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2. Mapping of Data-Sharing Repositories for Paediatric Clinical Research—A Rapid Review.

Author

Felisi, Mariagrazia, Bonifazi, Fedele, Toma, Maddalena, Pansieri, Claudia, Leary, Rebecca, Hedley, Victoria, Cornet, Ronald, Reggiardo, Giorgio, Landi, Annalisa, D'Ercole, Annunziata, Malik, Salma, Nally, Sinéad, Sen, Anando, Palmeri, Avril, Bonifazi, Donato, and Ceci, Adriana

Subjects
MEDICAL research, CONSCIOUSNESS raising, DATA libraries, PEDIATRICS, CHILD patients
Abstract

The reuse of paediatric individual patient data (IPD) from clinical trials (CTs) is essential to overcome specific ethical, regulatory, methodological, and economic issues that hinder the progress of paediatric research. Sharing data through repositories enables the aggregation and dissemination of clinical information, fosters collaboration between researchers, and promotes transparency. This work aims to identify and describe existing data-sharing repositories (DSRs) developed to store, share, and reuse paediatric IPD from CTs. A rapid review of platforms providing access to electronic DSRs was conducted. A two-stage process was used to characterize DSRs: a first step of identification, followed by a second step of analysis using a set of eight purpose-built indicators. From an initial set of forty-five publicly available DSRs, twenty-one DSRs were identified as meeting the eligibility criteria. Only two DSRs were found to be totally focused on the paediatric population. Despite an increased awareness of the importance of data sharing, the results of this study show that paediatrics remains an area in which targeted efforts are still needed. Promoting initiatives to raise awareness of these DSRs and creating ad hoc measures and common standards for the sharing of paediatric CT data could help to bridge this gap in paediatric research. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Synthesis, antiarrhythmic activity, and toxicological evaluation of mexiletine analogues

Author

Roselli, Mariagrazia, Carocci, Alessia, Budriesi, Roberta, Micucci, Matteo, Toma, Maddalena, Di Cesare Mannelli, Lorenzo, Lovece, Angelo, Catalano, Alessia, Cavalluzzi, Maria Maddalena, Bruno, Claudio, De Palma, Annalisa, Contino, Marialessandra, Perrone, Maria Grazia, Colabufo, Nicola Antonio, Chiarini, Alberto, Franchini, Carlo, Ghelardini, Carla, Habtemariam, Solomon, and Lentini, Giovanni

Published
2016
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5. Data sharing in paediatric clinical research – A protocol (conect4children)

Author

Mariagrazia Felisi, Bonifazi, Fedele, Toma, Maddalena, Pansieri, Claudia, Leary, Rebecca, Hedley, Victoria, Cornet, Ronald, Reggiardo, Giorgio, Landi, Annalisa, Canham, Steve, Nally, Sinéad, and Ceci, Adriana

Subjects
Data sharing, Clinical Trials, Peadiatrics
Abstract

Conducting clinical trials (CTs) in the paediatric population can be difficult due to ethical, regulatory, methodological, and commercial issues influencing many factors such as procedures, sample size, and company strategies. On one hand, the lack of evidence-based research and the unmet medical needs, and on the other hand, the low investment of pharma companies in paediatric research, are increasingly promoting the use of existing resources. Sharing CTs data offer many potential benefits without conducting new studies. Although strongly recommended, a few initiatives sharing CTs data in the paediatric field still exist. In the framework of Work Package 5 “Data coordinating center and data quality standards”, scouting of initiatives (such as platforms, projects, private and public initiatives of pharma industries or no-profit organization, consortium of Sponsors/Funders, databases of pharma industries, or no-profit organization, etc.) sharing CTs data, with a focus on paediatric data, will beperformed following a specific protocol.

Published
2022
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6. Overview of the European post-authorisation study register post-authorization studies performed in Europe from September 2010 to December 2018

