit

Medicine

liposomale Glukokortikosteroide

MRT

Liquorsignalintensität

Seitenventrikel

liposomal glucocorticosteroids

MRI

cerebrospinal fluid signal intensity

lateral ventricle

44.90

44.64

MED 371: Radiologie

Aqueductal cerebrospinal fluid pulsatility in healthy individuals is affected by impaired cerebral venous outflow

Beggs, Clive B., Magnano, C.R., Shepherd, Simon J., Marr, K., Valnarov, V., Hojnacki, D., Bergsland, N., Belov, P., Grisafi, S., Dwyer, Michael G., Carl, Ellen, Weinstock-Guttman, B., Zivadinov, R.

08 November 2013

yes / To investigate cerebrospinal fluid (CSF) dynamics in the aqueduct of Sylvius (AoS) in chronic cerebrospinal venous insufficiency (CCSVI)-positive and -negative healthy individuals using cine phase contrast imaging. Materials and Methods Fifty-one healthy individuals (32 CCSVI-negative and 19 age-matched CCSVI-positive subjects) were examined using Doppler sonography (DS). Diagnosis of CCSVI was established if subjects fulfilled ≥2 venous hemodynamic criteria on DS. CSF flow and velocity measures were quantified using a semiautomated method and compared with clinical and routine 3T MRI outcomes. Results CCSVI was associated with increased CSF pulsatility in the AoS. Net positive CSF flow was 32% greater in the CCSVI-positive group compared with the CCSVI-negative group (P = 0.008). This was accompanied by a 28% increase in the mean aqueductal characteristic signal (ie, the AoS cross-sectional area over the cardiac cycle) in the CCSVI-positive group compared with the CCSVI-negative group (P = 0.021). Conclusion CSF dynamics are altered in CCSVI-positive healthy individuals, as demonstrated by increased pulsatility. This is accompanied by enlargement of the AoS, suggesting that structural changes may be occurring in the brain parenchyma of CCSVI-positive healthy individuals

Cerebral venous outflow resistance and interpretation of cervical plethysmography data with respect to the diagnosis of chronic cerebrospinal venous insufficiency

Beggs, Clive B., Shepherd, Simon J., Zamboni, P.

January 2014

No / PURPOSE: To investigate cerebrospinal fluid (CSF) dynamics in the aqueduct of Sylvius (AoS) in chronic cerebrospinal venous insufficiency (CCSVI)-positive and -negative healthy individuals using cine phase contrast imaging. MATERIALS AND METHODS: Fifty-one healthy individuals (32 CCSVI-negative and 19 age-matched CCSVI-positive subjects) were examined using Doppler sonography (DS). Diagnosis of CCSVI was established if subjects fulfilled >/=2 venous hemodynamic criteria on DS. CSF flow and velocity measures were quantified using a semiautomated method and compared with clinical and routine 3T MRI outcomes. RESULTS: CCSVI was associated with increased CSF pulsatility in the AoS. Net positive CSF flow was 32% greater in the CCSVI-positive group compared with the CCSVI-negative group (P = 0.008). This was accompanied by a 28% increase in the mean aqueductal characteristic signal (ie, the AoS cross-sectional area over the cardiac cycle) in the CCSVI-positive group compared with the CCSVI-negative group (P = 0.021). CONCLUSION: CSF dynamics are altered in CCSVI-positive healthy individuals, as demonstrated by increased pulsatility. This is accompanied by enlargement of the AoS, suggesting that structural changes may be occurring in the brain parenchyma of CCSVI-positive healthy individuals.

Adult

; Aged

; Cerebral aqueduct

; Cerebrospinal fluid

; Cerebrovascular disorders

; Cluster analysis

; Female

; Humans

; Hydrocephalus

; Image processing

; Lateral ventricles

; Magnetic Resonance Imaging

; Male

; Middle aged

; Multiple Sclerosis

; Pulsatile flow

; Reference values

; Software

; Statistics as topic

; Ultrasonography

; Venous insufficiency

; Ccsvi

; CSF dynamics

; Aqueduct of Sylvius

; Cerebral venous outflow

; Healthy individuals

; Lateral ventricle volume