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2. List of Contributors

Author

Abbatemarco, J.A., primary, Adams, R.J., additional, Adkins, D.L., additional, Akamatsu, Y., additional, Akyol, O., additional, Alexandrov, A.V., additional, Alim, I., additional, Alkhachroum, A.M., additional, Amin-Hanjani, S., additional, Andjelkovic, A.V., additional, Anrather, J., additional, Applegate, R., additional, Arai, K., additional, Ayata, C., additional, Aziz-Sultan, M.A., additional, Ballesteros, I., additional, Bar, B., additional, Barone, F.C., additional, Barrow, D.L., additional, Başkaya, M.K., additional, Bateman, K., additional, Bazan, N.G., additional, Beecher, J.S., additional, Beer-Furlan, A., additional, Belayev, L., additional, Bhattacharya, P., additional, Bhole, R., additional, Biller, J., additional, Biousse, V., additional, Borlongan, C.V., additional, Bouts, M.J.R.J., additional, Brey, R.L., additional, Bronstein, R., additional, Bryer, A., additional, Bulsara, K.R., additional, Can, A., additional, Canhão, P., additional, Caplan, L.R., additional, Carmichael, S.T., additional, Carrau, R., additional, Castaldo, J., additional, Catanese, L., additional, Chabriat, H., additional, Chaturvedi, S., additional, Chaudhary, N., additional, Chen, Jieli, additional, Chen, S., additional, Chen, Jun, additional, Choi, D.W., additional, Choi, B., additional, Chopp, M., additional, Chung, D.Y., additional, Chung, C.-P., additional, Cipolla, M.J., additional, Colbourne, F., additional, Colburn, Q., additional, Cord, B.J., additional, Coull, B.M., additional, Cuartero, M.I., additional, Cummings, J.L., additional, Dafer, R.M., additional, Dalkara, T., additional, Daou, B., additional, Dave, K.R., additional, Davis, T.P., additional, De Georgia, M., additional, De Silva, T.M., additional, Dharap, A., additional, Di Tullio, M.R., additional, Dietrich, W.D., additional, Dijkhuizen, R.M., additional, Dobkin, B.H., additional, Du, R., additional, Ducruet, A.F., additional, Duncan, K.R., additional, Edvinsson, L., additional, Edwards, M.J., additional, Egemen, E., additional, El-Hunjul, M., additional, Emanuele, M., additional, Emanuele, N., additional, Erdman, M.K., additional, Ergul, A., additional, Fagan, S.C., additional, Faraci, F.M., additional, Federau, C., additional, Ferro, J.M., additional, Fisher, M., additional, Flemming, K.D., additional, Foerch, C., additional, Freitas, R.S., additional, Friedlander, R.M., additional, Gaberel, T., additional, Gakuba, C., additional, Giffard, R.G., additional, Goldberg, M.P., additional, González, R.G., additional, Gopinath, S., additional, Gorelick, P.B., additional, Goshgarian, C., additional, Greenberg, D.A., additional, Griessenauer, C.J., additional, Groshans, K.A., additional, Gupta, R., additional, Hachem, R.A., additional, Hage, Z.A., additional, Hall, E.D., additional, Hamel, E., additional, Hao, Q., additional, Haqqani, A.S., additional, Hariman, R., additional, Hasan, D., additional, Haussen, D.C., additional, He, L., additional, Heiferman, D.M., additional, Herndon, J.M., additional, Ho, W.M., additional, Hoffmann, S., additional, Howard, B.M., additional, Hu, B.R., additional, Huber, J.D., additional, Huisa, B., additional, Hurn, P.D., additional, Iliff, J.J., additional, Jabbour, P., additional, Jamshidi, A.O., additional, Jankowitz, B., additional, Jickling, G.C., additional, Johansen, M., additional, Jovin, T.G., additional, Karuppagounder, S.S., additional, Kasper, E.M., additional, Keep, R.F., additional, Kim, H.-H., additional, Kim, D.E., additional, Kim, J.S., additional, Kim, J.Y., additional, Klahr, A.C., additional, Koch, M.J., additional, Kole, M., additional, Koleilat, S.M., additional, Kozan, A., additional, Kuroda, S., additional, Lamy, C., additional, Lanzino, G., additional, Larsen, A.G., additional, Laviv, Y., additional, Lawton, M.T., additional, Leary, M.C., additional, Leira, E.C., additional, Li, L., additional, Li, Q., additional, Liebeskind, D.S., additional, Lin, L., additional, Lioutas, V.A., additional, Lippert, T., additional, Liu, R., additional, Liu, J., additional, Liu, C.L., additional, Lizasoain, I., additional, Lo, E.H., additional, Loftus, C.M., additional, Logsdon, A.F., additional, Lucke-Wold, B.P., additional, Madhavan, S., additional, Madhugiri, V., additional, Malhotra, K., additional, Manning, W.J., additional, Marcell, S.J., additional, Mas, J.-L., additional, Masamoto, K., additional, Matute, C., additional, McCullough, L.D., additional, McDowell, M.M., additional, Mehdiratta, M., additional, Mehta, D., additional, Meisel, A., additional, Messegee, J., additional, Miller, B., additional, Mirza, S., additional, Modak, J.M., additional, Moro, M.A., additional, Nagel, M.A., additional, Namura, S., additional, Nedergaard, M., additional, Newell, D.W., additional, Newman, N.J., additional, Ng, K.L., additional, Nguyen, D., additional, Nguyen, H., additional, Nielsen, G., additional, Nishijima, Y., additional, Nishimura, N., additional, Nogueira, R.G., additional, Ogilvy, C.S., additional, Orbach, D.B., additional, Ostendorf, A.P., additional, Otto, B., additional, Ozpinar, A., additional, Panczykowski, D.M., additional, Patel, A.B., additional, Perez, Y., additional, Perez-Pinzon, M.A., additional, Potey, C., additional, Pradillo, J.M., additional, Prevedello, D.M., additional, Rajamani, K., additional, Rangel-Castilla, L., additional, Rao, N.M., additional, Ratan, R.R., additional, Raval, A.P., additional, Reddy, G.D., additional, Reis, C., additional, Roach, E.S., additional, Ronaldson, P.T., additional, Rosen, C.L., additional, Rosenberg, G.A., additional, Rutledge, W.C., additional, Sabzwari, R., additional, Salzano, G., additional, Santucci, P.A., additional, Saver, J.L., additional, Schallert, T., additional, Schermerhorn, M.L., additional, Schneck, M.J., additional, See, A.P., additional, Shakir, H.J., additional, Sharp, F.R., additional, Shuja, F., additional, Siddiqui, A.H., additional, Silva, M.A., additional, Singhal, A.B., additional, Sivakumar, K., additional, Slade, D.H., additional, Smith, E.R., additional, Sohrabji, F., additional, Solaroglu, I., additional, Sriraman, S.K., additional, Stamova, B., additional, Stanimirovic, D.B., additional, Stapleton, C.J., additional, Stary, C.M., additional, Steinberg, G.K., additional, Stephen, C., additional, Stetler, R.A., additional, Stone, J., additional, Sumbria, R., additional, Sweis, R., additional, Tahir, R., additional, Tarawneh, R., additional, Tarsia, J., additional, Tehrani, R., additional, Teo, M.K., additional, Testai, F.D., additional, Thrane, A.S., additional, Tobin, M.K., additional, Tome, M.E., additional, Topcuoglu, M.A., additional, Topel, C.H., additional, Torchilin, V., additional, Traystman, R.J., additional, Tsirka, S.E., additional, Turan, Y., additional, Tymianski, M., additional, van Leyen, K., additional, Varade, P., additional, Veluz, J.S., additional, Vemuganti, R., additional, Venkat, P., additional, Vexler, Z.S., additional, Vial, C.M., additional, Vinters, H.V., additional, Vosko, M.R., additional, Waeber, C., additional, Walcott, B.P., additional, Wang, J., additional, Wang, X., additional, Wang, Y.T., additional, Wei, Z.Z., additional, Wei, L., additional, Welch, B.G., additional, Winn, H.R., additional, Wintermark, M., additional, Wityk, R.J., additional, Wu, O., additional, Wu, K.C., additional, Xi, G., additional, Yacoub, H.A., additional, Yakhkind, A., additional, Yamamoto, Y., additional, Yang, S.-H., additional, Yenari, M., additional, Yigitkanli, K., additional, Yonas, H., additional, Yu, Z., additional, Zettervall, S.L., additional, Zhang, J., additional, Zhang, W., additional, and Zhao, H., additional

