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Pain (Neurophysiology)
LE WE PMID CA
Pain (Neurophysiology)2488Schmerz (Neurophysiologie)

2 Arachidonoylglycerol

Allodynia

Amygdala

Analgesics agents and analgetic effects

Anandamide

Antiinflammatory compounds

AS1928370 ttTRPV1

Atherosclerosis (peripheral vessels)

ATP

Autonomous nervous system (Afferents visceral)

Calmodulin dependent protein kinase

Cephalgia (BASKET)

Changes in terminology

Cingulum (Neurophysiology)

CNS (Astrocyte)

CNS (Glia)

CNS (Stroke BASKET)

Depression

Dynorphin

Endocannabinoid

Endovanilloid

Esophagus (Physiology)

Fatty acid amide hydrolase

Gabapentin

Heart (Coronary heart disease BASKET)

Immune histochemistry

Inflammation (BASKET)

Ion channel (BASKET)

Ion channel (Calcium T Type)

Ion channel (Calcium)

Ion channel (Sodium)

Ion channel (TRP Family)

Laboratory animal (BASKET)

Low back pain

Lyn

Lysophosphatidate

MRT (functional fMRT)

Myalgic encephalomyelitis AKA Fibromyalgia

Nav1 7

Nervous system (Inherited diseases)

Neuropathy peripheral

Nucleus tractus solitarius

Osmosensor

P2X3

P2X7

Pain (Neurophysiology)

Pain catastrophizing

Pain medicine (BASKET)

Pancreatitis (chronic)

PAR2

PAR4

PDZ protein domain

Periaquaeductal gray

Protein kinase C epsilon

Protein kinase C

Receptor (P2X)

Receptor (P2Y)

Receptor (Purines and Pyrimidines)

SB366791 ttTRPV1

Schwann cells

Spinal cord (Electrostimulation)

SR141716 ttCB1

Substance P

Sudeck s dystrophy

Tooth (Regional anesthesia for dental procedures)

