Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026838 (spasticity)
 6,471 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Baclofen is a gamma-aminobutyric acid (GABA) agonist approved for the treatment of spasticity and commonly used in the management of many types of neuropathic pain. Controlled studies have demonstrated the efficacy of this drug in trigeminal neuralgia. Although its precise mechanism of analgesic action is unknown, it is likely that a drug-induced increase in inhibitory activity is sufficient to interrupt the cascade of neural events that culminates in aberrant activity of wide dynamic range neurons, or more rostral neurons in nociceptive pathways, that is the substrate for some types of neuropathic pain. The optimal use of baclofen as an adjuvant analgesic requires an understanding of its pharmacology, side effect spectrum, and dosing guidelines that have proven useful in clinical practice. Failure of baclofen therapy following a prolonged trial requires dose tapering prior to discontinuation due to the potential for a withdrawal syndrome.
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PMID:Baclofen as an adjuvant analgesic. 785 58

Baclofen, an analog of the putative inhibitory neurotransmitter gamma-aminobutyric acid is capable of crossing the blood-brain barrier. The drug has been shown to have an antinociceptive action and is used effectively in the management of spasticity. Baclofen was first used in the treatment of trigeminal neuralgia in 1980 and is currently used in the management of various types of neuropathic pain. The effect of baclofen on migraine has not been previously studied. The aim of the present open pilot study was to evaluate the efficacy of baclofen in patients with migraine. Fifty-four patients with migraine with and without aura who experienced 4-8 migraine attacks during a 4-week baseline were included. Baclofen, 15-40 mgs, was given in three divided doses for 12 weeks. Headache frequency and severity were recorded. Fifty-one patients completed the trial. Baclofen was found to be effective in 86.2% with > or = 50% headache reduction from baseline. Three patients could not tolerate the drug due to adverse events. In this open study, baclofen was found to be effective for prophylactic treatment of migraine.
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PMID:Baclofen for prevention of migraine. 1044 46

Baclofen (beta-p-chlorophenyl-GABA) has been used in humans to treat spasticity, as well as trigeminal neuralgia. Since GABA (gamma-aminobutyric acid) has been implicated in inhibitory and analgesic effects in the nervous system, it was of interest to study the effect of baclofen in experimental neuropathic pain. With this purpose, experiments were carried out in 17 neuropathic rats with constrictive sciatic injury, as described by Bennet and Xie (1988), taking as pain parameters scratching behaviour and the latency to the thermal nociceptive stimulus. The results showed that baclofen induces, in a dose-dependent manner, significant decrease (p < 0.05) of scratching behaviour and significant increase (p < 0.05) of the latency to the nociceptive thermal stimulus. The absence of antagonism of naloxone suggested a non-participation of an opioid-mediated mechanism in this analgesic effect of baclofen on experimental neuropathic pain.
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PMID:The effect of baclofen on spontaneous and evoked behavioural expression of experimental neuropathic chronic pain. 1075 9

Clinically significant pain has been found in as many as 65% of persons diagnosed with multiple sclerosis (MS). Acute pain conditions include trigeminal neuralgia, painful optic neuritis, and Lhermitte's syndrome. Chronic pain conditions such as dysesthesias in the limbs, joint pain, and other musculoskeletal or mechanical pain problems develop as a function of spasticity and deconditioning associated with MS. These painful conditions may respond to pharmacological, surgical, rehabilitation, and psychological interventions. However, unresolved pain, associated disability, and affective distress are common. In addition, efforts to manage MS and its associated symptoms, for example, may inadvertently cause osteoporosis and headache or other symptoms that may exacerbate pain and pain-related disability. Conversely, efforts to manage pain may have negative effects on the symptoms of MS (e.g., increased fatigue). A multidimensional approach to assessment and management that is guided by a comprehensive biopsychosocial model is recommended. Such an approach needs to consider the exacerbating nature of MS, MS-related pain, and interventions aimed at their management. Suggestions for future research on MS-related pain conclude the article.
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PMID:Pain in multiple sclerosis: a biopsychosocial perspective. 1205 66

Multiple sclerosis is a complex neurological condition affecting sensory and motor nerve transmission. Its progression and symptoms are unpredictable and vary from person to person as well as over time. Common early symptoms include visual disturbances, facial pain or trigeminal neuralgia and paraesthesia or numbness of feet, legs, hands and arms. These, plus symptoms of spasticity, spasms, tremor, fatigue, depression and progressive disability, impact on the individual's ability to maintain oral health, cope with dental treatment and access dental services. Also, many of the medications used in the symptomatic management of the condition have the potential to cause dry mouth and associated oral disease. There is no cure for multiple sclerosis, and treatment focuses on prevention of disability and maintenance of quality of life. Increasingly a multi-disciplinary team approach is used where the individual, if appropriate his/her carer, and the specialist nurse are key figures. The dental team plays an essential role in ensuring that oral health impacts positively on general health.
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PMID:Multiple sclerosis and oral care. 1222 18

