Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0344307 (analgesia)
 28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study we tested for TNF alpha concentrations 45 subjects undergoing elective prostatectomy performed under two different anaesthetic regimens. In addition, given the influence of neuroendocrine axis on immunological homeostasis, we also determined post surgery cortisol and norepinephrine levels. The patients were randomly assigned to one of two groups: group 1 (no. = 24) received NLA general anaesthesia, whereas group 2 (no. = 21) received spinal analgesia. Blood samples were drawn the day before surgery (t0), at two (t1), at 24 (t2), at 48 (t3) and 72 (t4) hours from the completion of operation. In the patients assigned to the general anaesthesia group an increase of circulating TNF alpha was detected through t1 to t4. In the spinal group TNFa values did not change in t1 and t2, whereas enhanced levels of the cytokine--overlapping with those of group 1--were observed at 48 and 72 hrs following surgery. Cortisol response increased in both the groups, peaking at t1 but, at this time patients undergoing spinal anaesthesia were found to have significantly lower circulating cortisol. A rise of plasma norepinephrine was observed at t1 in the general anaesthesia group alone. For the early TNF alpha increase, observed in group 1 only, we hypothesize that anaesthetics, such as NLA agents, may trigger a TNF alpha release in vivo. Alternatively TNF alpha production may represent the result of the neuroendocrine response such as cortisol and norepinephrine, to the surgical/anaesthetic trauma which could be blocked by subarachnoid anaesthesia. Conversely, the late TNF alpha increase found in all the patients studied might be explained by postoperative infections as well as by inflammation of the injured tissues and/or normal wound healing.
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PMID:TNF alpha released in the early post-operative period is influenced by anaesthesia. 1199 34

When tissue is destroyed, pain arises. Tissue destruction as well as wound healing are associated with an inflammatory reaction. This leads to activation of nociceptors ("pain receptors") which can cross-communicate with the inflammatory infiltrate. The following review will concentrate on pain-exaggerating (hyperalgesic) and pain-ameliorating (analgesic) mediators which arise from immune cells or the circulation during the inflammation. In the early stages of inflammation endogenous hyperalgesic mediators are produced, including the proinflammatory cytokines IL-1, IL-6 and TNF-alpha, nerve growth factor as well as bradykinin and prostaglandins. Simultaneously, analgesic mechanisms are activated. Opioid peptides such as endorphins, enkephalins and dynorphins are produced by immune cells and can be released locally in the inflamed tissue on stimulation with IL-1 or corticotropin releasing factor. Analgesia is elicited by binding of the opioid peptides to receptors on peripheral sensory neurons. During the course of an inflammatory process, peripheral opioid-mediated analgesia increases. In parallel, antiinflammatory cytokines such as IL-4, IL-10, IL-13 and IL-1ra are produced and reduce hyperalgesic effects of the proinflammatory cytokines initially produced. Inflammatory pain, therefore, is the result of an interplay between hyperalgesic and analgesic mediators. Drugs such as immunosuppressants influencing this interplay may also impair endogenous hyperalgesic and analgesic mechanisms.
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PMID:[Pain and the immune system: friend or foe?]. 1212 5

Lactoferrin (LF) is a ubiquitous protein which exists in milk, plasma, synovial fluids, cerebrospinal fluid and other biological fluids. LF is also well known as a natural immunomodulator. Recently, we found that bovine milk-derived LF (BLF) produced micro-opioid receptor-mediated analgesia. In this study, we examined whether oral administration of BLF causes anti-nociceptive and anti-inflammatory effects, and also whether it modulates LPS-induced TNF-alpha and IL-10 production in rat model of rheumatoid arthritis (RA), rat adjuvant arthritis. BLF was administrated once daily, starting 3 hr before (preventive experiment) or 19 days after (therapeutic experiment) adjuvant injection. In both experiments, BLF suppressed the development of arthritis and the hyperalgesia in the adjuvant-injected paw. The single-administered BLF produced a dose-dependent analgesia, which was reversed by naloxone, in the adjuvant arthritis rats. Both repeated and single administration of BLF suppressed TNF-alpha production and increased IL-10 production in the LPS-stimulated adjuvant arthritis rats. These results suggest that orally administered BLF has both preventive and therapeutic effects on the development of adjuvant-induced inflammation and pain. Moreover, the immunomodulatory properties of BLF, such as down-regulation of TNF-alpha and up-regulation of IL-10, could be beneficial in the treatment of RA. Thus, we concluded that LF can be safely used as a natural drug for RA patients suffering from joint pain.
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PMID:Oral administration of lactoferrin inhibits inflammation and nociception in rat adjuvant-induced arthritis. 1503 42