TRPC1

TRPC6

TRPV1

TRPV4

URB597 ttFAAH

Vanilloids

2002  
1
Changing face of pain: evolution of pain research in psychosomatic medicine.
[12461198] Psychosom Med 64(6): 921-38 (2002)
2002  
2
Chronic pain and psychopathology: research findings and theoretical considerations.
[12271108] Psychosom Med 64(5): 773-86 (2002)
2008  
3
Advances in brain imaging of neuropathic pain.
[18466688] Chin Med J (Engl) 121(7): 653-7 (2008)
2009  
4
Tools for assessing neuropathic pain.
[19360134] PLoS Med 6(4): e1000045 (2009)
2008  
5
Neuropathic pain: emerging treatments.
[18511441] Br J Anaesth 101(1): 48-58 (2008)
2008  
6
2008  
7
Chronic post-surgical pain: 10 years on.
[18434337] Br J Anaesth 101(1): 77-86 (2008)
2008  
8
Advances in understanding the mechanisms and management of persistent pain in older adults.
[18487247] Br J Anaesth 101(1): 111-20 (2008)
2008  
9
2008  
10
Spinal cord mechanisms of pain.
[18417503] Br J Anaesth 101(1): 8-16 (2008)
2001  
11
Mechanisms of neuropathic pain.
[11460801] Br J Anaesth 87(1): 12-26 (2001)
1995  
12
Spinal cord pharmacology of pain.
[7577253] Br J Anaesth 75(2): 193-200 (1995)
1995  
13
1995  
14
Somatic pain--pathogenesis and prevention.
[7577250] Br J Anaesth 75(2): 169-76 (1995)
1995  
15
1995  
16
Inflammatory mediators of pain.
[7577246] Br J Anaesth 75(2): 125-31 (1995)
2007  
17
Pathophysiology of peripheral neuropathic pain: immune cells and molecules.
[17717248] Anesth Analg 105(3): 838-47 (2007)
2003  
18
The role of N-methyl-D-aspartate (NMDA) receptors in pain: a review.
[14500166] Anesth Analg 97(4): 1108-16 (2003)
2003  
19
2003  
20
The role of interleukin-6 in nociception and pain.
[12651667] Anesth Analg 96(4): 1096-103, table of contents (2003)
2002  
21
1988  
22
Peripheral mechanisms of somatic pain.
[3281512] Anesthesiology 68(4): 571-90 (1988)
1999  
23
The pathophysiology of pain.
[10497457] AANA J 67(4): 349-57 (1999)
2006  
24
Mechanisms of neuropathic pain.
[17015228] Neuron 52(1): 77-92 (2006)
2009  
25
Current challenges in glia-pain biology.
[19840548] Neuron 64(1): 46-54 (2009)
2005  
26
Understanding neuropathic pain.
[15788957] CNS Spectr 10(4): 298-308 (2005)
2010  
27
A key role of the basal ganglia in pain and analgesia--insights gained through human functional imaging.
[20465845] Mol Pain 6(-): 27 (2010)
2007  
28
Neuronal mechanism for neuropathic pain.
[17553143] Mol Pain 3(-): 14 (2007)
2007  
29
Understanding LTP in pain pathways.
[17407590] Mol Pain 3(-): 9 (2007)
2009  
30
Pain modulation by nitric oxide in the spinal cord.
[20011139] Front Neurosci 3(2): 175-81 (2009)
2008  
31
The pharmacological challenge to tame the transient receptor potential vanilloid-1 (TRPV1) nocisensor.
[18806809] Br J Pharmacol 155(8): 1145-62 (2008)
1980  
32
Arachidonic acid metabolism, pain and hyperalgesia: the mode of action of non-steroid mild analgesics.
[7002184] Br J Clin Pharmacol 10 Suppl 2(-): 233S-235S (1980)
1980  
33
Peripheral analgesia: mechanism of the analgesic action of aspirin-like drugs and opiate-antagonists.
[6254551] Br J Clin Pharmacol 10 Suppl 2(-): 237S-245S (1980)
2001  
34
Mechanisms of induction of persistent nociception by dynorphin.
[11561057] J Pharmacol Exp Ther 299(1): 6-11 (2001)
2001  
35
2001  
36
P2X receptors and nociception.
[11734618] Pharmacol Rev 53(4): 553-68 (2001)
1999  
37
Vanilloid (Capsaicin) receptors and mechanisms.
[10353985] Pharmacol Rev 51(2): 159-212 (1999)
2009  
38
Cerebral cortex modulation of pain.
[19079295] Acta Pharmacol Sin 30(1): 31-41 (2009)
1999  
39
In vivo molecular signal transduction of peripheral mechanisms of pain.
[10230852] Jpn J Pharmacol 79(3): 263-8 (1999)
2003  
40
Neurophysiology of pain: insight to orofacial pain.
[14723311] Indian J Physiol Pharmacol 47(3): 247-69 (2003)
2005  
41
Leukocytes in the regulation of pain and analgesia.
[16204636] J Leukoc Biol 78(6): 1215-22 (2005)
2009  
42