Published
2017
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28. 17β-estradiol pretreatment reduces ca1sector cell death and the spontaneous hyperthermia that follows forebrain ischemia in the gerbil

Author

Plahta, W.C., Clark, D.L., and Colbourne, F.

Subjects
*CELL death, *TEMPERATURE measurements, *ESTROGEN, CEREBRAL cortex surgery
Abstract

Pretreatment with 17β-estradiol attenuates ischemia-induced hippocampal cornu ammonis 1 (CA1) neuronal death. We assessed whether this is mediated through prevention of hyperthermia that normally follows ischemia in gerbils. Male gerbils were given sustained-released 17β-estradiol pellets or sham operation. Later, a guide cannula was implanted for brain temperature measurement and some were implanted with core temperature telemetry probes. Gerbils were subjected to either 5 min bilateral carotid artery occlusion or sham procedures 2 weeks after pellet surgery. Brain temperature was normothermic during surgery in all cases. In experiment 1, only core temperature was measured afterward in untreated and estrogen-treated gerbils. In experiment 2, postischemic core temperature was measured in untreated and two estrogen-treated ischemic groups, one of which had their postischemic temperature increased, via infrared lamp, to mimic the untreated group. Habituation was assessed on days 5 and 6. Hyperthermia, like that which occurs spontaneously, was forced on untreated and estrogen-treated ischemic animals in the third experiment, where brain temperature was measured. CA1 cell counts were assessed after a 7-day survival. A fourth experiment measured brain and core temperature simultaneously in normal gerbils during heating with an infrared lamp. Estrogen did not affect core temperature of non-ischemic gerbils whereas spontaneous postischemic hyperthermia was blocked. Estrogen reduced cell death and provided behavioral protection when gerbils regulated their own core temperature, but not when core hyperthermia was enforced. Conversely, estrogen reduced cell death in gerbils that had their brain temperature elevated. Experiment 4 showed that the brain becomes overheated (by approximately 1 °C) when core temperature is elevated. Accordingly, estrogen likely failed to reduce CA1 injury in experiment 2, when core hyperthermia was enforced, because of overheating the brain. In conclusion, estrogen reduces CA1 cell death by mechanisms other than preventing hyperthermia. Our results also suggest that future studies regulate brain instead of body temperature. [Copyright &y& Elsevier]

Published
2005
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29. Longer Periods of Hypothermia Provide Greater Protection Against Focal Ischemia: A Systematic Review of Animal Studies Manipulating Treatment Duration.

Author

Eberle MJ, Thorkelsson AB, Liddle LJ, Almekhlafi M, and Colbourne F

Subjects
Animals, Disease Models, Animal, Time Factors, Duration of Therapy, Hypothermia, Induced methods, Brain Ischemia prevention & control
Abstract

Decades of animal research show therapeutic hypothermia (TH) to be potently neuroprotective after cerebral ischemic injuries. While there have been some translational successes, clinical efficacy after ischemic stroke is unclear. One potential reason for translational failures could be insufficient optimization of dosing parameters. In this study, we conducted a systematic review of the PubMed database to identify all preclinical controlled studies that compared multiple TH durations following focal ischemia, with treatment beginning at least 1 hour after ischemic onset. Six studies met our inclusion criteria. In these six studies, six of seven experiments demonstrated an increase in cerebroprotection at the longest duration tested. The average effect size (mean Cohen's d ± 95% confidence interval) at the shortest and longest durations was 0.4 ± 0.3 and 1.9 ± 1.1, respectively. At the longest durations, this corresponded to percent infarct volume reductions between 31.2% and 83.9%. Our analysis counters previous meta-analytic findings that there is no relationship, or an inverse relationship between TH duration and effect size. However, underreporting often led to high or unclear risks of bias for each study as gauged by the SYRCLE Risk of Bias tool. We also found a lack of investigations of the interactions between duration and other treatment considerations (e.g., method, delay, and ischemic severity). With consideration of methodological limitations, an understanding of the relationships between treatment parameters is necessary to determine proper "dosage" of TH, and should be further studied, considering clinical failures that contrast with strong cerebroprotective results in most animal studies.

Published
2024
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30. A Systematic Review and Meta-Analysis of Therapeutic Hypothermia and Pharmacological Cotherapies in Animal Models of Ischemic Stroke.

Author

Suerte ACC, Liddle LJ, Abrahart A, Khiabani E, and Colbourne F

Abstract

Therapeutic hypothermia (TH) lessens ischemic brain injury. Cytoprotective agents can augment protection, although it is unclear which combinations are most effective. The objective of this study is to identify which cytoprotective drug works best with delayed TH. Following PRISMA guidelines, a systematic review (PubMed, Web of Science, MEDLINE, Scopus) identified controlled experiments that used an in vivo focal ischemic stroke model and evaluated the efficacy of TH (delay of ≥1 hour) coupled with cytoprotective agents. This combination was our main intervention compared with single treatments with TH, drug, or no treatment. Endpoints were brain injury and neurological impairment. The CAMARADES checklist for study quality and the SYRCLE's risk of bias tool gauged study quality. Twenty-five studies were included. Most used young, healthy male rats, with only one using spontaneously hypertensive rats. Two studies used mice models, and six used adult animals. Study quality was moderate (median score = 6), and risk of bias was high. Pharmacological agents provided an additive effect on TH for all outcomes measured. Magnesium coupled with TH had the greatest impact compared with other agent-TH combinations on all outcomes. Longer TH durations improved both behavioral and histological outcomes and had greater cytoprotective efficacy than shorter durations. Anti-inflammatories were the most effective in reducing infarction (standardized mean difference [SMD]: -1.64, confidence interval [CI]: [-2.13, -1.15]), sulfonylureas reduced edema the most (SMD: -2.32, CI: [-3.09, -1.54]), and antiapoptotic agents improved behavioral outcomes the most (normalized mean difference: 52.38, CI: [45.29, 59.46]). Statistically significant heterogeneity was observed ( I 2 = 82 - 98%, all p < 0.001), indicating that studies wildly differ in their effect size estimates. Our results support the superiority of adding cytoprotective therapies with TH (vs. individual or no therapy). Additional exploratory and confirmatory studies are required to identify and thoroughly assess combination therapies owing to limited work and inconsistent translational quality.

