AdriansenH, GybelsJ, HandwerkerHO, Van HeesJ (1983) Response properties of thin myelinated (Aδ) fibres in human skin nerves. J. Neurophysiol.49: 111–22
2.
AnderssonSA (1979) Pain control by sensory stimulation. In: BonicaJ, LiebeskindJC, and Albe-Fessard, eds. Advances in Pain Research and Therapy 3.Raven Press, New York: 569–85
3.
AnderssonSA, HolmgrenE (1975) On acupuncture analgesia and the mechanism of pain. American Journal of Chinese Medicine.3: 311–34
4.
BingZ, VillanuevaL, Le BarsD (1990) Acupuncture and diffuse noxious inhibitory controls: naloxone reversible depression of activities of trigeminal convergent neurones. Neuroscience.37: 809–18
5.
BouhassiraD, Le BarsD, VillanuevaL (1987) Heterotopic activation of Aδ and C fibres triggers inhibition of trigeminal and spinal convergent neurones in the rat. J. Physiol. (Lond).309: 301–17
6.
CaddenSW, VillanuevaL, ChitourD, Le BarsD (1983) Depression of activities of dorsal horn convergent neurones by propriospinal mechanisms triggered by noxious inputs: comparison with diffuse noxious inhibitory controls (DNIC). Brain Res.275: 1–11
7.
CalvinoB, VillanuevaL, Le BarsD (1984) The heterotopic effects of visceral pain: behavioural and electrophysiological approaches in the rat. Pain.20: 261–71
8.
ChenL, TangJ, YanJ (1981) Analysis of afferent fibres for the impulses of acupuncture analgesia. Kexue Tongbao.26: 564–9
9.
ChungJM, LeeKH, HoriY, EndoK, WillisWD (1984) Factors influencing peripheral nerve stimulation produced inhibition of primate spinothalamic tract cells. Pain.19: 277–93
10.
De BrouckerT, CesaroP, WilierJC, Le BarsD (1990) Diffuse Noxious Inhibitory Controls (DNIC) in man: involvement of a spino-reticular tract. Brain113: 1223–34
11.
Department of Physiology, Kirin Medical College, Changchum, (1977) The inhibition effect and the mode of action of electroacupuncture upon discharges from the pain-sensitive cells in spinal trigeminal nucleus. Sci. Sin.(B)20: 485–501
12.
DickensonAH, Le BarsD (1983) Diffuse noxious inhibitory controls (DNIC) involve trigeminothalamic and spinothalamic neurones in the rat. Exp. Brain Res.49: 174–80
13.
DickensonAH, Le BarsD, BessonJM (1980a) Diffuse noxious inhibitory controls (DNIC). Effects on trigeminal nucleus caudalis neurones in the rat brain. Brain Res.200: 293–305
14.
DubnerR, BeitelE (1976) Peripheral neural corelates of escape behavior in rhesus monkey to noxious heat applied to the face. In: BonicaJJ, Albe-FessardD, eds. Advances in Pain Research and Therapy 1.Raven Press, New York: 155–60.
GybelsJ, HandwerkerJO, Van HeesJ (1979) Comparison between the discharges of human nociceptive nerve fibres and the subject's rating of his sensation. J. Physiol.(Lond).292: 193–206
HanssonP, EkblomA, ThomssonM, FjellnerB (1986) Influence of naloxone on relief of acute oro-facial pain by transcutaneous electrical nerve stimulation (TENS) of vibration. Pain.24: 323–9
21.
HeL (1987) Involvement of endogenous opioid peptides in acupuncture analgesia. Pain.31: 93–121
22.
HuangY, WangO, ZhengJ, LiD, XieG (1986) Analgesic effects of several modes of electroacupuncture in monkeys and their reversal by naloxone. In: ZhangX, and ChangHT, eds. Research on Acupuncture, Moxibustion, and Acupuncture Anesthesia.Science Press, Beijing: 60–9
23.
