Emmanuelle Bondon-Guitton

Drug-induced parkinsonism: a review of 17 years' experience in a regional pharmacovigilance center in France.

Besides antipsychotics, several drugs can induce parkinsonism. We review spontaneous notifications of drug‐induced or ‐worsened parkinsonism to a French regional pharmacovigilance center between 1993 and 2009. During these 17 years, 20,855 adverse drug reactions have been reported, including 155 (0.7%) cases of drug‐induced or ‐worsened parkinsonism. Most of the notifications have involved aged patients (48% between 60 and 79 years) and females (60%). “Seriousness” was found in 43.9% of cases. Worsening of parkinsonism occurred in 28 patients suffering from idiopathic Parkinsons disease. Sixty‐nine percent of drug‐induced or ‐worsened parkinsonism cases were observed during the first 3 months after introduction of the “suspect” drug (involving mainly central dopaminergic antagonists). A second peak (20%) was found 12 months after drug introduction (mainly caused by calcium channel blockers). The most frequently reported parkinsonian symptom was rigidity (78.7%). The three cardinal symptoms were found in 37.4% of notifications. Evolution was favorable (after partial or complete withdrawal of suspect drug[s]) in 88.7% of cases. Among the 261 suspect drugs, most involved central dopaminergic antagonists (49%), followed by antidepressants (8%), calcium channel blockers (5%), peripheral dopaminergic antagonists (5%), and H1 antihistamines (5%). Cases with lithium, valproic acid, amiodarone, anticholinesterases, or trimetazidine were also found. Three notifications were the result of pharmacokinetic interactions. We found that drug‐induced or ‐worsened parkinsonism is an often “serious,” but reversible, adverse drug reaction. It occurred more frequently between 60 and 79 years. Rigidity was the most frequently reported symptom. Approximately 50% of drug‐induced or ‐worsened parkinsonism cases spontaneously reported were related to drugs other than antipsychotics. Drug‐induced or ‐worsened parkinsonism can also be explained by pharmacokinetic drug interactions.

Genetic variants associated with antithyroid drug-induced agranulocytosis: a genome-wide association study in a European population

BACKGROUND Drug-induced agranulocytosis is a potentially life-threatening adverse reaction. Genome-wide association studies (GWASs) in ethnic Chinese people in Taiwan and Hong Kong have shown an association between agranulocytosis induced by antithyroid drugs and the HLA alleles HLA-B*38:02 and HLA-DRB1*08:03. We aimed to identify genetic variants associated with antithyroid drug-induced agranulocytosis in a white European population. METHODS We did a GWAS in 234 European adults with any non-chemotherapy drug-induced agranulocytosis (absolute neutrophil count ≤0·5 × 10(9)/L [≤500/μL]) and 5170 population controls. 39 of the 234 patients had agranulocytosis that was induced by antithyroid drugs (thiamazole [methimazole], carbimazole, or propylthiouracil). After imputation and HLA allele prediction, 9 380 034 single nucleotide polymorphisms (SNPs) and 180 HLA alleles were tested for association. The genome-wide significance threshold was p<5 × 10(-8). FINDINGS Agranulocytosis induced by non-chemotherapy drugs in general was significantly associated with the HLA region on chromosome 6, with odds ratios (ORs) of 3·24 (95% CI 2·31-4·55, p=1·20 × 10(-11)) for HLA-B*27:05 and 3·57 (2·61-4·90, p=2·32 × 10(-15)) for the top SNP (rs114291795). Drug-specific analysis showed that the association with HLA-B*27:05 was largely driven by cases induced by antithyroid drugs. In a multiple logistic regression model, the OR for HLA-B*27:05 was 7·30 (3·81-13·96) when antithyroid drug-induced agranulocytosis was compared with population controls (p=1·91 × 10(-9)) and 16·91 (3·44-83·17) when compared with a small group of hyperthyroid controls (p=5·04 × 10(-4)). Three SNPs were strongly associated with antithyroid drug-induced agranulocytosis: rs652888 (OR 4·73, 95% CI 3·00-7·44, p=1·92 × 10(-11)) and rs199564443 (17·42, 7·38-41·12, p=7·04 × 10(-11)), which were independent of HLA-B*27:05, and rs1071816 (5·27, 3·06-9·10, p=2·35 × 10(-9)) which was in moderate linkage disequilibrium with HLA-B*27:05. In heterozygous carriers of all three SNPs, the predicted probability of antithyroid drug-induced agranulocytosis was about 30% (OR 753, 95% CI 105-6812). To avoid one case of agranulocytosis, based on the possible risk reduction if all three SNPs are genotyped and carriers are treated or monitored differently from non-carriers, roughly 238 patients would need to be genotyped. INTERPRETATION In white European people, antithyroid drug-induced agranulocytosis was associated with HLA-B*27:05 and with other SNPs on chromosome 6. In the future, carriers of these variants could be placed under intensified monitoring or offered alternative treatment for hyperthyroidism. FUNDING Swedish Research Council, Swedish Heart and Lung Foundation, Clinical Research Support at Uppsala University, German Federal Institute for Drugs and Medical Devices, Carlos III Spanish Health Institute, European Regional Development Fund, UK National Institute for Health Research, The Selanders Foundation, Thuréus Foundation, European Commission, and Science for Life Laboratory.