Author

Sultana, Janet, Crisafulli, Salvatore, Almas, Mariana, Antonazzo, Ippazio Cosimo, Baan, Esme, Bartolini, Claudia, Bertuccio, Maria Paola, Bonifazi, Fedele, Capuano, Annalisa, Didio, Antonella, Ehrenstein, Vera, Felisi, Mariagrazia, Ferrajolo, Carmen, Fontana, Andrea, Francisca, Remy, Fourrier-Reglat, Annie, Fortuny, Joan, Gini, Rosa, Hyeraci, Giulia, Hoeve, Christel, Kontogiorgis, Christos, Isgrò, Valentina, Lalagkas, Panagiotis Nikolaos, L'Abbate, Luca, Layton, Deborah, Landi, Annalisa, Narduzzi, Silvia, Roque Pereira, Leonardo, Poulentzas, Georgios, Rafaniello, Concetta, Roberto, Giuseppe, Scondotto, Giulia, Sportiello, Liberata, Toma, Maddalena, Toussi, Massoud, Verhamme, Katia, Volpe, Elisabetta, Trifirò, Gianluca, Sultana, Janet, Crisafulli, Salvatore, Almas, Mariana, Antonazzo, Ippazio Cosimo, Baan, Esme, Bartolini, Claudia, Bertuccio, Maria Paola, Bonifazi, Fedele, Capuano, Annalisa, Didio, Antonella, Ehrenstein, Vera, Felisi, Mariagrazia, Ferrajolo, Carmen, Fontana, Andrea, Francisca, Remy, Fourrier-Reglat, Annie, Fortuny, Joan, Gini, Rosa, Hyeraci, Giulia, Hoeve, Christel, Kontogiorgis, Christos, Isgrò, Valentina, Lalagkas, Panagiotis Nikolaos, L'Abbate, Luca, Layton, Deborah, Landi, Annalisa, Narduzzi, Silvia, Roque Pereira, Leonardo, Poulentzas, Georgios, Rafaniello, Concetta, Roberto, Giuseppe, Scondotto, Giulia, Sportiello, Liberata, Toma, Maddalena, Toussi, Massoud, Verhamme, Katia, Volpe, Elisabetta, and Trifirò, Gianluca

Abstract

Background: The European post-authorisation study (EU PAS) register is a repository launched in 2010 by the European Medicines Agency (EMA). All EMA-requested PAS, commonly observational studies, must be recorded in this register. Multi-database studies (MDS) leveraging secondary data have become an important strategy to conduct PAS in recent years, as reflected by the type of studies registered in the EU PAS register. Objectives: To analyse and describe PAS in the EU PAS register, with focus on MDS. Methods: Studies in the EU PAS register from inception to 31st December 2018 were described concerning transparency, regulatory obligations, scope, study type (e.g., observational study, clinical trial, survey, systematic review/meta-analysis), study design, type of data collection and target population. MDS were defined as studies conducted through secondary use of >1 data source not linked at patient-level. Data extraction was carried out independently by 14 centres with expertise in pharmacoepidemiology, using publicly available information in the EU PAS register including study protocol, whenever available, using a standardised data collection form. For validation purposes, a second revision of key fields for a 15% random sample of studies was carried out by a different centre. The inter-rater reliability (IRR) was then calculated. Finally, to identify predictors of primary data collection-based studies/versus those based on secondary use of healthcare databases) or MDS (vs. non-MDS), odds ratios (OR) and 95% confidence intervals (CI) were calculated fitting univariate logistic regression models. Results: Overall, 1426 studies were identified. Clinical trials (N = 30; 2%), systematic reviews/meta-analyses (N = 16; 1%) and miscellaneous study designs (N = 46; 3%) were much less common than observational studies (N = 1227; 86%). The protocol was available for 63% (N = 360) of 572 observational studies requested by a competent authority. Overall, 36% (N = 446) of

Published
2022

7. Overview of the EU PAS register post-authorization studies performed in Europe from September 2010 to December 2018

Author

SULTANA, Janet, CRISAFULLI, Salvatore, ALMAS, Mariana, ANTONAZZO, Ippazio Cosimo, BAAN, Esme, BARTOLINI, Claudia, BERTUCCIO, Maria Paola, BONIFAZI, Fedele, CAPUANO, Annalisa, DIDIO, Antonella, EHRENSTEIN, Vera, FELISI, Mariagrazia, FERRAJOLO, Carmen, FONTANA, Andrea, FRANCISCA, Remy, FOURRIER-REGLAT, Annie, FORTUNY, Joan, GINI, Rosa, HYERACI, Giulia, HOEVE, Christel, KONTOGIORGIS, Christos, ISGRO, Valentina, LALAGKAS, Panagiotis-Nikolaos, L'ABBATE, Luca, LAYTON, Deborah, LANDI, Annalisa, NARDUZZI, Silvia, PEREIRA, Leonardo Roque, POULENTZAS, Georgios, RAFANIELLO, Concetta, ROBERTO, Giuseppe, SCONDOTTO, Giulia, SPORTIELLO, Liberata, TOMA, Maddalena, TOUSSI, Massoud, VERHAMME, Katia, VOLPE, Elisabetta, and TRIFIRO, Gianluca

