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Symptom
Drug
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Compound
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Gene/Protein
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Target Concepts:
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Query: UMLS:C0409974 (
lupus
)
22,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In order to avoid inappropriate therapy and prolonged morbidity, it is important to recognise when a patient's rheumatic complaints are due to drugs. However, this is often difficult because of the large number of drugs that have been implicated and the diversity of clinical presentations. Arthropathy may be seen with several different syndromes, including drug-induced
lupus erythematosus
(DILE), serum sickness and gout. The most widely reported of these is DILE, which usually develops after some months or even years of drug therapy. While many authors do not specifically require their presence for the diagnosis of DILE, antinuclear antibodies have been detected in the great majority of reported patients with DILE, whatever the causative drug. In contrast, patients who develop arthropathy soon after commencing a drug rarely have antinuclear antibodies and appear to be distinct from patients with DILE. Apart from arthropathy, a number of other syndromes that appear to have an immunological basis may be induced by drugs. Cutaneous vasculitis is not uncommon and drugs are frequently considered to be the aetiological factor. Whether drugs may cause larger vessel systemic vasculitis is less certain. Rarely, polymyositis and scleroderma-like syndromes have been associated with drug therapy. Corticosteroid-induced osteoporosis is a complication of all the corticosteroid preparations that are widely used at present. However, the development of deflazacort, a so-called 'bone-sparing' steroid, has raised the possibility that the effect of corticosteroids on bone may be separable, at least in part, from the other actions of these drugs. Data have been conflicting with regard to whether there is a 'safe' dose of corticosteroid. Similarly, it is unclear whether prophylactic therapy with agents such as calcium, fluoride and vitamin D is beneficial. Nonetheless, recent findings suggest that approaches will be developed to minimise the risk of osteoporosis in patients who require corticosteroids. There are a number of other ways in which drugs may affect bones.
Osteomalacia
is a well-known but uncommon complication of treatment with anticonvulsants and occasionally other drugs. The mechanism probably relates to the induction of hepatic enzymes and the consequent increased metabolism of vitamin D in patients with borderline levels initially. Osteosclerosis may also result from drug therapy; usually with fluoride or retinol (vitamin A) and its analogues. With continued research, the true spectrum of drug-induced rheumatic syndromes should become more clearly defined.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Drug-induced rheumatic syndromes. Diagnosis, clinical features and management. 249 Jan 48
Bilateral simultaneous and spontaneous patellar tendon ruptures are exceedingly rare. The diagnosis is established by clinical examination. Early diagnosis and surgical repair is essential to provide a satisfactory functional result. A case of patella tendon rupture on the right side and a fracture of the tuberositas tibiae on the other one after minor trauma in an 31-year-old woman with
osteomalacia
is presented. In case of spontaneous and bilateral tendon ruptures other diseases, especially generalized bone diseases, systemic
lupus
erythematodes, metabolic diseases and rheumatoid arthritis should be excluded.
...
PMID:[Spontaneous and simultaneous rupture of the right patellar ligament and avulsion fracture of the left tibial tuberosity in osteomalacia]. 280 10
The first treatment of pregnant women with antiphospholipid antibody syndrome (APLS) employed high doses of corticosteroids, plus low dose aspirin, with the goal of suppressing production of the autoantibody. Corticosteroids (usually prednisone), even when much lower doses are used, and even when tapered after midpregnancy, have been associated with significant maternal and obstetric risks and side effects: the most important are
osteomalacia
and preterm delivery (often precipitated by premature rupture of the membranes). Since the publication of a randomized trial demonstrating equivalent live birth rates of about 75% whether heparin or prednisone was used for treatment (plus low dose aspirin), the use of adjusted doses of heparin, together with low dose aspirin, has replaced prednisone for treatment of pregnant women; although prednisone may still be needed to treat manifestations of associated autoimmune disorders. A recent randomized trial has shown that the addition of heparin to aspirin is probably superior to treatment with aspirin alone. To achieve prophylactic levels of plasma heparin equivalent to those measured in patients who are not pregnant and are treated with the usual dose of standard heparin of 5000 IU every 12 h, the heparin dose required for treatment of pregnant women is usually higher. For that reason, heparin doses should be adjusted using the nadir APTT, or better plasma heparin measured by a factor Xa inhibition assay at the 2 h post-injection peak. Although low molecular weight heparin has been shown to be useful in prevention of fetal resorption in a mouse model, and appears to be equally safe for treatment of pregnant women, we still have no published data to show therapeutic equivalency, with respect to treatment of APLS-complicated pregnancy, to standard heparin preparations, and none that demonstrate any lower risk for the complication of most concern when heparin is given to pregnant women-osteopenia. Similarly, intravenous infusion of gamma globulins (IVG) appears on the basis of case reports to be effective additional treatment in cases where standard therapy has failed. Gamma globulin preparations contain anti-idiotypic antibodies that have been shown to bind to patient antiphospholipid antibodies. The place for the addition of IVG to standard therapy has not been defined, but clinically significant and corticosteroid-resistant thrombocytopenia complicating antiphospholipid antibody syndrome might be one indication for primary treatment with IVG +/- low dose aspirin. Overall, live birth rates in most treatment studies are in the range of 70-80%. The reported birth rate information, however, cannot be compared between studies. None of the studies reported have used tools such as logistic regression analysis to allow for such significant predictors of live birth as the number of prior miscarriages, maternal age, medical history, or a history of fetal death (loss of a viable and chromosomally normal fetus after the 10th gestational week).
