Journal of neuroscience methods
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J. Neurosci. Methods · Apr 2002
Serial cerebrospinal fluid sampling in a rat model to study drug uptake from the nasal cavity.
Drug transport from the nasal cavity to the brain has gained much interest in the last decade. In the present study, a model was developed to determine the uptake of drugs into the cerebrospinal fluid (CSF) after nasal delivery in rats. CSF samples were taken using a cisternal puncture method. ⋯ The supine-70 degrees angle position did not change the HC plasma and CSF levels compared to the supine-90 degrees angle position. However, the supine-70 degrees angle position showed the fastest CSF sampling rate, enabling more accurate CSF sampling and therefore preferred for further studies. In conclusion, the cisternal puncture method using the supine-70 degrees and 90 degrees angle position is a suitable method to study drug transport from the nasal cavity into the CSF, with the ability of multiple CSF sampling.
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J. Neurosci. Methods · Mar 2002
Two variables that can be used as pain indices in experimental animal models of arthritis.
Since pain is an important symptom in arthritis, useful behavioral indices for pain in experimental arthritis animal models are important tools for investigative work on arthritis. The purpose of this study was to develop simple and quantifiable behavioral tests, which would represent the level of arthritic pain that develops after induction of inflammation in the knee. Two models of knee joint arthritis were produced: (1) KC model-injection of kaolin and carrageenan into the synovial cavity of the knee, and (2) CFA model-injection of complete Freund's adjuvant into the synovial cavity of the knee. ⋯ Correlation studies showed that all three variables significantly correlated with each other in both the KC and CFA arthritic models. Systemically injected morphine produced a partial reversal of these indices with the expected time course and dose response of a morphine-induced analgesic. It is concluded that two variables, the struggle threshold for knee extension and the vocalization threshold for knee compression, could be used as simple and useful pain indices in experimental models of arthritis.
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J. Neurosci. Methods · Jan 2002
Programmable microchip monitoring of post-stroke pyrexia: effects of aspirin and paracetamol on temperature and infarct size in the rat.
Recent studies have demonstrated spontaneous and prolonged hyperthermia following stroke in both humans and rodents. However, a full characterization of these pyretic changes and the effects of anti-pyretic drugs on outcome is not available. ⋯ This study is the first to demonstrate the utility of programmable microchips to monitor serial changes in post-stroke hyperthermia. The sustained post-stroke pyrexia and negative effects of antipyretic treatment may be attributed to the extensive hypothalamic injury suggesting that better pharmacologic approaches to reduce body temperature should be identified and evaluated for brain protection in severe experimental stroke.
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J. Neurosci. Methods · Oct 2001
Quantification of neural tissue injury in a rat radiculopathy model: comparison of local deformation, behavioral outcomes, and spinal cytokine mRNA for two surgeons.
Clinical and experimental work indicate that a variety of factors contribute to radicular pain mechanisms, including mechanical injury. While it has been qualitatively suggested that the magnitude of nerve root mechanical injury affects the nature of the pain response, no study has quantified the local in vivo injury biomechanics in these models. Therefore, it was the purpose of this study to develop and implement an in vivo method to quantify compressive nerve root injury strain severity and characterize its effect on the resulting responses in an existing lumbar radiculopathy rat model. ⋯ Mean compressive injury strains in the nerve root were 32.8+/-14.2% and were not different for the two experimenters. Animals undergoing more severe ligation strains exhibited significantly heightened allodynia following injury and greater upregulation of the inflammatory cytokines IL-1alpha/beta, IL-6, and IL-10. Results indicate a direct correlation of local nerve root injury severity with the ensuing physiologic responses associated with nociception.
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J. Neurosci. Methods · Jul 2001
Removal of ECG interference from the EEG recordings in small animals using independent component analysis.
In experiments involving small animals, the electroencephalogram (EEG) recorded during severe injury and accompanying resuscitation exhibit the strong presence of electrocardiogram (ECG). For improved quantitative EEG (qEEG) analysis, it is therefore imperative to remove ECG interference from EEG. In this paper, we validate the use of independent component analysis (ICA) to effectively suppress the interference of ECG from EEG recordings during normal activity, asphyxia and recovery following asphyxia. ⋯ The improvement in normalized power spectrum of EEG obtained for all animals was 7.71+/-3.63 db at the 3rd minute of recovery and dropped to 1.15+/-0.60 db at 63rd minute. The application of ICA has been particularly useful when the power of EEG is low, such as that observed during early brain hypoxic-asphyxic injury. The method is also useful in situations where accurate indications of EEG signal power and frequency content are needed.