White matter apoptosis is increased by delayed hypothermia and rewarming in a neonatal piglet model of hypoxic ischemic encephalopathy

Wang, B.; Armstrong, James C.; Reyes, Michael; Kulikowicz, Ewa; Lee, J.-H.; Spicer, Dawn; Bhalala, Utpal; Yang, Zeng-Jin; Koehler, Raymond C.; Martin, Lee J.; Lee, J.K.

doi:10.1016/j.neuroscience.2015.12.046

Cited by 53 publications

(76 citation statements)

References 37 publications

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“…Гипотермия (переохлаждение) снижает образо-вание свободных радикалов и уровень глутамата, умень-шает потребность в кислороде и уменьшает апоптоз [4,78,79]; одним из ведущих механизмов терапевтиче-ского эффекта считается противовоспалительный [80]. Основные эффекты гипотермии направлены на действие в период «окна возможностей», или латентного пери-ода энергетической недостаточности [6], который, как говорилось выше, предположительно длится с 30 мин после рождения до 24-48 ч. Именно в этот период появляется возможность не допустить или минимизиро-вать вторичную фазу энергетической недостаточности.…”

Section: обзор литературыunclassified

Recent Information on the Pathogenesis and Treatment of Hypoxic-Ischemic Brain Lesions in Newborns

Каркашадзе¹,

Аникин²,

Зимина³

et al. 2016

Pediatr. farmakol.

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ВВЕДЕНИЕ Общемировой научно-технический прогресс в отно-шении исследовательских технологий за последние де-сятилетия привел к качественному и количественно-му скачку нейронаук. Наиболее активно наполняется новыми данными поле фундаментальных представлений о развитии головного мозга, что обусловливает интересы ученых к таким областям медицины, как перинатальная неврология и неврология раннего возраста. Несмотря на расширение представлений о вкладе генетической составляющей, по-прежнему большое внимание уделяет-ся изучению прямых патофизиологических механизмов гипоксически-ишемических поражений (ГИП) головного мозга у новорожденных. К настоящему моменту накоплен массив новых данных в этой области, что подталкивает медицину к внедрению передовых лечебных технологий.Цель работы -провести литературный обзор совре-менных научных данных о механизмах гипоксически-ише-мических повреждений мозга у новорожденных и разра-батываемых на их основании новых методов лечения. ПАТОФИЗИОЛОГИЧЕСКИЕ МЕХАНИЗМЫ ГИПОКСИЧЕСКИ-ИШЕМИЧЕСКИХ ПОРАЖЕНИЙТрадиционно основные лечебные тактики в острый период гипоксически-ишемических перинатальных поражений головного мозга (ГИППГМ) предусма-тривают медикаментозное поддержание сердечно-легочных функций и противосудорожную защиту [1]. Послед ние достижения в раскрытии патофизиологи-ческих механизмов непосредственно ГИП дают опору для поиска и внедрения новых лечебных технологий. У доношенных детей основным прямым механизмом ГИП является внутриутробная асфиксия, вызванная проблемами кровообращения, в том числе в области плацентарных артерий, отслойкой плаценты или вос-палительным процессом. За этим следуют снижение объема кислорода и углекислого газа в крови и тяже-лый лактат-ацидоз. Выраженное снижение сердечного выброса в условиях гипоксии, называемое гипоксией-ишемией, в течение 12-36 ч приводит к поражению головного мозга [2].

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Section: обзор литературыunclassified

Recent Information on the Pathogenesis and Treatment of Hypoxic-Ischemic Brain Lesions in Newborns

Каркашадзе¹,

Аникин²,

Зимина³

et al. 2016

Pediatr. farmakol.

View full text Add to dashboard Cite

show abstract

“…[1] However, approximately half of survivors have persistent neurodevelopmental disabilities despite receiving hypothermia. [1, 2] We theorize that adverse effects from delaying the induction of hypothermia [3] and rewarming [4, 5] may be partially responsible for these neurologic impairments. We previously demonstrated that rewarming increases cortical neuronal apoptosis and caspase-3 cleavage after hypoxia-ischemia (HI) in a piglet model.…”

Section: Introductionmentioning

confidence: 99%

“…[4] Hypothermia and rewarming also promote glial apoptosis in the white matter, an effect that may be independent of HI in some brain regions. [5] Cortical and white matter injuries on MRI predict neurodevelopmental and motor impairments in survivors of HIE. [6, 7] Thus, there is need to define the mechanisms through which apoptotic cascades are activated after HI, hypothermia, and rewarming; to clarify targets for adjuvant therapies; and to minimize off-target effects from hypothermia and rewarming.…”

Section: Introductionmentioning

confidence: 99%

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Hypothermia and Rewarming Activate a Macroglial Unfolded Protein Response Independent of Hypoxic-Ischemic Brain Injury in Neonatal Piglets

