The Cardiovascular Effects of a Meal - Ansatte ved Biomedicinsk Institut

The Cardiovascular Effects of a Meal: J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects

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The Cardiovascular Effects of a Meal : J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects. / Täubel, Jörg; Ferber, Georg; Van Langenhoven, Leen; Del Bianco, Teresa; Fernandes, Sara; Djumanov, Dilshat; Kanters, Jørgen K; Graff, Claus; Camm, A John.

I: Journal of Clinical Pharmacology, Bind 59, Nr. 6, 2019, s. 799-810.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Täubel, J, Ferber, G, Van Langenhoven, L, Del Bianco, T, Fernandes, S, Djumanov, D, Kanters, JK, Graff, C & Camm, AJ 2019, 'The Cardiovascular Effects of a Meal: J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects', Journal of Clinical Pharmacology, bind 59, nr. 6, s. 799-810. https://doi.org/10.1002/jcph.1374

APA

Täubel, J., Ferber, G., Van Langenhoven, L., Del Bianco, T., Fernandes, S., Djumanov, D., Kanters, J. K., Graff, C., & Camm, A. J. (2019). The Cardiovascular Effects of a Meal: J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects. Journal of Clinical Pharmacology, 59(6), 799-810. https://doi.org/10.1002/jcph.1374

Vancouver

Täubel J, Ferber G, Van Langenhoven L, Del Bianco T, Fernandes S, Djumanov D o.a. The Cardiovascular Effects of a Meal: J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects. Journal of Clinical Pharmacology. 2019;59(6):799-810. https://doi.org/10.1002/jcph.1374

Author

Täubel, Jörg ; Ferber, Georg ; Van Langenhoven, Leen ; Del Bianco, Teresa ; Fernandes, Sara ; Djumanov, Dilshat ; Kanters, Jørgen K ; Graff, Claus ; Camm, A John. / The Cardiovascular Effects of a Meal : J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects. I: Journal of Clinical Pharmacology. 2019 ; Bind 59, Nr. 6. s. 799-810.

Bibtex

@article{e3800c6713ec4204b64bc5f654ccb59c,

title = "The Cardiovascular Effects of a Meal: J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects",

abstract = "Meal intake leads to a significant and prolonged increase in cardiac output to supply the splanchnic vasculature. A meal is associated with sympathetic activation of the cardiovascular system, and food ingestion is correlated with an increase in heart rate, an increase in cardiac stroke volume, and QTc interval shortening for up to 7 hours. Given the complexity of the system, one or several of many mechanisms could explain this observation. The shortening of the QTc interval was correlated with a rise of C-peptide following food ingestion, but the mechanisms by which C-peptide may be involved in the modulation of cardiac repolarization are still unknown. This shortening of the myocardial action potential caused by the ingestion of food was further investigated in the present study by measuring the QRS, J-Tpeak , and Tpeak -Tend intervals in search of further clues to better understand the underlying mechanisms. A retrospective analysis was conducted based on data collected in a formal thorough QT/QTc study in which 32 subjects received a carbohydrate-rich {"}continental{"} breakfast, moxifloxacin without food, and moxifloxacin with food. We assessed the effect of food on T-wave morphology using validated algorithms for measurement of J-Tpeak and Tpeak -Tend intervals. Our findings demonstrate that a standardized meal significantly shortened J-Tpeak for 4 hours after a meal and to a much lesser extent and shorter duration (up to 1 hour) prolonged the Tpeak -Tend and QRS intervals. This suggests that the QTc shortening occurs mainly during phase 2 of the cardiac action potential. As there was no corresponding effect on Tpeak -Tend beyond the first hour, we conclude that a meal does not interfere with the outward correcting potassium channels but possibly with Ca2+ currents. An effect on mainly Ca2+ aligns well with our understanding of physiology whereby an increase in stroke volume, as observed after a meal, is associated with changes in Ca2+ cycling in and out of the sarcoplasmic reticulum during cardiac myocyte contraction.",

author = "J{\"o}rg T{\"a}ubel and Georg Ferber and {Van Langenhoven}, Leen and {Del Bianco}, Teresa and Sara Fernandes and Dilshat Djumanov and Kanters, {J{\o}rgen K} and Claus Graff and Camm, {A John}",

note = "{\textcopyright} 2019, The American College of Clinical Pharmacology.",

year = "2019",

doi = "10.1002/jcph.1374",

language = "English",

volume = "59",

pages = "799--810",

journal = "Journal of Clinical Pharmacology",

issn = "0091-2700",

publisher = "SAGE Publications",

number = "6",

}

RIS

TY - JOUR

T1 - The Cardiovascular Effects of a Meal

T2 - J-Tpeak and Tpeak -Tend Assessment and Further Insights Into the Physiological Effects

