Scaling of diastolic intraventricular pressure gradients is related to filling time duration

Zoran B. Popović; Kathryn E. Richards; Neil L. Greenberg; Aleksandr Rovner; Jeannie Drinko; Yuanna Cheng; Marc S. Penn; Kiyotaka Fukamachi; Niladri Mal; Benjamin D. Levine; Mario J. Garcia; James D. Thomas

doi:10.1152/ajpheart.00081.2006

Scaling of diastolic intraventricular pressure gradients is related to filling time duration

Zoran B. Popović, Kathryn E. Richards, Neil L. Greenberg, Aleksandr Rovner, Jeannie Drinko, Yuanna Cheng, Marc S. Penn, Kiyotaka Fukamachi, Niladri Mal, Benjamin D. Levine, Mario J. Garcia, James D. Thomas^*

^*Corresponding author for this work

Medicine, Cardiology Division

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

In early diastole, pressure is lower in the apex than in the base of the left ventricle (LV). This early intraventricular pressure difference (IVPD) facilitates LV filling. We assessed how LV diastolic IVPD and intraventricular pressure gradient (IVPG), defined as IVPD divided by length, scale to the heart size and other physiological variables. We studied 10 mice, 10 rats, 5 rabbits, 12 dogs, and 21 humans by echocardiography. Color Doppler M-mode data were postprocessed to reconstruct IVPD and IVPG. Normalized LV filling time was calculated by dividing filling time by RR interval. The relationship between IVPD, IVPG, normalized LV filling time, and LV end-diastolic volume (or mass) as fit to the general scaling equation Y = kM^β, where M is LV heart size parameter, Y is a dependent variable, k is a constant, and β is the power of the scaling exponent. LV mass varied from 0.049 to 194 g, whereas end-diastolic volume varied from 0.011 to 149 ml. The β values relating normalized LV filling time with LV mass and end-diastolic volume were 0.091 (SD 0.011) and 0.083 (SD 0.009), respectively (P < 0.0001 vs. 0 for both). The β values relating IVPD with LV mass and end-diastolic volume were similarly significant at 0.271 (SD 0.039) and 0.243 (SD 0.0361), respectively (P < 0.0001 vs. 0 for both). Finally, β values relating IVPG with LV mass and end-diastolic volume were -0.118 (SD 0.013) and -0.104 (SD 0.011), respectively (P < 0.0001 vs. 0 for both). As a result, there was an inverse relationship between IVPG and normalized LV filling time (r = -0.65, P < 0.001). We conclude that IVPD decrease, while IVPG increase with decreasing animal size. High IVPG in small mammals may be an adaptive mechanism to short filling times.

Original language	English (US)
Pages (from-to)	H762-H769
Journal	American Journal of Physiology - Heart and Circulatory Physiology
Volume	291
Issue number	2
DOIs	https://doi.org/10.1152/ajpheart.00081.2006
State	Published - 2006

Keywords

Comparative physiology
Diastolic function
Hemodynamics

ASJC Scopus subject areas

Physiology
Cardiology and Cardiovascular Medicine
Physiology (medical)

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10.1152/ajpheart.00081.2006

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Popović, Z. B., Richards, K. E., Greenberg, N. L., Rovner, A., Drinko, J., Cheng, Y., Penn, M. S., Fukamachi, K., Mal, N., Levine, B. D., Garcia, M. J., & Thomas, J. D. (2006). Scaling of diastolic intraventricular pressure gradients is related to filling time duration. American Journal of Physiology - Heart and Circulatory Physiology, 291(2), H762-H769. https://doi.org/10.1152/ajpheart.00081.2006

@article{7ba62e8218a3482dadf9398fd5dfc6f0,

title = "Scaling of diastolic intraventricular pressure gradients is related to filling time duration",

abstract = "In early diastole, pressure is lower in the apex than in the base of the left ventricle (LV). This early intraventricular pressure difference (IVPD) facilitates LV filling. We assessed how LV diastolic IVPD and intraventricular pressure gradient (IVPG), defined as IVPD divided by length, scale to the heart size and other physiological variables. We studied 10 mice, 10 rats, 5 rabbits, 12 dogs, and 21 humans by echocardiography. Color Doppler M-mode data were postprocessed to reconstruct IVPD and IVPG. Normalized LV filling time was calculated by dividing filling time by RR interval. The relationship between IVPD, IVPG, normalized LV filling time, and LV end-diastolic volume (or mass) as fit to the general scaling equation Y = kMβ, where M is LV heart size parameter, Y is a dependent variable, k is a constant, and β is the power of the scaling exponent. LV mass varied from 0.049 to 194 g, whereas end-diastolic volume varied from 0.011 to 149 ml. The β values relating normalized LV filling time with LV mass and end-diastolic volume were 0.091 (SD 0.011) and 0.083 (SD 0.009), respectively (P < 0.0001 vs. 0 for both). The β values relating IVPD with LV mass and end-diastolic volume were similarly significant at 0.271 (SD 0.039) and 0.243 (SD 0.0361), respectively (P < 0.0001 vs. 0 for both). Finally, β values relating IVPG with LV mass and end-diastolic volume were -0.118 (SD 0.013) and -0.104 (SD 0.011), respectively (P < 0.0001 vs. 0 for both). As a result, there was an inverse relationship between IVPG and normalized LV filling time (r = -0.65, P < 0.001). We conclude that IVPD decrease, while IVPG increase with decreasing animal size. High IVPG in small mammals may be an adaptive mechanism to short filling times.",