Lupus
1996 Oct
PMID:Prevention of fetal death in the antiphospholipid antibody syndrome. 890 84
The purpose of this article is to review the causes, the clinical manifestations and the management of the more frequent drug-induced rheumatic disorders. These include: (i) articular and periarticular manifestations induced by fluoroquinolones, nonsteroidal anti-inflammatory drugs, injections of corticosteroids, and retinoids; (ii) multisystemic manifestations such as drug-induced
lupus
and arthritis induced by vaccination, Bacillus Calmette-Guerin therapy and cytokines; (iii) drug-induced disorders of bone metabolism (corticosteroid-induced osteoporosis, drug-induced
osteomalacia
and osteonecrosis); and (iv) iatrogenic complex regional pain syndromes. Disorders caused by nonpharmacological and rarely used treatments have been deliberately excluded. Knowledge of these drug-induced clinical symptoms or syndromes allows an earlier diagnosis and treatment, and earlier drug withdrawal if necessary. With the introduction of new medications such as the recombinant cytokines and antiretroviral treatments, the number of drug-induced rheumatic disorders is likely to increase.
...
PMID:Drug-induced rheumatic disorders: incidence, prevention and management. 1105 Dec 16
Many drugs can induce adverse effects such as rheumatoid disorders, which we need to be aware of in order to best detect and manage them. New drugs are constantly entering the marketplace and can cause an increasing number of disorders. Through this article, we review the prevention and pharmacological management of drug-induced rheumatic disorders. These include articular and peri-articular manifestations induced by fluoroquinolones, retinoids, cyclosporin, drug-induced disorders of bone metabolism such as corticosteroid-induced osteoporosis and drug-induced
osteomalacia
, and multisystemic manifestations including drug-induced
lupus
and arthritis induced by vaccinations and cytokines.
...
PMID:The pharmacological management of drug-induced rheumatic disorders. 1182 5
Drug-induced musculoskeletal disorders represent a broad clinical spectrum, from asymptomatic biological abnormalities to severe and even life-threatening diseases. Since an increasing number of drugs have been implicated in inducing rheumatic symptoms and/or syndromes, this review is not meant to be exhaustive, bearing in mind that the development of any musculoskeletal disorder should be considered as possibly related to a medication. The purpose of this article is to provide an overview of the more frequent drug-induced musculoskeletal disorders. These include: (i) arthralgias and arthropathies, including chondropathies and inflammatory arthritis; (ii) connective tissue diseases, especially
lupus
-like syndromes; (iii) periarticular disorders, including tendinopathies, enthesopathies and frozen shoulder; (iii) bone diseases, such as osteoporosis,
osteomalacia
and osteonecrosis; and (iv) myopathies. Although virtually all drug classes may induce musculoskeletal disorders, a significant part of them are related to corticosteroids, vaccines, antibacterials and lipid-lowering agents. Knowledge of drug-induced musculoskeletal disorders avoids carrying out unnecessary investigations, and allows optimal management of the patients, i.e. early discontinuation of the offending agent, adequate treatment monitoring and/or intervention with appropriate preventive actions.
...
PMID:Drug-induced musculoskeletal disorders. 1719 69