Published
2024
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31. A modified rehabilitation paradigm bilaterally increased rat extensor digitorum communis muscle size but did not improve forelimb function after stroke.

Author

Caine S, Alaverdashvili M, Colbourne F, Muir GD, and Paterson PG

Subjects
Rats, Male, Animals, Humans, Rats, Sprague-Dawley, Recovery of Function physiology, Forelimb, Muscle, Skeletal, Disease Models, Animal, Stroke, Stroke Rehabilitation
Abstract

Malnutrition after stroke may lessen the beneficial effects of rehabilitation on motor recovery through influences on both brain and skeletal muscle. Enriched rehabilitation (ER), a combination of environmental enrichment and forelimb reaching practice, is used preclinically to study recovery of skilled reaching after stroke. However, the chronic food restriction typically used to motivate engagement in reaching practice is a barrier to using ER to investigate interactions between nutritional status and rehabilitation. Thus, our objectives were to determine if a modified ER program comprised of environmental enrichment and skilled reaching practice motivated by a short fast would enhance post-stroke forelimb motor recovery and preserve forelimb muscle size and metabolic fiber type, relative to a group exposed to stroke without ER. At one week after photothrombotic cortical stroke, male, Sprague-Dawley rats were assigned to modified ER or standard care for 2 weeks. Forelimb recovery was assessed in the Montoya staircase and cylinder task before stroke and on days 5-6, 22-23, and 33-34 after stroke. ER failed to improve forelimb function in either task (p > 0.05). Atrophy of extensor digitorum communis (EDC) and triceps brachii long head (TBL) muscles was not evident in the stroke-targeted forelimb on day 35, but the area occupied by hybrid fibers was increased in the EDC muscle (p = 0.038). ER bilaterally increased EDC (p = 0.046), but not TBL, muscle size; EDC muscle fiber type was unchanged by ER. While the modified ER did not promote forelimb motor recovery, it does appear to have utility for studying the role of skeletal muscle plasticity in post-stroke recovery., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Caine et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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32. An Assessment of Physical and N6-Cyclohexyladenosine-Induced Hypothermia in Rodent Distal Focal Ischemic Stroke.

Author

Liddle LJ, Huang YG, Kung TFC, Mergenthaler P, Colbourne F, and Buchan AM

Subjects
Rats, Animals, Male, Rats, Sprague-Dawley, Rodentia, Hypothermia, Induced methods, Hypothermia metabolism, Ischemic Stroke, Adenosine analogs & derivatives, Stroke therapy
Abstract

Therapeutic hypothermia (TH) mitigates damage in ischemic stroke models. However, safer and easier TH methods (e.g., pharmacological) are needed to circumvent physical cooling complications. This study evaluated systemic and pharmacologically induced TH using the adenosine A 1 receptor agonist, N 6 -cyclohexyladenosine (CHA), with control groups in male Sprague-Dawley rats. CHA was administered intraperitoneally 10 minutes following a 2-hour intraluminal middle cerebral artery occlusion. We used a 1.5 mg/kg induction dose, followed by three 1.0 mg/kg doses every 6 hours for a total of 4 doses, causing 20-24 hours of hypothermia. Animals assigned to physical hypothermia and CHA-hypothermia had similar induction rates and nadir temperatures, but forced cooling lasted ∼6 hours longer compared with CHA-treated animals. The divergence is likely attributable to individual differences in CHA metabolism, which led to varied durations at nadir, whereas physical hypothermia was better regulated. Physical hypothermia significantly reduced infarction (primary endpoint) on day 7 (mean reduction of 36.8 mm 3 or 39% reduction; p  = 0.021 vs. normothermic animals; Cohen's d  = 0.75), whereas CHA-induced hypothermia did not ( p  = 0.33). Similarly, physical cooling improved neurological function (physical hypothermia median = 0, physical normothermia median = 2; p  = 0.008) and CHA-induced cooling did not ( p  > 0.99). Our findings demonstrate that forced cooling was neuroprotective compared with controls, but prolonged CHA-induced cooling was not neuroprotective.

Published
2024
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33. Tissue Compliance and Intracranial Pressure Responses to Large Intracerebral Hemorrhage in Young and Aged Spontaneously Hypertensive Rats.

Author

Wilkinson CM, Kalisvaart ACJ, Kung TFC, Abrahart AH, Khiabani E, and Colbourne F

Subjects
Rats, Animals, Rats, Inbred SHR, Cerebral Hemorrhage, Hematoma etiology, Edema, Intracranial Pressure, Hypertension
Abstract

Background: After a large intracerebral hemorrhage (ICH), the hematoma and swelling cause intracranial pressure (ICP) to increase, sometimes causing brain herniation and death. This is partly countered by widespread tissue compliance, an acute decrease in tissue volume distal to the stroke, at least in young healthy animals. Intracranial compensation dynamics seem to vary with age, but there is no data on old animals or those with hypertension, major factors influencing ICH risk and outcome., Methods: We assessed hematoma volume, edema, ICP, and functional deficits in young and aged spontaneously hypertensive rats (SHRs) and young normotensive control strains after collagenase-induced ICH. Macroscopic and microscopic brain volume fractions, such as contralateral hemisphere volume, cortical thickness, and neuronal morphology, were assessed via histological and stereological techniques., Results: Hematoma volume was 52% larger in young versus aged SHRs; surprisingly, aged SHRs still experienced proportionally worse outcomes following ICH, with 2× greater elevations in edema and ICP relative to bleed volume and 3× the degree of tissue compliance. Aged SHRs also experienced equivalent neurological deficits following ICH compared with their younger counterparts, despite the lack of significant age-related behavioral effects. Importantly, tissue compliance occurred across strains and age groups and was not impaired by hypertension or old age., Conclusions: Aged SHRs show considerable capacity for tissue compliance following ICH and seem to rely on such mechanisms more heavily in settings of elevated ICP. Therefore, the ICP compensation response to ICH mass effect varies across the lifespan according to risk factors such as chronic hypertension., Competing Interests: Disclosures None.

Published
2024
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34. Intracranial Pressure Dysfunction Following Severe Intracerebral Hemorrhage in Middle-Aged Rats.

