UMLS:C0040822 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phenobarbital (phenobarbitone) and phenytoin are the most useful anticonvulsants in neonates because adverse effects are most readily reversed when these drugs are used. Most anticonvulsants are very rarely associated with haematological adverse effects. Platelet function is particularly vulnerable to valproic acid (sodium valproate) therapy. Barbiturates and phenytoin can precipitate metabolic bone disease. Although very infrequent, lymphadenopathy is most common with phenytoin, and lupus-like illnesses with ethosuximide. Valproic acid may precipitate underlying metabolic disorders. Nephrolithiasis can occur with topiramate. Liver disease is most likely with felbamate or valproic acid, but can occur with other anticonvulsants. Valproic acid and ethosuximide are the main precipitants of gastrointestinal symptomatology; while valproic acid and vigabatrin are frequently associated with excessive bodyweight gain. Rash is most likely to occur with barbiturates, but there is a high risk of this adverse effect if large doses of lamotrigine are given with valproic acid. Adverse cosmetic effects are most likely with phenytoin, but valproic acid may cause alopecia. All anticonvulsants may cause unwanted neurological effects: when they occur, diplopia is usually precipitated by carbamazepine; tremor by valproic acid; and other motor disturbances are probably most common with phenytoin. Most anticonvulsants can cause drowsiness. Phenobarbital leads anticonvulsants as a cause of behavioural difficulties. Effects of anticonvulsants on cognitive function are difficult to assess, but subtle changes have been reported for all anticonvulsants in use up to the 1980s. Compared with other anticonvulsant drugs, phenytoin and felbamate are more often discontinued as a result of unwanted effects.
...
PMID:A comparative review of the adverse effects of anticonvulsants in children with epilepsy. 896 93

Whipple's disease (WD) is a rare disorder that is more common in males than in females. Progressive supranuclear ophthalmoplegia (SNO) in conjunction with oculomasticatory myorhythmia (OMM) or oculofacioskeletal myorhythmia are characteristic movement abnormalities when WD involves the nervous system. Limb myorhythmia without facial or ocular myorhythmia has not been reported in WD. We report such a case who had SNO and leg myorhythmia but no facial or ocular myorhythmia. She had onset of WD at age 28 and 16 years later developed SNO and leg myorhythmia. The neurological manifestations did not respond to antimicrobial agents or to the drugs used for parkinsonism or essential tremor. Valproate produced a remarkable improvement in leg myorhythmia, but the efficacy declined after 3 months. Because WD may infest as a neurological disorder without gastrointestinal symptoms, all SNO cases, with or without OMM, and those with skeletal myorhythmia should be suspected of WD. These patients should be treated vigorously and followed carefully since neurological involvement is the most disabling feature and it has a propensity to relapse.
...
PMID:Ophthalmoplegia and leg myorhythmia in Whipple's disease: report of a case. 899 64

Three hundred and forty seven patients with epilepsy from 54 centres across Europe not fully controlled with sodium valproate (VPA, n = 117), carbamazepine (CBZ, n = 129), phenytoin (PHT, n = 92) or phenobarbital (PB, n = 9) monotherapy were recruited into a lamotrigine (LTG) substitution study. If 50% or more seizure reduction occurred (responders) on addition of LTG, an attempt was made to withdraw the original antiepileptic drug (AED). If successful, this was followed by a 12 week period of LTG monotherapy. Overall, 73% patients completed the add-on phase (47% responders), 41% attempted AED withdrawal and 23% achieved LTG monotherapy. In the 60 patients (17%) completing the trial by remaining on LTG monotherapy, median monthly seizure frequency was reduced from 6 during baseline to 1.7. Sixteen percent of patients were withdrawn due to adverse effects, mostly during the add-on phase. Dizziness and diplopia occurred most frequently in the CBZ group, nervousness and ataxia in the PHT group, and rash and tremor in the VPA group. Slower LTG dose escalation resulted in fewer withdrawals due to rash in the VPA-treated patients (38% to 8%, P < 0.01). The responder rate was higher (P < 0.01) in patients with idiopathic tonic-clonic seizures (61%) than in those with partial seizures (43%). The addition of LTG to VPA (64% responders) produced a significantly better response (P < 0.001) than adding it to CBZ (41% responders) or PHT (38% responders). This effect was seen for partial (VPA, 57%; CBZ, 39%; PHT, 39%; P < 0.02) as well as tonic-clonic seizures (VPA, 70%; CBZ, 53%; PHT, 50%; NS). These data lend credence to the suggestion of therapeutic synergy between LTG and VPA.
...
PMID:Lamotrigine substitution study: evidence for synergism with sodium valproate? 105 Study Group. 912 23

