The use of pharmacogenomics, epigenomics, and transcriptomics to improve childhood asthma management: Where do we stand?

Farzan, Niloufar; Vijverberg, Susanne J. H.; Kabesch, Michael; Sterk, Peter J.; Zee, Anke‐Hilse Maitland‐van der

doi:10.1002/ppul.23976

Cited by 26 publications

(30 citation statements)

References 136 publications

(291 reference statements)

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“…As predicted [70], individualized medicine in this first phase which has started now will rather restrict access to drugs than tailor new drugs to individual needs. Using genetic and nongenetic data such as transcriptomics, epigenetics, and metabolomics, asthma and allergy patients may be first characterized as nonresponders to standard therapy as discussed in a previous conceptual paper [71]. In those patients, even though high doses of steroids and other drugs are administered, their disease is not controlled, leading to ever-increasing amounts of drugs with side effects, uncontrolled symptoms, ER visits, and hospital admissions.…”

Section: Genetics and Epigenetics Play A Role In The Response To Clasmentioning

confidence: 99%

Recent findings in the genetics and epigenetics of asthma and allergy

Kabesch¹,

Tost

2020

Semin Immunopathol

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In asthma and allergy genetics, a trend towards a few main topics developed over the last 2 years. First, a number of studies have been published recently which focus on overlapping and/or very specific phenotypes: within the allergy spectrum but also reaching beyond, looking for common genetic traits shared between different diseases or disease entities. Secondly, an urgently needed focus has been put on asthma and allergy genetics in populations genetically different from European ancestry. This acknowledges that the majority of new asthma patients today are not white and asthma is a truly worldwide disease. In epigenetics, recent years have seen several large-scale epigenome-wide association studies (EWAS) being published and a further focus was on the interaction between the environment and epigenetic signatures. And finally, the major trends in current asthma and allergy genetics and epigenetics comes from the field of pharmacogenetics, where it is necessary to understand the susceptibility for and mechanisms of current asthma and allergy therapies while at the same time, we need to have scientific answers to the recent availability of novel drugs that hold the promise for a more individualized therapy.

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Section: Genetics and Epigenetics Play A Role In The Response To Clasmentioning

confidence: 99%

Recent findings in the genetics and epigenetics of asthma and allergy

Kabesch¹,

Tost

2020

Semin Immunopathol

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“…The most important ADRs by consensus for each drug class varied; for beta-2 agonists (SABA or LABA) it was tachycardia, for corticosteroids it was both adrenal suppression/crisis and reduced growth, for LTAs it was sleep/ behaviour disturbances, and for theophylline it was nausea and vomiting. Not all participants completed the survey for (14) Adrenal suppression crisis (11) Sleep/behaviour disturbances (12) Nausea and vomiting (9) Arrhythmias (9) Reduced growth (11) Headache 7Arrhythmias 7Fine Tremor (8) Candidiasis (4) Nausea and vomiting (5) Headache (5) Hypokalaemia 6 ADRs of each drug. For theophylline, 39% reported that the drug was no longer used in current treatment steps.…”

Section: Survey Resultsmentioning

confidence: 99%

“…In addition, a patient’s genotype can affect outcomes of treatment in asthma [ 6 – 8 ]. The data from these pharmacogenomic studies of asthma medication efficacy in children have progressed to the point where there are now polymorphisms approaching clinical utility [ 9 ].…”

Section: Introductionmentioning

confidence: 99%

Pharmacogenomic associations of adverse drug reactions in asthma: systematic review and research prioritisation

et al. 2020

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A systematic review of pharmacogenomic studies capturing adverse drug reactions (ADRs) related to asthma medications was undertaken, and a survey of Pharmacogenomics in Childhood Asthma (PiCA) consortia members was conducted. Studies were eligible if genetic polymorphisms were compared with suspected ADR(s) in a patient with asthma, as either a primary or secondary outcome. Five studies met the inclusion criteria. The ADRs and polymorphisms identified were change in lung function tests (rs1042713), adrenal suppression (rs591118), and decreased bone mineral density (rs6461639) and accretion (rs9896933, rs2074439). Two of these polymorphisms were replicated within the paper, but none had external replication. Priorities from PiCA consortia members (representing 15 institution in eight countries) for future studies were tachycardia (SABA/LABA), adrenal suppression/crisis and growth suppression (corticosteroids), sleep/behaviour disturbances (leukotriene receptor antagonists), and nausea and vomiting (theophylline). Future pharmacogenomic studies in asthma should collect relevant ADR data as well as markers of efficacy.

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“…In the last year, the role of different omics in asthma treatment response has been recapitulated in different reviews [16][17][18][19][20][21]. This review aims to provide an update on the latest findings in omic studies of pediatric asthma treatment response.…”

Section: Introductionmentioning

confidence: 99%

Precision Medicine in Childhood Asthma: Omic Studies of Treatment Response

Pérez-García

Herrera‐Luis

Lorenzo-Díaz

et al. 2020

IJMS

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Asthma is a heterogeneous and multifactorial respiratory disease with an important impact on childhood. Difficult-to-treat asthma is not uncommon among children, and it causes a high burden to the patient, caregivers, and society. This review aims to summarize the recent findings on pediatric asthma treatment response revealed by different omic approaches conducted in 2018–2019. A total of 13 studies were performed during this period to assess the role of genomics, epigenomics, transcriptomics, metabolomics, and the microbiome in the response to short-acting beta agonists, inhaled corticosteroids, and leukotriene receptor antagonists. These studies have identified novel associations of genetic markers, epigenetic modifications, metabolites, bacteria, and molecular mechanisms involved in asthma treatment response. This knowledge will allow us establishing molecular biomarkers that could be integrated with clinical information to improve the management of children with asthma.

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The use of pharmacogenomics, epigenomics, and transcriptomics to improve childhood asthma management: Where do we stand?

Cited by 26 publications

References 136 publications

Recent findings in the genetics and epigenetics of asthma and allergy

Recent findings in the genetics and epigenetics of asthma and allergy

Pharmacogenomic associations of adverse drug reactions in asthma: systematic review and research prioritisation

Precision Medicine in Childhood Asthma: Omic Studies of Treatment Response

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