Neurobiology of pain in children: an overview.
[19543535] Open Biochem J 3(-): 18-25 (2009)
1993  
43
Where are peripheral analgesics acting?
[8427507] Ann Rheum Dis 52(1): 1-4 (1993)
1992  
44
Role of the sympathetic nervous system in chronic joint pain and inflammation.
[1466593] Ann Rheum Dis 51(11): 1188-91 (1992)
2006  
45
Arthritis and pain. Neurogenic origin of joint pain.
[17118212] Arthritis Res Ther 8(6): 220 (2006)
2006  
46
2000  
47
Acute and chronic craniofacial pain: brainstem mechanisms of nociceptive transmission and neuroplasticity, and their clinical correlates.
[10682901] Crit Rev Oral Biol Med 11(1): 57-91 (2000)
1999  
48
Craniofacial pain and motor function: pathogenesis, clinical correlates, and implications.
[10634586] Crit Rev Oral Biol Med 10(4): 504-18 (1999)
2006  
49
Mechanisms of orofacial pain control in the central nervous system.
[16819148] Arch Histol Cytol 69(2): 79-100 (2006)
1999  
50
Distinct neurochemical features of acute and persistent pain.
[10393891] Proc Natl Acad Sci U S A 96(14): 7739-43 (1999)
1999  
51
Cellular mechanisms of neuropathic pain, morphine tolerance, and their interactions.
[10393889] Proc Natl Acad Sci U S A 96(14): 7731-6 (1999)
1999  
52
Supraspinal contributions to hyperalgesia.
[10393881] Proc Natl Acad Sci U S A 96(14): 7687-92 (1999)
1999  
53
The spinal biology in humans and animals of pain states generated by persistent small afferent input.
[10393880] Proc Natl Acad Sci U S A 96(14): 7680-6 (1999)
1999  
54
A visceral pain pathway in the dorsal column of the spinal cord.
[10393879] Proc Natl Acad Sci U S A 96(14): 7675-9 (1999)
1999  
55
Forebrain mechanisms of nociception and pain: analysis through imaging.
[10393878] Proc Natl Acad Sci U S A 96(14): 7668-74 (1999)
1999  
56
Causalgia, pathological pain, and adrenergic receptors.
[10393877] Proc Natl Acad Sci U S A 96(14): 7664-7 (1999)
1999  
57
1999  
58
2001  
59
Involvement of calcium in pain and antinociception.
[11285455] Braz J Med Biol Res 34(4): 449-61 (2001)
2010  
60
Targeting TRPV1 as an alternative approach to narcotic analgesics to treat chronic pain conditions.
[20440589] AAPS J 12(3): 361-70 (2010)
2011  
61
Opioid peptides in peripheral pain control.
[21499333] Acta Neurobiol Exp (Wars) 71(1): 129-38 (2011)
2009  
62
Neuropathic pain: a maladaptive response of the nervous system to damage.
[19400724] Annu Rev Neurosci 32(-): 1-32 (2009)
2011  
63
Update on peripheral mechanisms of pain: beyond prostaglandins and cytokines.
[21542894] Arthritis Res Ther 13(2): 210 (2011)
2009  
64
What do general neurologists need to know about neuropathic pain?
[19722068] Arq Neuropsiquiatr 67(3A): 741-9 (2009)
2011  
65
Targeting voltage-gated sodium channels for treatment for chronic visceral pain.
[21633634] World J Gastroenterol 17(19): 2357-64 (2011)
2006  
66
An electrophysiological approach to the evaluation of regional sympathetic dysfunction: a proposed classification.
[16700284] Pain Physician 9(1): 69-82 (2006)
2002  
67
2005  
68
The neurobiology of nociceptive and anti-nociceptive systems.
[16850085] Pain Physician 8(3): 277-90 (2005)
2010  
69
A multi-scale view of skin thermal pain: from nociception to pain sensation.
[20047938] Philos Transact A Math Phys Eng Sci 368(1912): 521-59 (2010)
2010  
70
2004  
71
P2X3 receptors and peripheral pain mechanisms.
[12832496] J Physiol 554(Pt 2): 301-8 (2004)
2003  
72
Crossing the pain barrier: P2 receptors as targets for novel analgesics.
[14514872] J Physiol 553(Pt 3): 683-94 (2003)
2006  
73
Mechanisms of the antinociceptive action of gabapentin.
[16474201] J Pharmacol Sci 100(5): 471-86 (2006)
2010  
74
Spinal astrocytes as therapeutic targets for pathological pain.
[21081837] J Pharmacol Sci 114(4): 347-53 (2010)
2006  
75
Mechanisms for the anti-nociceptive actions of the descending noradrenergic and serotonergic systems in the spinal cord.