Author

Kalisvaart ACJ, Abrahart AH, Coney AT, Gu S, and Colbourne F

Subjects
Rats, Animals, Cerebral Hemorrhage complications, Brain, Intracranial Pressure physiology, Stroke complications
Abstract

Rising intracranial pressure (ICP) aggravates secondary injury and heightens risk of death following intracerebral hemorrhage (ICH). Long-recognized compensatory mechanisms that lower ICP include reduced cerebrospinal fluid and venous blood volumes. Recently, we identified another compensatory mechanism in severe stroke, a decrease in cerebral parenchymal volume via widespread reductions in cell volume and extracellular space (tissue compliance). Here, we examined how age affects tissue compliance and ICP dynamics after severe ICH in rats (collagenase model). A planned comparison to historical young animal data revealed that aged SHAMs (no stroke) had significant cerebral atrophy (9% reduction, p ≤ 0.05), ventricular enlargement (9% increase, p ≤ 0.05), and smaller CA1 neuron volumes (21%, p ≤ 0.05). After ICH in aged animals, contralateral striatal neuron density and CA1 astrocyte density significantly increased (12% for neurons, 7% for astrocytes, p ≤ 0.05 vs. aged SHAMs). Unlike young animals, other regions in aged animals did not display significantly reduced cell soma volume despite a few trends. Nonetheless, overall contralateral hemisphere volume was 10% smaller in aged ICH animals compared to aged SHAMs (p ≤ 0.05). This age-dependent pattern of tissue compliance is not due to absent ICH-associated mass effect (83.2 mm 3 avg. bleed volume) as aged ICH animals had significantly elevated mean and peak ICP (p ≤ 0.01), occurrence of ICP spiking events, as well as bilateral evidence of edema (e.g., 3% in injured brain, p ≤ 0.05 vs. aged SHAMs). Therefore, intracranial compliance reserve changes with age; after ICH, these and other age-related changes may cause greater fluctuation from baseline, increasing the chance of adverse outcomes like mortality., (© 2022. The Author(s).)

Published
2023
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35. Motor Rehabilitation Provides Modest Functional Benefits After Intracerebral Hemorrhage: a Systematic Review and Meta-Analysis of Translational Rehabilitation Studies.

Author

Fedor BA, Sander NH, MacLaren M, Liddle LJ, MacLellan CL, and Colbourne F

Abstract

Few certainties exist regarding the optimal type, timing, or dosage of rehabilitation after stroke. Despite differing injury mechanisms and recovery patterns following ischemic and hemorrhagic stroke, most translational stroke research is conducted after ischemia. As we enter the era of personalized medicine, exploring subtype-specific treatment efficacy is essential to optimizing recovery. Our objective was to characterize common rehabilitation interventions used after in vivo preclinical intracerebral hemorrhage (ICH) and assess the impact of post-ICH rehabilitation (vs. no-rehabilitation) on recovery of motor function. Following PRISMA guidelines, a systematic review (Academic Search Complete, CINAHL, EMBASE, Medline, PubMed Central) identified eligible articles published up to December 2022. Risk of bias (SYRCLE) and study quality (CAMARADES) were evaluated, and random-effects meta-analysis was used to assess treatment efficacy in recovery of forelimb and locomotor functions. Thirty articles met inclusion criteria, and 48 rehabilitation intervention groups were identified. Most used collagenase to model striatal ICH in young, male rodents. Aerobic exercise, enriched rehabilitation, and constraint-induced movement therapy represented ~ 70% of interventions. Study quality was low (median 4/10, range 2-8), and risk of bias was unclear. Rehabilitation provided modest benefits in skilled reaching, spontaneous impaired forelimb use, and locomotor function; however, effects varied substantially by endpoint, treatment type, and study quality. Rehabilitation statistically improves motor function after preclinical ICH, but whether these effects are functionally meaningful is unclear. Incomplete reporting and variable research quality hinder our capacity to analyze and interpret how treatment factors influence rehabilitation efficacy and recovery after ICH., (© 2023. The Author(s).)

Published
2023
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36. A systematic review and meta-analysis on the efficacy of glibenclamide in animal models of intracerebral hemorrhage.

Author

Kung TFC, Wilkinson CM, Liddle LJ, and Colbourne F

Abstract

Intracerebral hemorrhage (ICH) is a devastating stroke with many mechanisms of injury. Edema worsens outcome and can lead to mortality after ICH. Glibenclamide (GLC), a sulfonylurea 1- transient receptor potential melastatin 4 (Sur1-Trpm4) channel blocker, has been shown to attenuate edema in ischemic stroke models, raising the possibility of benefit in ICH. This meta-analysis synthesizes current pre-clinical (rodent) literature regarding the efficacy of post-ICH GLC administration (vs. vehicle controls) on behaviour (i.e., neurological deficit, motor, and memory outcomes), edema, hematoma volume, and injury volume. Six studies (5 in rats and 1 in mice) were included in our meta-analysis (PROSPERO registration = CRD42021283614). GLC significantly improved behaviour (standardized mean difference (SMD) = -0.63, [-1.16, -0.09], n = 70-74) and reduced edema (SMD = -0.91, [-1.64, -0.18], n = 70), but did not affect hematoma volume (SMD = 0.0788, [-0.5631, 0.7207], n = 18-20), or injury volume (SMD = 0.2892, [-0.4950, 1.0734], n = 24). However, these results should be interpreted cautiously. Findings were conflicted with 2 negative and 4 positive reports, and Egger regressions indicated missing negative edema data (p = 0.0001), and possible missing negative behavioural data (p = 0.0766). Experimental quality assessed via the SYRCLE and CAMARADES checklists was concerning, as most studies demonstrated high risks of bias. Studies were generally low-powered (e.g., average n = 14.4 for behaviour), and future studies should employ sample sizes of 41 to detect our observed effect size in behaviour and 33 to detect our observed effect in edema. Overall, missing negative studies, low study quality, high risk of bias, and incomplete attention to key recommendations (e.g., investigating female, aged, and co-morbid animals) suggest that further high-powered confirmatory studies are needed before conclusive statements about GLC's efficacy in ICH can be made, and before further clinical trials are performed., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Kung et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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37. An Ambiguous Role for Fever in Worsening Outcome After Intracerebral Hemorrhage.

Author

Liddle LJ, Dirks CA, Almekhlafi M, and Colbourne F

Subjects
Humans, Body Temperature, Cerebral Hemorrhage, Fever complications
Abstract

Intracerebral hemorrhage (ICH) accounts for 10-15% of all strokes and leaves most survivors with impairments. Fever, a rise in the thermoregulatory set point, complicates ICH. This review summarizes ICH fever studies and employs meta-analytic techniques to explore the relationship between fever and ICH. We discuss methodological considerations for future studies and provide an overview of mechanisms by which fever, and its treatment, may impact ICH. We searched the PubMed database using the following terms: ((fever OR hyperthermia) AND (intracerebral hemorrhage OR intraparenchymal hemorrhage OR intracerebral haemorrhage OR intraparenchymal haemorrhage)). Our search returned 727 studies, of which 21 were included in our final analysis, consisting of 19 clinical, and two preclinical, studies. We conducted a meta-analysis on the clinical data to quantify how fever is related to mortality, functional outcomes, and intraventricular hemorrhage. Analysis of clinical studies suggested that fever causes an increased risk of mortality but does not appear to be associated with poor outcomes among survivors, making it difficult to ascertain the extent of harm caused by post-ICH fever or the benefits of its treatment. Perhaps these inconsistencies stem from variable fever definitions, and temperature measurement and fever treatment protocols. Additionally, the lack of mechanistic data in clinical studies coupled with preclinical studies showing no harmful effects of moderate bouts of hyperthermia raise concerns about the direct contribution of hyperthermia and fever in post ICH outcome. Overall, the significance of temperature increases after ICH is unclear, making this an important area for future research., (© 2022. The Author(s).)

