Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 (Lioresal), a lipophilic analogue of c-aminobutyric acid (GABA), and carisoprodol (Soma), a central nervous system depressant with an unknown mechanism of pharmacologic action, are categorized as muscle relaxants. Baclofen is used clinically in the management of spasticity and its sequelae secondary to severe chronic disorders such as multiple sclerosis and other types of spinal cord lesions. Carisoprodol is used for discomfort associated with acute and painful musculoskeletal conditions. Intoxication from these drugs occurs in both humans and animals necessitating a need for their detection in plasma/serum, tissue, and gastrointestinal contents samples. A sensitive and specific analytical method for detection and quantitation of these compounds using liquid chromatography with positive atmospheric pressure chemical ionization-mass spectrometry was developed. A rapid extraction procedure for both analytes from fortified bovine sera is described. Chromatographic separation was carried out on a C(18) reverse-phase column with a gradient elution of acetonitrile and 0.25% acetic acid. The effluent was directed to the mass spectrometer with fragmentation information for baclofen and carisoprodol obtained in a scan monitoring mode. Linear standard curves for baclofen and carisoprodol were constructed based on at least two corresponding extracted ions over a concentration range of 0.1-50 micro g/mL. The analysis of fortified sera samples demonstrates good accuracy and precision for the method with a limit of detection of 0.5 micro g/mL for carisoprodol (n = 3) and 1 micro g/mL for baclofen (n = 4) and a limit of quantitation of 2 micro g/mL for both compounds. Recoveries at the limit of quantitation were between 75 and 95% for both analytes, with a 4.8-9.3% range in standard deviation.
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PMID:Direct and rapid determination of baclofen (Lioresal) and carisoprodol (Soma) in bovine serum by liquid chromatography-mass spectrometry. 1290 40

Intrathecal baclofen has been successfully used for control of severe spasticity. Baclofen, an agonist of GABA-B receptor, has other potential effects on pain and recovery from coma. Sporadic episodes of dramatic recovery from persistent vegetative state are reported after intrathecal administration of baclofen. There are also reports on the use of baclofen for neuropathic pain including post-stroke central pain syndrome. Baclofen is also used for control of dystonia due to cerebral palsy or reflex sympathetic dystrophy. On the other hand, epidural spinal cord stimulation has been used for pain, spasticity, dystonia, or attempt to improve deteriorated consciousness, though the effects seem variable and modest. Similarity between baclofen and spinal cord stimulation is interesting in that both involves in spinal GABAergic system. The GABAergic system in the spinal cord plays a pivotal role in various clinical effects of these procedures.
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PMID:Clinical application of drug pump for spasticity, pain, and restorative neurosurgery: other clinical applications of intrathecal baclofen. 1451 20

Currently, the success of ulcer treatment is limited by the high recurrence and complication rates. Spasticity is an important contributing factor to ulcer recurrence, and intrathecal baclofen is an effective method to reduce spasticity. Spasticity creates friction, shear, and mobility impairment resulting in wound dehiscence, flap loss, infection, and hematoma. Spasticity can be managed pharmacologically and surgically; baclofen is the drug of choice. Baclofen inhibits spasticity by blocking excitatory neurotransmitters in the spinal dorsal horn. Intrathecal baclofen maximizes the dose delivered to spinal receptors and minimizes the side effects associated with oral baclofen. Case reports of intrathecal baclofen used in patients with pressure sores demonstrate the use of intrathecal baclofen to improve reconstructive outcomes in spastic patients.
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PMID:Implantable baclofen pump as an adjuvant in treatment of pressure sores. 1459 81

Baclofen, a gamma-aminobutyric acid agonist, is widely used to treat spasticity of cerebral and spinal origin. Patients with both acute baclofen overdose and withdrawal have developed seizures. After several reports of new-onset seizures in children treated with oral baclofen at our institution, we reviewed our experience regarding possible effects of baclofen on seizure induction in a childhood movement disorders program over a 2-year period. Of 54 children (ages 1-10) treated with oral baclofen, 19 (35%) had a prior history of seizures. Five children (14%) developed new-onset seizures after starting baclofen. Although epilepsy is very common in children with cerebral palsy, these findings raise the possibility that baclofen may potentiate seizures in certain young children with cerebral palsy. Further study of the effects of baclofen on seizures is warranted.
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PMID:Oral baclofen in cerebral palsy: possible seizure potentiation? 1462 1

Baclofen is a GABA(B) agonist that is administered spinally via an implanted drug delivery device to treat spasticity. It has been shown to have powerful antinociceptive effects in experimental animal models at doses that produce little or no motor-blocking effects but has rarely been used as a spinal analgesic agent in patients without spasticity. Several studies have indicated that intrathecal baclofen provides relief of central pain in patients with spasticity. To date, only 3 studies have shown it to be effective in patients with peripheral nociceptive or neuropathic pain mechanisms. Combinations of baclofen and morphine or clonidine are more effective than each drug alone in clinical as well as animal studies.
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PMID:Intrathecal baclofen in pain management. 1513 13