[16766858] J Pharmacol Sci 101(2): 107-17 (2006)
2011  
76
Biomarkers for chronic pain and analgesia. Part 1: the need, reality, challenges, and solutions.
[21447279] Discov Med 11(58): 197-207 (2011)
2011  
77
Biomarkers for chronic pain and analgesia. Part 2: how, where, and what to look for using functional imaging.
[21447280] Discov Med 11(58): 209-19 (2011)
2010  
78
2010  
79
2010  
80
The discovery and development of analgesics: new mechanisms, new modalities.
[21041957] J Clin Invest 120(11): 3753-9 (2010)
2010  
81
Nociceptors: the sensors of the pain pathway.
[21041958] J Clin Invest 120(11): 3760-72 (2010)
2010  
82
2002  
83
Beyond neurons: evidence that immune and glial cells contribute to pathological pain states.
[12270950] Physiol Rev 82(4): 981-1011 (2002)
2009  
84
Models and mechanisms of hyperalgesia and allodynia.
[19342617] Physiol Rev 89(2): 707-58 (2009)
2005  
85
Neuropathic pain: mechanisms and treatments.
[16323550] Chang Gung Med J 28(9): 597-605 (2005)
2007  
86
Chemokines and the pathophysiology of neuropathic pain.
[18083844] Proc Natl Acad Sci U S A 104(51): 20151-8 (2007)
2010  
87
Pathophysiology and animal models of cancer-related painful peripheral neuropathy.
[20489191] Oncologist 15 Suppl 2(-): 9-12 (2010)
2010  
88
Types and epidemiology of cancer-related neuropathic pain: the intersection of cancer pain and neuropathic pain.
[20489190] Oncologist 15 Suppl 2(-): 3-8 (2010)
2008  
89
Modulation of microglia can attenuate neuropathic pain symptoms and enhance morphine effectiveness.
[18622054] Pharmacol Rep 60(3): 297-307 (2008)
2007  
90
From neuroanatomy to gene therapy: searching for new ways to manipulate the supraspinal endogenous pain modulatory system.
[17593218] J Anat 211(2): 261-8 (2007)
2005  
91
An Epac-dependent pain pathway.
[16148218] J Neurosci 25(36): 8113-4 (2005)
2009  
92
Glial modulation of pain: a step beyond.
[19295140] J Neurosci 29(11): 3340-2 (2009)
2007  
93
Inhibition of fatty acid amide hydrolase: a potential treatment for neuropathic pain.
[17392451] J Neurosci 27(13): 3364-5 (2007)
2009  
94
Transition from acute to chronic postsurgical pain: risk factors and protective factors.
[19402781] Expert Rev Neurother 9(5): 723-44 (2009)
2009  
95
Pain catastrophizing: a critical review.
[19402782] Expert Rev Neurother 9(5): 745-58 (2009)
2004  
96
Refinement of pain evaluation techniques. The formalin test.
[15536274] Ann Ist Super Sanita 40(2): 223-9 (2004)
2002  
97
Pain pathways and parabrachial circuits in the rat.
[11856971] Exp Physiol 87(2): 251-8 (2002)
2002  
98
The nucleus of the solitary tract: an integrating station for nociceptive and cardiorespiratory afferents.
[11856972] Exp Physiol 87(2): 259-66 (2002)
2002  
99
The caudal medullary ventrolateral reticular formation in nociceptive-cardiovascular integration. An experimental study in the rat.
[11856973] Exp Physiol 87(2): 267-74 (2002)
2002  
100
Distinct central representations of inescapable and escapable pain: observations and speculation.
[11856974] Exp Physiol 87(2): 275-9 (2002)
2002  
101
Inescapable and escapable pain is represented in distinct hypothalamic-midbrain circuits: specific roles for Adelta- and C-nociceptors.
[11856975] Exp Physiol 87(2): 281-6 (2002)
2002  
102
Phenotype and function of somatic primary afferent nociceptive neurones with C-, Adelta- or Aalpha/beta-fibres.
[11856969] Exp Physiol 87(2): 239-44 (2002)
2002  
103
Anatomy of primary afferents and projection neurones in the rat spinal dorsal horn with particular emphasis on substance P and the neurokinin 1 receptor.
[11856970] Exp Physiol 87(2): 245-9 (2002)
2006  
104
Peripheral analgesic receptor systems.
[16896195] Br J Anaesth 97(3): 273-4 (2006)
2008  
105
2010  
106
Role of transient receptor potential and acid-sensing ion channels in peripheral inflammatory pain.
[20179512] Anesthesiology 112(3): 729-41 (2010)
2010  
