A Comparison of Pathophysiology in Humans and Rodent Models of Subarachnoid Hemorrhage

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Abstract

Non-traumatic subarachnoid hemorrhage (SAH) affects an estimated 30,000 people each year in the United States, with an overall mortality of ~30%. Most cases of SAH result from a ruptured intracranial aneurysm, require long hospital stays, and result in significant disability and high fatality. Early brain injury (EBI) and delayed cerebral vasospasm (CV) have been implicated as leading causes of morbidity and mortality in these patients, necessitating intense focus on developing preclinical animal models that replicate clinical SAH complete with delayed CV. Despite the variety of animal models currently available, translation of findings from rodent models to clinical trials has proven especially difficult. While the explanation for this lack of translation is unclear, possibilities include the lack of standardized practices and poor replication of human pathophysiology, such as delayed cerebral vasospasm and ischemia, in rodent models of SAH. In this review, we summarize the different approaches to simulating SAH in rodents, in particular elucidating the key pathophysiology of the various methods and models. Ultimately, we suggest the development of standardized model of rodent SAH that better replicates human pathophysiology for moving forward with translational research.

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Identification of programmed cell death in situ via specific labeling of nuclear DNA fragmentation

SA Ben-Sasson, Y Sherman, Y Gavrieli (1992)

Programmed cell death (PCD) plays a key role in developmental biology and in maintenance of the steady state in continuously renewing tissues. Currently, its existence is inferred mainly from gel electrophoresis of a pooled DNA extract as PCD was shown to be associated with DNA fragmentation. Based on this observation, we describe here the development of a method for the in situ visualization of PCD at the single-cell level, while preserving tissue architecture. Conventional histological sections, pretreated with protease, were nick end labeled with biotinylated poly dU, introduced by terminal deoxy- transferase, and then stained using avidin-conjugated peroxidase. The reaction is specific, only nuclei located at positions where PCD is expected are stained. The initial screening includes: small and large intestine, epidermis, lymphoid tissues, ovary, and other organs. A detailed analysis revealed that the process is initiated at the nuclear periphery, it is relatively short (1-3 h from initiation to cell elimination) and that PCD appears in tissues in clusters. The extent of tissue-PCD revealed by this method is considerably greater than apoptosis detected by nuclear morphology, and thus opens the way for a variety of studies.

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A new grading system evaluating bleeding scale in filament perforation subarachnoid hemorrhage rat model.

Takashi Sugawara, R Ayer, H. Zhang … (2008)

The endovascular perforation rodent model for experimental subarachnoid hemorrhage (SAH) studies is criticized for lack of control over bleeding. Presently, there is no practical grading system to categorize the severity of SAH depending on the amount of blood. We outline a simple and objective novel SAH grading system by examining the subarachnoid blood clots in the basal cisterns, and evaluate for correlation with neurological status and cerebral vasospasm. Effects of simvastatin, known to reduce vasospasm, were examined using this grading system. Seventy-seven adult male Sprague-Dawley rats were divided randomly into three groups: sham-operated (n=24), SAH (n=32), and SAH+simvastatin (n=25). High-resolution brain pictures were used to grade the severity of SAH and categorize animals into mild, moderate and severe groups. The SAH grades were compared with neurological scores and internal carotid artery parameters such as diameter, perimeter and wall thickness at 24h. Two investigators verified the grading system independently. The SAH grade showed linear correlation functionally with neurological status (r=0.42, p 0.7, p<0.01), and also between two independent investigators (r=0.937, p<0.001). Simvastatin improved neurological score in moderate and severe (p<0.05) but not mild SAH groups (p=0.28). This grading system has the potential to be adopted for SAH experimental rodent models.

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Cognitive and functional outcome after aneurysmal subarachnoid hemorrhage.

T Al Enizi, R. Loch Macdonald, Tom A. Schweizer (2010)

Aneurysmal subarachnoid hemorrhage (aSAH) is a medical emergency characterized by the accumulation of blood in the subarachnoid space surrounding the brain. The acute treatment of aSAH is well documented but less is known about the long-term effects of aSAH on cognition and day-to-day functioning. We reviewed all studies in the past 10 years that have focused on the effects of aSAH on cognition and day-to-day functioning. Sixty-one empirical studies examining cognitive and functional outcome in patients with aSAH met inclusion criteria. Survivors of aSAH commonly experience deficits in memory, executive function, and language. These cognitive impairments interact to affect patients' day-to-day functioning, including activities of daily living, instrumental activities of daily living, return to work, and quality of life. Deficits in cognition and day-to-day functioning are further compounded by depression, anxiety, fatigue, and sleep disturbances. Much remains to be learned about the brain changes underlying cognitive and functional deficits, including the role of diffuse brain damage and secondary complications like vasospasm and elevated intracranial pressure. A consideration of these issues is necessary to obtain a better understanding of how aSAH affects cognition and day-to-day functioning in the long-term.

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Author and article information

Contributors

Jenna L. Leclerc: URI : http://loop.frontiersin.org/people/404625/overview

Matthew A. Diller: URI : http://loop.frontiersin.org/people/519212/overview

Brian L. Hoh: URI : http://loop.frontiersin.org/people/13306/overview

Sylvain Doré: URI : http://loop.frontiersin.org/people/2102/overview

Journal

Journal ID (nlm-ta): Front Mol Neurosci

Journal ID (iso-abbrev): Front Mol Neurosci

Journal ID (publisher-id): Front. Mol. Neurosci.

Title: Frontiers in Molecular Neuroscience

Publisher: Frontiers Media S.A.

ISSN (Electronic): 1662-5099

Publication date (Electronic): 22 March 2018

Publication date Collection: 2018

Volume: 11

Electronic Location Identifier: 71

Affiliations

[1] ¹Department of Anesthesiology, University of Florida , Gainesville, FL, United States

[2] ²Department of Neuroscience, Center for Translational Research in Neurodegenerative Disease, McKnight Brain Institute, University of Florida , Gainesville, FL, United States

[3] ³Department of Neurosurgery, University of Florida , Gainesville, FL, United States

[4] ⁴Department of Neurology, Psychiatry, and Pharmaceutics, University of Florida , Gainesville, FL, United States

Author notes

Edited by: Ashok K. Shetty, Texas A&M University College of Medicine, United States

Reviewed by: Samaneh Maysami, University of Manchester, United Kingdom; Maximilian Lenz, Albert Ludwigs Universität Freiburg, Germany; Muddanna Sakkattu Rao, Kuwait University, Kuwait

*Correspondence: Sylvain Doré sdore@ 123456ufl.edu

†These authors have contributed equally to this work.

Article

DOI: 10.3389/fnmol.2018.00071

PMC ID: 5875105

PubMed ID: 29623028

SO-VID: 146ce9ce-a316-43c4-a7af-8913195b9738

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

History

Date received : 09 November 2017

Date accepted : 20 February 2018

Page count

Figures: 2, Tables: 6, Equations: 1, References: 187, Pages: 26, Words: 23831

Funding

Funded by: National Institutes of Health 10.13039/100000002

Award ID: F31NS086441

Award ID: R01NS046400

Award ID: R21NS095166

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A Comparison of Pathophysiology in Humans and Rodent Models of Subarachnoid Hemorrhage

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Most cited references 173

Identification of programmed cell death in situ via specific labeling of nuclear DNA fragmentation

A new grading system evaluating bleeding scale in filament perforation subarachnoid hemorrhage rat model.

Cognitive and functional outcome after aneurysmal subarachnoid hemorrhage.

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