Baclofen, which is a specific agonist of the metabotropic GABA(B) receptor, is used in clinical practice for the treatment of spasticity of skeletal muscles. It also exerts an analgesic effect, but this effect is still not clear and especially controversial in neuropathic pain. In this work, we studied the antinociceptive effects of baclofen in a model of chronic peripheral neuropathic pain - loose ligation of the sciatic nerve (chronic constriction injury, CCI). As controls we used sham-operated animals. The changes of thermal pain threshold were measured using the plantar test 15-25 days after the operation. The obtained results suggest that baclofen increases pain threshold in both groups. The antinociceptive effect of baclofen was dose-dependent and the maximum response without motor deficits was observed at a dose of 15 mg/kg s.c. In the rats with CCI, significant differences between affected (ipsilateral) and contralateral hind paw were present. This difference was dose-dependent, the highest value (6.2+/-1.37 s) was found at the dose of 20 mg/kg. Based on our results and previous findings it could be summarized that baclofen has antinociceptive action, which is attenuated in the model of chronic neuropathic pain probably due to the degeneration of GABA interneurons after chronic constriction injury.
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PMID:GABA(B) receptor agonist baclofen has non-specific antinociceptive effect in the model of peripheral neuropathy in the rat. 1520 44

Baclofen is used for treatment of the spasticity of spinal origin that is a common sequela of spinal cord injury and multiple sclerosis; spasticity occurs in about 50% of patients affected by these disorders. In open-label studies of oral baclofen, the drug improved spasticity in 70-87% of patients; additionally, improvement in spasms was reported in 75-96% of patients. In double-blind, crossover, placebo-controlled trials, baclofen was reported to be effective, producing statistically significant improvements in spasticity. Tizanidine is the antispasticity drug that has been most widely compared with oral baclofen; studies have generally found the two drugs to have equivalent efficacy. However, tizanidine has better tolerability, in particular weakness was reported to be occur less frequently with tizanidine than with baclofen. The main adverse effects of oral baclofen include: sedation or somnolence, excessive weakness, vertigo and psychological disturbances. The incidence of adverse effects is reported to range from 10% to 75%. The majority of adverse effects are not severe; most are dose related, transient and/or reversible. The main risks of oral baclofen administration are related to withdrawal: seizures, psychic symptoms and hyperthermia can occur. These symptoms improve after the reintroduction of baclofen, usually without sequelae. When not related to withdrawal; these symptoms mainly present in patients with brain damage and in the elderly. The limited data on baclofen toxicity in patients with renal disease suggest that administration of the drug in these persons may carry an unnecessarily high risk. Intrathecal baclofen is indicated for use in patients with spasticity of spinal origin unresponsive to treatment with maximum doses of oral baclofen, tizanidine and/or dantrolene. The benefits of continuous intrathecal baclofen infusion have been demonstrated: >80% and >65% of patients have improvement in tone and spasms, respectively. The main risks of intrathecal baclofen infusion are symptoms related to overdose or withdrawal; the latter is more important because of the associated severe effects on clinical status and the possibility of death, but it is responsive to rapid treatment. Overdose primarily arises from drug test doses or human error during refill and programming of the pump, and withdrawal most commonly occurs as a result of a problem with the delivery system. Since the adverse consequences do not exceed the benefits of oral and intrathecal baclofen for patients with spinal spasticity, the benefit/risk assessment is favourable.
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PMID:A benefit-risk assessment of baclofen in severe spinal spasticity. 1535 Jan 52

Twenty-three patients affected with severe spasticity as a result of several clinical pathologies were treated with intrathecal Baclofen and administered at a lumbar level by means of an implantable infusion system. The system allows programming of any drug dosage in a continuous infusion fashion in the subarachnoid space. The appropriate patients were selected using specific criteria and the patients were regularly reviewed regarding the level of the spasticity and functional capacity. The required daily doses were determined using a specific detailed system. The doses needed varied according to the pathologic or clinical diagnosis. The doses administered by the global method at the beginning of the treatment were 91.96 microg/day and 137.81 microg/day in the final phase. These doses were higher in patients with medullary traumatic lesion, diffuse cerebral lesion and spastic idiopathic paraparesis. Relatively mild side effects were produced by the therapeutic doses used.
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PMID:Dosage of intrathecal baclofen maintenance therapy in the spastic syndromes. 1588 96

Severe spasticity is a very disabling disorder treated by continuous baclofen intrathecal infusion which unfortunately remains an expensive and uncomfortable treatment. In order to address these issues, new sustained release formulations designed for intrathecal baclofen delivery were sought with the aim of minimising the burst effect of baclofen which can lead to toxicity. Baclofen was encapsulated in poly(lactide-co-glycolide) (PLGA) microspheres which were then dispersed in chitosan thermosensitive gels, Pluronic PF-127 gels, carboxymethylcellulose solutions or Ringer lactate solution. The release rate was assessed in vitro using continuous flow cells and in vivo after intrathecal injection in goats: baclofen was quantified in cerebrospinal fluid (CSF) and plasma, and the associated pharmacological effect was evaluated. The results showed that the burst effect was reduced by at least a factor of 2 in vitro, after microsphere dispersion in viscous media. In vivo, PF-127 gel was found to be the best vehicle to reduce the burst effect by a factor of 10 in CSF, and by a factor of 2 in plasma. The toxic effect of baclofen due to the burst effect was reduced by the dispersion in PF127 gels. Therapeutic levels of baclofen in CSF were maintained during at least 1 month.
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PMID:Baclofen-loaded microspheres in gel suspensions for intrathecal drug delivery: in vitro and in vivo evaluation. 1596 53

Baclofen has become increasingly popular in the treatment of spasticity disorders. Its availability for misuse has also increased. We report a case of baclofen overdose in a 20-year-old man, who manifested atypical symptoms of baclofen overdose--that is, delirium and rhabdomyolysis. He was treated successfully with full supportive management, and was discharged from the hospital on the 12th day following admission. If a past medication history is not immediately available, baclofen overdose should be included in the differential diagnosis of an acutely confused patient complicated with rhabdomyolysis, as routine toxicology screening does not include baclofen.
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PMID:An unusual presentation of baclofen overdose. 1611 2


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