107
2009  
108
Chemokine signaling and the management of neuropathic pain.
[19720751] Mol Interv 9(4): 188-95 (2009)
2009  
109
2009  
110
Neurobiology of depression, fibromyalgia and neuropathic pain.
[19482616] Front Biosci 14(-): 5291-338 (2009)
2004  
111
The role of dorsal columns pathway in visceral pain.
[15119943] Physiol Res 53 Suppl 1(-): S125-30 (2004)
2008  
112
The role of spinal cord vanilloid (TRPV1) receptors in pain modulation.
[18481913] Physiol Res 57 Suppl 3(-): S69-77 (2008)
2010  
113
Chemokines, neuronal-glial interactions, and central processing of neuropathic pain.
[20117131] Pharmacol Ther 126(1): 56-68 (2010)
2008  
114
Modulation of pain transmission by G-protein-coupled receptors.
[17959251] Pharmacol Ther 117(1): 141-61 (2008)
2010  
115
The cerebellum and pain: passive integrator or active participator?
[20553761] Brain Res Rev 65(1): 14-27 (2010)
2009  
116
Chemokines and pain mechanisms.
[19146875] Brain Res Rev 60(1): 125-34 (2009)
2009  
117
Descending control of nociception: Specificity, recruitment and plasticity.
[19146877] Brain Res Rev 60(1): 214-25 (2009)
2009  
118
Development, plasticity and modulation of visceral afferents.
[19150371] Brain Res Rev 60(1): 171-86 (2009)
2009  
119
2009  
120
Peripheral mechanisms of pain and analgesia.
[19150465] Brain Res Rev 60(1): 90-113 (2009)
2009  
121
Mechanisms of chronic central neuropathic pain after spinal cord injury.
[19154757] Brain Res Rev 60(1): 202-13 (2009)
2009  
122
Role of voltage-gated calcium channels in ascending pain pathways.
[19162069] Brain Res Rev 60(1): 84-9 (2009)
2009  
123
2009  
124
Chloride regulation in the pain pathway.
[19167425] Brain Res Rev 60(1): 149-70 (2009)
2009  
125
Roles of transient receptor potential channels in pain.
[19203589] Brain Res Rev 60(1): 2-23 (2009)
2010  
126
Cannabinoid-opioid interactions during neuropathic pain and analgesia.
[19857996] Curr Opin Pharmacol 10(1): 80-6 (2010)
2010  
127
Targeting astrocyte signaling for chronic pain.
[20880510] Neurotherapeutics 7(4): 482-93 (2010)
2010  
128
2007  
129
Current challenges in cancer pain management: does the WHO ladder approach still have relevance?
[18020918] Expert Rev Anticancer Ther 7(11): 1501-2 (2007)
2011  
130
The integration of negative affect, pain and cognitive control in the cingulate cortex.
[21331082] Nat Rev Neurosci 12(3): 154-67 (2011)
2009  
131
Pathological and protective roles of glia in chronic pain.
[19096368] Nat Rev Neurosci 10(1): 23-36 (2009)
2011  
132
Capsaicin in the periaqueductal gray induces analgesia via metabotropic glutamate receptor-mediated endocannabinoid retrograde disinhibition.
[21232043] Br J Pharmacol 163(2): 330-45 (2011)
2009  
133
Localization of the endocannabinoid-degrading enzyme fatty acid amide hydrolase in rat dorsal root ganglion cells and its regulation after peripheral nerve injury.
[19321773] J Neurosci 29(12): 3766-80 (2009)
2010  
134
Regulation of inflammatory pain by inhibition of fatty acid amide hydrolase.
[20375198] J Pharmacol Exp Ther 334(1): 182-90 (2010)
2006  
135
Elevation of endocannabinoid levels in the ventrolateral periaqueductal grey through inhibition of fatty acid amide hydrolase affects descending nociceptive pathways via both cannabinoid receptor type 1 and transient receptor potential vanilloid type-1 receptors.
[16284279] J Pharmacol Exp Ther 316(3): 969-82 (2006)
2011  
136
Role of TRP channels in pain sensation.
[21290319] Adv Exp Med Biol 704(): 615-36 (2011)
2011  
137
Activation of TRPV4 on dural afferents produces headache-related behavior in a preclinical rat model.
[22049072] Cephalalgia 31(16): 1595-600 (2011)
2009  
138
Pharmacology of inflammatory pain: local alteration in receptors and mediators.
[20203494] Dig Dis 27 Suppl 1(): 24-30 (2009)
2004  
139
2009  
140
TRPC1 and TRPC6 channels cooperate with TRPV4 to mediate mechanical hyperalgesia and nociceptor sensitization.
