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Query: UMLS:C0018099 (
gout
)
5,192
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Allopurinol, a commonly prescribed medication for
gout
and hyperuricemia, is a frequent cause of severe cutaneous adverse reactions (SCAR), which include the drug hypersensitivity syndrome, Stevens-Johnson syndrome, and toxic epidermal necrolysis. The adverse events are unpredictable and carry significant morbidity and mortality. To identify genetic markers for allopurinol-SCAR, we carried out a case-control association study. We enrolled 51 patients with allopurinol-SCAR and 228 control individuals (135 allopurinol-tolerant subjects and 93 healthy subjects from the general population), and genotyped for 823 SNPs in genes related to drug metabolism and immune response. The initial screen revealed strong association between allopurinol-SCAR and SNPs in the MHC region, including BAT3 (encoding HLA-B associated transcript 3), MSH5 (mutS homolog 5), and MICB (MHC class I polypeptide-related sequence B) (P < 10(-7)). We then determined the alleles of HLA loci A, B, C, and DRB1. The
HLA-B*5801
allele was present in all (100%) 51 patients with allopurinol-SCAR, but only in 20 (15%) of 135 tolerant patients [odds ratio 580.3 (95% confidence interval, 34.4-9780.9); corrected P value = 4.7 x 10(-24)] and in 19 (20%) of 93 of healthy subjects [393.51 (23.23-6665.26); corrected P value = 8.1 x 10(-18)]. HLA alleles A*3303, Cw*0302, and DRB1*0301 were in linkage disequilibrium and formed an extended haplotype with
HLA-B*5801
. Our results indicated that allopurinol-SCAR is strongly associated with a genetic predisposition in Han Chinese. In particular,
HLA-B*5801
allele is an important genetic risk factor for this life-threatening condition.
...
PMID:HLA-B*5801 allele as a genetic marker for severe cutaneous adverse reactions caused by allopurinol. 1574 17
HLA-B57 and HLA-B58 are major histocompatibility class (MHC)-I allotypes that are potentially predictive of important clinical immune phenotypes. HLA-B*5701 is strongly associated with hypersensitivity to the HIV drug abacavir, liver toxicity from the antibiotic flucloxacillin and is a marker for slow progression of HIV AIDS.
HLA-B*5801
is associated with hypersensitivity to allopurinol used to treat hyperuricaemia and recurrent
gout
. Here we describe a monoclonal antibody (mAb) specific for HLA-B57 and HLA-B58 that provides an inexpensive and sensitive screen for these MHC-I allotypes. The usefulness of HLA-B57 screening for prediction of abacavir hypersensitivity was shown in three independent laboratories, including confirmation of the mAb sensitivity and specificity in a cohort of patients enrolled in the PREDICT-1 trial. Our data show that patients who test negative by mAb screening comprise 90%-95% of all individuals in most human populations and require no further human leukocyte antigen (HLA) typing. Patients who test positive by mAb screening should proceed to high-resolution typing to ascertain the presence of HLA-B*5701 or
HLA-B*5801
. Hence, mAb screening provides a low-cost alternative to high-resolution typing of all patients and lends itself to point-of-care diagnostics and rapid ascertainment of low-risk patients who can begin immediate therapy with abacavir, flucloxacillin or allopurinol.
...
PMID:Rapid screening for the detection of HLA-B57 and HLA-B58 in prevention of drug hypersensitivity. 2150 Nov 18
Gout
is a common and very painful inflammatory arthritis caused by hyperuricaemia. This review provides an update on the genetics of hyperuricaemia and
gout
, including findings from genome-wide association studies. Most of the genes that associated with serum uric acid levels or
gout
are involved in the renal urate-transport system. For example, the urate transporter genes SLC2A9, ABCG2 and SLC22A12 modulate serum uric acid levels and
gout
risk. The net balance between renal urate absorption and secretion is a major determinant of serum uric acid concentration and loss-of-function mutations in SLC2A9 and SLC22A12 cause hereditary hypouricaemia due to reduced urate absorption and unopposed urate secretion. However, the variance in serum uric acid explained by genetic variants is small and their clinical utility for
gout
risk prediction seems limited because serum uric acid levels effectively predict
gout
risk. Urate-associated genes and genetically determined serum uric acid levels were largely unassociated with cardiovascular-metabolic outcomes, challenging the hypothesis of a causal role of serum uric acid in the development of cardiovascular disease. Strong pharmacogenetic associations between
HLA-B*5801
alleles and severe allopurinol-hypersensitivity reactions were shown in Asian and European populations. Genetic testing for
HLA-B*5801
alleles could be used to predict these potentially fatal adverse effects.
...
