Despite substantial progress in neonatal care over the past two decades leading to improved survival of extremely premature infants, extreme prematurity continues to be associated with long term neurodevelopmental imp...Despite substantial progress in neonatal care over the past two decades leading to improved survival of extremely premature infants, extreme prematurity continues to be associated with long term neurodevelopmental impairments. Cerebral white matter injury is the predominant form of insult in preterm brain leading to adverse neurological consequences. Such brain injury pattern and unfavorable neurologic sequelae is commonly encountered in premature infants exposed to systemic inflammatory states such as clinical or culture proven sepsis with or without evidence of meningitis, prolonged mechanical ventilation, bronchopulmonary dysplasia, necrotizing enterocolitis and chorioamnionitis. Underlying mechanisms may include cytokine mediated processes without direct entry of pathogens into the brain, developmental differences in immune response and complex neurovascular barrier system that play a critical role in regulating the cerebral response to various systemic inflammatory insults in premature infants. Understanding of these pathologic mechanisms and clinical correlates of such injury based on serum biomarkers or brain imaging findings on magnetic resonance imaging will pave way for future research and translational therapeutic opportunities for the developing brain.展开更多
Acquired neurological injuries initiate a pathological cascade of secondary injury processes,including inflammation,which continue for days to weeks following injury.Injury-induced neuroinflammation acts as a host def...Acquired neurological injuries initiate a pathological cascade of secondary injury processes,including inflammation,which continue for days to weeks following injury.Injury-induced neuroinflammation acts as a host defense mechanism contributing to the neutralization of the insult(removing offending factors)and restoring structure and function of the brain(establish homeostasis).The timing of these protective functions of the immune response is vital,since chronic inflammation展开更多
Inflammation after stroke is the main cause of cerebral ischemia/reperfusion injury. Cascading events after injury can lead to cell death. Heat shock protein 70 and other endogenous injury-signaling molecules are rele...Inflammation after stroke is the main cause of cerebral ischemia/reperfusion injury. Cascading events after injury can lead to cell death. Heat shock protein 70 and other endogenous injury-signaling molecules are released by damaged cells, which can lead to systemic stress reactions. Protecting the brain through repair begins with the stress-injury-repair signaling chain. This study aimed to verify whether acupuncture acts through this chain to facilitate effective treatment of ischemic stroke. Rat models of cerebral ischemia/reperfusion injury were established by Zea Longa's method, and injury sites were identified by assessing neurological function, 2,3,5-triphenyltetrazolium chloride staining, and hematoxylin-eosin staining. Electroacupuncture at acupoints Baihui(DU20) and Zusanli(ST36) was performed in the model rats with dilatational waves, delivered for 20 minutes a day at 2–100 Hz and an amplitude of 2 m A. We analyzed the blood serum from the rats and found that inflammatory cytokines affected the levels of adrenotrophin and heat shock protein 70, each of which followed a similar bimodal curve. Specifically, electroacupuncture lowered the peak levels of adrenocorticotrophic hormone and heat shock protein 70. Thus, electroacupuncture was able to inhibit excessive stress, reduce inflammation, and promote the repair of neurons, which facilitated healing of ischemic stroke.展开更多
The mineralocorticoid receptor(MR),well known to be expressed in renal epithelial cells where it is important in fluid and electrolyte homeostasis,has aldosterone as one of its main agonists.Much research in the las...The mineralocorticoid receptor(MR),well known to be expressed in renal epithelial cells where it is important in fluid and electrolyte homeostasis,has aldosterone as one of its main agonists.Much research in the last 10–15 years indicates that MRs are also expressed outside of the kidney,including in the brain,vasculature and heart,where they contribute to the pathophysiology of disease(Dinh et al.,2012;]aisser and Farman, 2016).展开更多
文摘Despite substantial progress in neonatal care over the past two decades leading to improved survival of extremely premature infants, extreme prematurity continues to be associated with long term neurodevelopmental impairments. Cerebral white matter injury is the predominant form of insult in preterm brain leading to adverse neurological consequences. Such brain injury pattern and unfavorable neurologic sequelae is commonly encountered in premature infants exposed to systemic inflammatory states such as clinical or culture proven sepsis with or without evidence of meningitis, prolonged mechanical ventilation, bronchopulmonary dysplasia, necrotizing enterocolitis and chorioamnionitis. Underlying mechanisms may include cytokine mediated processes without direct entry of pathogens into the brain, developmental differences in immune response and complex neurovascular barrier system that play a critical role in regulating the cerebral response to various systemic inflammatory insults in premature infants. Understanding of these pathologic mechanisms and clinical correlates of such injury based on serum biomarkers or brain imaging findings on magnetic resonance imaging will pave way for future research and translational therapeutic opportunities for the developing brain.
文摘Acquired neurological injuries initiate a pathological cascade of secondary injury processes,including inflammation,which continue for days to weeks following injury.Injury-induced neuroinflammation acts as a host defense mechanism contributing to the neutralization of the insult(removing offending factors)and restoring structure and function of the brain(establish homeostasis).The timing of these protective functions of the immune response is vital,since chronic inflammation
基金supported by a grant from the Major Science and Technology Project "Major New Drug Created" Funding,No.2009ZX09103-707
文摘Inflammation after stroke is the main cause of cerebral ischemia/reperfusion injury. Cascading events after injury can lead to cell death. Heat shock protein 70 and other endogenous injury-signaling molecules are released by damaged cells, which can lead to systemic stress reactions. Protecting the brain through repair begins with the stress-injury-repair signaling chain. This study aimed to verify whether acupuncture acts through this chain to facilitate effective treatment of ischemic stroke. Rat models of cerebral ischemia/reperfusion injury were established by Zea Longa's method, and injury sites were identified by assessing neurological function, 2,3,5-triphenyltetrazolium chloride staining, and hematoxylin-eosin staining. Electroacupuncture at acupoints Baihui(DU20) and Zusanli(ST36) was performed in the model rats with dilatational waves, delivered for 20 minutes a day at 2–100 Hz and an amplitude of 2 m A. We analyzed the blood serum from the rats and found that inflammatory cytokines affected the levels of adrenotrophin and heat shock protein 70, each of which followed a similar bimodal curve. Specifically, electroacupuncture lowered the peak levels of adrenocorticotrophic hormone and heat shock protein 70. Thus, electroacupuncture was able to inhibit excessive stress, reduce inflammation, and promote the repair of neurons, which facilitated healing of ischemic stroke.
基金supported by a postdoctoral fellowship from the National Health and Medical Research Council (NHMRC) of Australiathe Foundation for High Blood Pressure Research Australia (to SC)grants from the NHMRC and the National Heart Foundation of Australia
文摘The mineralocorticoid receptor(MR),well known to be expressed in renal epithelial cells where it is important in fluid and electrolyte homeostasis,has aldosterone as one of its main agonists.Much research in the last 10–15 years indicates that MRs are also expressed outside of the kidney,including in the brain,vasculature and heart,where they contribute to the pathophysiology of disease(Dinh et al.,2012;]aisser and Farman, 2016).
