Journal of neuroscience methods
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J. Neurosci. Methods · Jan 2004
Comparative StudySensitivity of temporal excitation properties to the neuronal element activated by extracellular stimulation.
Measurements of the chronaxies and refractory periods with extracellular stimuli have been used to conclude that large diameter axons are responsible for the effects of deep brain stimulation (DBS). We hypothesized that because action potential initiation by extracellular stimulation occurs in the axons of central nervous system (CNS) neurons, the chronaxies and refractory periods determined using extracellular stimulation would be similar for cells and axons. ⋯ The results demonstrate that chronaxies and refractory periods were dependent on the polarity of the extracellular stimulus and the electrode-to-neuron distance, and indicate that there is little systematic difference in either chronaxies or refractory periods between local cells or axons of passage with extracellular stimulation. This finding points out the difficulty in drawing conclusions regarding which neuronal elements are activated based on extracellular measurements of temporal excitation properties.
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J. Neurosci. Methods · Jun 2003
A double-lumen intrathecal catheter for studies of modulation of spinal opiate tolerance.
Studies of spinal opioid tolerance frequently employ a spinal infusion model in which a single-lumen intrathecal (IT) catheter is connected to an osmotic mini pump. We have modified this model by developing a double-lumen catheter system that permits continuous delivery of the toleragen to the IT space and allows for examination of the effects of concurrent IT drug administration without interruption of the ongoing infusion. The catheter is constructed of two pieces of PE10 tubing fused to the lumens of a dual-lumen catheter (8 cm) with one PE10 tube used as an infusion line connected to an osmotic pump and the other for injection. ⋯ The profile of the tolerance development and the response to drug manipulation using the double-lumen catheter are similar to previous findings in the spinal infusion model which used a single-lumen catheter. Most importantly, we demonstrate that concurrent probe drug testing and/or concurrent drug treatment can be achieved without interruption of spinal infusion of morphine. Using the double-lumen catheter model expands the range of possibility for studies of spinal opiate tolerance and spinal drug delivery.
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J. Neurosci. Methods · Jun 2003
Quantitative assessment of directed hind limb scratching behavior as a rodent itch model.
Hind limb scratching is used increasingly as an itch model in rodents. Scratching is usually quantified as the number of scratching bouts over a 60 min period. Since the antipruritic effect of scratching should depend on the total time of skin contact, then the duration of scratching bouts and within-bout scratching frequency may also be important factors. ⋯ Within-bout scratching frequency remained constant over time at 8 Hz. The number of scratching bouts was suppressed in a dose dependent manner by naltrexone (3 and 5 mg/kg), while the individual bout duration and the within-bout frequency were not significantly different compared with serotonin-evoked scratching without naltrexone. These results validate the total number of scratching bouts as an indicator of the magnitude of itch-related scratching.
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J. Neurosci. Methods · Sep 2002
In vivo spectroscopy: a novel approach for simultaneously estimating nitric oxide and hemodynamic parameters in the rat brain.
Nitric oxide (NO) is a versatile molecule involved in a wide range of biological processes. Under physiological conditions, NO reacts with oxyhemoglobin (OxyHb) to form methemoglobin (MetHb) at a very high rate. Microdialysis studies have used hemoglobin solutions as a trapping method to quantify NO in vivo. ⋯ In addition, data show that similar changes and kinetics can be observed with both techniques. Thus, intravascular MetHb can be used as an indirect index of NO levels. It is proposed that in vivo spectroscopy may be a useful tool to gain insight into the roles of NO in hemodynamic parameters and in other physiological processes such as the regulation of the mitochondrial respiratory chain.
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J. Neurosci. Methods · Sep 2002
A microdialysis method for the recovery of IL-1beta, IL-6 and nerve growth factor from human brain in vivo.
Intracerebral microdialysis is used extensively as a research tool in the investigation of the neurochemical and metabolic changes that occur following acute brain injury. Microdialysis has enabled elucidation of intra-cerebral levels of substances such as lactate, pyruvate and glycerol but, as yet, has not been used effectively to recover macromolecules from the human brain. ⋯ This report confirms the safety and effectiveness of this modified microdialysis method in the clinical setting of a neurological intensive care unit. The technique provides a timely addition to the armamentarium of the clinical scientist and will potentially lead to a greater understanding of neuroinflammation following acute traumatic brain injury.