Adverse drug reactions to dopamine agonists: A comparative study in the french pharmacovigilance database†

Pharmacodynamical differences between dopamine agonists (DAs) suggest differences in their adverse drug reactions (ADRs) profile. In this study, frequencies of ADR to DAs or levodopa reports in the French Pharmacovigilance Database were explored. Reports occurring between January 1, 1984 and December 31, 2008 were selected (2,189 for DAs and 1,315 for levodopa). The numbers of ADRs by system organ class were compared using ropinirole as a reference. Diurnal somnolence was less frequently reported with all DAs when compared with ropinirole (P < 0.001). Impulse control disorders (ICDs) were more frequently reported with pramipexole (P < 0.001). Significant difference was found among DAs in the frequency of confusion or disorientation (P < 0.001), nausea and vomiting (P < 0.05), or edemas (P < 0.001). No difference among DAs was observed in the frequency of hallucination or arterial hypotension ADR reports (P = 0.3 and P = 0.1). Pleural effusions were more frequently reported with pergolide or bromocriptine (P < 0.001). Somnolence or ICD reports were less frequent with levodopa, whereas confusion was more frequently reported. In summary, our data show significant differences in the kind of ADRs reported for each DA.

Atropinic (Anticholinergic) Burden in Parkinson's Disease

Use of atropinic drugs remains controversial in Parkinsons disease (PD) because there is insufficient evidence about their efficacy and they can induce serious adverse drug reactions. Atropinic risk scales were developed to help to identify atropinic drugs in prescription forms and to evaluate their burden in clinical practice. In the present review, we discuss the few studies investigating atropinic burden in PD and present the results of our study indicating that atropinic drugs are still widely prescribed in PD (almost 3 of 5 prescriptions) with a clinically significant atropinic burden in around 1 of 6 PD patients. Drugs mainly responsible for high values of atropinic burden were those used for nonmotor symptoms. Clinically significant atropinic burdens were mainly induced by associations of several “low‐risk” drugs. Physicians must be aware that in addition to classical atropinic antiparkinsonian drugs, many others (psychotropics) can contribute to increased atropinic burden in PD patients.

Drug–drug interactions with imatinib: An observational study

AbstractMany patients treated with imatinib, used in cancer treatment, are using several other drugs that could interact with imatinib. Our aim was to study all the drug–drug interactions (DDIs) observed in patients treated with imatinib.We performed 2 observational studies, between the 1st January 2012 and the 31st August 2015 in the Midi-Pyrénées area (South Western France), using the French health insurance reimbursement database and then the French Pharmacovigilance Database (FPVD).A total of 544 patients received at least 1 reimbursement for imatinib. Among them, 486 (89.3%) had at least 1 drug that could potentially interact with imatinib. Paracetamol was the most frequent drug involved (77.4%). Proton pump inhibitors, dexamethasone and levothyroxine, were found in >10% of patients. In the FPVD, among a total of 25 reports of ADRs with imatinib recorded in the Midi-Pyrénées area, 10 (40%) had potential DDIs with imatinib. Imatinib was most frequently prescribed by hospital physicians and drugs interacting with imatinib, by general practitioners.Our study showed that at least 40% of the patients treated with imatinib were at risk of DDIs and that all prescribers must be cautious with DDIs in patients treated with imatinib. During imatinib treatment, we particularly recommend to limit the dose of paracetamol at 1300 mg per day, to avoid the use of dexamethasone, and to double the dose of levothyroxine.

The contribution of pharmacogenetics to pharmacovigilance.