Published
2023
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38. Early, Intense Rehabilitation Fails to Improve Outcome After Intra-Striatal Hemorrhage in Rats.

Author

Fedor BA, Kalisvaart ACJ, Ralhan S, Kung TFC, MacLaren M, and Colbourne F

Subjects
Animals, Rats, Cell Death, Corpus Striatum, Hematoma, Brain Injuries, Cerebral Hemorrhage
Abstract

Background: The formation and degradation of an intracerebral hemorrhage causes protracted cell death, and an extended window for intervention. Experimental studies find that rehabilitation mitigates late cell death, with accelerated hematoma clearance as a potential mechanism., Objective: We assessed whether early, intense, enriched rehabilitation (ER, environmental enrichment and massed skills training) enhances functional benefit, reduces brain injury, and augments hematoma clearance., Methods: In experiment 1, rats (n = 56) were randomized to intervention in the light (-L) or dark phase (-D) of their housing cycle, then to 10 days of ER or control (CON) treatment after collagenase-induced striatal intracerebral hemorrhage (ICH). ER rats were treated from 5 to 14 days after ICH. Behavior and residual hematoma volume was assessed on day 14. In experiment 2, rats (n = 72) were randomized to ER-D10, ER-D20, or CON-D. ER rats completed 10 or 20 days of training in the dark. Rats were euthanized on day 60 for histology. In both experiments, behavioral assessment was completed pre-ICH, pre-ER (day 4 post-ICH), and post-ER (experiment 1: days 13-14; experiment 2: days 16-17 and 30-31)., Results: Reaching intensity was high but similar between ER-D10 and ER-L10. Unlike previous work, rehabilitation did not alter skilled reaching or hematoma resolution. Varying ER duration also did not affect reaching success or lesion volume., Conclusions: In contrast to others, and under these conditions, our findings show that striatal ICH was generally unresponsive to rehabilitation. This highlights the difficulty of replicating and extending published work, perhaps owing to small inter-study differences.

Published
2022
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39. Colchicine pre-treatment and post-treatment does not worsen bleeding or functional outcome after collagenase-induced intracerebral hemorrhage.

Author

Wilkinson CM, Katsanos AH, Sander NH, Kung TFC, Colbourne F, and Shoamanesh A

Subjects
Animals, Rats, Brain Injuries pathology, Collagenases adverse effects, Disease Models, Animal, Fibrinolytic Agents adverse effects, Inflammation pathology, Clinical Trials, Phase II as Topic, Cerebral Hemorrhage drug therapy, Cerebral Hemorrhage etiology, Colchicine adverse effects
Abstract

Patients with intracerebral hemorrhage (ICH) are at increased risk for major ischemic cardiovascular and cerebrovascular events. However, the use of preventative antithrombotic therapy can increase the risk of ICH recurrence and worsen ICH-related outcomes. Colchicine, an anti-inflammatory agent, has the potential to mitigate inflammation-related atherothrombosis and reduce the risk of ischemic vascular events. Here we investigated the safety and efficacy of colchicine when used both before and acutely after ICH. We predicted that daily colchicine administration would not impact our safety measures but would reduce brain injury and improve functional outcomes associated with inflammation reduction. To test this, 0.05 mg/kg colchicine was given orally once daily to rats either before or after they were given a collagenase-induced striatal ICH. We assessed neurological impairments, intra-parenchymal bleeding, Perls positive cells, and brain injury to gauge the therapeutic impact of colchicine on brain injury. Colchicine did not significantly affect bleeding (average = 40.7 μL) at 48 hrs, lesion volume (average = 24.5 mm3) at 14 days, or functional outcome (median neurological deficit scale score at 2 days post-ICH = 4, i.e., modest deficits) from 1-14 days after ICH. Colchicine reduced the volume of Perls positive cells in the perihematomal zone, indicating a reduction in inflammation. Safety measures (body weight, food consumption, water consumption, hydration, body temperature, activity, and pain) were not affected by colchicine. Although colchicine did not confer neuroprotection or functional benefit, it was able to reduce perihematomal inflammation after ICH without increasing bleeding. Thus, our findings suggest that colchicine treatment is safe, unlikely to worsen bleeding, and is unlikely but may reduce secondary injury after an ICH if initiated early post ICH to reduce the risk of ischemic vascular events. These results are informative for the ongoing CoVasc-ICH phase II randomized trial (NCT05159219)., Competing Interests: The authors have declared that no competing interests exist.

Published
2022
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40. Consensus recommendations on therapeutic hypothermia after minimally invasive intracerebral hemorrhage evacuation from the hypothermia for intracerebral hemorrhage (HICH) working group.

Author

Baker TS, Kellner CP, Colbourne F, Rincon F, Kollmar R, Badjatia N, Dangayach N, Mocco J, Selim MH, Lyden P, Polderman K, and Mayer S

Abstract

Background and Purpose: Therapeutic hypothermia (TH), or targeted temperature management (TTM), is a classic treatment option for reducing inflammation and potentially other destructive processes across a wide range of pathologies, and has been successfully used in numerous disease states. The ability for TH to improve neurological outcomes seems promising for inflammatory injuries but has yet to demonstrate clinical benefit in the intracerebral hemorrhage (ICH) patient population. Minimally invasive ICH evacuation also presents a promising option for ICH treatment with strong preclinical data but has yet to demonstrate functional improvement in large randomized trials. The biochemical mechanisms of action of ICH evacuation and TH appear to be synergistic, and thus combining hematoma evacuation with cooling therapy could provide synergistic benefits. The purpose of this working group was to develop consensus recommendations on optimal clinical trial design and outcomes for the use of therapeutic hypothermia in ICH in conjunction with minimally invasive ICH evacuation., Methods: An international panel of experts on the intersection of critical-care TH and ICH was convened to analyze available evidence and form a consensus on critical elements of a focal cooling protocol and clinical trial design. Three focused sessions and three full-group meetings were held virtually from December 2020 to February 2021. Each meeting focused on a specific subtopic, allowing for guided, open discussion., Results: These recommendations detail key elements of a clinical cooling protocol and an outline for the roll-out of clinical trials to test and validate the use of TH in conjunction with hematoma evacuation as well as late-stage protocols to improve the cooling approach. The combined use of systemic normothermia and localized moderate (33.5°C) hypothermia was identified as the most promising treatment strategy., Conclusions: These recommendations provide a general outline for the use of TH after minimally invasive ICH evacuation. More research is needed to further refine the use and combination of these promising treatment paradigms for this patient population., Competing Interests: Author NB has received research funding from Becton Dickenson, Maryland Industrial Partnerships, Department of Defense. Author TB owns equity in a start-up investigating mechanisms of local cooling for ICH. Authors TB and CK are listed inventors in IP relating to cooling after ICH. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer BE declared a shared affiliation with the author PL to the handling editor at the time of review., (Copyright © 2022 Baker, Kellner, Colbourne, Rincon, Kollmar, Badjatia, Dangayach, Mocco, Selim, Lyden, Polderman and Mayer.)

