Activation of the dorsal columns is relayed to supraspinal centers, involved in pain modulation, probably via the descending fibers in the dorsolateral funiculi (DLF). The present study examines the role of the DLF in the attenuation of pain-related signs by spinal cord stimulation (SCS). Several groups of rats were subjected to nerve injury and to chronic bilateral DLF lesions at C5-7 level. In each animal, two sets of miniature electrodes were implanted, a caudal system placed in the dorsal epidural space at low thoracic level and another implanted over the dorsal column nuclei, rostral to the lesions. Stimulation (50 Hz, 0.2 ms; 70 % of motor threshold) was applied for 5 min via either of the electrodes. Behavioral tests were used to assess the effects of SCS on the nerve injury-induced mechanical and cold hypersensitivity and heat hyperalgesia. Prior to application of SCS, antagonists to either of GABAA or B, 5-HT1 or 1-2 or α/β-adrenergic receptors were injected i.p. Both stimulations produced comparable decreases (80-90 % of the control) of neuropathic manifestations in rats with intact spinal cords. DLF lesions attenuated the effects of both types of stimulation by about 50 %. Pretreatment with receptor antagonists differentially counteracted the effects of rostral and caudal stimulation; the inhibition with rostral stimulation generally being more prominently influenced. These results provide further support to the notion of important involvement of brainstem pain modulating centers in the effects of SCS. A major component of the inhibitory spinal-supraspinal-spinal loop is mediated by fibers running in the DLF.
Attenuation of neuropathic manifestations in experimental animals, by lidocaine injection in the rostral ventro-medial medulla (RVM), has been traditionally attributed to selective block of a descending pain facilitatory system. However, the presence of descending fibers carrying this effect and the selective action of lidocaine on the facilitatory neurons, have not been supported by convincing experimental evidence. The present study aimed to investigate the mechanisms underlying the hypoalgesic action of lidocaine injection in the brainstem. Several groups of rats were subjected to mononeuropathy on their left hind paws, according to the model of spared nerve injury, and were subsequently implanted with guide cannulae in the RVM. After recovery, rats received injections of lidocaine, GABA and glycine agonists or antagonists and their effects were assessed on behavioral tests of allodynia and hyperalgesia. Injections of lidocaine at doses ranging between 0.05% and 2% produced attenuation at high doses and no effects or increasing hyperalgesia at low doses. GABA and glycine agonists increased neuropathic manifestations while their antagonists elicited the opposite effects. A combined injection of GABA agonist or glycine with lidocaine (0.5%) prevented the inhibitory effects of lidocaine injection alone. Our results are in line with the abundant documentation on the alteration of the function of inhibitory neurons by lidocaine and reveal a possible action of the injected high doses on the GABAergic and glycinergic neurons in the RVM. The resulting block of the inhibitory tone exerted by these neurons can lead to a release of the descending pain inhibitory systems.
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