Add to ORKGSummary: The effect of deep barbiturate anesthesia on brain glucose transport, TCA cycle flux, and aspartate, glutamate, and glutamine metabolism was assessed in the rat brain in vivo using 13C nuclear magnetic resonance spectroscopy at 9.4 T in conjunction with [1-13C] glucose infusions. Brain glucose con-centrations were elevated, consistent with a twofold reduced cerebral metabolic rate for glucose (CMRglc) compared with light -chloralose anesthesia. Using a mathematical model of neurotransmitter metabolism, several metabolic reaction rates were extracted from the rate of label incorporation. Total oxi-dative glucose metabolism, CMRglc(ox), was 0.33 ± 0.03 mol·g−1 · min−1. The neuronal TCA cycle rate was similar to that in the glia, 0.35...
Quastel’s theory (Quastel, 1939) which suggests that anesthetics, including the barbiturates, act by...
The use of 2-deoxyglucose for the measurement of regional cerebral glucose utilization in both anima...
The effects of anaesthetic agents on brain energy metabolism may explain their shared neurophysiolog...
The effect of deep barbiturate anesthesia on brain glucose transport, TCA cycle flux, and aspartate,...
Barbiturates are regularly used as an anesthetic for animal experimentation and clinical procedures ...
Barbiturates, commonly used as general anaesthetics, depress neuronal activity and thus cerebral met...
Barbiturates are regularly used as an anesthetic for animal experimentation and clinical procedures ...
Rats were implanted in the striatum with a Pt/Ir electrode for measurement of regional cerebral bloo...
Cerebral metabolism is compartmentalized between neurons and glia. Although glial glycolysis is thou...
The effect of isoflurane anesthesia on local rate of glucose utilization was investigated in the rat...
The effect of anaesthetics on the relation between local cerebral blood flow (rCBF) and extracellula...
Many tissues exhibit metabolic compartmentation. In the brain, while there is no doubt on the import...
Energy metabolism supports both inhibitory and excitatory neurotransmission processes. This study in...
Volatile anesthetic agents have profound and heterogeneous effects on global and local cerebral bloo...
Energy metabolism and neurotransmission are necessary for sustaining normal life activities. Hence, ...
Quastel’s theory (Quastel, 1939) which suggests that anesthetics, including the barbiturates, act by...
The use of 2-deoxyglucose for the measurement of regional cerebral glucose utilization in both anima...
The effects of anaesthetic agents on brain energy metabolism may explain their shared neurophysiolog...
The effect of deep barbiturate anesthesia on brain glucose transport, TCA cycle flux, and aspartate,...
Barbiturates are regularly used as an anesthetic for animal experimentation and clinical procedures ...
Barbiturates, commonly used as general anaesthetics, depress neuronal activity and thus cerebral met...
Barbiturates are regularly used as an anesthetic for animal experimentation and clinical procedures ...
Rats were implanted in the striatum with a Pt/Ir electrode for measurement of regional cerebral bloo...
Cerebral metabolism is compartmentalized between neurons and glia. Although glial glycolysis is thou...
The effect of isoflurane anesthesia on local rate of glucose utilization was investigated in the rat...
The effect of anaesthetics on the relation between local cerebral blood flow (rCBF) and extracellula...
Many tissues exhibit metabolic compartmentation. In the brain, while there is no doubt on the import...
Energy metabolism supports both inhibitory and excitatory neurotransmission processes. This study in...
Volatile anesthetic agents have profound and heterogeneous effects on global and local cerebral bloo...
Energy metabolism and neurotransmission are necessary for sustaining normal life activities. Hence, ...
Quastel’s theory (Quastel, 1939) which suggests that anesthetics, including the barbiturates, act by...
The use of 2-deoxyglucose for the measurement of regional cerebral glucose utilization in both anima...
The effects of anaesthetic agents on brain energy metabolism may explain their shared neurophysiolog...