Project description:Investigating delayed-onset Drug Hypersensitivity Reactions Prospectively

Project description:Hypersensitivity reactions to medications constitute a growing problem in the clinical practice. In order to study the molecular basis underlying the pathogenesis of non-immediate hypersensitivity reactions to drugs, we characterized the gene expression profiles of PBMCs isolated from patients during the acute phase and upon resolution of the clinical symptoms using a cDNA array technology. Eighty five genes were found to be differentially expressed during the acute phase of drug-induced delayed hypersensitivity reactions. Furthermore, ninety two genes with distinct expression patterns during the acute phase of severe and benign diseases were identified. Keywords: Comparison between disease and healty status

Project description:Hypersensitivity reactions to medications constitute a growing problem in the clinical practice. In order to study the molecular basis underlying the pathogenesis of non-immediate hypersensitivity reactions to drugs, we characterized the gene expression profiles of PBMCs isolated from patients during the acute phase and upon resolution of the clinical symptoms using a cDNA array technology. Eighty five genes were found to be differentially expressed during the acute phase of drug-induced delayed hypersensitivity reactions. Furthermore, ninety two genes with distinct expression patterns during the acute phase of severe and benign diseases were identified. Keywords: Comparison between disease and healty status Expression profiles of 11835 genes were analyzed in peripheral blood mononuclear cells from 13 patients with different clinical entities . Two samples were analyze from each patient. The first blood sample was drawn during the acute phase of the disease. The second blood sample was obtained upon resolutin of the clinical symptoms. The ratio between gene expression levels in both samples was calculated for each patient.

Project description:This research study will examine how often hypersensitivity, or allergic reactions, occur in patients receiving the chemotherapy medication oxaliplatin. Hypersensitivity reactions can vary from a transient skin rash and fever to more severe symptoms such as shortness of breath, chest tightness, and a more severe allergic reaction that can affect blood pressure called anaphylaxis. We will be examining how often hypersensitivity reactions occur and how severe the reactions are when they occur. We will also examine whether there are factors that place people at risk for developing hypersensitivity reactions to oxaliplatin. In an optional portion to this study, we will examine whether allergy skin testing can predict whether someone will develop a hypersensitivity reaction. Participants who develop a moderate to severe allergic reaction to oxaliplatin will be invited to participate in an additional portion of the study examining a desensitization process. This part of the study will examine whether a desensitization process can prevent future hypersensitivity reactions to oxaliplatin in patients who previously developed moderate to severe hypersensitivity reactions and allow therapy with oxaliplatin to continue.

Project description:Nevirapine is a non-nucleoside reverse transcriptase inhibitor, a class of antiretroviral drug, used for the treatment of HIV-1 infection. Despite its wide use, nevirapine treatment has been associated with a significant incidence of different kind of hypersensitivity reactions (HSRs). We used microarrays to find significant genes that can relate to Nevirapine-persuaded hypersensitivity reactions in ‘acute’ patients compared to ‘recovered’ and/or ‘tolerant’ patients.

Project description:An antiepileptic drug carbamazepine is well tolerated by the majority of patients, but can cause severe and potentialy fatal hypersensitivity reactions in a small number of individuals. The aim of this study was to identify genetic predictors of hypersensitivity reactions to carbamazepine. We undertook a genome-wide association study (GWAS) in 22 patients of European ancestry with carbamazepine-induced hypersensitivity syndrome (HSS) and compared our data with genotypes from a healthy population within the WTCCC. We performed imputation of classical HLA alleles according to a recently described method (Science. 2010 Dec 10;330(6010):1551-7. Epub 2010 Nov 4). GWAS statistical analysis was performed using logistic regression with an additive model of inheritance.

Project description:Diphencyprone (DPCP) is a hapten that induces delayed-type hypersensitivity (DTH) reactions. MicroRNAs (miRNAs) are short non-coding RNAs that negatively regulate gene expression, and have been implicated in various inflammatory skin diseases, but their role in DTH reactions is not well understood. We generated global miRNA expression profiles (using next-generation sequencing) of DPCP reactions in skin of 7 healthy volunteers at 3, 14, and 120 days after challenge. Compared to placebo-treated sites, DPCP-challenged skin at 3 days (peak inflammation) had 127 miRNAs significantly deregulated. At 14 days (during resolution of inflammation), 43 miRNAs were deregulated and, at 120 days (when inflammation had completely resolved), 6 miRNAs were upregulated. While some miRNAs have been observed in psoriasis or atopic dermatitis, most of the deregulated miRNAs have not yet been studied in the context of skin biology or immunology. Across the three time points studied, many but not all miRNAs were uniquely expressed. As various miRNAs may influence T cell activation, this may indicate that the miRNAs exclusively expressed at different time points function to promote or resolve skin inflammation, and therefore may inform on the paradoxical ability of DPCP to treat both autoimmune conditions (alopecia areata) and conditions of ineffective immunity (melanoma).

Project description:1. Background Cetuximab (trade name Erbitux) is a murine-human chimeric monoclonal antibody to human epidermal growth factor receptor (EGFR). This drug has been used as a treatment for colorectal cancer and head and neck cancer. It is known that allergic reactions can occur in more than 5% of the patients, although the side effects are relatively low compared with other chemotherapeutic agents. It is known that cetuximab can induce hypersensitivity even at the first administration, unlike other anticancer drugs. In this study, we aimed to establish a model to predict patients with hypersensitivity reaction before administration of cetuximab and to provide safe chemotherapy. 2. Recruitment method and consent procedure The study is designed for analysis patients scheduled for administration of cetuximab for the first time. Patients matching the selection and exclusion criteria with voluntary agreement to the study will be enrolled. Enrolled patients will be tested for skin prick test and serum sIgE before cetuximab administration.

Project description:Interventions: Dexamethasone 13.2mg/body i.v.(day1) Oxaliplatin 130mg/m2 i.v. (day1) Bevaciumab 7.5mg/Kg i.v. (day1) Capecitabine2,000mg/m2,p.o.(day1-14) to be repeated every 3 weeks Primary outcome(s): Hypersensitivity reaction incidence Study Design: Single arm Non-randomized

Project description:Delayed-type hypersensitivity (DTH) is caused by a broad number of drugs used in clinic, and antineoplastic drugs show an elevated proportion of DTH, which potentially affects the quality of life of patients. Despite the serious problem and the negative economic impact deriving from market withdrawal of such drugs and high hospitalization costs, nowadays, there are no standard validated methods in vitro or in vivo to evaluate the sensitizing potential of drugs in the preclinical phase. Enhanced predictions in preclinical safety evaluations are really important, and for that reason, the aim of our work is to adapt in vitro DPRA, ARE-Nrf2 luciferase KeratinoSensTM, and hCLAT assays for the study of the sensitizing potential of antineoplastic agents grouped by mechanism of action. Our results reveal that the above tests are in vitro techniques able to predict the sensitizing potential of the tested antineoplastics. Moreover, this is the first time that the inhibition of the VEGFR1 pathway has been identified as a potential trigger of DTH.