Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?

Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?

Sepsis has over the years proven a considerable challenge to physicians and researchers. Numerous pharmacological and non-pharmacological interventions have been tested in trials, but have unfortunately failed to improve the general prognosis. This has led to the speculation that the sepsis populati...

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Main Authors: Theis Skovsgaard Itenov, Daniel D. Murray, Jens Ulrik Stæhr Jensen
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Healthcare
Subjects:
sepsis
systems biology
transitional research
metabolomics
genomics
transcriptomics
Online Access:http://www.mdpi.com/2227-9032/6/3/111
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spelling doaj-eb01262ad5904ee2848436806352f1742020-11-24T22:57:24ZengMDPI AGHealthcare2227-90322018-09-016311110.3390/healthcare6030111healthcare6030111Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?Theis Skovsgaard Itenov0Daniel D. Murray1Jens Ulrik Stæhr Jensen2PERSIMUNE, Rigshospitalet, Copenhagen DK-2100, DenmarkPERSIMUNE, Rigshospitalet, Copenhagen DK-2100, DenmarkPERSIMUNE, Rigshospitalet, Copenhagen DK-2100, DenmarkSepsis has over the years proven a considerable challenge to physicians and researchers. Numerous pharmacological and non-pharmacological interventions have been tested in trials, but have unfortunately failed to improve the general prognosis. This has led to the speculation that the sepsis population may be too heterogeneous to be targeted with the traditional one treatment suits all’ approach. Recent advances in genetic and biochemical analyses now allow genotyping and biochemical characterisation of large groups of patients via the ‘omics’ technologies. These new opportunities could lead to a paradigm shift in the approach to sepsis towards personalised treatments with interventions targeted towards specific pathophysiological mechanisms activated in the patient. In this article, we review the potentials and pitfalls of using new advanced technologies to deepen our understanding of the clinical syndrome of sepsis.http://www.mdpi.com/2227-9032/6/3/111sepsissystems biologytransitional researchmetabolomicsgenomicstranscriptomics
collection DOAJ
language English
format Article
sources DOAJ
author Theis Skovsgaard Itenov
Daniel D. Murray
Jens Ulrik Stæhr Jensen
spellingShingle Theis Skovsgaard Itenov
Daniel D. Murray
Jens Ulrik Stæhr Jensen
Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?
Healthcare
sepsis
systems biology
transitional research
metabolomics
genomics
transcriptomics
author_facet Theis Skovsgaard Itenov
Daniel D. Murray
Jens Ulrik Stæhr Jensen
author_sort Theis Skovsgaard Itenov
title Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?
title_short Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?
title_full Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?
title_fullStr Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?
title_full_unstemmed Sepsis: Personalized Medicine Utilizing ‘Omic’ Technologies—A Paradigm Shift?
title_sort sepsis: personalized medicine utilizing ‘omic’ technologies—a paradigm shift?
publisher MDPI AG
series Healthcare
issn 2227-9032
publishDate 2018-09-01
description Sepsis has over the years proven a considerable challenge to physicians and researchers. Numerous pharmacological and non-pharmacological interventions have been tested in trials, but have unfortunately failed to improve the general prognosis. This has led to the speculation that the sepsis population may be too heterogeneous to be targeted with the traditional one treatment suits all’ approach. Recent advances in genetic and biochemical analyses now allow genotyping and biochemical characterisation of large groups of patients via the ‘omics’ technologies. These new opportunities could lead to a paradigm shift in the approach to sepsis towards personalised treatments with interventions targeted towards specific pathophysiological mechanisms activated in the patient. In this article, we review the potentials and pitfalls of using new advanced technologies to deepen our understanding of the clinical syndrome of sepsis.
topic sepsis
systems biology
transitional research
metabolomics
genomics
transcriptomics
url http://www.mdpi.com/2227-9032/6/3/111
work_keys_str_mv AT theisskovsgaarditenov sepsispersonalizedmedicineutilizingomictechnologiesaparadigmshift
AT danieldmurray sepsispersonalizedmedicineutilizingomictechnologiesaparadigmshift
AT jensulrikstæhrjensen sepsispersonalizedmedicineutilizingomictechnologiesaparadigmshift
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