This randomized, double-blind trial was designed to evaluate the efficacy of a transdermal system of piribedil on the motor symptoms of Parkinson's disease during 3 weeks of treatment administered to three different groups: placebo, one piribedil patch (1 PP), and two (2 PP) piribedil patches. Twenty-seven patients with idiopathic Parkinson's disease, treated with L-dopa but not sufficiently controlled, were included in this trial. The test treatment did not demonstrate any clinical efficacy on either the main end point (Unified Parkinson's Disease Rating Scale motor score) or the secondary end points (rigidity, bradykinesia, postural, and resting tremor scores). The main adverse events were nausea (11%), vomiting (7.4%), and malaise (7.4%) mainly observed in the placebo group (four of seven patients). The local acceptability of the transdermal system was good. Plasma piribedil concentrations at the end of treatment were 6.74+/-1.10 and 9.31+/-3.33 ng/mL in the 1 PP and 2 PP groups, respectively. These plasma levels could account for the lack of clinical efficacy, because a previous pharmacokinetics-PD study conducted in parkinsonian patients and treated with the intravenous route demonstrated that the critical limits of activity on tremor were between 10 and 30 ng/mL.
...
PMID:A randomized, double-blind study of a skin patch of a dopaminergic agonist, piribedil, in Parkinson's disease. 1009 30

Thirty-five years since its introduction into clinical use, valproate (valproic acid) has become the most widely prescribed antiepileptic drug (AED) worldwide. Its pharmacological effects involve a variety of mechanisms, including increased gamma-aminobutyric acid (GABA)-ergic transmission, reduced release and/or effects of excitatory amino acids, blockade of voltage-gated sodium channels and modulation of dopaminergic and serotoninergic transmission. Valproate is available in different dosage forms for parenteral and oral use. All available oral formulations are almost completely bioavailable, but they differ in dissolution characteristics and absorption rates. In particular, sustained-release formulations are available that minimise fluctuations in serum drug concentrations during a dosing interval and can therefore be given once or twice daily. Valproic acid is about 90% bound to plasma proteins, and the degree of binding decreases with increasing drug concentration within the clinically occurring range. Valproic acid is extensively metabolised by microsomal glucuronide conjugation, mitochondrial beta-oxidation and cytochrome P450-dependent omega-, (omega-1)- and (omega-2)-oxidation. The elimination half-life is in the order of 9 to 18 hours, but shorter values (5 to 12 hours) are observed in patients comedicated with enzyme-inducing agents such as phenytoin, carbamazepine and barbiturates. Valproate itself is devoid of enzyme-inducing properties, but it has the potential of inhibiting drug metabolism and can increase by this mechanism the plasma concentrations of certain coadministered drugs, including phenobarbital (phenobarbitone), lamotrigine and zidovudine. Valproate is a broad spectrum AED, being effective against all seizure types. In patients with newly diagnosed partial seizures (with or without secondary generalisation) and/or primarily generalised tonic-clonic seizures, the efficacy of valproate is comparable to that of phenytoin, carbamazepine and phenobarbital, although in most comparative trials the tolerability of phenobarbital was inferior to that of the other drugs. Valproate is generally regarded as a first-choice agent for most forms of idiopathic and symptomatic generalised epilepsies. Many of these syndromes are associated with multiple seizure types, including tonic-clonic, myoclonic and absence seizures, and prescription of a broad-spectrum drug such as valproate has clear advantages in this situation. A number of reports have also suggested that intravenous valproate could be of value in the treatment of convulsive and nonconvulsive status epilepticus, but further studies are required to establish in more detail the role of the drug in this indication. The most commonly reported adverse effects of valproate include gastrointestinal disturbances, tremor and bodyweight gain. Other notable adverse effects include encephalopathy symptoms (at times associated with hyperammonaemia), platelet disorders, pancreatitis, liver toxicity (with an overall incidence of 1 in 20,000, but a frequency as high as 1 in 600 or 1 in 800 in high-risk groups such as infants below 2 years of age receiving anticonvulsant polytherapy) and teratogenicity, including a 1 to 3% risk of neural tube defects. Some studies have also suggested that menstrual disorders and certain clinical, ultrasound or endocrine manifestations of reproductive system disorders, including polycystic ovary syndrome, may be more common in women treated with valproate than in those treated with other AEDs. However, the precise relevance of the latter findings remains to be evaluated in large, prospective, randomised studies.
...
PMID:Pharmacological and therapeutic properties of valproate: a summary after 35 years of clinical experience. 1226 62