keywords = "Comparative physiology, Diastolic function, Hemodynamics",

author = "Popovi{\'c}, {Zoran B.} and Richards, {Kathryn E.} and Greenberg, {Neil L.} and Aleksandr Rovner and Jeannie Drinko and Yuanna Cheng and Penn, {Marc S.} and Kiyotaka Fukamachi and Niladri Mal and Levine, {Benjamin D.} and Garcia, {Mario J.} and Thomas, {James D.}",

year = "2006",

doi = "10.1152/ajpheart.00081.2006",

language = "English (US)",

volume = "291",

pages = "H762--H769",

journal = "American Journal of Physiology",

issn = "0363-6135",

publisher = "American Physiological Society",

number = "2",

}

Popović, ZB, Richards, KE, Greenberg, NL, Rovner, A, Drinko, J, Cheng, Y, Penn, MS, Fukamachi, K, Mal, N, Levine, BD, Garcia, MJ & Thomas, JD 2006, 'Scaling of diastolic intraventricular pressure gradients is related to filling time duration', American Journal of Physiology - Heart and Circulatory Physiology, vol. 291, no. 2, pp. H762-H769. https://doi.org/10.1152/ajpheart.00081.2006

TY - JOUR

T1 - Scaling of diastolic intraventricular pressure gradients is related to filling time duration

AU - Popović, Zoran B.

AU - Richards, Kathryn E.

AU - Greenberg, Neil L.

AU - Rovner, Aleksandr

AU - Drinko, Jeannie

AU - Cheng, Yuanna

AU - Penn, Marc S.

AU - Fukamachi, Kiyotaka

AU - Mal, Niladri

AU - Levine, Benjamin D.

AU - Garcia, Mario J.

AU - Thomas, James D.

PY - 2006

Y1 - 2006

N2 - In early diastole, pressure is lower in the apex than in the base of the left ventricle (LV). This early intraventricular pressure difference (IVPD) facilitates LV filling. We assessed how LV diastolic IVPD and intraventricular pressure gradient (IVPG), defined as IVPD divided by length, scale to the heart size and other physiological variables. We studied 10 mice, 10 rats, 5 rabbits, 12 dogs, and 21 humans by echocardiography. Color Doppler M-mode data were postprocessed to reconstruct IVPD and IVPG. Normalized LV filling time was calculated by dividing filling time by RR interval. The relationship between IVPD, IVPG, normalized LV filling time, and LV end-diastolic volume (or mass) as fit to the general scaling equation Y = kMβ, where M is LV heart size parameter, Y is a dependent variable, k is a constant, and β is the power of the scaling exponent. LV mass varied from 0.049 to 194 g, whereas end-diastolic volume varied from 0.011 to 149 ml. The β values relating normalized LV filling time with LV mass and end-diastolic volume were 0.091 (SD 0.011) and 0.083 (SD 0.009), respectively (P < 0.0001 vs. 0 for both). The β values relating IVPD with LV mass and end-diastolic volume were similarly significant at 0.271 (SD 0.039) and 0.243 (SD 0.0361), respectively (P < 0.0001 vs. 0 for both). Finally, β values relating IVPG with LV mass and end-diastolic volume were -0.118 (SD 0.013) and -0.104 (SD 0.011), respectively (P < 0.0001 vs. 0 for both). As a result, there was an inverse relationship between IVPG and normalized LV filling time (r = -0.65, P < 0.001). We conclude that IVPD decrease, while IVPG increase with decreasing animal size. High IVPG in small mammals may be an adaptive mechanism to short filling times.

AB - In early diastole, pressure is lower in the apex than in the base of the left ventricle (LV). This early intraventricular pressure difference (IVPD) facilitates LV filling. We assessed how LV diastolic IVPD and intraventricular pressure gradient (IVPG), defined as IVPD divided by length, scale to the heart size and other physiological variables. We studied 10 mice, 10 rats, 5 rabbits, 12 dogs, and 21 humans by echocardiography. Color Doppler M-mode data were postprocessed to reconstruct IVPD and IVPG. Normalized LV filling time was calculated by dividing filling time by RR interval. The relationship between IVPD, IVPG, normalized LV filling time, and LV end-diastolic volume (or mass) as fit to the general scaling equation Y = kMβ, where M is LV heart size parameter, Y is a dependent variable, k is a constant, and β is the power of the scaling exponent. LV mass varied from 0.049 to 194 g, whereas end-diastolic volume varied from 0.011 to 149 ml. The β values relating normalized LV filling time with LV mass and end-diastolic volume were 0.091 (SD 0.011) and 0.083 (SD 0.009), respectively (P < 0.0001 vs. 0 for both). The β values relating IVPD with LV mass and end-diastolic volume were similarly significant at 0.271 (SD 0.039) and 0.243 (SD 0.0361), respectively (P < 0.0001 vs. 0 for both). Finally, β values relating IVPG with LV mass and end-diastolic volume were -0.118 (SD 0.013) and -0.104 (SD 0.011), respectively (P < 0.0001 vs. 0 for both). As a result, there was an inverse relationship between IVPG and normalized LV filling time (r = -0.65, P < 0.001). We conclude that IVPD decrease, while IVPG increase with decreasing animal size. High IVPG in small mammals may be an adaptive mechanism to short filling times.

KW - Comparative physiology

KW - Diastolic function

KW - Hemodynamics

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VL - 291

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JO - American Journal of Physiology

JF - American Journal of Physiology

IS - 2

ER -

Scaling of diastolic intraventricular pressure gradients is related to filling time duration

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