2014
DOI: 10.1164/rccm.201403-0421pp
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Network Analysis in the Investigation of Chronic Respiratory Diseases. From Basics to Application

Abstract: Chronic respiratory diseases are complex multifactorial disorders whose pathogenesis depends on the interplay between host and environmental factors. To fully understand them and to identify novel treatments, a holistic approach that integrates multiple types and levels of clinical and biological data is necessary. Toward this end, the application of systems biology-based strategies, in particular, network analysis, offers great potential. These systems-based approaches rely heavily on computational methods th… Show more

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Cited by 45 publications
(58 citation statements)
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“…If we assume that the COPD Comorbidity Network is similar in behaviour to common networks seen in daily life, like airports composed of important hubs with many incoming and outgoing connecting flights with less influential airports in minor destinations, then disruption of air traffic will be mostly felt when delays affect large hubs [44]. Likewise we could hypothesise that perturbation of the comorbidities network could be achieved by selecting highly connected and treatable comorbidities and measure the impact of specific treatments [27,45,46]. This postulation is provocative and untested, however prior evidence indirectly supports this idea.…”
Section: Discussionmentioning
confidence: 99%
“…If we assume that the COPD Comorbidity Network is similar in behaviour to common networks seen in daily life, like airports composed of important hubs with many incoming and outgoing connecting flights with less influential airports in minor destinations, then disruption of air traffic will be mostly felt when delays affect large hubs [44]. Likewise we could hypothesise that perturbation of the comorbidities network could be achieved by selecting highly connected and treatable comorbidities and measure the impact of specific treatments [27,45,46]. This postulation is provocative and untested, however prior evidence indirectly supports this idea.…”
Section: Discussionmentioning
confidence: 99%
“…A useful way to conceptualize and present graphically a complex "system" is a network, where the different elements of the system are represented as nodes and their structural and/or functional relationship as edges (or links) 15 . The "nature" (i.e., type) of the "nodes" and "edges" of a given system depends on the research question(s) we want to address.…”
Section: Network Analysismentioning
confidence: 99%
“…In addition, static measurements ("omics") are certainly not sufficient to understand the underlying dynamics of interactions that occur with varying time and spatial scales: at some point modelling tools are required since relations are mostly nonlinear, making straight inferences hazardous. Addressing this complexity is what systems or networks biology and medicine try to do, using bioinformatic tools and knowledge engineering to transform data into understanding and ultimately gain the ability to modulate individual target mechanisms to treat each patient more effectively, which is one fundamental goal of personalised medicine [12][13][14].…”
mentioning
confidence: 99%