Antiepileptic drugs (AEDs) are increasingly used for the treatment of several non-epileptic neurological conditions and psychiatric disorders. Most of the information available on the use of these agents in clinical disorders outside epilepsy is from case series, uncontrolled studies or small randomised clinical trials, and their apparent efficacy requires confirmation through well designed, large, phase III trials. With regard to neurological conditions other than epilepsy, experimental evidence for the efficacy of AEDs is only available for the treatment of patients with trigeminal neuralgia, neuropathic pain syndromes, migraine and essential tremor. Carbamazepine is commonly prescribed as first-line therapy for patients with trigeminal neuralgia. Gabapentin has been recently marketed for the management of neuropathic pain syndromes, particularly diabetic neuropathy and postherpetic neuralgia. Valproic acid (sodium valproate), in the form of divalproex sodium, is approved for migraine prophylaxis. Primidone can be considered a valuable option for the treatment of essential tremor. AEDs are also used to treat psychiatric conditions, in particular bipolar disorder. So far, the most commonly utilized AEDs in the treatment of this disorder have been carbamazepine and valproic acid, which have showed an antimanic efficacy and a probable long-term, mood-stabilizing effect in many bipolar patients, including those refractory or intolerant to lithium. The availability of a new generation of AEDs has broadened the therapeutic options in bipolar disorder. Lamotrigine, oxcarbazepine, gabapentin and topiramate appear to be promising in the treatment of refractory bipolar disorder, as a monotherapy as well as in combination with traditional mood stabilizers. In addition, newer AEDs appear to have a more favourable tolerability and drug interaction profile as compared to older compounds, so thus improving compliance to treatment.
...
PMID:Antiepileptic drugs: indications other than epilepsy. 1524 50

Divalproex sodium is an effective anticonvulsant, antimanic, and migraine prophylaxis agent. Recently, a new extended-release (ER) formulation of divalproex sodium has become available, which allows for once-daily dosing and provides prolonged therapeutic serum levels. Using data pooled from nine open-label trials involving 321 epilepsy and psychiatry patients, we compared the efficacy and tolerability of divalproex ER with preceding treatment with the older delayed-release (DR) formulation, based on patient reports and analysis by McNemar's test for within-subject paired data. Divalproex ER was associated with superior tolerability with less frequent tremor, weight gain, and gastrointestinal complaints (all P<0.001), but not less hair loss. Divalproex ER also yielded improved seizure control and greater improvement of psychiatric symptoms, and was greatly preferred by patients over divalproex DR. Although the results of the current analyses must be considered highly tentative due to the open-label nature of the trials included, the findings do suggest broad clinical superiority of the new ER preparation.
...
PMID:Clinical comparison of extended-release divalproex versus delayed-release divalproex: pooled data analyses from nine trials. 1538 Jan 29

Valproic acid-associated hyperammonemic encephalopathy (VHE) has been described in the neurology and emergency medicine literature, but the case reports identified therein are rarely derived from the psychiatric use of this medication. Valproic acid is widely used as a mood stabilizer in bipolar affective disorder and schizoaffective disorder. Patients with normal blood levels, liver function and metabolic tests may present with markedly elevated ammonia and a variety of neurological symptoms. We report the case of a patient on long-term valproic acid therapy, with stable dosing, who presented with an elevated ammonia level, new-onset tremor, confusion, and loss of consciousness. This case illustrates the need to check ammonia levels in psychiatric patients who are taking valproic acid and who present with new neurological symptoms.
...
PMID:Valproic acid-associated hyperammonemic encephalopathy: a case report from the psychiatric setting. 1560 19