JeansME (1979) Relief of chronic pain by brief, intense transcutaneous electrical stimulation - a double-blind study. In: BonicaJJ, LiebeskindJC, and Albe-FessardD.Advances in Pain Research and Therapy 3.Raven Press, New York: 601–6
24.
JiangZ, YeQ, ShenY, ZhuF, TangS, LiangN, ZengX (1978) Effects of naloxone on experimental acupuncture analgesia evaluated by sensory decision theory. Acta Zool. Sin.24: 1–10
25.
KawakitaK, FunakoshiM (1982) Suppression of the jawopening reflex by conditioning A-delta fibre stimulation and electroacupuncture in the rat. Exp. Neurol.78: 461–5.
26.
LamotteRH, CampbellJN (1978) Comparison of responses of warm and nociceptive C fibre afferent in monkey with human judgements of thermal pain. J. Neurophysiol.41: 509–28
27.
Le BarsD (1988) Serotonin and pain. In: OsborneN, and HamonM, eds. Neuronal Serotonin.Wiley, Chichester: 171–229
28.
Le BarsD, VilianuevaL (1988) Electrophysiological evidence for the activation of descending inhibitory controls by nociceptive afferent pathways. Progress in Brain Research: “Pain Modulation”.77: 275–99
29.
Le BarsD, WilierJC (1991) Physiology of pain sensation. In: ViarsP., and BonnetF. eds. Pain in the peri-operative period.Blackwell, Oxford (in press)
30.
Le BarsD, DickensonAH, BessonJM (1979a) Diffuse noxious inhibitory controls (DNIC): I. Effects on dorsal horn convergent neur ones in the rat. Pain.6: 283–304
31.
Le BarsD, DickensonAH, BessonJM (1979b) Diffuse noxious inhibitory controls (DNIC): II. Lack of effect on non convergent neurones, supraspinal involvement and theoretical implications. Pain.6: 305–27
32.
Le BarsD, ChitourD, ClotAM (1981a) The encoding of thermal stimuli by diffuse noxious inhibitory controls (DNIC). Brain Res.230: 394–9
33.
Le BarsD, ChitourD, KrausE, DickensonAH, BessonJM (1981b) Effect of naloxone upon diffuse noxious inhibitory controls (DNIC) in the rat. Brain Res.204: 387–402
34.
Le BarsD, ChitourD, KrausE, ClotAM, DickensonAH, BessonJM (1981c) The effect of systemic morphine upon Diffuse Noxious Inhibitory Controls (DNIC) in the rat: evidence for a lifting of certain descending inhibitory controls of dorsal horn convergent neurones. Brain Res.215: 257–74
35.
Le BarsD, DickensonAH, BessonJM (1983) Opiate analgesia and descending control systems. Adv. Pain Res. Ther.5: 341–72
36.
Le BarsD, CalvinoB, VilianuevaL, CaddenS (1984) Physiological approaches to counter-irritation phenomena. In: TricklebankMD, CurzonG eds. Stress-induced analgesia.Wiley, Chichester: 67–101
37.
Le BarsD, DickensonAH, BessonJM, VilianuevaL (1986) Aspects of sensory processing through convergent neurons. In: YakshTL ed. Spinal afferent processing.Plenum, New York: 467–504
38.
LeeHK, ChungJM, WillisWD (1985) Inhibition of primate spinothalamic tract cells by TENS. J. Neurosurg.2: 276–87
39.
LundebergT (1985) Naloxone does not reverse the pain reducing effect of vibratory stimulation. Acta anaesth. scand.29: 212–6
40.
MacdonaldAJR (1989) Acupuncture analgesia and therapy. In: WallPD, and MelzackR eds. Textbook of Pain.Churchill Livingstone, Edinburgh:906–19
41.
MannF (1974) Acupuncture analgesia, report of 100 experiments. Br. J. Anaesth.46: 361–4
42.
MelzackR (1984) Acupuncture and related forms of folk medicine. In: WallPD, and MelzackR eds. Textbook of Pain.Churchill Livingstone, Edinburgh: 691–700
43.
MelzackR, WallPD (1965) Pain mechanisms: a new theory. Science.150: 971–9
44.
