A Critical Appraisal of Experimental Intracerebral Hemorrhage Research

MacLellan, Crystal L.; Paquette, Rosalie; Colbourne, Frederick

doi:10.1038/jcbfm.2012.8

Cited by 63 publications

(67 citation statements)

References 127 publications

(202 reference statements)

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“…The major barriers to translational success identified in these workshops were a lack of rigorous standards and transparency in reporting preclinical studies, similar to what was reported by der Worp (2005) in ischemia stroke research and by MacLellan et al (2012) in intracerebral hemorrhage research. The subsequent published guidelines from these groups outline some of the principles and standards of good study design and report when conducting preclinical trials of candidate therapeutics-e.g., allocation concealment, blinded assessment of outcome, random allocation of subjects to experimental groups, and other methods designed to minimize bias and Type 1 (''false positive'') errors.…”

Section: How Can We Improve Benefits?mentioning

confidence: 57%

“…Additionally, there were obvious significant methodological differences between pre-clinical and clinical trials, in that the animals used were generally young and healthy before the experimentally induced stroke, while human patients were often elderly and hypertense (Macleod and Sandercock 2005). The same sort of shortcomings was also identified in studies on intracerebral hemorrhage (MacLellan et al 2012).…”

Section: Assessment Of Likelihood That Potential Benefitsmentioning

confidence: 71%

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Does the Goal Justify the Methods? Harm and Benefit in Neuroscience Research Using Animals

Castro

Olsson

2014

Ethical Issues in Behavioral Neuroscience

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The goal of the present chapter is to open up for discussion some of the major ethical issues involved in animal-based neuroscience research. We begin by approaching the question of the moral acceptability of the use of animals in research at all, exploring the implications of three different ethical theories: contractarianism, utilitarianism, and animal rights. In the rest of this chapter, we discuss more specific issues of neuroscience research within what we argue is the mainstream framework for research animal ethics, namely one based on harm-benefit analysis. We explore issues of harms and benefits and how to balance them as well as how to reduce harm and increase benefit within neuroscience research.

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Section: How Can We Improve Benefits?mentioning

confidence: 57%

Section: Assessment Of Likelihood That Potential Benefitsmentioning

confidence: 71%

Does the Goal Justify the Methods? Harm and Benefit in Neuroscience Research Using Animals

Castro

Olsson

2014

Ethical Issues in Behavioral Neuroscience

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“…Firstly, these studies used different experimental models, the blood injection rat model or the collagenase injection mouse model. The blood injection and collagenase injection models are most often used but differ in many aspects (12,(14)(15)(16). Hematoma rapidly accumulates in the brain parenchyma in the clinical setting.…”

Section: █ Discussionmentioning

confidence: 99%

Hydrogen does not exert neuroprotective effects or improve functional outcomes in rats after intracerebral hemorrhage

Takeuchi

Nagatani²,

Otani³

et al. 2015

Turkish Neurosurgery

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ABSTRACT(ROS) damage the blood-brain barrier and increase brain edema (8,22,30). Hydroxyl radicals and peroxynitrites are very strong ROS that react indiscriminately with nucleic acids, lipids, and proteins, resulting in DNA fragmentation, lipid peroxidation, and protein inactivation (4,5,10,20,21,24,26,27). edaravone (3-methyl-1-phenyl-2-pyrazolin-5-one) is a potent scavenger of hydroxyl radicals and is used for the treatment of ischemic stroke in Japan. edaravone attenuates the edema and ischemic damage after ICH by reducing oxidative damage in a rat model of ICH (23), and so has increasingly been investigated for use in ICH. However, a review of 10 randomized controlled studies failed to find any beneficial effect of edaravone for the treatment of ICH (31). Therefore, more potent free radical scavengers may be needed.█ INTRODUCTION H ypertensive intracerebral hemorrhage (ICH) accounts for 10-20% of strokes (2). ICH can be devastating with high mortality rates ranging from 30% to 50% at 30 days, and many survivors remain severely disabled (1,3,7,28). The International Surgical Trial in Intracerebral Haemorrhage (STICH) study, a landmark trial of over 1,000 ICH patients, showed that emergent surgical hematoma evacuation via craniotomy within 72 hours of onset failed to improve outcome compared to a policy of initial medical management (19). In addition, no specific medical therapy is available, so the optimal management of ICH has not been definitively established. Increasing evidence suggests that reactive oxygen speciesAIm: Increasing evidence suggests that reactive oxygen species damage the blood-brain barrier and increase brain edema after intracerebral hemorrhage (ICH). Recently, strong clinical and experimental evidence has shown that hydrogen has potent protective cellular effects in various diseases. However, the effect of hydrogen on ICH remains unclear. The present study investigates whether hydrogen has neuroprotective effects and improves functional outcome in the rat ICH model. mATERIAl and mEThODS: ICH model was generated by injecting 50 μl autologous tail artery blood stereotactically into the right caudate nucleus of Sprague-Dawley rats. Rats were randomly divided into four groups: sham, ICH/vehicle, ICH/hydrogen gas, and ICH/hydrogen-rich saline groups. Hydrogen treatment was performed for 3 days. The evaluation of functional outcome was done before, and at 24 and 72 hours after ICH. Hemorrhage volume, immunohistochemistry for 8-hydroxy-2'-deoxyguanosine (8-OHdG), and brain water content were evaluated at 72 hours after ICH. RESUlTS:Hydrogen administration reduced the expression of 8-OHdG in the brain, but did not attenuate brain water content or improve functional outcome, regardless of administration route. CONClUSION:Hydrogen administration without surgery has no neuroprotective effect in the blood injection rat ICH model.

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“…Recent clinical failures call into question whether these models accurately reflect human ICH, and whether they will be useful in successfully translating treatments from the laboratory. 32 Nevertheless, the FC infusion model is currently used for studying sex dimorphic long-term neurological deficits after ICH.…”

Section: Animal Models Of Ichmentioning

confidence: 99%