[19439599] J Neurosci 29(19): 6217-28 (2009)
2008  
141
Interaction of transient receptor potential vanilloid 4, integrin, and SRC tyrosine kinase in mechanical hyperalgesia.
[18234883] J Neurosci 28(5): 1046-57 (2008)
2006  
142
A transient receptor potential vanilloid 4-dependent mechanism of hyperalgesia is engaged by concerted action of inflammatory mediators.
[16597741] J Neurosci 26(14): 3864-74 (2006)
2004  
143
Transient receptor potential vanilloid 4 is essential in chemotherapy-induced neuropathic pain in the rat.
[15128858] J Neurosci 24(18): 4444-52 (2004)
2011  
144
Amelioration of neuropathic pain by novel transient receptor potential vanilloid 1 antagonist AS1928370 in rats without hyperthermic effect.
[21098091] J Pharmacol Exp Ther 336(3): 743-50 (2011)
2007  
145
2007  
146
Protease-activated receptor 2 sensitizes the transient receptor potential vanilloid 4 ion channel to cause mechanical hyperalgesia in mice.
[17124270] J Physiol 578(Pt 3): 715-33 (2007)
2009  
147
Modulation of transient receptor potential Vanilloid 4-mediated membrane currents and synaptic transmission by protein kinase C.
[19208258] Mol Pain 5(): 5 (2009)
2007  
148
Marked attenuation of inflammatory mediator-induced C-fiber sensitization for mechanical and hypotonic stimuli in TRPV4-/- mice.
[17967183] Mol Pain 3(): 31 (2007)
2009  
149
PAR4: a new role in the modulation of visceral nociception.
[19804483] Neurogastroenterol Motil 21(11): 1129-32 (2009)
2010  
150
Importance of non-selective cation channel TRPV4 interaction with cytoskeleton and their reciprocal regulations in cultured cells.
[20657843] PLoS One 5(7): e11654 (2010)
2012  
151
TRP channels and analgesia.
[22910182] Life Sci (): (2012)
2008  
152
A transient receptor potential vanilloid 4 contributes to mechanical allodynia following chronic compression of dorsal root ganglion in rats.
[18206306] Neurosci Lett 432(3): 222-7 (2008)
2005  
153
TRPV4 mediates pain-related behavior induced by mild hypertonic stimuli in the presence of inflammatory mediator.
[16213085] Pain 118(1-2): 70-9 (2005)
2006  
154
Inflammatory pain: the cellular basis of heat hyperalgesia.
[18615146] Curr Neuropharmacol 4(3): 197-206 (2006)
2006  
155
PDZ domains at excitatory synapses: potential molecular targets for persistent pain treatment.
[18615145] Curr Neuropharmacol 4(3): 217-23 (2006)
2005  
156
Chemokines: integrators of pain and inflammation.
[16224455] Nat Rev Drug Discov 4(10): 834-44 (2005)
2005  
157
Role of cation-chloride-cotransporters (CCC) in pain and hyperalgesia.
[16022677] Curr Top Med Chem 5(6): 547-55 (2005)
2008  
158
Neuropathic pain--neurochemical aspects.
[19382409] Rev Bras Anestesiol 58(5): 498-505, 492-8 (2008)
2008  
159
Animal models of cancer pain.
[18589864] Comp Med 58(3): 220-33 (2008)
2008  
160
Recent evidence for activity-dependent initiation of sympathetic sprouting and neuropathic pain.
[18958370] Sheng Li Xue Bao 60(5): 617-27 (2008)
2008  
161
A role for uninjured afferents in neuropathic pain.
[18958368] Sheng Li Xue Bao 60(5): 605-9 (2008)
2008  
162
2007  
163
Schwann cells: activated peripheral glia and their role in neuropathic pain.
[17321718] Brain Behav Immun 21(5): 522-7 (2007)
2011  
164
The pain system in oesophageal disorders: mechanisms, clinical characteristics, and treatment.
[21826137] Gastroenterol Res Pract 2011(-): 910420 (2011)
2011  
165
Pain mechanisms in chronic pancreatitis: of a master and his fire.
[21153480] Langenbecks Arch Surg 396(2): 151-60 (2011)
2011  
166
Intranasal fentanyl for pain control: current status with a focus on patient considerations.
[21573046] Patient Prefer Adherence 5(-): 157-64 (2011)
2008  
167
Role of neuroimaging in analgesic drug development.
[18721001] Drugs R D 9(5): 323-34 (2008)
2011  
168
Microglia: a promising target for treating neuropathic and postoperative pain, and morphine tolerance.