Headache originating front-orbital area can be divided to (1) Which has no autonomic symptoms such as lacrimation, rhinorrea, rhinostasis. This include psychogenic headache and epileptic headache. In the case of psychogenic headache, pericranial tenderness is not observed, and headache is medium in intensity. Most often patient complains of a headache originating frontal area. There are more than five various symptoms such as general malaise, numbness, tingling sensation, vertigo, sleeplessness. However, although symptoms are multiple, patients spend a life commonly. In other words, a patient is protected by a headache against his or her stress. No medication is needed in such a case. In epileptic headache, pressing type pain is felt over the forehead for several minutes to a few hours. Tremor or convulsion sometimes follow the headache. EEG shows spike and wave activities. In the case of focal epilepsy, headache occurs contralateral to the focus. Anti-epileptic drugs such as VPA or CBZ is a choice in such case, and headache as well as seizure disappears. (2) Front-orbital headache with autonomic symptoms include various trigeminal autonomic cephalalgias. These include cluster headache, episodic paroxysmal hemicrania, hemicrania continua, among others. Precise history taking is necessary for the treatment, because no drug is 100% effective.
...
PMID:[Headache originating front-orbital area]. 1565 1

Several cases of Parkinsonian syndrome, cognitive impairment or hyperammonemia induced by sodium valproate have been described in the literature. We report the first case presenting an association of the three adverse effects occurring with divalproate sodium prescribed for bipolar disorder: a 58-year-old man with a history of bipolar type I disorder presented with Parkinsonian syndrome and cognitive impairment of insidious onset. This patient had been treated for several years with lithium carbonate, with a successful effect on mood swings, but with distressing adverse effects such as hand tremor and diarrhoea. Lithium therapy was progressively withdrawn while sodium divalproate was initiated. Associated medications, unchanged for several years, were amisulpride (daily dose: 100 mg), liothyronine, ciprofibrate and benfluorex. The patient was treated with sodium divalproate for seven months (daily dose: 1,000 mg), and with trihexyphenidyle for one month for extrapyramidal symptoms. At hospital admission, he presented with temporal disorientation, slowed thinking, severe anterograde memory deficits, and Parkinsonian syndrome. The minimal mental state (MMS) score was 16 (maximum: 30). The patient was anxious but did no present with mood symptoms. He also developed hyperammonemia (124 micromol/liter, normal range: 15 to 60 micromol/liter) without signs or biochemical evidence of hepatic failure. Valproate concentrations were within the therapeutic ranges (79 mg/l, normal range: 50 to 100 mg/l). The CT-scan showed cerebral and cerebellar atrophy with enlarged ventricles. The electroencephalogram showed generalized slowing waves. All the symptoms resolved within one month after the withdrawal of divalproate: the extrapyramidal hypertonia resolved, the MMS score was 29. The CT-scan and the electroencephalogram returned to normal. The divalproate was replaced by lithium. After a one-year follow-up, the cognitive and neurological symptomatology did not reappear at the exception of the pre-existing hand tremor. The pathophysiology of valproate induced hyperammonemic encephalopathy remains unclear. A possible mechanism is neuronal toxicity induced by increased intracellular concentrations of glutamate and ammonium in astrocytes. Indeed, these abnormal intracellular concentrations increase the intracellular osmolarity and thus induce rise in intracranial pressure and cerebral oedema. Reversible dementia could be due to a direct toxic effect of valproate on the central nervous system or to an indirect effect mediated through valproate-induced hyperammonemia. It has been suggested that the occurrence of extrapyramidal syndrome could be explained by a disturbance in the GABAergic pathways inducing reversible dopamine inhibition. A drug adverse reaction should always be considered when a patient treated with valproate presents with extrapyramidal symptoms and cognitive disorders even when valproate concentrations are within standard therapeutic ranges.
...
PMID:[A case of Parkinsonian syndrome, cognitive impairment and hyperammonemia induced by divalproate sodium prescribed for bipolar disorder]. 1597 46

<< Previous 1 2 3 4 Next >>