Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model

Introduction The pathophysiology of normal-pressure hydrocephalus and the correlation with its symptomatology is not well understood. Objective To monitor and evaluate the enlargement patterns of the ventricular system for each ventricle and its correlation with the presenting symptoms. Methods Bila...

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Autores:: Vivas Buitrago, Tito
Pinilla Monsalve, Gabriel
Jusué Torres, Ignacio
Oishi, Kumiko
Robison, Jamie
Crawford, Joshua A.
Pletnikov, Mikhail
Xu, Jiadi
Baledént, Olivier
Lokossou, Armelle
Hung, Alice L.
Blitz, Ari M.
Lu, Jennifer
Herzka, Daniel A.
Guerrero Cazares, Hugo
Oishi, Kenichi
Mori, Susumu
Quiñones Hinojosa, Alfredo
Rigamonti, Daniele

Tipo de recurso:: Article of journal

Fecha de publicación:: 2018

Institución:: Universidad de Santander

Repositorio:: Repositorio Universidad de Santander

Idioma:: eng

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dc.title.eng.fl_str_mv	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
title	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
spellingShingle	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model Animal model Behavioral changes Kaolin Normal pressure hydrocephalus Ventricular volume enlargement Volumetric measurement
title_short	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
title_full	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
title_fullStr	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
title_full_unstemmed	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
title_sort	Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model
dc.creator.fl_str_mv	Vivas Buitrago, Tito Pinilla Monsalve, Gabriel Jusué Torres, Ignacio Oishi, Kumiko Robison, Jamie Crawford, Joshua A. Pletnikov, Mikhail Xu, Jiadi Baledént, Olivier Lokossou, Armelle Hung, Alice L. Blitz, Ari M. Lu, Jennifer Herzka, Daniel A. Guerrero Cazares, Hugo Oishi, Kenichi Mori, Susumu Quiñones Hinojosa, Alfredo Rigamonti, Daniele
dc.contributor.author.spa.fl_str_mv	Vivas Buitrago, Tito Pinilla Monsalve, Gabriel Jusué Torres, Ignacio Oishi, Kumiko Robison, Jamie Crawford, Joshua A. Pletnikov, Mikhail Xu, Jiadi Baledént, Olivier Lokossou, Armelle Hung, Alice L. Blitz, Ari M. Lu, Jennifer Herzka, Daniel A. Guerrero Cazares, Hugo Oishi, Kenichi Mori, Susumu Quiñones Hinojosa, Alfredo Rigamonti, Daniele
dc.subject.proposal.eng.fl_str_mv	Animal model Behavioral changes Kaolin Normal pressure hydrocephalus Ventricular volume enlargement Volumetric measurement
topic	Animal model Behavioral changes Kaolin Normal pressure hydrocephalus Ventricular volume enlargement Volumetric measurement
description	Introduction The pathophysiology of normal-pressure hydrocephalus and the correlation with its symptomatology is not well understood. Objective To monitor and evaluate the enlargement patterns of the ventricular system for each ventricle and its correlation with the presenting symptoms. Methods Bilateral kaolin injection into the subarachnoid space overlying the cranial convexities was done in 18 adult rats. Magnetic resonance imaging was performed on an 11.7-T scanner 15, 60, 90, and 120 days after injection. Volumes of the ventricular system were measured for each ventricle and correlated with biweekly behavioral findings. Results There was a progressive increase in the ventricular volume for the lateral ventricles since day 15 in the kaolin-injected animals. There was a nonsignificant trend in volume growth for the third ventricle, but its enlargement was synchronous with the lateral ventricles. No significant change for