MortonCR, MaischB, ZimmermannM (1987) Diffuse noxious inhibitory controls of lumbar spinal neurons involve a supraspinal loop in the cat. Brain Res.410: 347–52
45.
NathanPW, RudgeP (1974) Testing the gate-control theory of pain in man. J. Neurology, Neurosurgery and Psychiatry, 37: 1366–72
46.
Roby-BramiA, BusselB, WilierJC, Le BarsD (1987) An electrophysiological investigation into the pain-relieving effects of heterotopic nociceptive stimuli: possible involvement of a supraspinal loop. Brain.110: 69–80
47.
SatranR, GoldsteinMN (1973) Pain perception: modification and threshold of intolerance and cortical potentials by cutaneous stimulation. Science.180: 1201–2
48.
SjolundBH (1985) Peripheral nerve suppression of C-fibreevoked flexion reflex in rats. Part I: parameters of continuous stimulation. J. Neurosurg.63: 612–6
49.
SjölundBH, ErikssonMBE (1979) The influence of naloxone on analgesia produced by peripheral conditioning stimulation. Brain Res.73: 295–301
50.
TorebjörkHE, LamotteRH, RobinsonC (1984) Peripheral neural correlates of magnitude of cutaneous pain and hyperalgesia: simultaneous recordings in humans of sensory judgements of pain and evoked responses in nociceptors with C-fibres. J. Neurophysiol.51: 325–9
51.
Van HeesJ, GybelsJM (1972) Pain related to single afferent C fibres from human skin. Brain Res.48: 397–400
52.
VilianuevaL, Le BarsD (1985) The encoding of thermal stimuli applied to the tail of the rat by lowering the excitability of trigeminal convergent neurones. Brain Res.330: 245–51
53.
VilianuevaL, CaddenSW, Le BarsD (1984a) Evidence that diffuse noxious inhibitory controls (DNIC) are mediated by a final post-synaptic inhibitory mechanism. Brain Res.298: 67–74
54.
VilianuevaL, CaddenSW, Le BarsD (1984b) Diffuse noxious inhibitory controls (DNIC): evidence for postsynaptic inhibition of trigeminal nucleus caudalis convergent neurones. Brain Res.321: 165–8
55.
VilianuevaL, PeschanskiM, CalvinoB, Le BarsD (1986a) Ascending pathways in the spinal cord involved in triggering of diffuse noxious inhibitory controls (DNIC) in the rat. J. Neurophysiol.55: 34–55
56.
VilianuevaL, ChitourD, Le BarsD (1986b) Involvement of the dorsolateral funiculus in the descending spinal projections responsible for diffuse noxious inhibitory controls in the rat. J. Neurophysiol.56: 1185–95
57.
WallPD (1978) The gate control theory of pain mechanisms. Brain.101: 1–18
58.
WilierJC, RobyA, BouluP, BoureauF (1982) Comparative effects of electroacupuncture and transcutaneous stimulation on the human blink reflex. Pain.14: 267–78
59.
WilierJC, RobyA, Le BarsD (1984) Psychophysical and electrophysiological approaches to the pain relieving effect of heterotopic nociceptive stimuli. Brain.107: 1095–102
60.
WilierJC, BarranqueroA, KahnMF, SalliereD (1987) Pain in sciatica depresses lower limb cutaneous reflexes to sural nerve stimulation. J. Neurol. Neurosurg. Psychiatry.50: 1–5
61.
WilierJC, De BrouckerT, Le BarsD (1989) The encoding of nociceptive thermal stimuli by Diffuse Noxious Inhibitory Controls (DNIC) in man. J. Neurophysiol.62: 1028–38
62.
WilierJC, De BrouckerT, Le BarsD (1990) Diffuse Noxious Inhibitory Controls (DNIC) in man: involvement of an opioidergic link. Eur. J. Pharmacol.182: 347–55
63.
WoolfCJ, MitchellD, BarrettGD (1980) Antinociceptive effect of peripheral segmental electrical stimulation in the rat. Pain.8: 237–52
