Noxious Stimuli Evoke a Biphasic Flexor Reflex Composed of Aδ-Fiber-Mediated Short-Latency and C-Fiber-Mediated Long-Latency Withdrawal Movements in Mice
スポンサーリンク
概要
- 論文の詳細を見る
The nociceptive flexor reflex was studied in mice, focusing in particular on movement. Electrical stimuli delivered to the ventral aspect of the toe through a pair of needle electrodes inserted subcutaneously elicited a biphasic withdrawal reflex that was composed of short- and long-latency movements of the ipsilateral hind paw. The first response had a lower activation threshold compared with the second movement. Similar biphasic responses were observed in the afferent volley recorded from the sciatic nerve as well as in the electromyographic activity recorded from the femoris biceps muscle. Tetrodotoxin, applied over the sciatic nerve, abolished the first movement, but the second response was preserved, revealing that the first movement was elicited by the activation of myelinated Aδ-fibers, whereas the second movement was mediated by unmyelinated C-fibers. Thus, simultaneous activation of Aδ- and C-fibers leads to separate, but sequentially occurring withdrawal movements of the hind paw in mice. Systemic administration of morphine suppressed the withdrawal reflex, which was attributable to a preferential reduction of the Aδ-fiber-mediated short-latency component. This method will be useful for understanding how Aδ-fiber- and C-fiber-mediated nociceptive reflexes are affected by drugs in the whole animal system.
- 社団法人 日本薬理学会の論文
- 2004-05-20
著者
-
Kimura Satoko
Laboratory Of Cns Pharmacology Graduate School Of Pharmaceutical Sciences Nagoya City University
-
Kimura Satoko
名古屋市立大学 薬学研究科中枢神経機能薬理学分野
-
HONDA Motoko
Laboratory of CNS Pharmacology, Graduate School of Pharmaceutical Sciences, Nagoya City University
-
TANABE Mitsuo
Laboratory of CNS Pharmacology, Graduate School of Pharmaceutical Sciences, Nagoya City University
-
ONO Hideki
Laboratory of CNS Pharmacology, Graduate School of Pharmaceutical Sciences, Nagoya City University
-
Ono Hideki
Laboratory Of Cns Pharmacology Graduate School Of Pharmaceutical Sciences Nagoya City University
-
Honda Motoko
Laboratory Of Cns Pharmacology Graduate School Of Pharmaceutical Sciences Nagoya City University
-
Tanabe Mitsuo
名古屋大学 薬学研究科中枢神経機能薬理学
-
Tanabe Mitsuo
Laboratory Of Cns Pharmacology Graduate School Of Pharmaceutical Sciences Nagoya City University
-
Ono Hideki
Laboratory Of Cns Pharmacology Graduate School Of Pharmaceutical Sciences
-
Tanabe Mitsuo
Laboratory Of Pharmacology School Of Pharmacy Kitasato University
関連論文
- A Double-blind Study of Locally Applied 2% Aspirin Ointment in the Treatment for Painful Oral Mucous Ulcers
- Taltirelin Improves Motor Ataxia Independently of Monoamine Levels in Rolling Mouse Nagoya, a Model of Spinocerebellar Atrophy(Pharmacology)
- Enhanced Wind-Up of the C-Fiber-Mediated Nociceptive Flexor Reflex Movement Following Painful Diabetic Neuropathy in Mice
- Noxious Stimuli Evoke a Biphasic Flexor Reflex Composed of Aδ-Fiber-Mediated Short-Latency and C-Fiber-Mediated Long-Latency Withdrawal Movements in Mice
- SPINAL REFLEXES IN CHINOFORM-ADMINISTERED RATS
- SPINAL REFLEXES IN RATS SUFFERED FROM MOTOR INCOORDINATION BY CHINOFORM
- Oseltamivir, an Anti-influenza Virus Drug, Produces Hypothermia in Mice : Comparison Among Oseltamivir, Zanamivir and Diclofenac(Pharmacology)
- Spinorphin, an Endogenous Inhibitor of Enkephalin-Degrading Enzymes, Potentiates Leu-Enkephalin-Induced Anti-allodynic and Antinociceptive Effects in Mice
- Protein Kinase A-Dependence of the Supraspinally Mediated Analgesic Effects of Gabapentin on Thermal and Mechanical Hypersensitivity
- The Supraspinally Mediated Analgesic Effects of Zonisamide in Mice After Peripheral Nerve Injury Are Independent of the Descending Monoaminergic System
- Glycine Transporter Blockade Ameliorates Motor Ataxia in a Mouse Model of Spinocerebellar Atrophy
- Involvement of Supraspinal Imidazoline Receptors and Descending Monoaminergic Pathways in Tizanidine-Induced Inhibition of Rat Spinal Reflexes
- GABA_B Receptors Do Not Mediate the Inhibitory Actions of Gabapentin on the Spinal Reflex in Rats
- Antinociceptive Effects of Sodium Channel-Blocking Agents on Acute Pain in Mice
- Endogenous GABA Does Not Mediate the Inhibitory Effects of Gabapentin on Spinal Reflexes in Rats
- Neuroprotection via Strychnine-Sensitive Glycine Receptors During Post-ischemic Recovery of Excitatory Synaptic Transmission in the Hippocampus
- Zonisamide Suppresses Pain Symptoms of Formalin-Induced Inflammatory and Streptozotocin-Induced Diabetic Neuropathy
- An Extended INDO-CI Theory of the General Relation between Bond Length and Bond Order
- Theory of the Relation between Bond Length and Bond Order by an Extended INDO Method
- Neuroprotection via Strychnine-Sensitive Glycine Receptors During Post-ischemic Recovery of Excitatory Synaptic Transmission in the Hippocampus
- Method for Recording Spinal Reflexes in Mice: Effects of Thyrotropin-Releasing Hormone, DOI, Tolperisone and Baclofen on Monosynaptic Spinal Reflex Potentials
- N- and L-Type Voltage-Dependent Ca^ Channels Contribute to the Generation of After-Discharges in the Spinal Ventral Root After Cessation of Noxious Mechanical Stimulation
- Effect of Spinally Administered Simvastatin on the Formalin-Induced Nociceptive Response in Mice
- Effect of Spinally Administered Simvastatin on the Formalin-Induced Nociceptive Response in Mice
- A Model of the Central Regulatory System for Cough Reflex
- Antinociceptive Effects of Sodium Channel-Blocking Agents on Acute Pain in Mice
- Contribution of TRPV1 Receptor-Expressing Fibers to Spinal Ventral Root After-Discharges and Mechanical Hyperalgesia in a Spared Nerve Injury (SNI) Rat Model