Subjects
post-authorization studies, EU PAS register, Multi-database studies
Published
2022

8. Paediatric Medicines in Europe: The Paediatric Regulation-Is It Time for Reform?

Author

Toma, Maddalena, Felisi, M., Bonifazi, D., Bonifazi, Fedele, Giannuzzi, Viviana, Reggiardo, Giorgio, Wildt, S.N. de, Ceci, A., Toma, Maddalena, Felisi, M., Bonifazi, D., Bonifazi, Fedele, Giannuzzi, Viviana, Reggiardo, Giorgio, Wildt, S.N. de, and Ceci, A.

Abstract

Contains fulltext : 230819.pdf (publisher's version ) (Open Access)

Published
2021

9. Synthesis and Evaluation of Voltage‐Gated Sodium Channel Blocking Pyrroline Derivatives Endowed with Both Antiarrhythmic and Antioxidant Activities

Author

Carocci, Alessia, primary, Roselli, Mariagrazia, additional, Budriesi, Roberta, additional, Micucci, Matteo, additional, Desaphy, Jean‐François, additional, Altamura, Concetta, additional, Cavalluzzi, Maria Maddalena, additional, Toma, Maddalena, additional, Passeri, Giovanna Ilaria, additional, Milani, Gualtiero, additional, Lovece, Angelo, additional, Catalano, Alessia, additional, Bruno, Claudio, additional, De Palma, Annalisa, additional, Corbo, Filomena, additional, Franchini, Carlo, additional, Habtemariam, Solomon, additional, and Lentini, Giovanni, additional

Published
2020
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10. Synthesis and Evaluation of Voltage‐Gated Sodium Channel Blocking Pyrroline Derivatives Endowed with Both Antiarrhythmic and Antioxidant Activities.

Author

Carocci, Alessia, Roselli, Mariagrazia, Budriesi, Roberta, Micucci, Matteo, Desaphy, Jean‐François, Altamura, Concetta, Cavalluzzi, Maria Maddalena, Toma, Maddalena, Passeri, Giovanna Ilaria, Milani, Gualtiero, Lovece, Angelo, Catalano, Alessia, Bruno, Claudio, De Palma, Annalisa, Corbo, Filomena, Franchini, Carlo, Habtemariam, Solomon, and Lentini, Giovanni

Published
2021
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14. Elusive Therapeutic Effect of PCSK9 Inhibitors on Lipoprotein(a) Levels.

Author

Sbrana, Francesco, Bigazzi, Federico, Dal Pino, Beatrice, Toma, Maddalena, Ripoli, Andrea, and Sampietro, Tiziana

Subjects
LIPOPROTEIN A, LIPOPROTEINS, CARDIAC patients
Abstract

Highlights from the article: Lipoprotein (a) [Lp(a)] is a prevalent genetic risk factor for coronary artery disease [1] and proprotein convertase subtilisin/kexin type 9 inhibitors (PCSK9i) have demonstrated significant Lp(a)-lowering effects [[2]]. All patients were assigned to PCSK9i treatment every 2 weeks (evolocumab 140 mg in 14, alirocumab 150 mg in 5, or alirocumab 75 mg in 2 subjects), on top of lipid-lowering-therapy (statins in 15, ezetimibe in 9, fibrates in 3 subjects; 3 subjects were not on lipid-lowering drugs due to pharmacologic intolerance). In these subjects PCSK9i was administered at the end of the apheresis session and LA was performed, with 14-day inter-apheresis interval, by dextran-sulphate absorption from plasma (8 patients), or heparin-induced LDL precipitation apheresis (2 patients).

Published
2019
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15. Overview of the European post-authorisation study register post-authorization studies performed in Europe from September 2010 to December 2018