While pain is a common problem in multiple sclerosis (MS) patients, it is frequently overlooked and has to be asked for actively. Pain can be classified into 4 diagnostically and therapeutically relevant categories. 1. PAIN DIRECTLY RELATED TO MS: Painful paroxysmal symptoms like trigeminal neuralgia or painful tonic spasms are treated with carbamazepine as first choice, or lamotrigine, gabapentin, oxcarbazepine and other anticonvulsants. Painful "burning" dysaesthesia, the most frequent chronic pain syndrome, are treated with tricyclic antidepressants or carbamazepine, further options include gabapentin or lamotrigine. While escalation therapy may require opioids, the role of cannabinoids in the treatment of pain still has to be determined. 2. PAIN INDIRECTLY RELATED TO MS: Pain related to spasticity often improves with adequate physiotherapy. Drug treatment includes antispastic agents like baclofen or tizanidine, alternatively gabapentin. In severe cases botulinum toxin injections or intrathecal baclofen merit consideration. Physiotherapy and physical therapy may ameliorate malposition-induced joint and muscle pain. Moreover, painful pressure lesions should be avoided using optimally adjusted aids. 3. Treatment-related pain can occur with subcutaneous injections of beta interferons or glatiramer acetate and may be reduced by optimizing the injection technique and by local cooling. Systemic side effects of interferons like myalgias can be reduced by paracetamol or ibuprofen. 4. Pain unrelated to MS such as back pain or headache are frequent in MS patients and may be worsened by the disease. Treatment should be follow established guidelines. In summary, a careful analysis of the pain syndrome will allow the design of the appropriate treatment plan using various medical and non-medical options and thus will help to ameliorate the patients' quality of life.
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PMID:[Therapy of pain syndromes in multiple sclerosis -- an overview with evidence-based recommendations]. 1588 Mar 5

Pain is more common in multiple sclerosis (MS) than has previously been recognised. In the present study we have investigated the occurrence of central pain (CP) in MS and defined its characteristics. Questionnaires were sent to all 429 patients with definite MS in the patient register at our neurology department. All admitting to pain were interviewed and offered an extended interview and examination. Three hundred and sixty four patients responded (86%), of whom 57.5% reported pain during the course of their disease (21% nociceptive, 2% peripheral neuropathic and 1% related to spasticity). One hundred patients (27.5%) had CP, including 18 patients (4.9%) with trigeminal neuralgia. The non-trigeminal CP was, in 87%, located in the lower and in 31% in the upper extremities. It was mostly bilateral (76%) and constant, with 88% experiencing daily pain. Only 2% had paroxysmal attacks. Aching, burning, pricking were the commonest qualities. The pain was intense with small to moderate spontaneous variation. In 5.5% of all patients (20% of the patients with CP), pain was a presenting symptom, alone or in combination with other symptoms. The most common neurological symptoms/signs besides CP were sensory abnormalities (98%, dominated by abnormal sensibility to painful stimulus and temperature). Trigeminal neuralgia in MS started later in life and after longer disease duration than non-trigeminal pain. Both types of CP existed either chronically or as a feature of relapse. Central pain is thus an important symptom in MS (around 30%) and causes much suffering.
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PMID:Central pain in multiple sclerosis--prevalence and clinical characteristics. 1613 82

While pain is a common problem in patients with multiple sclerosis (MS), it is not frequently mentioned by patients and a more direct approach is required in order to obtain information about pain from patients. Many patients with MS experience more than one pain syndrome; combinations of dysaesthesia, headaches and/or back or muscle and joint pain are frequent. For each pain syndrome a clear diagnosis and therapeutic concept needs to be established. Pain in MS can be classified into four diagnostically and therapeutically relevant categories: (i) neuropathic pain due to MS (pain directly related to MS); (ii) pain indirectly related to MS; (iii) MS treatment-related pain; and (iv) pain unrelated to MS. Painful paroxysmal symptoms such as trigeminal neuralgia (TN), or painful tonic spasms are treated with antiepileptics as first choice, e.g. carbamazepine, oxcarbazepine, lamotrigine, gabapentin, pregabalin, etc. Painful 'burning' dysaesthesias, the most frequent chronic pain syndrome, are treated with TCAs such as amitriptyline, or antiepileptics such as gabapentin, pregabalin, lamotrigine, etc. Combinations of drugs with different modes of action can be particularly useful for reducing adverse effects. While escalation therapy may require opioids, there are encouraging results from studies regarding cannabinoids, but their future role in the treatment of MS-related pain has still to be determined. Pain related to spasticity often improves with adequate physiotherapy. Drug treatment includes antispastic agents such as baclofen or tizanidine and in patients with phasic spasticity, gabapentin or levetiracetam are administered. In patients with severe spasticity, botulinum toxin injections or intrathecal baclofen merit consideration. While physiotherapy may ameliorate malposition-induced joint and muscle pain, additional drug treatment with paracetamol (acetaminophen) or NSAIDs may be useful. Moreover, painful pressure lesions should be avoided by using optimally adjusted aids. Treatment-related pain associated with MS can occur with subcutaneous injections of interferon-beta or glatiramer acetate, and may be reduced by optimizing the injection technique and by local cooling. Systemic (particularly 'flu-like') adverse effects of interferons, e.g. myalgias, can be reduced by administering paracetamol, ibuprofen or naproxen. A potential increase in the frequency of pre-existing headaches after starting treatment with interferons may require optimization of headache attack therapy or even prophylactic treatment. Pain unrelated to MS, such as back pain or headache, is common in patients with MS and may deteriorate as a result of the disease. In summary, a careful analysis of each pain syndrome will allow the design of the appropriate treatment plan using various medical and nonmedical options (multimodal therapy), and will thus help to improve the quality of life (QOL) of the patients.
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PMID:Current management of pain associated with multiple sclerosis. 1833 59

