Periodic fever syndromes (PFSs) are a wide group of autoinammatory diseases. Due to some clinical overlap between different PFSs, differential diagnosis can be a difficult challenge. Nowadays, there are no universally agreed recommendations for most PFSs, and near half of patients may remain without a genetic diagnosis even aer performing multiple-gene analyses. Molecular analysis of periodic fevers’ causative genes can improve patient quality of life by providing early and accurate diagnosis and allowing the administration of appropriate treatment. In this paper we focus our discussion on effective usefulness of genetic diagnosis of PFSs. e aim of this paper is to establish how much can the diagnostic system improve, in order to increase the success of PFS diagnosis. e mayor expectation in the near future will be addressed to the so-called next generation sequencing approach. Although the application of bioinformatics to high-throughput genetic analysis could allow the identication of complex genotypes, the complexity of this denition will hardly result in a clear contribution for the physician. In our opinion, however, to obtain the best from this new development a rule should always be kept well in mind: use genetics only to answer specic clinical questions.
Clinical Genetic Testing of Periodic Fever Syndromes
MARCUZZI, ANNALISA;PISCIANZ, ELISA;CROVELLA, SERGIO;TOMMASINI, ALBERTO
2013-01-01
Abstract
Periodic fever syndromes (PFSs) are a wide group of autoinammatory diseases. Due to some clinical overlap between different PFSs, differential diagnosis can be a difficult challenge. Nowadays, there are no universally agreed recommendations for most PFSs, and near half of patients may remain without a genetic diagnosis even aer performing multiple-gene analyses. Molecular analysis of periodic fevers’ causative genes can improve patient quality of life by providing early and accurate diagnosis and allowing the administration of appropriate treatment. In this paper we focus our discussion on effective usefulness of genetic diagnosis of PFSs. e aim of this paper is to establish how much can the diagnostic system improve, in order to increase the success of PFS diagnosis. e mayor expectation in the near future will be addressed to the so-called next generation sequencing approach. Although the application of bioinformatics to high-throughput genetic analysis could allow the identication of complex genotypes, the complexity of this denition will hardly result in a clear contribution for the physician. In our opinion, however, to obtain the best from this new development a rule should always be kept well in mind: use genetics only to answer specic clinical questions.Pubblicazioni consigliate
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