Application of Allometric Methods for Indexation of Left Ventricular End-Diastolic Volume to Normal Echocardiographic Data and Assessing Gender and Racial Differences
Gender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other...
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| Published in | Journal of the American Society of Echocardiography Vol. 36; no. 6; pp. 596 - 603.e3 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
01.06.2023
Elsevier BV |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0894-7317 1097-6795 1097-6795 |
| DOI | 10.1016/j.echo.2023.02.004 |
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| Abstract | Gender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other studies advocate allometric indexation for standardization of heart size. We compared several allometric methods on gender and racial differences in left ventricular end-diastolic volume (LVEDV) measured on three-dimensional echocardiography.
Three-dimensional echocardiographic LVEDV data from the World Alliance Societies of Echocardiography normal values study were indexed to isometric BSA, BSA1.5, BSA1.8, isometric height, height2.3, height2.9, and estimated lean body mass. Gender, racial, national, and regional differences in indexed and nonindexed LVEDV were assessed using Cohen’s d statistic or Cohen’s f statistic, according to the number of groups being compared. Cohen’s d < 0.20 and Cohen’s f < 0.10 were regarded as very small relative magnitudes of difference.
Differences in LVEDV among White, Black, and Asian races were smallest when BSA1.5 or BSA1.8 was used for indexation, followed by estimated lean body mass. LVEDV/BSA1.5 was nearly identical for men and women (very small, d = 0.05). However, both LVEDV/BSA1.5 and LVEDV/BSA1.8 still provided moderate relative magnitudes of difference (f = 0.22–0.37) among geographic regions. Specifically, among Asians, Indians had the smallest LVEDV/BSA1.5 (1.8). Brazilians had the smallest LVEDV/BSA1.5 (1.8) among Whites.
Gender and racial differences in LVEDV became smaller when LVEDV was indexed to BSA1.5 or BSA1.8. However, differences in LVEDV among nations remain even after applying allometric scaling. This finding suggests that differences in body composition and/or hemodynamics are potentially more important determinants of heart size than race or gender.
•LVEDV/BSA1.5 and LVEDV/BSA1.8 yielded small Cohen’s d between genders.•LVEDV/BSA1.5 and LVEDV/BSA1.8 provided small Cohen’s f among nationalities.•All indexation methods showed small but persistent differences in LVEDV.•LVEDV was normalized across gender and race to a greater degree than nationality. |
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| AbstractList | Gender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other studies advocate allometric indexation for standardization of heart size. We compared several allometric methods on gender and racial differences in left ventricular end-diastolic volume (LVEDV) measured on three-dimensional echocardiography.
Three-dimensional echocardiographic LVEDV data from the World Alliance Societies of Echocardiography normal values study were indexed to isometric BSA, BSA
, BSA
, isometric height, height
, height
, and estimated lean body mass. Gender, racial, national, and regional differences in indexed and nonindexed LVEDV were assessed using Cohen's d statistic or Cohen's f statistic, according to the number of groups being compared. Cohen's d < 0.20 and Cohen's f < 0.10 were regarded as very small relative magnitudes of difference.
Differences in LVEDV among White, Black, and Asian races were smallest when BSA
or BSA
was used for indexation, followed by estimated lean body mass. LVEDV/BSA
was nearly identical for men and women (very small, d = 0.05). However, both LVEDV/BSA
and LVEDV/BSA
still provided moderate relative magnitudes of difference (f = 0.22-0.37) among geographic regions. Specifically, among Asians, Indians had the smallest LVEDV/BSA
. Brazilians had the smallest LVEDV/BSA
among Whites.
Gender and racial differences in LVEDV became smaller when LVEDV was indexed to BSA
or BSA
. However, differences in LVEDV among nations remain even after applying allometric scaling. This finding suggests that differences in body composition and/or hemodynamics are potentially more important determinants of heart size than race or gender. Gender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other studies advocate allometric indexation for standardization of heart size. We compared several allometric methods on gender and racial differences in left ventricular end-diastolic volume (LVEDV) measured on three-dimensional echocardiography. Three-dimensional echocardiographic LVEDV data from the World Alliance Societies of Echocardiography normal values study were indexed to isometric BSA, BSA1.5, BSA1.8, isometric height, height2.3, height2.9, and estimated lean body mass. Gender, racial, national, and regional differences in indexed and nonindexed LVEDV were assessed using Cohen’s d statistic or Cohen’s f statistic, according to the number of groups being compared. Cohen’s d < 0.20 and Cohen’s f < 0.10 were regarded as very small relative magnitudes of difference. Differences in LVEDV among White, Black, and Asian races were smallest when BSA1.5 or BSA1.8 was used for indexation, followed by estimated lean body mass. LVEDV/BSA1.5 was nearly identical for men and women (very small, d = 0.05). However, both LVEDV/BSA1.5 and LVEDV/BSA1.8 still provided moderate relative magnitudes of difference (f = 0.22–0.37) among geographic regions. Specifically, among Asians, Indians had the smallest LVEDV/BSA1.5 (1.8). Brazilians had the smallest LVEDV/BSA1.5 (1.8) among Whites. Gender and racial differences in LVEDV became smaller when LVEDV was indexed to BSA1.5 or BSA1.8. However, differences in LVEDV among nations remain even after applying allometric scaling. This finding suggests that differences in body composition and/or hemodynamics are potentially more important determinants of heart size than race or gender. •LVEDV/BSA1.5 and LVEDV/BSA1.8 yielded small Cohen’s d between genders.•LVEDV/BSA1.5 and LVEDV/BSA1.8 provided small Cohen’s f among nationalities.•All indexation methods showed small but persistent differences in LVEDV.•LVEDV was normalized across gender and race to a greater degree than nationality. Gender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other studies advocate allometric indexation for standardization of heart size. We compared several allometric methods on gender and racial differences in left ventricular end-diastolic volume (LVEDV) measured on three-dimensional echocardiography.BACKGROUNDGender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other studies advocate allometric indexation for standardization of heart size. We compared several allometric methods on gender and racial differences in left ventricular end-diastolic volume (LVEDV) measured on three-dimensional echocardiography.Three-dimensional echocardiographic LVEDV data from the World Alliance Societies of Echocardiography normal values study were indexed to isometric BSA, BSA1.5, BSA1.8, isometric height, height2.3, height2.9, and estimated lean body mass. Gender, racial, national, and regional differences in indexed and nonindexed LVEDV were assessed using Cohen's d statistic or Cohen's f statistic, according to the number of groups being compared. Cohen's d < 0.20 and Cohen's f < 0.10 were regarded as very small relative magnitudes of difference.METHODSThree-dimensional echocardiographic LVEDV data from the World Alliance Societies of Echocardiography normal values study were indexed to isometric BSA, BSA1.5, BSA1.8, isometric height, height2.3, height2.9, and estimated lean body mass. Gender, racial, national, and regional differences in indexed and nonindexed LVEDV were assessed using Cohen's d statistic or Cohen's f statistic, according to the number of groups being compared. