Neuroscience letters
-
Neuroscience letters · Aug 2006
Remote organ ischemic preconditioning protect brain from ischemic damage following asphyxial cardiac arrest.
Ischemic preconditioning (IPC) is a phenomenon whereby an organ's adaptive transient resistance to a lethal ischemic insult occurs by preconditioning this organ with a sub-lethal/mild ischemic insult of short duration. Besides IPC, recent studies reported that a short sub-lethal ischemia and reperfusion in various organs can induce ischemic tolerance in another organ as well. This phenomenon is known as remote ischemic preconditioning (RPC). ⋯ The number of normal neurons in the 15 min RPC, 30 min RPC, and IPC groups was higher than the ACA group by 54, 70, and 67%, respectively. This study demonstrates that RPC and IPC are able to provide neuroprotection in a rat model of ACA. Besides direct application of RPC or IPC paradigms, the exploration of the mechanisms of observed neuroprotection by RPC and IPC may also lead to a possible therapy for CA patients.
-
Neuroscience letters · Aug 2006
Changes in diffusion parameters, energy-related metabolites and glutamate in the rat cortex after transient hypoxia/ischemia.
It has been shown that global anoxia leads to dramatic changes in the diffusion properties of the extracellular space (ECS). In this study, we investigated how changes in ECS volume and geometry in the rat somatosensory cortex during and after transient hypoxia/ischemia correlate with extracellular concentrations of energy-related metabolites and glutamate. Adult male Wistar rats (n = 12) were anesthetized and subjected to hypoxia/ischemia for 30 min (ventilation with 10% oxygen and unilateral carotid artery occlusion). ⋯ The glucose concentration decreased rapidly during hypoxia/ischemia with a subsequent return to control values within 20 min of reperfusion. We conclude that transient hypoxia/ischemia causes similar changes in ECS diffusion parameters as does global anoxia and that the time course of the reduction in ECS volume fraction correlates with the increase of extracellular concentration of glutamate. The decrease in the ECS volume fraction can therefore contribute to an increased accumulation of toxic metabolites, which may aggravate functional deficits and lead to damage of the central nervous system (CNS).
-
Neuroscience letters · Aug 2006
Anticipatory postural adjustments in a bimanual load-lifting task in children with Duchenne muscular dystrophy.
We investigated the consequences of a progressive damage to the muscular system on the organization of anticipatory postural adjustments (APA) in children with Duchenne muscular dystrophy (DMD). We used a bimanual load-lifting task requiring the stabilization of the forearm position despite its voluntary or imposed unloading. Eight children with DMD from 4 to 11 years of age were compared to eight typically developing (TD) children. ⋯ The muscle weakness did not impair (1) the proprioceptive afference and the motor efference constituting the unloading reflex; and (2) the use of an anticipatory function in children with DMD. However, APA used for the forearm stabilization were less efficient in the group of children with DMD. We conclude that in DMD the muscular weakness could be a restraint to the efficiency of APA with respect to TD children.
-
Neuroscience letters · Aug 2006
Chronic nerve growth factor administration increases the peripheral exocytotic activity of capsaicin-sensitive cutaneous neurons.
Nerve growth factor (NGF) plays an important role in inflammation and pain and has been suggested to regulate the responsiveness and sensitivity of nociceptive fibers. However, no study has evaluated whether chronic NGF alters the exocytotic capacity of peripheral terminals of peptidergic fibers. To test this hypothesis, rats were injected subcutaneously every other day with either murine recombinant NGF (mNGF; 1.0 mg/kg) or vehicle for 7 days; or mNGF (0.1 mg/kg), mNGF (1 mg/kg) or vehicle every other day for 13 days. ⋯ Moreover, NGF also enhanced capsaicin-evoked thermal hyperalgesia under similar dose- and time-related conditions. Collectively, the chronic administration of NGF not only increases capsaicin-evoked hyperalgesia, but also significantly primes peripheral fibers to enhanced peptidergic exocytosis following activation of the capsaicin receptor. Collectively, these data are consistent with the hypothesis that persistently elevated NGF levels may contribute to enhanced neurogenic regulation of inflammatory and wound healing processes in injured tissue.
-
Neuroscience letters · Jul 2006
Isoflurane disrupts anterio-posterior phase synchronization of flash-induced field potentials in the rat.
Consciousness presumes a set of integrated functions such as sensory processing, attention, and interpretation, and may depend upon both local and long-range phase synchronization of neuronal activity in cerebral cortex. Here we investigated whether volatile anesthetic isoflurane at concentrations that produce loss of consciousness (LOC) disrupts long-range anterio-posterior and local anterior synchronization of neuronal activity in the rat. In six rats, deep electrodes were chronically implanted in the primary visual cortex (V1) and in two areas of the motor cortex (M1 and M2) for recording of intracortical event-related potentials (ERP). ⋯ Neuronal synchronization was estimated using wavelet coherence computed from the ERP data band-pass filtered at 5-50 Hz. We found that (1) in the waking state, long-range anterio-posterior coherence in 5-25 Hz and 25-50 Hz frequency bands was significantly higher than local anterior coherence; (2) anterio-posterior coherence in both 5-25 Hz and 26-50 Hz bands was significantly reduced by isoflurane in a concentration-dependent manner; (3) local anterior coherence was not affected by isoflurane at any of the concentrations studied. These findings suggest that a disruption of long-range anterio-posterior rather than local anterior synchronization of neuronal activity precedes the anesthetic-induced loss of consciousness.