Publisher Correction: Therapies for rare diseases: therapeutic modalities, progress and challenges ahead.

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Therapies for rare diseases: therapeutic modalities, progress and challenges ahead.

Most rare diseases still lack approved treatments despite major advances in research providing the tools to understand their molecular basis, as well as legislation providing regulatory and economic incentives to catalyse the development of specific therapies. Addressing this translational gap is a multifaceted challenge, for which a key aspect is the selection of the optimal therapeutic modality for translating advances in rare disease knowledge into potential medicines, known as orphan drugs. With this in mind, we discuss here the technological basis and rare disease applicability of the main therapeutic modalities, including small molecules, monoclonal antibodies, protein replacement therapies, oligonucleotides and gene and cell therapies, as well as drug repurposing. For each modality, we consider its strengths and limitations as a platform for rare disease therapy development and describe clinical progress so far in developing drugs based on it. We also discuss selected overarching topics in the development of therapies for rare diseases, such as approval statistics, engagement of patients in the process, regulatory pathways and digital tools.

The need for worldwide policy and action plans for rare diseases.

UNLABELLED: There are more than 6000 rare diseases (defined as affecting <5/10 000 individuals in Europe, <200 000 people in the United States). The rarity can create problems including: difficulties in obtaining timely, accurate diagnoses; lack of experienced healthcare providers; useful, reliable and timely information may be hard to find; research activities are less common; developing new medicines may not be economically feasible; treatments are sometimes very expensive; and in developing countries, the problems are compounded by other resource limitations. Emphasis is required to support appropriate research and development leading to better prevention, diagnosis and treatments of rare diseases. Notably, clinical trials using already existing drugs may result in new, affordable, treatment strategies. Moreover, rare diseases may teach us about common disorders. CONCLUSIONS: Countries are encouraged to implement specific research and development activities within their individual capabilities, so that patients worldwide have equal access to necessary interventions to maximize the potential of every individual.

Rare diseases, orphan drugs and their regulation: questions and misconceptions.

Sustained advocacy efforts driven by patients' organizations to make rare diseases a health priority have led to regulatory and economic incentives for industry to develop drugs for these diseases, known as orphan drugs. These incentives, enacted in regulations first introduced in the United States in 1983 and later in Japan, Europe and elsewhere, have resulted in substantial improvements in the treatment for patients with a range of rare diseases. However, the advent of orphan drug development has also triggered several questions, from the definition of rarity to the pricing of orphan drugs and their impact on health-care systems. This article provides an industry perspective on some of the common questions and misconceptions related to orphan drug development and its regulation, with the aim of facilitating future progress in the field.

Towards a framework for personalized healthcare: lessons learned from the field of rare diseases.

A large percentage of medicines do not work for the patient populations they are intended to treat. Increased knowledge regarding genomics and the underlying biological mechanism of diseases should help us be able to stratify patients into groups of likely responders and nonresponders, and to identify those patients for whom a treatment might do more harm than good. This article sets out different policy perspectives for the healthcare systems, and draws in on 25 years of particular experience from the rare disease and orphan drug field, to illuminate the pathway forward in relation to key implementation aspects of personalized healthcare. In principle, we submit that targeting medicines to preidentified groups for whom we can predict a beneficial outcome is a good thing for everyone - first of all for the patients, but also for all the other stakeholders, including payers, treating physicians and industry - because it has the potential to create sustainable and functioning healthcare systems directed to better health and prevention of disease. Personalized healthcare over time could also lead to shorter drug-development times because of lower rates of failure in late-stage drug development. Using orphan medicines to treat well-diagnosed patients suffering from a life-threatening or seriously debilitating rare disease, is an attempt to work according to these principles. As there is much that needs to be done to turn the promise into reality, we need to identify the barriers and challenges to transform the potential opportunities into real-life benefits, and what needs to be done in order to overcome them. Learning from the field of rare diseases and orphan drugs may provide, perhaps unexpectedly, some of the answers to public policy questions related to future (personalized) healthcare, but of course not all aspects, are common between the two fields.