Oral baclofen, the most often prescribed antispastic drug, has been shown to be effective in trigeminal neuralgia. Spinal application of baclofen leads to a complete supression of spasticity even in cases in which no previous oral antispastic medication achieved a response. Since these results suggest that spinal administration of baclofen is superior to oral baclofen, spinal injections of this drug (100 mug) were tested in a patient with severe trigeminal neuralgia that was unresponsive to oral medication. This was followed by complete suppression of the neuralgic symptoms, which however reoccurred if baclofen administration was stopped. Spinal baclofen has also been effective during long-term infusion with an implanted pump for more than 1 year. Spinal baclofen infusion seems to be a possibility in the treatment of severe trigeminal neuralgia resistant to other forms of therapy.
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PMID:[Spinal baclofen in trigeminal neuralgia. A case report.]. 1841 80

Adjuvant analgesics are drugs that are not primarily used as analgesics but can produce analgesia in certain types of pain. Adjuvant analgesics can be administered together with non-opioid and opioid analgesics on each step of the WHO analgesic ladder. They should be given when an additional or specific indication exists, but should not be used as a substitute for a thorough treatment with opioids and nonopioids. Adjuvant analgesics can be classified into groups according to the type of pain to be treated: continuous neuropathic pain or lancinating neuropathic pain, sympathetically maintained pain, bone pain and those for multipurpose use. Adjuvant drugs used for continuous neuropathic pain include local anaesthetics, clonidine, capsaicin, and antidepressants. Tricyclic antidepressants are the group that have been best investigated, and are therefore the drugs of choice. An analgesic effect is probably produced via enhancement of transmitter concentrations in pain-modulating pathways. This occurs at lower doses than those necessary to treat depression. Anticholinergic actions, acute glaucoma, constipation, orthostatic hypotension and cardiac arrhythmias are adverse effects that are seen predominantly with teritiary amine drugs and less often with secondary amine compounds. Initial doses should be small to avoid these adverse effects. Local anaesthetics are used less often, because of the high incidence of side effects (especially with tocainide, flecainide). An analgesic effect has been described in neuropathic pain, however, probably due to membrane stabilization and reduction of aberrant signal conduction. Mexiletine is considered to be the safest local anaesthetic, and should be used initially in small doses (100-150 mg/d). If side effects do not occur, doses can be increased step-wise up to 900 mg/d. Local anaesthetics are indicated for the treatment of severe neuropathic pain; this treatment is contraindicated in patients with cardiac arrhythmias. Systemic or intrathecal clonidine can be tried in neuropathic pain refractory to opioid therapy. The same stands for the topical application of capsaicin in certain types of pain. Lancinating neuropathic pain is an indication for anticonvulsant drugs. Carbamazepine, clonazepam, valproate and phenytoin seem to reduce aberrant signal conduction in damaged nerves in a manner similar to the supression of epileptiform activities in the brain. Common side effects include sedation, dizziness and nausea. Of greater concern are the more severe side effects, such as bone marrow depression (carbamazepine) and hepatotoxicity (phenytoin, valproate). Low initial doses and stepwise increases in dosage, repeated blood counts, and monitoring of plasma levels are helpful in recognizing and avoiding these adverse effects. Baclofen, a GABA agonist primarily used for spasticity, is effective in the treatment of trigeminal neuralgia and is often used in the management of lancinating pain of unspecific origin. The initial dosage is 10-15 mg/d, increasing to 30-90 mg/d, or higher. If neural blockade fails to reduce sympathetically maintained pain sufficiently specific adjuvants can be used. Sympatholytic drugs, e.g. phenoxybenzamine (60-120 mg/d) or prazosin, can be administered to patients without major cardiovascular dysfunction. There is experimental evidence of the involvement of calcium channels in nociception, and a beneficial clinical effect of nifidepine in reflex sympathetic dystrophy (RDS) has been demonstrated. Bone pain is common in tumor patients and can often be treated effectively with non-steroidal anti-inflammatory drugs. Biphosphonates (etidronate, clodronate, pamidronate derivates) also produce analgesic effects in patients with bone metastases. However, differences among the various compounds have not been clearly evaluated yet. Potent and specific radioisotopes are still under development and the use of calcitonin in bone pain is considered controversial.
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PMID:[Pharmacotherapy of cancer pain. 3. Adjuvant drugs.]. 1841 35


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