Published
2022
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41. Therapeutic hypothermia for intracerebral hemorrhage: Systematic review and meta-analysis of the experimental and clinical literature.

Author

Baker TS, Durbin J, Troiani Z, Ascanio-Cortez L, Baron R, Costa A, Rincon F, Colbourne F, Lyden P, Mayer SA, and Kellner CP

Subjects
Cerebral Hemorrhage therapy, Hematoma therapy, Humans, Brain Edema etiology, Brain Edema therapy, Hypothermia, Induced, Stroke therapy
Abstract

Background: Intracerebral hemorrhage remains the deadliest form of stroke worldwide, inducing neuronal death through a wide variety of pathways. Therapeutic hypothermia is a robust and well-studied neuroprotectant widely used across a variety of specialties., Aims: This review summarizes results from preclinical and clinical studies to highlight the overall effectiveness of therapeutic hypothermia to improve long-term intracerebral hemorrhage outcomes while also elucidating optimal protocol regimens to maximize therapeutic effect., Summary of Review: A systematic review was conducted across three databases to identify trials investigating the use of therapeutic hypothermia to treat intracerebral hemorrhage. A random-effects meta-analysis was conducted on preclinical studies, looking at neurobehavioral outcomes, blood brain barrier breakdown, cerebral edema, hematoma volume, and tissue loss. Several mixed-methods meta-regression models were also performed to adjust for variance and variations in hypothermia induction procedures. Twwenty-one preclinical studies and five human studies were identified. The meta-analysis of preclinical studies demonstrated a significant benefit in behavioral scores (ES = -0.43, p = 0.02), cerebral edema (ES = 1.32, p = 0.0001), and blood brain barrier (ES = 2.73, p ≤ 0.00001). Therapeutic hypothermia was not found to significantly affect hematoma expansion (ES = -0.24, p = 0.12) or tissue loss (ES = 0.06, p = 0.68). Clinical study outcome reporting was heterogeneous; however, there was recurring evidence of therapeutic hypothermia-induced edema reduction., Conclusions: The combined preclinical evidence demonstrates that therapeutic hypothermia reduced multiple cell death mechanisms initiated by intracerebral hemorrhage; yet, there is no definitive evidence in clinical studies. The cooling strategies employed in both preclinical and clinical studies were highly diverse, and focused refinement of cooling protocols should be developed in future preclinical studies. The current data for therapeutic hypothermia in intracerebral hemorrhage remains questionable despite the highly promising indications in preclinical studies. Definitive randomized controlled studies are still required to answer this therapeutic question.

Published
2022
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42. Targeting focal ischemic and hemorrhagic stroke neuroprotection: Current prospects for local hypothermia.

Author

Liddle LJ, Kalisvaart ACJ, Abrahart AH, Almekhlafi M, Demchuk A, and Colbourne F

Subjects
Animals, Humans, Hypothermia, Induced methods, Stroke therapy
Abstract

Therapeutic hypothermia (TH) has applications dating back millennia. In modern history, however, TH saw its importation into medical practice where investigations have demonstrated that TH is efficacious in ischemic insults, notably cardiac arrest and hypoxic-ischemic encephalopathy. As well, studies have been undertaken to investigate whether TH can provide benefit in focal stroke (i.e., focal ischemia and intracerebral hemorrhage). However, clinical studies have encountered various challenges with induction and maintenance of post-stroke TH. Most clinical studies have attempted to use body-wide cooling protocols, commonly hindered by side effects that can worsen post-stroke outcomes. Some of the complications and difficulties with systemic TH can be circumvented by using local hypothermia (LH) methods. Additional advantages include the potential for lower target temperatures to be achieved and faster TH induction rates with LH. This systematic review summarizes the body of clinical and preclinical LH focal stroke studies and raises key points to consider for future LH research. We conclude with an overview of LH neuroprotective mechanisms and a comparison of LH mechanisms with those observed with systemic TH. Overall, whereas many LH studies have been conducted preclinically in the context of focal ischemia, insufficient work has been done in intracerebral hemorrhage. Furthermore, key translational studies have yet to be done in either stroke subtype (e.g., varied models and time-to-treat, studies considering aged animals or animals with co-morbidities). Few clinical LH investigations have been performed and the optimal LH parameters to achieve neuroprotection are unknown., (© 2021 International Society for Neurochemistry.)

Published
2022
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43. Glibenclamide does not improve outcome following severe collagenase-induced intracerebral hemorrhage in rats.

Author

Kung TFC, Wilkinson CM, Dirks CA, Jickling GC, and Colbourne F

Subjects
Animals, Behavior, Animal drug effects, Blood-Brain Barrier drug effects, Blood-Brain Barrier metabolism, Brain Edema pathology, Cerebral Hemorrhage etiology, Cerebral Hemorrhage mortality, Collagenases pharmacology, Disease Models, Animal, Glyburide pharmacology, Hematoma pathology, Male, Rats, Rats, Sprague-Dawley, Severity of Illness Index, Survival Rate, TRPM Cation Channels metabolism, Cerebral Hemorrhage pathology, Glyburide administration & dosage
Abstract

Intracerebral hemorrhage (ICH) is a devastating insult with few effective treatments. Edema and raised intracranial pressure contribute to poor outcome after ICH. Glibenclamide blocks the sulfonylurea 1 transient receptor potential melastatin 4 (Sur1-Trpm4) channel implicated in edema formation. While glibenclamide has been found to improve outcome and reduce mortality in animal models of severe ischemic stroke, in ICH the effects are less clear. In our previous study, we found no benefit after a moderate-sized bleed, while others have reported benefit. Here we tested the hypothesis that glibenclamide may only be effective in severe ICH, where edema is an important contributor to outcome. Glibenclamide (10 μg/kg loading dose, 200 ng/h continuous infusion) was administered 2 hours post-ICH induced by collagenase injection into the striatum of adult rats. A survival period of 24 hours was maintained for experiments 1-3, and 72 hours for experiment 4. Glibenclamide did not affect hematoma volume (~81 μL) or other safety endpoints (e.g., glucose levels), suggesting the drug is safe. However, glibenclamide did not lessen striatal edema (~83% brain water content), ionic dyshomeostasis (Na+, K+), or functional impairment (e.g., neurological deficits (median = 10 out of 14), etc.) at 24 hours. It also did not affect edema at 72 h (~86% brain water content), or overall mortality rates (25% and 29.4% overall in vehicle vs. glibenclamide-treated severe strokes). Furthermore, glibenclamide appears to worsen cytotoxic edema in the peri-hematoma region (cell bodies were 46% larger at 24 h, p = 0.0017), but no effect on cell volume or density was noted elsewhere. Overall, these findings refute our hypothesis, as glibenclamide produced no favorable effects following severe ICH., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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44. A Systematic Review and Meta-Analysis of Animal Studies Testing Intra-Arterial Chilled Infusates After Ischemic Stroke.

