Abstract: Argon belongs to the group of noble gases, which are regarded as chemically inert. Astonishingly some of these gases exert biological properties and during the last decades more and more reports demonstrated neuroprotective and organoprotective effects. Recent studies predominately use in vivo or in vitro models for ischemic pathologies to investigate the effect of argon treatment. Promising data has been published concerning pathologies like cerebral ischemia, traumatic brain injury and hypoxic ischemic encephalopathy. However, models applied and administration of the therapeutic gas vary. Here we provide a systematic review to summarize the available data on argon’s neuro- and organoprotective effects and discuss its possible me...
Perinatal hypoxia is the cause of a large proportion of deaths in newborn infants globally, and acco...
Background Noble gases may provide novel treatments for neurological injuries such as ischaemic and ...
Background: Whilst there has been progress in supportive treatment for traumatic brain injury (TBI),...
Argon belongs to the group of noble gases, which are regarded as chemically inert. Astonishingly som...
Argon belongs to the group of noble gases, which are regarded as chemically inert. Astonishingly som...
The noble gas argon has attracted increasing attention in recent years, especially because of its ne...
Ischemic stroke currently accounts for more than 5% of deaths in the United States, largely due to a...
Certain noble gases, though inert, exhibit remarkable biological properties. Notably, xenon and argo...
Background The noble gases argon and xenon are potential novel neuroprotective treatments for acquir...
Despite the global burden of brain injury, neuroprotective agents remain elusive. There are no clini...
The noble gas argon (Ar) is a “biologically” active element and has been extensively studied preclin...
Background: The noble gases xenon and argon are neuroprotective in models of brain injury. This thes...
Purpose Recently, the noble gas argon attracted significant attention due to its neuroprotective pro...
Stroke, also known as “cerebrovascular accident”, is an acute cerebrovascular disease that is caused...
Copyright © 2016, the American Society of Anesthesiologists, Inc.Background: Hypoxic-ischemic enceph...
Perinatal hypoxia is the cause of a large proportion of deaths in newborn infants globally, and acco...
Background Noble gases may provide novel treatments for neurological injuries such as ischaemic and ...
Background: Whilst there has been progress in supportive treatment for traumatic brain injury (TBI),...
Argon belongs to the group of noble gases, which are regarded as chemically inert. Astonishingly som...
Argon belongs to the group of noble gases, which are regarded as chemically inert. Astonishingly som...
The noble gas argon has attracted increasing attention in recent years, especially because of its ne...
Ischemic stroke currently accounts for more than 5% of deaths in the United States, largely due to a...
Certain noble gases, though inert, exhibit remarkable biological properties. Notably, xenon and argo...
Background The noble gases argon and xenon are potential novel neuroprotective treatments for acquir...
Despite the global burden of brain injury, neuroprotective agents remain elusive. There are no clini...
The noble gas argon (Ar) is a “biologically” active element and has been extensively studied preclin...
Background: The noble gases xenon and argon are neuroprotective in models of brain injury. This thes...
Purpose Recently, the noble gas argon attracted significant attention due to its neuroprotective pro...
Stroke, also known as “cerebrovascular accident”, is an acute cerebrovascular disease that is caused...
Copyright © 2016, the American Society of Anesthesiologists, Inc.Background: Hypoxic-ischemic enceph...
Perinatal hypoxia is the cause of a large proportion of deaths in newborn infants globally, and acco...
Background Noble gases may provide novel treatments for neurological injuries such as ischaemic and ...
Background: Whilst there has been progress in supportive treatment for traumatic brain injury (TBI),...