The postoperative period is associated with an increased production of cytokines, which augment pain sensitivity. We investigated the hypothesis that epidural clonidine premedication and postoperative patient-controlled epidural analgesia (PCEA) including clonidine would decrease the release of proinflammatory (interleukin (IL)-6, IL-1beta, IL-8, and tumor necrosis factor (TNF)-alpha) and antiinflammatory (IL-1 receptor antagonist (RA)) cytokines in patients who underwent elective colorectal surgery and that they would provide better postoperative analgesia. Forty patients were randomly assigned to 1 of 2 groups of 20 each: the control group received normal saline 10 mL, whereas the clonidine group received epidural clonidine 150 microg diluted with 9 mL of normal saline 30 min before surgery. Venous blood samples for cytokine levels were obtained before induction, at the end of surgery, and after surgery at 12 and 24 h. After surgery, the clonidine group patients received PCEA with morphine (0.1 mg/mL) and clonidine (1.5 microg/mL) in 0.2% ropivacaine 100 mL, whereas control group patients received only PCEA morphine and ropivacaine. Patients in the clonidine group exhibited longer PCEA trigger times, lower pain scores at rest and while coughing, less morphine consumption, and a faster return of bowel function throughout the 72-h postoperative observation period, compared with patients in the control group. For patients in the clonidine group, production of IL-1RA, IL-6, and IL-8 was significantly less increased at the end of the surgical procedure and at 12 and 24 h after surgery. However, the concentrations of IL-1beta and TNF-alpha were not significantly increased.
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PMID:The effect of epidural clonidine on perioperative cytokine response, postoperative pain, and bowel function in patients undergoing colorectal surgery. 1527 31

Adenosine (ADO) is an endogenous purine nucleoside that functions as an extracellular signalling molecule. It is released locally at sites of cellular trauma, and acts on specific cell-surface purinergic receptors (termed P1 receptors) near its site of release to exert its effects. Four subtypes of the P1 family of G-protein-coupled receptors have been identified and cloned: A1, A2A, A2B and A3. A considerable body of evidence, including experimental animal data and preliminary clinical reports, indicates that ADO is involved in modulating endogenous antinociceptive processes in the brain and spinal cord. ADO analogues provide analgesic activity after systemic or spinal administration in a broad spectrum of animal pain models. In addition, iv. ADO infusion has shown benefit in human pain states. The spinal cord is a key site for ADO-mediated modulation of nociception. ADO is well known to act as an inhibitory neuromodulator in the central and peripheral nervous system, and it may act to control N-methyl-D-aspartate (NMDA)- and substance P-mediated events in nociception and central sensitisation at the spinal level. ADO is also released at sites of inflammation and it exerts anti-inflammatory effects via multiple mechanisms involving several cell types. These include effects on neutrophil function, endothelial cell permeability, in vivo and in vitro release of tumour necrosis factor (TNF-alpha and collagenase expression in synoviocytes. Accordingly, ADO analogues are effective in several animal models of inflammation, including the rat adjuvant arthritis model. Several therapeutic approaches to pain and inflammation, based on mimicking or modulating the effects of endogenous ADO, are currently under preclinical and clinical investigation. These include the use of ADO itself, the use of direct-acting ADO receptor agonists and the use of agents designed to modulate the levels and, therefore, the actions of ADO in the extracellular space (ADO kinase (AK) inhibitors). Data emerging in the next several years should indicate whether these strategies represent a therapeutically useful new approach to analgesia and inflammation.
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PMID:Adenosine modulation: a novel approach to analgesia and inflammation. 1599 91