AU - Täubel, Jörg

AU - Ferber, Georg

AU - Van Langenhoven, Leen

AU - Del Bianco, Teresa

AU - Fernandes, Sara

AU - Djumanov, Dilshat

AU - Kanters, Jørgen K

AU - Graff, Claus

AU - Camm, A John

PY - 2019

Y1 - 2019

N2 - Meal intake leads to a significant and prolonged increase in cardiac output to supply the splanchnic vasculature. A meal is associated with sympathetic activation of the cardiovascular system, and food ingestion is correlated with an increase in heart rate, an increase in cardiac stroke volume, and QTc interval shortening for up to 7 hours. Given the complexity of the system, one or several of many mechanisms could explain this observation. The shortening of the QTc interval was correlated with a rise of C-peptide following food ingestion, but the mechanisms by which C-peptide may be involved in the modulation of cardiac repolarization are still unknown. This shortening of the myocardial action potential caused by the ingestion of food was further investigated in the present study by measuring the QRS, J-Tpeak , and Tpeak -Tend intervals in search of further clues to better understand the underlying mechanisms. A retrospective analysis was conducted based on data collected in a formal thorough QT/QTc study in which 32 subjects received a carbohydrate-rich "continental" breakfast, moxifloxacin without food, and moxifloxacin with food. We assessed the effect of food on T-wave morphology using validated algorithms for measurement of J-Tpeak and Tpeak -Tend intervals. Our findings demonstrate that a standardized meal significantly shortened J-Tpeak for 4 hours after a meal and to a much lesser extent and shorter duration (up to 1 hour) prolonged the Tpeak -Tend and QRS intervals. This suggests that the QTc shortening occurs mainly during phase 2 of the cardiac action potential. As there was no corresponding effect on Tpeak -Tend beyond the first hour, we conclude that a meal does not interfere with the outward correcting potassium channels but possibly with Ca2+ currents. An effect on mainly Ca2+ aligns well with our understanding of physiology whereby an increase in stroke volume, as observed after a meal, is associated with changes in Ca2+ cycling in and out of the sarcoplasmic reticulum during cardiac myocyte contraction.

AB - Meal intake leads to a significant and prolonged increase in cardiac output to supply the splanchnic vasculature. A meal is associated with sympathetic activation of the cardiovascular system, and food ingestion is correlated with an increase in heart rate, an increase in cardiac stroke volume, and QTc interval shortening for up to 7 hours. Given the complexity of the system, one or several of many mechanisms could explain this observation. The shortening of the QTc interval was correlated with a rise of C-peptide following food ingestion, but the mechanisms by which C-peptide may be involved in the modulation of cardiac repolarization are still unknown. This shortening of the myocardial action potential caused by the ingestion of food was further investigated in the present study by measuring the QRS, J-Tpeak , and Tpeak -Tend intervals in search of further clues to better understand the underlying mechanisms. A retrospective analysis was conducted based on data collected in a formal thorough QT/QTc study in which 32 subjects received a carbohydrate-rich "continental" breakfast, moxifloxacin without food, and moxifloxacin with food. We assessed the effect of food on T-wave morphology using validated algorithms for measurement of J-Tpeak and Tpeak -Tend intervals. Our findings demonstrate that a standardized meal significantly shortened J-Tpeak for 4 hours after a meal and to a much lesser extent and shorter duration (up to 1 hour) prolonged the Tpeak -Tend and QRS intervals. This suggests that the QTc shortening occurs mainly during phase 2 of the cardiac action potential. As there was no corresponding effect on Tpeak -Tend beyond the first hour, we conclude that a meal does not interfere with the outward correcting potassium channels but possibly with Ca2+ currents. An effect on mainly Ca2+ aligns well with our understanding of physiology whereby an increase in stroke volume, as observed after a meal, is associated with changes in Ca2+ cycling in and out of the sarcoplasmic reticulum during cardiac myocyte contraction.

U2 - 10.1002/jcph.1374

DO - 10.1002/jcph.1374

M3 - Journal article

C2 - 30633366

VL - 59

SP - 799

EP - 810

JO - Journal of Clinical Pharmacology

JF - Journal of Clinical Pharmacology

SN - 0091-2700

IS - 6

ER -

ID: 213284692