the fourth ventricle. No symptoms were detected in the first 60 days. Association was found between the ventricular volume and locomotor changes. In addition, the odds of locomotor symptoms increased by 3% for every additional cubic millimeter of volume in the left (P < 0.001) and right (P = 0.023) ventricles, and for the total magnetic resonance imaging volume by 1% (P = 0.013). Conclusions Expansion of the lateral ventricles maintained similar proportions over time, accompanied by a synchronous third ventricular expansion with less proportion and a nonsignificant fourth enlargement. Lateral ventricles enlarged most in those animals that were to develop late locomotor deterioration. Further research using this animal model combined with different radiologic imaging techniques, such as diffusion tensor imaging and perfusion studies, is recommended.
publishDate	2018
dc.date.issued.spa.fl_str_mv	2018-12
dc.date.accessioned.spa.fl_str_mv	2019-07-08T17:05:41Z
dc.date.available.spa.fl_str_mv	2019-07-08T17:05:41Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.doi.eng.fl_str_mv	10.1016/j.wneu.2018.08.241
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dc.language.iso.spa.fl_str_mv	eng
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dc.relation.ispartof.eng.fl_str_mv	World Neurosurgery
dc.rights.spa.fl_str_mv	Derechos Reservados - Universidad de Santander, 2018
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spelling	Vivas Buitrago, Tito6616ecfb-28cf-4df9-8424-0f0bf0624cb7-1Pinilla Monsalve, Gabrielf9b90472-e5cd-4395-bf56-eb460e125e6e-1Jusué Torres, Ignacioa2ee0e4f-d935-4270-b42e-2b0fe07a5adb-1Oishi, Kumiko31a0f90f-fdd8-4f4d-97f8-9ab5a932f7ef-1Robison, Jamiea7db6e2c-60b1-4a60-80f9-732f693cdc8f-1Crawford, Joshua A.b6a6305a-8586-45b5-8eb6-e56a7eb74759-1Pletnikov, Mikhail06c6bccd-1d86-4286-b02b-eee65fa8c164-1Xu, Jiadi9d4b74d8-eb76-4edf-90e6-8ca34551e9a6-1Baledént, Olivierf5fec1e6-b142-4882-a840-e41a0969345f-1Lokossou, Armelle2d7da707-2aae-4933-8347-c07388e7f749-1Hung, Alice L.35cdebf1-4889-4d5a-8319-5265a3a4cae1-1Blitz, Ari M.04b741a1-c0b2-4f8c-ada4-cfff81937cd9-1Lu, Jenniferf12d2df0-d97e-4270-8979-27104f506c0a-1Herzka, Daniel A.8de500fd-939a-4a2d-878b-7025be34c872-1Guerrero Cazares, Hugoc7303a45-6b3c-4ddf-b9cc-4411c98d0ae5-1Oishi, Kenichi3cda0d76-d8b2-4160-af9a-bda02937af85-1Mori, Susumu8ff36254-e838-40aa-a1f0-dce06a76e1f1-1Quiñones Hinojosa, Alfredo5cd79d9a-8126-40c3-840e-fce75d7715be-1Rigamonti, Daniele72144fc6-e16e-4659-93d5-43147f861f20-12019-07-08T17:05:41Z2019-07-08T17:05:41Z2018-12Introduction The pathophysiology of normal-pressure hydrocephalus and the correlation with its symptomatology is not well understood. Objective To monitor and evaluate the enlargement patterns of the ventricular system for each ventricle and its correlation with the presenting symptoms. Methods Bilateral kaolin injection into the subarachnoid space overlying the cranial convexities was done in 18 adult rats. Magnetic resonance imaging was performed on an 11.7-T scanner 15, 60, 90, and 120 days after injection. Volumes of the ventricular system were measured for each ventricle and correlated with biweekly behavioral findings. Results There was a progressive increase in the ventricular volume for the lateral ventricles since day 15 in the kaolin-injected animals. There was a nonsignificant trend in volume growth for the third ventricle, but its enlargement was synchronous with the lateral ventricles. No significant change for the fourth ventricle. No symptoms were detected in the first 60 days. Association was found between the ventricular volume and locomotor changes. In addition, the