Microglia play a crucial role in the maintenance of neuronal homeostasis in the central nervous system, and microglia production of immune factors is believed to play an important role in nociceptive transmission. There is increasing evidence that uncontrolled activation of microglial cells under neuropathic pain conditions induces the release of proinflammatory cytokines (interleukin - IL-1beta, IL-6, tumor necrosis factor - TNF-alpha), complement components (C1q, C3, C4, C5, C5a) and other substances that facilitate pain transmission. Additionally, microglia activation can lead to altered activity of opioid systems and neuropathic pain is characterized by resistance to morphine. Pharmacological attenuation of glial activation represents a novel approach for controlling neuropathic pain. It has been found that propentofylline, pentoxifylline, fluorocitrate and minocycline decrease microglial activation and inhibit proinflammatory cytokines, thereby suppressing the development of neuropathic pain. The results of many studies support the idea that modulation of glial and neuroimmune activation may be a potential therapeutic mechanism for enhancement of morphine analgesia. Researchers and pharmacological companies have embarked on a new approach to the control of microglial activity, which is to search for substances that activate anti-inflammatory cytokines like IL-10. IL-10 is very interesting since it reduces allodynia and hyperalgesia by suppressing the production and activity of TNF-alpha, IL-1beta and IL-6. Some glial inhibitors, which are safe and clinically well tolerated, are potential useful agents for treatment of neuropathic pain and for the prevention of tolerance to morphine analgesia. Targeting glial activation is a clinically promising method for treatment of neuropathic pain.
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PMID:Modulation of microglia can attenuate neuropathic pain symptoms and enhance morphine effectiveness. 1862 54

Tolerance to morphine-induced analgesia is a well-established phenomenon, often limiting its usefulness in the long-term treatment of pain. The mechanisms underlying tolerance are not well understood. We previously suggested a possible role for spinal calcitonin gene-related peptide (CGRP) in the development of tolerance to morphine-induced analgesia. In the present study, we demonstrate that CGRP is involved in morphine tolerance by differentially regulating the ERK-dependent up-regulation of IL-1beta, TNF-alpha, and microsomal prostaglandin E synthase-1 (mPGES-1) in astrocytes and p38-dependent up-regulation of IL-6 in microglia in the rat spinal cord. A 7-d treatment with morphine induced tolerance to the antinociceptive effect and increased phosphorylated ERK localized in astrocytes and phosphorylated p38 enriched in microglia, both effects being inhibited by blocking CGRP receptors. Interestingly, the inhibition of the ERK pathway suppressed the development of tolerance and morphine-induced up-regulation of IL-1beta, TNF-alpha, and mPGES-1. Blockade of p38 activity also inhibited the development of tolerance and morphine-induced IL-6 up-regulation. Taken together, these data suggest that chronic morphine induces the synthesis of CGRP, which in turn acts on CGRP receptors located on astrocytes and microglia to stimulate ERK and p38, respectively, leading to increased synthesis and release of proinflammatory mediators resulting in tolerance to morphine-induced analgesia.
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PMID:Cell-type specific activation of p38 and ERK mediates calcitonin gene-related peptide involvement in tolerance to morphine-induced analgesia. 1929 80

Significant advances have increased our understanding of the molecular mechanisms of amyotrophic lateral sclerosis (ALS), yet this has not translated into any greatly effective therapies. It appears that a number of abnormal physiological processes occur simultaneously in this devastating disease. Ideally, a multidrug regimen, including glutamate antagonists, antioxidants, a centrally acting anti-inflammatory agent, microglial cell modulators (including tumor necrosis factor alpha [TNF-alpha] inhibitors), an antiapoptotic agent, 1 or more neurotrophic growth factors, and a mitochondrial function-enhancing agent would be required to comprehensively address the known pathophysiology of ALS. Remarkably, cannabis appears to have activity in all of those areas. Preclinical data indicate that cannabis has powerful antioxidative, anti-inflammatory, and neuroprotective effects. In the G93A-SOD1 ALS mouse, this has translated to prolonged neuronal cell survival, delayed onset, and slower progression of the disease. Cannabis also has properties applicable to symptom management of ALS, including analgesia, muscle relaxation, bronchodilation, saliva reduction, appetite stimulation, and sleep induction. With respect to the treatment of ALS, from both a disease modifying and symptom management viewpoint, clinical trials with cannabis are the next logical step. Based on the currently available scientific data, it is reasonable to think that cannabis might significantly slow the progression of ALS, potentially extending life expectancy and substantially reducing the overall burden of the disease.
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PMID:Cannabis and amyotrophic lateral sclerosis: hypothetical and practical applications, and a call for clinical trials. 2043 84