Since the beginning of this century, information on pharmacogenetics appears in the summary of product characteristics (SPC) of drugs. Pharmacogenetic tests particularly concern the enzymes involved in the metabolism of drugs, among which P450 cytochromes. Some patients known as poor metabolisers eliminate some drugs more slowly, causing overdoses and adverse drug reactions (ADRs). The best-known examples are AVK and VKORC1-CYP2C9 or clopidogrel and CYP2C19. In the USA, the tests are recommended before the introduction of these drugs to prevent the occurrence of ADRs. Other tests are also commonly performed to address the toxicity of certain anticancer drugs (DPYD-capecitabine, UGT1A1-irinotecan, TPMT 6-mercaptopurine). Pharmacogenetic testing is also available to identify HLA loci that are very strongly associated with the occurrence of immuno-allergic reactions to a specific drug. The best-known example is HLA-B*5701, strongly associated with hypersensitivity to abacavir, and this test is now always prescribed before the instatement of this drug.

Peripheral arterial occlusive disease during ponatinib therapy after failure of imatinib: a case report

Peripheral vascular adverse events have been reported with ponatinib treatment in chronic myeloid leukaemia (CML) after failure of dasatinib or nilotinib. We here report peripheral arterial occlusive disease (PAOD) in a patient who had previously received only imatinib as tyrosine kinase inhibitor.

Statins and diabetes: is there any difference between the different statins?

We read with great interest the paper from Thakker et al 1 discussing the risk of developing diabetes during statin exposure. After a systematic literature review and network meta‐analysis of 29 randomized trials including 163,039 participants, the authors found a significant association for statins in general, atorvastatin or rosuvastatin in particular, but not with other statins. 1 Since these results were obtained from clinical trials, we decided to investigate this safety signal in real conditions of life, using reports of adverse drug reactions (ADRs) in a pharmacovigilance database. Using Vigibase®, the World Health Organization (WHO) Global Individual Case Safety Report (ICSR) database , which included until March 2017 over 14 million reports, we performed a disproportionality analysis for the signal of diabetes with statins using the case/noncase method. ICSRs were included until March 16, 2017, whatever the country of origin and only if age (≥18 y) and gender were known. Doses were not taken into account since they are not exhaustively recorded in Vigibase®. Cases were ICSRs with diabetes and noncases all other ICSRs reports registered during the same period in Vigibase®. Diabetes cases were defined as reports registered under the 2 HLT MedDRA terms “diabetes mellitus” or “hyperglycemic conditions” in the SOC (system organ class) “Metabolism and Nutrition Disorders.” Drug exposure to statins was identified using Anatomical Therapeutic and Clinical (ATC) code C10AA (HMG CoA reductase inhibitors defined as “suspected” or “concomitant”). Statins included were atorvastatin, cerivastatin, fluvastatin, lovastatin, pitavastatin (alias itavastatin), pravastatin, rosuvastatin, and simvastatin. Strength of the link between exposure to statins

Sulfasalazine‐Induced Agranulocytosis Is Associated With the Human Leukocyte Antigen Locus

Agranulocytosis is a serious, although rare, adverse reaction to sulfasalazine, which is used to treat inflammatory joint and bowel disease. We performed a genome‐wide association study comprising 9,380,034 polymorphisms and 180 HLA alleles in 36 cases of sulfasalazine‐induced agranulocytosis and 5,170 population controls. Sulfasalazine‐induced agranulocytosis was significantly associated with the HLA region on chromosome 6. The top hit (rs9266634) was located close to HLA‐B, odds ratio (OR) 5.36 (95% confidence interval (CI) (2.97, 9.69) P = 2.55 × 10−8). We HLA‐sequenced a second cohort consisting of 40 cases and 142 treated controls, and confirmed significant associations with HLA‐B*08:01, OR = 2.25 (95% CI (1.02, 4.97) P = 0.0439), in particular the HLA‐B*08:01 haplotype HLA‐DQB1*02:01‐DRB1*03:01‐B*08:01‐C*07:01, OR = 3.79 (95% CI (1.63, 8.80) P = 0.0019), and with HLA‐A*31:01, OR = 4.81 (95% CI (1.52, 15.26) P = 0.0077). The number needed to test for HLA‐B*08:01 and HLA‐A*31:01 to avoid one case was estimated to be 1,500. We suggest that intensified monitoring or alternative treatment should be considered for known carriers of HLA‐B*08:01 or HLA‐A*31:01.

Mania associated with ranitidine: a case report and review of literature.

H2 receptor antagonists can be associated with central adverse drug reactions (ADRs), like confusion, delirium, hallucinations, slurred speech or headaches. We report here a ‘serious’ case of severe mania leading to hospitalization in a 42‐year‐old alcohol‐dependent man, 4 days after ranitidine introduction. Review of literature showed that this ‘very rare’ ADR occurs mainly in patients with predisposing factors: age, decrease in renal and/or hepatic function, polymedication, alcohol. Knowledge of this ADR can be particularly important for these drugs widely used as self‐medication.