Author

Liddle LJ, Dirks CA, Fedor BA, Almekhlafi M, and Colbourne F

Abstract

Background: As not all ischemic stroke patients benefit from currently available treatments, there is considerable need for neuroprotective co-therapies. Therapeutic hypothermia is one such co-therapy, but numerous issues have hampered its clinical use (e.g., pneumonia risk with whole-body cooling). Some problems may be avoided with brain-specific methods, such as intra-arterial selective cooling infusion (IA-SCI) into the arteries supplying the ischemic tissue. Objective: Our research question was about the efficacy of IA-SCI in animal middle cerebral artery occlusion models. We hypothesized that IA-SCI would be beneficial, but translationally-relevant study elements may be missing (e.g., aged animals). Methods: We completed a systematic review of the PubMed database following the PRISMA guidelines on May 21, 2020 for animal studies that administered IA-SCI in the peri-reperfusion period and assessed infarct volume, behavior (primary meta-analytic endpoints), edema, or blood-brain barrier injury (secondary endpoints). Our search terms included: "focal ischemia" and related terms, "IA-SCI" and related terms, and "animal" and related terms. Nineteen studies met inclusion criteria. We adapted a methodological quality scale from 0 to 12 for experimental design assessment (e.g., use of blinding/randomization, a priori sample size calculations). Results: Studies were relatively homogenous (e.g., all studies used young, healthy animals). Some experimental design elements, such as blinding, were common whereas others, such as sample size calculations, were infrequent (median methodological quality score: 5; range: 2-7). Our analyses revealed that IA-SCI provides benefit on all endpoints (mean normalized infarct volume reduction = 23.67%; 95% CI: 19.21-28.12; mean normalized behavioral improvement = 35.56%; 95% CI: 25.91-45.20; mean standardized edema reduction = 0.95; 95% CI: 0.56-1.34). Unfortunately, blood-brain barrier assessments were uncommon and could not be analyzed. However, there was substantial statistical heterogeneity and relatively few studies. Therefore, exploration of heterogeneity via meta-regression using saline infusion parameters, study quality, and ischemic duration was inconclusive. Conclusion: Despite convincing evidence of benefit in ischemic stroke models, additional studies are required to determine the scope of benefit, especially when considering additional elements (e.g., dosing characteristics). As there is interest in using this treatment alongside current ischemic stroke therapies, more relevant animal studies will be critical to inform patient studies., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Liddle, Dirks, Fedor, Almekhlafi and Colbourne.)

Published
2021
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45. An update to the Monro-Kellie doctrine to reflect tissue compliance after severe ischemic and hemorrhagic stroke.

Author

Kalisvaart ACJ, Wilkinson CM, Gu S, Kung TFC, Yager J, Winship IR, van Landeghem FKH, and Colbourne F

Subjects
Animals, Astrocytes pathology, CA1 Region, Hippocampal pathology, CA1 Region, Hippocampal ultrastructure, Cell Size, Male, Neurons pathology, Rats, Sprague-Dawley, Cerebral Hemorrhage pathology, Hemorrhagic Stroke pathology, Ischemic Stroke pathology, Models, Biological
Abstract

High intracranial pressure (ICP) can impede cerebral blood flow resulting in secondary injury or death following severe stroke. Compensatory mechanisms include reduced cerebral blood and cerebrospinal fluid volumes, but these often fail to prevent raised ICP. Serendipitous observations in intracerebral hemorrhage (ICH) suggest that neurons far removed from a hematoma may shrink as an ICP compliance mechanism. Here, we sought to critically test this observation. We tracked the timing of distal tissue shrinkage (e.g. CA1) after collagenase-induced striatal ICH in rat; cell volume and density alterations (42% volume reduction, 34% density increase; p < 0.0001) were highest day one post-stroke, and rebounded over a week across brain regions. Similar effects were seen in the filament model of middle cerebral artery occlusion (22% volume reduction, 22% density increase; p ≤ 0.007), but not with the Vannucci-Rice model of hypoxic-ischemic encephalopathy (2.5% volume increase, 14% density increase; p ≥ 0.05). Concerningly, this 'tissue compliance' appears to cause sub-lethal damage, as revealed by electron microscopy after ICH. Our data challenge the long-held assumption that 'healthy' brain tissue outside the injured area maintains its volume. Given the magnitude of these effects, we posit that 'tissue compliance' is an important mechanism invoked after severe strokes.

Published
2020
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46. Translational Intracerebral Hemorrhage Research: Has Current Neuroprotection Research ARRIVEd at a Standard for Experimental Design and Reporting?

Author

Liddle LJ, Ralhan S, Ward DL, and Colbourne F

Subjects
Animals, Humans, Cerebral Hemorrhage drug therapy, Disease Models, Animal, Neuroprotective Agents pharmacology, Research Design standards, Translational Research, Biomedical standards
Abstract

One major aim of preclinical intracerebral hemorrhage (ICH) research is to develop and test potential neuroprotectants. Published guidelines for experimental design and reporting stress the importance of clearly and completely reporting results and methodological details to ensure reproducibility and maximize information availability. The current review has two objectives: first, to characterize current ICH neuroprotection research and, second, to analyze aspects of translational design in preclinical ICH studies. Translational design is the adoption and reporting of experimental design characteristics that are thought to be clinically relevant and critical to reproducibility in animal studies (e.g., conducting and reporting experiments according to the STAIR and ARRIVE guidelines, respectively). Given that ICH has no current neuroprotective treatments and an ongoing reproducibility crisis in preclinical research, translational design should be considered by investigators. We conducted a systematic review of ICH research from 2015 to 2019 using the PubMed database. Our search returned 281 published manuscripts studying putative neuroprotectants in animal models. Contemporary ICH research predominantly uses young, healthy male rodents. The collagenase model is the most commonly used. Reporting of group sizes, blinding, and randomization are almost unanimous, but group size calculations, mortality and exclusion criteria, and animal model characteristics are infrequently reported. Overall, current ICH neuroprotection research somewhat aligns with experimental design and reporting guidelines. However, there are areas for improvement. Because failure to consider translational design is associated with inflation of effect sizes (and possibly hindered reproducibility), we suggest that researchers, editors, and publishers collaboratively consider enhanced adherence to published guidelines.

Published
2020
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47. Infusion of Cold Saline into the Carotid Artery Does Not Affect Outcome After Intrastriatal Hemorrhage.

