Publication

Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy

De Boer, R. A. R., Cannon, M. V., Sijbesma, J. W. A., Vreeswijk-Baudoin, I., De Windt, L. J., Khan, M. A. F., Steffensen, K. R., Sillje, H. H. & Van Gilst, W. H., May-2016, In : European Journal of Heart Failure. 18, p. 431-431 1 p., P1796.

Research output: Contribution to journalMeeting AbstractAcademic

APA

De Boer, R. A. R., Cannon, M. V., Sijbesma, J. W. A., Vreeswijk-Baudoin, I., De Windt, L. J., Khan, M. A. F., ... Van Gilst, W. H. (2016). Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy. European Journal of Heart Failure, 18, 431-431. [P1796].

Author

De Boer, R. A. Rudolf ; Cannon, M. V. ; Sijbesma, J. W. A. ; Vreeswijk-Baudoin, I ; De Windt, L. J. ; Khan, M. A. F. ; Steffensen, K. R. ; Sillje, H. H. ; Van Gilst, W. H. / Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy. In: European Journal of Heart Failure. 2016 ; Vol. 18. pp. 431-431.

Harvard

De Boer, RAR, Cannon, MV, Sijbesma, JWA, Vreeswijk-Baudoin, I, De Windt, LJ, Khan, MAF, Steffensen, KR, Sillje, HH & Van Gilst, WH 2016, 'Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy', European Journal of Heart Failure, vol. 18, P1796, pp. 431-431.

Standard

Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy. / De Boer, R. A. Rudolf; Cannon, M. V.; Sijbesma, J. W. A.; Vreeswijk-Baudoin, I; De Windt, L. J.; Khan, M. A. F.; Steffensen, K. R.; Sillje, H. H.; Van Gilst, W. H.

In: European Journal of Heart Failure, Vol. 18, P1796, 05.2016, p. 431-431.

Research output: Contribution to journalMeeting AbstractAcademic

Vancouver

De Boer RAR, Cannon MV, Sijbesma JWA, Vreeswijk-Baudoin I, De Windt LJ, Khan MAF et al. Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy. European Journal of Heart Failure. 2016 May;18:431-431. P1796.


BibTeX

@article{4af00f419994403ebab72b43c53a07fd,
title = "Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy",
author = "{De Boer}, {R. A. Rudolf} and Cannon, {M. V.} and Sijbesma, {J. W. A.} and I Vreeswijk-Baudoin and {De Windt}, {L. J.} and Khan, {M. A. F.} and Steffensen, {K. R.} and Sillje, {H. H.} and {Van Gilst}, {W. H.}",
year = "2016",
month = "5",
language = "English",
volume = "18",
pages = "431--431",
journal = "European Journal of Heart Failure",
issn = "1388-9842",
publisher = "Wiley",

}

RIS

TY - JOUR

T1 - Mouse cardiac LXRalpha overexpression as a model to modulate cardiac metabolism and trigger specific fetal gene expression to ameliorate pathological hypertrophy

AU - De Boer, R. A. Rudolf

AU - Cannon, M. V.

AU - Sijbesma, J. W. A.

AU - Vreeswijk-Baudoin, I

AU - De Windt, L. J.

AU - Khan, M. A. F.

AU - Steffensen, K. R.

AU - Sillje, H. H.

AU - Van Gilst, W. H.

PY - 2016/5

Y1 - 2016/5

M3 - Meeting Abstract

VL - 18

SP - 431

EP - 431

JO - European Journal of Heart Failure

JF - European Journal of Heart Failure

SN - 1388-9842

M1 - P1796

ER -

ID: 33484477