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@ARTICLE{Bernard:144625,
author = {P. Bernard and J. Savard and K. Steindorf$^*$ and M. G.
Sweegers and K. S. Courneya and R. U. Newton and N. K.
Aaronson and P. B. Jacobsen and A. M. May and D. A. Galvao
and M. J. Chinapaw and M. M. Stuiver and K. A. Griffith and
I. Mesters and H. Knoop and M. M. Goedendorp and M. Bohus
and L. Thorsen and M. E. Schmidt$^*$ and C. M. Ulrich and G.
S. Sonke and W. van Harten and K. M. Winters-Stone and M. J.
Velthuis and D. R. Taaffe and W. van Mechelen and M. J.
Kersten and F. Nollet and J. Wenzel and J. Wiskemann and I.
M. Verdonck-de Leeuw and J. Brug and L. M. Buffart},
title = {{E}ffects and moderators of exercise on sleep in adults
with cancer: {I}ndividual patient data and aggregated
meta-analyses.},
journal = {Journal of psychosomatic research},
volume = {124},
issn = {0022-3999},
address = {Amsterdam [u.a.]},
publisher = {Elsevier Science},
reportid = {DKFZ-2019-02067},
pages = {109746},
year = {2019},
abstract = {To evaluate the effects of exercise interventions on sleep
disturbances and sleep quality in patients with mixed cancer
diagnoses, and identify demographic, clinical, and
intervention-related moderators of these effects.Individual
patient data (IPD) and aggregated meta-analyses of
randomized controlled trials (RCTs). Using data from the
Predicting OptimaL cAncer RehabIlitation and Supportive care
project, IPD of 2173 adults (mean age = 54.8) with
cancer from 17 RCTs were analyzed. A complementary
systematic search was conducted (until November 2018) to
study the overall effects and test the representativeness of
analyzed IPD. Effect sizes of exercise effects on
self-reported sleep outcomes were calculated for all
included RCTs. Linear mixed-effect models were used to
evaluate the effects of exercise on post-intervention
outcome values, adjusting for baseline values. Moderator
effects were studied by testing interactions for
demographic, clinical and intervention-related
characteristics.For all 27 eligible RCTs from the updated
search, exercise interventions significantly decreased sleep
disturbances in adults with cancer (g = -0.09, $95\%$ CI
[-0.16; -0.02]). No significant effect was obtained for
sleep quality. RCTs included in IPD analyses constituted a
representative sample of the published literature. The
intervention effects on sleep disturbances were not
significantly moderated by any demographic, clinical, or
intervention-related factor, nor by sleep disturbances.This
meta-analysis provides some evidence that, compared to
control conditions, exercise interventions may improve sleep
disturbances, but not sleep quality, in cancer patients,
although this effect is of a small magnitude. Among the
investigated variables, none was found to significantly
moderate the effect of exercise interventions on sleep
disturbances.},
subtyp = {Review Article},
cin = {C110},
ddc = {610},
cid = {I:(DE-He78)C110-20160331},
pnm = {313 - Cancer risk factors and prevention (POF3-313)},
pid = {G:(DE-HGF)POF3-313},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:31443811},
doi = {10.1016/j.jpsychores.2019.109746},
url = {https://inrepo02.dkfz.de/record/144625},
}
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