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| ID | Type | Description | Link |
|---|---|---|---|
| 2010-A00405-34 | Registry Identifier | ID-RCB |
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| Name | Class |
|---|---|
| URC-CIC Paris Descartes Necker Cochin | OTHER |
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A limited number of relatively contradictory studies have suggested that the development of serious ototoxicity in children treated with cisplatin or, more rarely, carboplatin could be partly related to genetic risk factors affecting detoxification enzymes and membrane transporters of platinum derivatives. The objective of this study is therefore to identify genetic variants associated with the development of platinum ototoxicity in patients treated with cisplatin or carboplatin (minimum follow-up of 3 years) for one of the following diseases: neuroblastoma, hepatoblastoma, retinoblastoma, malignant germ cell tumour, osteosarcoma, high-risk or recurrent Wilms' tumour, non-parameningealrhabdomyosarcoma. A total of 180 patients, corresponding to 60 cases with grade 3 or 4 ototoxicity and 120 controls with no signs of ototoxicity (separate complete audiograms for each ear) will be included. A saliva sample will be used to obtain DNA for pharmacogenetic studies. The value of this study will be to define a population at high risk of developing ototoxicity in order to adapt treatment, or even develop preventive treatment of ototoxicity based on antioxidant medications
A study conducted in children demonstrated an association between GSTM1 and GSTT1 polymorphisms (presence of at least one null genotype) and the development of grade 3 or higher toxicity related to treatment of medulloblastoma. However, this study, based on a small sample of children (42 children, 19 of whom experienced severe ototoxicity) and comprising patients receiving very different treatments, was unable to determine the proportion of toxicity specifically related to platinum derivatives, as some patients also received brain irradiation. Furthermore, this association between GST polymorphisms and toxicity was not observed when the analysis was specifically confined to grade 3 or higher ototoxicity. Finally, the role of GSTP1 Ile105Val polymorphism has not been evaluated in children (Barahmani et al., 2009). To our knowledge, only one study has specifically evaluated the potential impact of GST polymorphism on cisplatin ototoxicity in children. This study showed a protective effect of the GSTM3*B variant, but did not observe a protective effect of the GSTP1 105Val allele with respect to ototoxicity, as demonstrated in adults for neurotoxicity. However, these findings were based on small sample sizes (20 patients with ototoxicity versus 19 patients without ototoxicity) and the ototoxicity experienced by these patients was grade 2 (8 patients) or 3 (12 patients) with no cases of grade 4 ototoxicity (Peters et al., 2000). The results of this study therefore need to be confirmed by a study comprising a greater number of patients, cases and controls, including patients with more severe ototoxicity. Ross et al., studying drug metabolism enzymes, demonstrated a highly significant association between cisplatin ototoxicity in children and genetic variants of TPMT (rs12201199, p = 0.00022, OR = 17.0) and COMT (rs9332377, p = 0.00018, OR = 5.5). However, as the role of these enzymes in detoxification of platinum derivatives has not been previously reported, these results need to be confirmed by other studies with, in particular, matching for age, exclusion of cases of grade 2 ototoxicity from the group of severe ototoxicity, and a greater number of control patients (Ross et al., 2009). Finally, no study has investigated the genetic factors involved in carboplatin ototoxicity in children. One study concerning membrane transporters showed that a common polymorphism situated in the promoter region of the MRP2 (-24C>T) transporter gene was associated with a better response to platinum-based chemotherapy (allelic frequency: 18% of Caucasian) (Cascorbi, 2006; Sun et al., 2009). It would be interesting to determine whether polymorphisms affecting this gene can also modulate the toxicity of these treatments. A polymorphism of the gene coding for the influx transporter OCT2 (c.808G>T; p.270Ala>Ser) has also been shown to be associated in vivo and in vitro in mice with a protective effect in relation to cisplatin nephrotoxicity and ototoxicity (Ciarimboli et al.; Filipski et al., 2009), but the potential influence of this polymorphism on platinum ototoxicity has never been demonstrated in man. It therefore appears very interesting to study the potential impact of this polymorphism in the context of our study.
In summary, all of these studies clearly confirm the hypothesis that genetic factors are involved in the predisposition of some children to experience harmful ototoxic effects of platinum derivatives, particularly cisplatin and carboplatin. These studies also suggest the existence of good candidate gene variants likely to be associated with the development of this ototoxicity. However, the results of most these studies have either not been reproduced or remain controversial, indicating the need for confirmation studies based on larger sample sizes and more homogeneous patient groups in terms of treatment, as in the Otoplat study.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| patients with grade 3 or 4 Brock ototoxicity |
| ||
| patients controls with no signs of ototoxicity |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Genetic study | Genetic | study of mutations of metabolic enzymes and membrane transport genes, which will be performed by sequencing. |
|
| Measure | Description | Time Frame |
|---|---|---|
| genetic factors (drug metabolism enzymes, membrane transporters) predisposing to cisplatin and carboplatin ototoxicity in children | Day 0 |
| Measure | Description | Time Frame |
|---|---|---|
| genetic factors predisposing to aminoglycoside ototoxicity; | Day 0 | |
| To provide a rationale for prevention of ototoxicity by the use of antioxidant medications. | Day 0 |
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Inclusion Criteria:
To patients:
Exclusion Criteria:
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180 patients will be included : 60 patients with grade 3 or 4 Brockototoxicityand 120 patients controls with no signs of ototoxicity (separate complete audiograms for each ear)
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Institut Curie | Paris | 75005 | France |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 30112115 | Result | Lui G, Bouazza N, Denoyelle F, Moine M, Brugieres L, Chastagner P, Corradini N, Entz-Werle N, Verite C, Landmanparker J, Sudour-Bonnange H, Pasquet M, Verschuur A, Faure-Conter C, Doz F, Treluyer JM. Association between genetic polymorphisms and platinum-induced ototoxicity in children. Oncotarget. 2018 Jul 20;9(56):30883-30893. doi: 10.18632/oncotarget.25767. eCollection 2018 Jul 20. |
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| ID | Term |
|---|---|
| D009369 | Neoplasms |
| D034381 | Hearing Loss |
| D000081015 | Ototoxicity |
| ID | Term |
|---|---|
| D006311 | Hearing Disorders |
| D004427 | Ear Diseases |
| D010038 | Otorhinolaryngologic Diseases |
| D012678 | Sensation Disorders |
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| ID | Term |
|---|---|
| D056726 | Genetic Association Studies |
| ID | Term |
|---|---|
| D005821 | Genetic Techniques |
| D008919 | Investigative Techniques |
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Saliva
| Genetic study MT-RN1 | Genetic | study of mutations of the mitochondrial gene MT-RN1, which will be performed by sequencing. |
|
| D009461 |
| Neurologic Manifestations |
| D009422 | Nervous System Diseases |
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
| D010335 | Pathologic Processes |
| D064420 | Drug-Related Side Effects and Adverse Reactions |
| D064419 | Chemically-Induced Disorders |
| D011832 | Radiation Injuries |
| D014947 | Wounds and Injuries |