Author

Janet, Sultana, Salvatore, Crisafulli, Mariana, Almas, Ippazio Cosimo, Antonazzo, Esme, Baan, Claudia, Bartolini, Maria Paola, Bertuccio, Fedele, Bonifazi, Annalisa, Capuano, Antonella, Didio, Vera, Ehrenstein, Mariagrazia, Felisi, Carmen, Ferrajolo, Andrea, Fontana, Remy, Francisca, Annie, Fourrier-Reglat, Joan, Fortuny, Rosa, Gini, Giulia, Hyeraci, Christel, Hoeve, Christos, Kontogiorgis, Valentina, Isgrò, Panagiotis-Nikolaos, Lalagkas, Luca, L'Abbate, Deborah, Layton, Annalisa, Landi, Silvia, Narduzzi, Leonardo, Roque Pereira, Georgios, Poulentzas, Concetta, Rafaniello, Giuseppe, Roberto, Giulia, Scondotto, Liberata, Sportiello, Maddalena, Toma, Massoud, Toussi, Katia, Verhamme, Elisabetta, Volpe, Gianluca, Trifirò, Sultana, Janet, Crisafulli, Salvatore, Almas, Mariana, Antonazzo, Ippazio Cosimo, Baan, Esme, Bartolini, Claudia, Bertuccio, Maria Paola, Bonifazi, Fedele, Capuano, Annalisa, Didio, Antonella, Ehrenstein, Vera, Felisi, Mariagrazia, Ferrajolo, Carmen, Fontana, Andrea, Francisca, Remy, Fourrier-Reglat, Annie, Fortuny, Joan, Gini, Rosa, Hyeraci, Giulia, Hoeve, Christel, Kontogiorgis, Christo, Isgrò, Valentina, Lalagkas, Panagiotis-Nikolao, L'Abbate, Luca, Layton, Deborah, Landi, Annalisa, Narduzzi, Silvia, Roque Pereira, Leonardo, Poulentzas, Georgio, Rafaniello, Concetta, Roberto, Giuseppe, Scondotto, Giulia, Sportiello, Liberata, Toma, Maddalena, Toussi, Massoud, Verhamme, Katia, Volpe, Elisabetta, Trifirò, Gianluca, Medical Informatics, Sultana, J, Crisafulli, S, Almas, M, Antonazzo, I, Baan, E, Bartolini, C, Bertuccio, M, Bonifazi, F, Capuano, A, Didio, A, Ehrenstein, V, Felisi, M, Ferrajolo, C, Fontana, A, Francisca, R, Fourrier-Reglat, A, Fortuny, J, Gini, R, Hyeraci, G, Hoeve, C, Kontogiorgis, C, Isgro, V, Lalagkas, P, L'Abbate, L, Layton, D, Landi, A, Narduzzi, S, Roque Pereira, L, Poulentzas, G, Rafaniello, C, Roberto, G, Scondotto, G, Sportiello, L, Toma, M, Toussi, M, Verhamme, K, Volpe, E, and Trifiro, G

Subjects
post-authorization studies, Databases, Factual, Epidemiology, Pharmacoepidemiology, Reproducibility of Result, Reproducibility of Results, post-authorization studie, EU PAS register, Observational Studies as Topic, Research Design, Surveys and Questionnaires, multi-database studies, Surveys and Questionnaire, Humans, Pharmacology (medical), multi-database studie, Human
Abstract

Background: The European post-authorisation study (EU PAS) register is a repository launched in 2010 by the European Medicines Agency (EMA). All EMA-requested PAS, commonly observational studies, must be recorded in this register. Multi-database studies (MDS) leveraging secondary data have become an important strategy to conduct PAS in recent years, as reflected by the type of studies registered in the EU PAS register. Objectives: To analyse and describe PAS in the EU PAS register, with focus on MDS. Methods: Studies in the EU PAS register from inception to 31st December 2018 were described concerning transparency, regulatory obligations, scope, study type (e.g., observational study, clinical trial, survey, systematic review/meta-analysis), study design, type of data collection and target population. MDS were defined as studies conducted through secondary use of >1 data source not linked at patient-level. Data extraction was carried out independently by 14 centres with expertise in pharmacoepidemiology, using publicly available information in the EU PAS register including study protocol, whenever available, using a standardised data collection form. For validation purposes, a second revision of key fields for a 15% random sample of studies was carried out by a different centre. The inter-rater reliability (IRR) was then calculated. Finally, to identify predictors of primary data collection-based studies/versus those based on secondary use of healthcare databases) or MDS (vs. non-MDS), odds ratios (OR) and 95% confidence intervals (CI) were calculated fitting univariate logistic regression models. Results: Overall, 1426 studies were identified. Clinical trials (N = 30; 2%), systematic reviews/meta-analyses (N = 16; 1%) and miscellaneous study designs (N = 46; 3%) were much less common than observational studies (N = 1227; 86%). The protocol was available for 63% (N = 360) of 572 observational studies requested by a competent authority. Overall, 36% (N = 446) of observational studies were based fully or partially on primary data collection. Of 757 observational studies based on secondary use of data alone, 282 (37%) were MDS. Drug utilisation was significantly more common as a study scope in MDS compared to non-MDS studies. The overall percentage agreement among collaborating centres that collected the data concerning study variables was highest for study type (93.5%) and lowest for type of secondary data (67.8%). Conclusions: Observational studies were the most common type of studies in the EU PAS register, but 30% used primary data, which is more resource-intensive. Almost half of observational studies using secondary data were MDS. Data recording in the EU PAS register may be improved further, including more widespread availability of study protocols to improve transparency.