[21783017] J Formos Med Assoc 110(8): 487-94 (2011)
2008  
169
Chemokines as pain mediators and modulators.
[18784482] Curr Opin Anaesthesiol 21(5): 580-5 (2008)
2008  
170
Neuron-glia crosstalk gets serious: role in pain hypersensitivity.
[18784481] Curr Opin Anaesthesiol 21(5): 570-9 (2008)
2010  
171
Transient receptor potential channels in pain and inflammation: therapeutic opportunities.
[20230457] Pain Pract 10(3): 185-200 (2010)
2007  
172
The amygdala: different pains, different mechanisms.
[17118556] Pain 127(1-2): 1-2 (2007)
2010  
173
Understanding endorphins and their importance in pain management.
[20397507] Hawaii Med J 69(3): 70-1 (2010)
2011  
174
Analgesic and antineuropathic drugs acting through central cholinergic mechanisms.
[21585331] Recent Pat CNS Drug Discov 6(2): 119-40 (2011)
2009  
175
Towards a theory of chronic pain.
[18952143] Prog Neurobiol 87(2): 81-97 (2009)
2008  
176
Activation of JNK pathway in persistent pain.
[18455869] Neurosci Lett 437(3): 180-3 (2008)
2008  
177
Pronociceptive actions of dynorphin via bradykinin receptors.
[18450375] Neurosci Lett 437(3): 175-9 (2008)
2008  
178
Gene therapy directed at the neuroimmune component of chronic pain with particular attention to the role of TNF alpha.
[18403116] Neurosci Lett 437(3): 209-13 (2008)
2010  
179
2009  
180
Gliopathic pain: when satellite glial cells go bad.
[19826169] Neuroscientist 15(5): 450-63 (2009)
2009  
181
Contribution of primary afferent channels to neuropathic pain.
[19457280] Curr Pain Headache Rep 13(3): 197-207 (2009)
2009  
182
Spinal inhibitory neurotransmission in neuropathic pain.
[19457281] Curr Pain Headache Rep 13(3): 208-14 (2009)
2008  
183
Central mechanisms in the maintenance of chronic widespread noninflammatory muscle pain.
[18765138] Curr Pain Headache Rep 12(5): 338-43 (2008)
2011  
184
Neuronal and microglial mechanisms of neuropathic pain.
[21801430] Mol Brain 4(-): 31 (2011)
2006  
185
Breaking down the barriers: fMRI applications in pain, analgesia and analgesics.
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2011  
186
Are voltage-gated sodium channels on the dorsal root ganglion involved in the development of neuropathic pain?
[21345196] Mol Pain 7(-): 16 (2011)
2011  
187
Long-term potentiation in spinal nociceptive pathways as a novel target for pain therapy.
[21443797] Mol Pain 7(-): 20 (2011)
2010  
188
Moving towards supraspinal TRPV1 receptors for chronic pain relief.
[20937102] Mol Pain 6(-): 66 (2010)
2005  
189
Feed-forward inhibition: a novel cellular mechanism for the analgesic effect of substance P.
[16297242] Mol Pain 1(-): 34 (2005)
2010  
190
Regulation of AMPA receptors in spinal nociception.
[20092646] Mol Pain 6(-): 5 (2010)
2008  
191
Peripheral mechanisms of neuropathic pain - involvement of lysophosphatidic acid receptor-mediated demyelination.
[18377664] Mol Pain 4(-): 11 (2008)
2009  
192
Purinergic mechanosensory transduction and visceral pain.
[19948030] Mol Pain 5(-): 69 (2009)
2010  
193
Role of spinal cord glia in the central processing of peripheral pain perception.
[20236247] Neurogastroenterol Motil 22(5): 499-511 (2010)
2009  
194
2010  
195
Calcium channel functions in pain processing.
[21150297] Channels (Austin) 4(6): 510-7 (2010)
2007  
196
2007  
197
Regulation of T-type calcium channels in the peripheral pain pathway.
[18708751] Channels (Austin) 1(4): 238-45 (2007)
2004  
198
Hypothalamic and midbrain circuitry that distinguishes between escapable and inescapable pain.
[14739399] News Physiol Sci 19(-): 22-6 (2004)
2009  
199
Cellular and molecular mechanisms of pain.
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2010  
200
When does acute pain become chronic?
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2010  
201
Neuronal circuitry for pain processing in the dorsal horn.
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