Thorsten M. Olski scite author profile

This is the first analysis of the general impact of the Paediatric Regulation on the development of medicinal products in Europe. Three years after the implementation of the Paediatric Regulation, we were able to identify that the PIPs address the main gaps in knowledge on paediatric medicines. The key objective of the Paediatric Regulation, namely, the availability of medicines with age-appropriate information, is going to be achieved. It is clear also that modifications of the initial proposals as requested by the PDCO are necessary to ensure the quality of paediatric developments. The impact on the number of clinical trials performed remains modest at this point in time, and it will be of high interest to monitor this performance indicator, which will also inform us whether paediatric medicine research takes place in Europe or elsewhere.

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High frequency of corticosteroid and immunosuppressive therapy in patients with systemic sclerosis despite limited evidence for efficacy

Hunzelmann

Moinzadeh

Genth³

et al. 2009

Arthritis Res Ther

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Genomic organization and expression profile of the parvin family of focal adhesion proteins in mice and humans

Korenbaum

Olski

Noegel

2001

Gene

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Parvin, a 42 kDa focal adhesion protein, related to the α-actinin superfamily

2001

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We have identified and cloned a novel 42-kDa protein termed alpha-parvin, which has a single alpha-actinin-like actin-binding domain. Unlike other members of the alpha-actinin superfamily, which are large multidomain proteins, alpha-parvin lacks a rod domain or any other C-terminal structural modules and therefore represents the smallest known protein of the superfamily. We demonstrate that mouse alpha-parvin is widely expressed as two mRNA species generated by alternative use of two polyadenylation signals. We analyzed the actin-binding properties of mouse alpha-parvin and determined the K(d) with muscle F-actin to be 8.4+/-2.1 microM. The GFP-tagged alpha-parvin co-localizes with actin filaments at membrane ruffles, focal contacts and tensin-rich fibers in the central area of fibroblasts. Domain analysis identifies the second calponin homology domain of parvin as a module sufficient for targeting the focal contacts. In man and mouse, a closely related paralogue beta-parvin and a more distant relative gamma-parvin have also been identified and cloned. The availability of the genomic sequences of different organisms enabled us to recognize closely related parvin-like proteins in flies and worms, but not in yeast and Dictyostelium. Phylogenetic analysis of alpha-parvin and its para- and orthologues suggests, that the parvins represent a new family of alpha-actinin-related proteins that mediate cell-matrix adhesion.

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Extrapolation in the development of paediatric medicines: examples from approvals for biological treatments for paediatric chronic immune-mediated inflammatory diseases

Stefańska¹,

Distlerová²,

Musaus³

et al. 2017

Arch Dis Child

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The European Union (EU) Paediatric Regulation requires that all new medicinal products applying for a marketing authorisation (MA) in the EU provide a paediatric investigation plan (PIP) covering a clinical and non-clinical trial programme relating to the use in the paediatric population, unless a waiver applies. Conducting trials in children is challenging on many levels, including ethical and practical issues, which may affect the availability of the clinical evidence. In scientifically justified cases, extrapolation of data from other populations can be an option to gather evidence supporting the benefit-risk assessment of the medicinal product for paediatric use. The European Medicines Agency (EMA) is working on providing a framework for extrapolation that is scientifically valid, reliable and adequate to support MA of medicines for children. It is expected that the extrapolation framework together with therapeutic area guidelines and individual case studies will support future PIPs. Extrapolation has already been employed in several paediatric development programmes including biological treatment for immune-mediated diseases. This article reviews extrapolation strategies from MA applications for products for the treatment of juvenile idiopathic arthritis, paediatric psoriasis and paediatric inflammatory bowel disease. It also provides a summary of extrapolation advice expressed in relevant EMA guidelines and initiatives supporting the use of alternative approaches in paediatric medicine development.

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Thorsten M. Olski

Three years of paediatric regulation in the European Union

High frequency of corticosteroid and immunosuppressive therapy in patients with systemic sclerosis despite limited evidence for efficacy

Genomic organization and expression profile of the parvin family of focal adhesion proteins in mice and humans

Parvin, a 42 kDa focal adhesion protein, related to the α-actinin superfamily

Extrapolation in the development of paediatric medicines: examples from approvals for biological treatments for paediatric chronic immune-mediated inflammatory diseases

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