Author

Liddle LJ, Prokop BJ, Dirks CA, Demchuk A, Almekhlafi M, and Colbourne F

Subjects
Animals, Carotid Arteries, Cerebral Hemorrhage therapy, Disease Models, Animal, Humans, Male, Rats, Rats, Sprague-Dawley, Brain Edema etiology, Brain Edema therapy, Hypothermia, Induced
Abstract

Localized brain hypothermia (HYPO) can be achieved by infusing cold saline into the carotid artery of animals and patients. Studies suggest that HYPO improves behavioral and histological outcomes in focal ischemia models. Given that ischemic stroke and intracerebral hemorrhage (ICH) share pathophysiological overlap, we tested whether cold saline infusion is safe and neuroprotective when given during collagenase-induced ICH. Eighty-five adult male Sprague-Dawley rats were used. Experiment 1 investigated brain and body temperature changes associated with a cold saline infusion paradigm that was scaled from patients according to brain weight and blood volume (3 mL/20-minute infusion). Experiment 2 determined whether HYPO aggravated bleeding volume. Experiment 3 investigated if cerebral edema or elemental concentrations were altered by HYPO. We also collected core body temperature and activity data through telemetry. Experiment 4 investigated whether behavioral outcomes (e.g., skilled reaching) and tissue loss were influenced by HYPO. Our HYPO protocol decreased the ipsilateral striatal temperature by ∼0.20°C ( p  < 0.001), with no other effects. HYPO did not affect hematoma volume ( p  = 0.64), cerebral edema ( p  = 0.34), or elemental concentrations ( p  = 0.49) at 24 hours post-ICH. Although ICH caused persistent behavioral impairments, HYPO did not improve behavioral outcomes (measured by a neurological deficit scale, cylinder, and the staircase test; p  > 0.05 for all). Brain tissue loss was not different between groups on day 28 post-ICH ( p  = 0.90). Although cold saline infusion appears to be safe in the acute post-ICH period, there was no evidence that this therapy improved outcome. However, our treatment protocol was relatively mild and additional interventions might help improve efficacy. Finally, our findings may also speak to the safety of this cooling approach in focal ischemia where hemorrhagic transformation is a risk; future studies on this issue are needed.

Published
2020
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48. Therapeutic Hypothermia in Acute Ischemic Stroke-a Systematic Review and Meta-Analysis.

Author

Kuczynski AM, Marzoughi S, Al Sultan AS, Colbourne F, Menon BK, van Es ACGM, Berez AL, Goyal M, Demchuk AM, and Almekhlafi MA

Subjects
Humans, Treatment Outcome, Brain Ischemia therapy, Hypothermia, Induced, Ischemic Stroke, Stroke therapy
Abstract

Purpose of Review: Therapeutic hypothermia (TH) in stroke demonstrates robust neuroprotection in animals but clinical applications remain controversial. We assessed current literature on the efficacy of TH in ischemic stroke., Recent Findings: We conducted a meta-analysis comparing TH versus controls in studies published until June 2019. Controlled studies reporting on ≥ 10 adults with acute ischemic stroke were included. Primary outcome was functional independence (modified Rankin Scale [mRS] ≤ 2). Twelve studies (n = 351 TH, n = 427 controls) were included. Functional independence did not differ between groups (RR 1.17, 95% CI 0.93-1.46, random-effects p = 0.2). Five studies reported individual mRS outcomes and demonstrated a shift toward better outcome with TH (unadjusted cOR 1.57, 95% CI 1.01-2.44, p = 0.05). Overall complications were higher with TH (RR 1.18, 95% CI 1.06-1.32, p < 0.01). We did not observe an overall beneficial effect of TH in this analysis although some studies showed a shift toward better outcome. TH was associated with increased complications.

Published
2020
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49. The collagenase model of intracerebral hemorrhage in awake, freely moving animals: The effects of isoflurane.

Author

Wilkinson CM, Kalisvaart ACJ, Kung TFC, Maisey DR, Klahr AC, Dickson CT, and Colbourne F

Subjects
Animals, Blood Glucose metabolism, Cerebral Hemorrhage surgery, Collagenases administration & dosage, Disease Models, Animal, Electroencephalography, Hematoma, Male, Rats, Rats, Sprague-Dawley, Seizures chemically induced, Weight Loss, Cerebral Hemorrhage chemically induced, Cerebral Hemorrhage physiopathology, Collagenases pharmacology, Isoflurane pharmacology
Abstract

Intracerebral hemorrhage (ICH) is a devastating stroke often modelled in rats. Isoflurane anesthetic, commonly used in preclinical research, affects general physiology (e.g., blood pressure) and electrophysiology (e.g., burst suppression) in many ways. These physiological changes may detract from the clinical relevance of the model. Here, we revised the standard collagenase model to produce an ICH in rats without anesthetic. Guide cannulas were implanted stereotaxically under anesthetic. After 3 days of recovery, collagenase was infused through an internal cannula into the striatum of animals randomly assigned to the non-anesthetized or isoflurane group. We assessed whether isoflurane affected hematoma volume, core temperature, movement activity, pain, blood pressure, and seizure activity. With a small ICH, there was a hematoma volume increased from 8.6 (±3.3, 95% confidence interval) µL in anesthetized rats to 13.2 (±3.1) µL in non-anesthetized rats (P = 0.008), but with a larger ICH, hematoma volumes were similar. Isoflurane decreased temperature by 1.3 °C (±0.16 °C, P < 0.001) for 2 h and caused a 35.1 (±1.7) mmHg group difference in blood pressure (P < 0.007) for 12 m. Blood glucose increased twofold after isoflurane procedures (P < 0.001). Pain, as assessed with the rat grimace scale, did not differ between groups. Seizure incidence rate (62.5%) in non-anesthetized ICH rats was similar to historic amounts (61.3%). In conclusion, isoflurane appears to have some significant and injury size-dependent effects on the collagenase model. Thus, when anesthetic effects are a known concern, the use of the standardized cannula infusion approach is scientifically and ethically acceptable., (Copyright © 2019 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2020
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50. A Review of ex vivo Elemental Mapping Methods to Directly Image Changes in the Homeostasis of Diffusible Ions (Na + , K + , Mg 2 + , Ca 2 + , Cl - ) Within Brain Tissue.

Author

Hartnell D, Andrews W, Smith N, Jiang H, McAllum E, Rajan R, Colbourne F, Fitzgerald M, Lam V, Takechi R, Pushie MJ, Kelly ME, and Hackett MJ

Abstract

Diffusible ions (Na + , K + , Mg 2+ , Ca 2+ , Cl - ) are vital for healthy function of all cells, especially brain cells. Unfortunately, the diffusible nature of these ions renders them difficult to study with traditional microscopy in situ within ex vivo brain tissue sections. This mini-review examines the recent progress in the field, using direct elemental mapping techniques to study ion homeostasis during normal brain physiology and pathophysiology, through measurement of ion distribution and concentration in ex vivo brain tissue sections. The mini-review examines the advantages and limitations of specific techniques: proton induced X-ray emission (PIXE), X-ray fluorescence microscopy (XFM), secondary ion mass spectrometry (SIMS), laser-ablation inductively coupled plasma mass spectrometry (LA-ICP-MS), and the sample preparation requirements to study diffusible ions with these methods., (Copyright © 2020 Hartnell, Andrews, Smith, Jiang, McAllum, Rajan, Colbourne, Fitzgerald, Lam, Takechi, Pushie, Kelly and Hackett.)

Published
2020
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