odds of locomotor symptoms increased by 3% for every additional cubic millimeter of volume in the left (P < 0.001) and right (P = 0.023) ventricles, and for the total magnetic resonance imaging volume by 1% (P = 0.013). Conclusions Expansion of the lateral ventricles maintained similar proportions over time, accompanied by a synchronous third ventricular expansion with less proportion and a nonsignificant fourth enlargement. Lateral ventricles enlarged most in those animals that were to develop late locomotor deterioration. Further research using this animal model combined with different radiologic imaging techniques, such as diffusion tensor imaging and perfusion studies, is recommended.application/pdf10.1016/j.wneu.2018.08.2411878-8750https://repositorio.udes.edu.co/handle/001/3301engWorld NeurosurgeryDerechos Reservados - Universidad de Santander, 2018info:eu-repo/semantics/closedAccessAtribución-NoComercial 4.0 Internacional (CC BY-NC 4.0)https://creativecommons.org/licenses/by-nc/4.0/http://purl.org/coar/access_right/c_14cbhttps://www.sciencedirect.com/science/article/abs/pii/S1878875018320503Animal modelBehavioral changesKaolinNormal pressure hydrocephalusVentricular volume enlargementVolumetric measurementVentricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent ModelArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85PublicationLICENSElicense.txtlicense.txttext/plain; charset=utf-859https://repositorio.udes.edu.co/bitstreams/d4db9f58-c032-4612-a878-b6f1149f5e8f/download38d94cf55aa1bf2dac1a736ac45c881cMD52ORIGINALVentricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model.pdfVentricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model.pdfapplication/pdf265979https://repositorio.udes.edu.co/bitstreams/d6b12a14-6762-4e24-ba2d-fd9d1e60cc0a/download5f47ccd6b18d0aaa28982576a167fa2eMD55BRANDED_PREVIEWVentricular Volume Dynamics During the Development of Adult Chronic Communicating.PNG.preview.jpgVentricular Volume Dynamics During the Development of Adult Chronic Communicating.PNG.preview.jpgGenerated Branded Previewimage/jpeg5944https://repositorio.udes.edu.co/bitstreams/7a08c37c-2b99-4415-ba42-acdea5286667/download7d73eed86d295588f7abc7fc59d8043dMD54THUMBNAILVentricular Volume Dynamics During the Development of Adult Chronic Communicating.PNG.jpgVentricular Volume Dynamics During the Development of Adult Chronic Communicating.PNG.jpgUDESimage/jpeg1687https://repositorio.udes.edu.co/bitstreams/7c18f86d-54c6-4329-a538-5e807c451edb/download44370f93d6a16a809a097809103e024aMD53Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model.pdf.jpgVentricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model.pdf.jpgGenerated Thumbnailimage/jpeg5868https://repositorio.udes.edu.co/bitstreams/a08c8534-8228-47a7-9a2c-5f2d99d4aad7/download95e682d3c1b87ad01c630b560a6bea6aMD57TEXTVentricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model.pdf.txtVentricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model.pdf.txtExtracted texttext/plain5https://repositorio.udes.edu.co/bitstreams/c59b63d4-94c1-46bc-a380-984d3ffeb6e3/download5dbe86c1111d64f45ba435df98fdc825MD56001/3301oai:repositorio.udes.edu.co:001/33012023-10-10 13:21:40.679https://creativecommons.org/licenses/by-nc/4.0/Derechos Reservados - Universidad de Santander, 2018https://repositorio.udes.edu.coRepositorio Universidad de Santandersoporte@metabiblioteca.comTGljZW5jaWEgZGUgUHVibGljYWNpw7NuIFVERVMKRGlyZWN0cmljZXMgZGUgVVNPIHkgQUNDRVNPCgo=

Ventricular Volume Dynamics During the Development of Adult Chronic Communicating Hydrocephalus in a Rodent Model

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