Lee¹,

Wang²,

Reyes³

et al. 2016

Dev Neurosci

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Therapeutic hypothermia provides incomplete neuroprotection after hypoxia-ischemia (HI)-induced brain injury in neonates. We previously showed that cortical neuron and white matter apoptosis are promoted by hypothermia and early rewarming in a piglet model of HI. The unfolded protein response (UPR) may be one of the potential mediators of this cell death. Here, neonatal piglets underwent HI or sham surgery followed by 29 h of normothermia, 2 h of normothermia + 27 h of hypothermia or 18 h of hypothermia + rewarming. Piglets recovered for 29 h. Immunohistochemistry for endoplasmic reticulum to nucleus signaling-1 protein (ERN1), a marker of UPR activation, was used to determine the ratios of ERN1+ macroglia and neurons in the motor subcortical white matter and cerebral cortex. The ERN1+ macroglia were immunophenotyped as oligodendrocytes and astrocytes by immunofluorescent colabeling. Temperature (p = 0.046) and HI (p < 0.001) independently affected the ratio of ERN1+ macroglia. In sham piglets, sustained hypothermia (p = 0.011) and rewarming (p = 0.004) increased the ERN1+ macroglia ratio above that in normothermia. HI prior to hypothermia diminished the UPR. Ratios of ERN1+ macroglia correlated with white matter apoptotic profile counts in shams (r = 0.472; p = 0.026), thereby associating UPR activation with white matter apoptosis during hypothermia and rewarming. Accordingly, macroglial cell counts decreased in shams that received sustained hypothermia (p = 0.009) or rewarming (p = 0.007) compared to those in normothermic shams. HI prior to hypothermia neutralized the macroglial cell loss. Neither HI nor temperature affected ERN1+ neuron ratios. In summary, delayed hypothermia and rewarming activate the macroglial UPR, which is associated with white matter apoptosis. HI may decrease the macroglial endoplasmic reticulum stress response after hypothermia and rewarming.

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“…Brain injury biomarkers, such as circulating blood-based analytes (14,15) or physiologic measures of autonomic dysfunction (16,17), might be able to identify neonates at greatest risk of severe brain injury and provide real-time feedback on treatment efficacy. Optimizing cerebrovascular blood pressure autoregulation (18)(19)(20) with individualized hemodynamic goals and avoiding hypocapnia (21) might also improve outcomes. Moreover, current intrapartum fetal monitoring techniques do not sufficiently identify babies at risk of intrapartum hypoxia.…”

mentioning

confidence: 99%

The search continues: neuroprotection for all neonates with hypoxic-ischemic encephalopathy

2017

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Hypoxic-ischemic encephalopathy (HIE) from peripartum complications is a leading cause of neonatal brain injury. Inducing therapeutic hypothermia within 6 hours of birth to 33.0-34.0 ℃ for 72 hours is the standard of care for moderate to severe encephalopathy in many developed countries. The protection afforded by hypothermia is incomplete, however, as nearly half of hypothermia-treated survivors suffer persistent moderate to severe neurologic disabilities (1,2). Therefore, we continue to search for therapeutic strategies that can provide full neuroprotection in all neonates with HIE.Dr. Shankaran et al. report their findings from a multicenter randomized trial to test deeper, longer, or deeper and longer cooling for neonates with HIE in "Effect of Depth and Duration of Cooling on Death or Disability at Age 18 Months Among Neonates with HIE: A Randomized Clinical Trial". After determining that the predicted probability of detecting a decrease in in-hospital mortality was less than 2% with longer or deeper cooling, the study was stopped for safety and futility. Bradycardia, inhaled nitric oxide use, extracorporeal membrane oxygenation use, and longer duration of oxygen therapy were more common in neonates cooled to 32.0 ℃ than in those cooled to 33.0-34.0 ℃. The risks of arrhythmia, anuria, and longer hospital stay were also greater in neonates cooled for 120 hours than in those cooled for 72 hours (3). In the more recent report of outcomes at 18 months, deeper cooling to 32.0 ℃ or longer cooling for 120 hours did not reduce rates of death or disability. Additionally, a significant interaction between cooling depth and cooling duration raised concerns about increased mortality when these interventions were combined (4). Preclinical studies also have shown that cooling to lower temperatures does not provide additional neuroprotection (5) and might be detrimental (6).Hypothermia is the primary and most widely available brain-focused treatment for HIE. Until the advent of hypothermia, no other targeted therapies for HIE reached wide-scale clinical investigation. Hypothermia opened the door for neurotherapeutic clinical trials and stimulated the development of modern neonatal neurocritical care. Though we do not know precisely how hypothermia protects the brain, decades of preclinical studies have demonstrated that it reduces hypoxia-induced inflammation, oxidative stress, cytotoxic edema, excitotoxicity, energy failure, and the resulting neural cell death. The rationale for clinically testing hypothermia depth and duration was based on data from small and large-animal studies (7) coupled with the incomplete neuroprotection observed in a high proportion of infants cooled for HIE. Dr. Shankaran's study (4) suggests that improving neurologic outcomes after HIE will require approaches beyond hypothermia.Limited evidence suggests that hypothermia's failure to EditorialThe search continues: neuroprotection for all neonates with hypoxic-ischemic encephalopathy

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White matter apoptosis is increased by delayed hypothermia and rewarming in a neonatal piglet model of hypoxic ischemic encephalopathy

Cited by 53 publications

References 37 publications

Recent Information on the Pathogenesis and Treatment of Hypoxic-Ischemic Brain Lesions in Newborns

Recent Information on the Pathogenesis and Treatment of Hypoxic-Ischemic Brain Lesions in Newborns

Hypothermia and Rewarming Activate a Macroglial Unfolded Protein Response Independent of Hypoxic-Ischemic Brain Injury in Neonatal Piglets

The search continues: neuroprotection for all neonates with hypoxic-ischemic encephalopathy

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