Published
2021
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16. Synthesis, antiarrhythmic activity, and toxicological evaluation of mexiletine analogues

Author

Carlo Franchini, Annalisa De Palma, Nicola Antonio Colabufo, Maria Maddalena Cavalluzzi, Lorenzo Di Cesare Mannelli, Alessia Carocci, Alessia Catalano, Alberto Chiarini, Claudio Bruno, Mariagrazia Roselli, Matteo Micucci, Solomon Habtemariam, Giovanni Lentini, Marialessandra Contino, Angelo Lovece, Maddalena Toma, Roberta Budriesi, Carla Ghelardini, Maria Grazia Perrone, Roselli, Mariagrazia, Carocci, Alessia, Budriesi, Roberta, Micucci, Matteo, Toma, Maddalena, Di Cesare Mannelli, Lorenzo, Lovece, Angelo, Catalano, Alessia, Cavalluzzi, Maria Maddalena, Bruno, Claudio, De Palma, Annalisa, Contino, Marialessandra, Perrone, Maria Grazia, Colabufo, Nicola Antonio, Chiarini, Alberto, Franchini, Carlo, Ghelardini, Carla, Habtemariam, Solomon, and Lentini, Giovanni

Subjects
0301 basic medicine, Chronotropic, Inotrope, Cell Survival, Muscle Relaxation, Guinea Pigs, chemistry.chemical_element, Antiarrhythmic, Mexiletine, Chemistry Techniques, Synthetic, Calcium, Pharmacology, P-glycoprotein, Antiarrhythmics, Inotropism, MW-assisted synthesis, Madin Darby Canine Kidney Cells, 03 medical and health sciences, 0302 clinical medicine, Dogs, Drug Discovery, medicine, Animals, Humans, Heart Atria, Cytotoxicity, Aorta, Anti-Arrhythmia Agents, Hep G2 Cells, Chemistry, Synthetic, Organic Chemistry, Antagonist, Chemistry Techniques, General Medicine, MW-assisted synthesi, 030104 developmental biology, Muscle relaxation, 030217 neurology & neurosurgery, medicine.drug
Abstract

Four mexiletine analogues have been tested for their antiarrhythmic, inotropic, and chronotropic effects on isolated guinea pig heart tissues and to assess calcium antagonist activity, in comparison with the parent compound mexiletine. All analogues showed from moderate to high antiarrhythmic activity. In particular, three of them (1b,c,e) were more active and potent than the reference drug, while exhibiting only modest or no negative inotropic and chronotropic effects and vasorelaxant activity, thus showing high selectivity of action. All compounds showed no cytotoxicity and 1b,c,d did not impair motor coordination. All in, these new analogues exhibit an interesting cardiovascular profile and deserve further investigation.

Published
2016

17. Overview of the European post-authorisation study register post-authorization studies performed in Europe from September 2010 to December 2018.

Author

Sultana J, Crisafulli S, Almas M, Antonazzo IC, Baan E, Bartolini C, Bertuccio MP, Bonifazi F, Capuano A, Didio A, Ehrenstein V, Felisi M, Ferrajolo C, Fontana A, Francisca R, Fourrier-Reglat A, Fortuny J, Gini R, Hyeraci G, Hoeve C, Kontogiorgis C, Isgrò V, Lalagkas PN, L'Abbate L, Layton D, Landi A, Narduzzi S, Roque Pereira L, Poulentzas G, Rafaniello C, Roberto G, Scondotto G, Sportiello L, Toma M, Toussi M, Verhamme K, Volpe E, and Trifirò G

Subjects
Databases, Factual, Humans, Observational Studies as Topic, Reproducibility of Results, Surveys and Questionnaires, Pharmacoepidemiology, Research Design
Abstract