PMID:The genetics of hyperuricaemia and gout. 2294 92
Gout
is a common condition which is mainly treated with the hypo-uricemic agent, allopurinol. Although allopurinol is generally a well-tolerated drug, there is a small risk of developing potentially fatal complications, such as allopurinol hypersensitivity syndrome. Recent advances in pharmacogenomics have made possible the identification of genes which confer susceptibility to specific drugs. A recent multi-national case-control study has reported allopurinol as the most common drug associated with Stevens-Johnson syndrome and toxic epidermal necrolysis. Several studies have established a strong association between the human leukocyte antigen (HLA)-B*5801 gene and development of Stevens-Johnson syndrome and toxic epidermal necrolysis. The allele frequency of
HLA-B*5801
is highest in the South East Asian population.Since other hypo-uricemic agents are available, patients may wish to have
HLA-B*5801
testing before being started on allopurinol. As the test for
HLA-B*5801
is expensive, time-consuming and only available in selected laboratories, there is a need to evaluate the utility and cost-effectiveness of this test in our region.
...
PMID:HLA-B*5801: utility and cost-effectiveness in the Asia-Pacific Region. 2398 44
Gout
is one of the most common forms of arthritis and the prevalence is increasing. Management comprises rapid and effective control of the inflammation in acute
gout
and sustained urate lowering in the long term. Improving the outcomes for cheaper old drugs and for the increasing number of new, more expensive agents is an important clinical goal. The role of pharmacogenetics in predicting response and adverse events to
gout
therapies is of considerable interest. Currently, prospective screening is employed to detect
HLA-B*5801
carriage and glucose-6-phosphate dehydrogenase deficiency, to minimize occurrence of allopurinol hypersensitivity and pegloticase-related hemolytic anemia. In the future it is likely that other genetic markers of drug response will make the transition to clinical practice to further improve the efficacy and safety of
gout
therapies. In this review, we will examine the potential clinical relevance of specific genetic variants in the management of
gout
.
...
PMID:Pharmacogenetic considerations in the treatment of gout. 2587 28
Over the last decade, there have been major advances in the understanding of the genetic basis of hyperuricaemia and
gout
as well as of the pharmacogenetics of urate-lowering therapy. Key findings include the reporting of 28 urate-associated loci, the discovery that ABCG2 plays a central role on extra-renal uric acid excretion, the identification of genes associated with development of
gout
in the context of hyperuricaemia, recognition that ABCG2 variants influence allopurinol response, and the impact of
HLA-B*5801
testing in reducing the prevalence of allopurinol hypersensitivity in high-risk populations. These advances, together with the reducing cost of whole genome sequencing, mean that integrated personalised medicine approaches may soon be possible in clinical practice. Genetic data may inform assessment of disease prognosis in individuals with hyperuricaemia or established
gout
, personalised lifestyle advice, selection and dosing of urate-lowering therapy, and prevention of serious medication adverse effects. In this article, we summarise the discoveries from genome-wide association studies and discuss the potential for translation of these findings into clinical practice.
...
PMID:The genetics of gout: towards personalised medicine? 2856 86
Allopurinol hypersensitivity syndrome (AHS) is a severe and sometimes life-threatening adverse drug reaction. Although AHS is rare, the number of patients with
gout
requiring allopurinol is high, and there are sufficient overall cases of AHS to warrant consideration of preventive measures. Most cases occur within 8-9 weeks of commencing allopurinol, and good patient education at initiation may lead to rapid drug cessation at onset of symptoms. Pretreatment testing for
HLA-B*5801
and avoidance of allopurinol when positive reduces the risk of AHS and is cost-effective in some ethnic groups. A low starting allopurinol dose may reduce AHS risk, but the relationship between maintenance dose and AHS is more controversial. Chronic kidney disease increases AHS risk, but slowly increasing the allopurinol dose in chronic kidney disease has not been associated with AHS. Alternative newer treatments are available for patients at risk of AHS, but similar adverse reactions can also occur with these.
...
PMID:How to prevent allopurinol hypersensitivity reactions? 2927 8
Multiple genetic and nongenetic factors can modify the action of a drug, resulting in varied responses to a particular drug across different individuals. Personalized medicine incorporates the comprehensive knowledge of these factors to facilitate the selection of optimal therapy, reduce adverse drug reactions, increase patient compliance and increase the efficiency of therapy. Pharmacogenomics, which integrates the knowledge of an individual's genetic make-up for diagnostic decisions or therapeutic interventions is closely linked to personalized medicine, and is being increasingly used to prevent adverse drug reactions. There are various reports on genetic associations between particular HLA allotypes and drug hypersensitivities and the strongest associations reported thus far, are with the reverse transcriptase inhibitor, abacavir and HLA-B*5701, the
gout
prophylactic allopurinol and
HLA-B*5801
and the antiepileptic carbamazepine and B*1502, providing a defined disease trigger and suggesting a general mechanism for these associations. Recognizing the strong HLA association, the US FDA has recommended genetic testing before starting abacavir and carbamazepine therapies. To incorporate HLA testing for other drug hypersensitivities and life-threatening reactions it is essential first to establish clear HLA associations, and second, to understand the immune-mechanism by which these drugs induce HLA-linked hypersensitivity. The latter will provide insight into the pathologic mechanisms of drug allergy allowing rational immunotherapy for these life-threatening reactions and the development of alternative drug therapies for hypersensitive patients.
...
PMID:Personalized medicine for HLA-associated drug-hypersensitivity reactions. 2977 51