Background: The European post-authorisation study (EU PAS) register is a repository launched in 2010 by the European Medicines Agency (EMA). All EMA-requested PAS, commonly observational studies, must be recorded in this register. Multi-database studies (MDS) leveraging secondary data have become an important strategy to conduct PAS in recent years, as reflected by the type of studies registered in the EU PAS register., Objectives: To analyse and describe PAS in the EU PAS register, with focus on MDS., Methods: Studies in the EU PAS register from inception to 31st December 2018 were described concerning transparency, regulatory obligations, scope, study type (e.g., observational study, clinical trial, survey, systematic review/meta-analysis), study design, type of data collection and target population. MDS were defined as studies conducted through secondary use of >1 data source not linked at patient-level. Data extraction was carried out independently by 14 centres with expertise in pharmacoepidemiology, using publicly available information in the EU PAS register including study protocol, whenever available, using a standardised data collection form. For validation purposes, a second revision of key fields for a 15% random sample of studies was carried out by a different centre. The inter-rater reliability (IRR) was then calculated. Finally, to identify predictors of primary data collection-based studies/versus those based on secondary use of healthcare databases) or MDS (vs. non-MDS), odds ratios (OR) and 95% confidence intervals (CI) were calculated fitting univariate logistic regression models., Results: Overall, 1426 studies were identified. Clinical trials (N = 30; 2%), systematic reviews/meta-analyses (N = 16; 1%) and miscellaneous study designs (N = 46; 3%) were much less common than observational studies (N = 1227; 86%). The protocol was available for 63% (N = 360) of 572 observational studies requested by a competent authority. Overall, 36% (N = 446) of observational studies were based fully or partially on primary data collection. Of 757 observational studies based on secondary use of data alone, 282 (37%) were MDS. Drug utilisation was significantly more common as a study scope in MDS compared to non-MDS studies. The overall percentage agreement among collaborating centres that collected the data concerning study variables was highest for study type (93.5%) and lowest for type of secondary data (67.8%)., Conclusions: Observational studies were the most common type of studies in the EU PAS register, but 30% used primary data, which is more resource-intensive. Almost half of observational studies using secondary data were MDS. Data recording in the EU PAS register may be improved further, including more widespread availability of study protocols to improve transparency., (© 2022 The Authors. Pharmacoepidemiology and Drug Safety published by John Wiley & Sons Ltd.)

Published
2022
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18. Paediatric Medicines in Europe: The Paediatric Regulation-Is It Time for Reform?

Author

Toma M, Felisi M, Bonifazi D, Bonifazi F, Giannuzzi V, Reggiardo G, de Wildt S, and Ceci A

Abstract

Objectives: In this paper, we investigated the effects of the European Paediatric Regulation (EC) N° 1901/2006 with respect to satisfying the paediatric therapeutic needs, assessed in terms of the increased number of paediatric medicinal products, new therapeutic indications in specific high-need conditions (neonates, oncology, rare disease, etc.) and increased number of paediatric clinical studies supporting the marketing authorisation. Methods: We analysed the paediatric medicinal products approved by the European Medicines Agency in the period January 2007-December 2019, by collecting the following data: year of approval, active substance, legal basis for the marketing authorisation, type of medicinal product (i.e., chemical, biological, or ATMP), orphan drug status, paediatric indication, Anatomical Therapeutic Chemical code (first-level), number and type of paediatric studies. Data were compared with similar data collected in the period 1996-2006. Results: In the period January 1996-December 2019, in a total of 1,190 medicinal products and 843 active substances, 34 and 38%, respectively, were paediatric. In the two periods, before and after the Paediatric Regulation implementation, the paediatric/total medicinal products ratio was constant while the paediatric/total active substances ratio decreased. Moreover, excluding generics and biosimilars, a total of 106 and 175 paediatric medicines were granted a new paediatric indication, dosage or age group in the two periods; out of 175, 128 paediatric medicines had an approved Paediatric Investigational Plan. The remaining 47 were approved without an approved Paediatric Investigational Plan, following the provisions of Directive 2001/83/EC and repurposing an off-patent drug. The analysis of the clinical studies revealed that drugs with a Paediatric Investigational Plan were supported by 3.5 studies/drug while drugs without a Paediatric Investigational Plan were supported by only 1.6 studies/drug. Discussion: This report confirms that the expectations of the European Paediatric Regulation (EC) N° 1901/2006 have been mainly satisfied. However, the reasons for the limited development of paediatric medicines in Europe, should be further discussed, taking advantage of recent initiatives in the regulatory field, such as the Action Plan on Paediatrics, and the open consultation on EU Pharmaceutical Strategy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Toma, Felisi, Bonifazi, Bonifazi, Giannuzzi, Reggiardo, de Wildt, Ceci and TEDDY European Network of Excellence for Paediatric Research.)

Published
2021
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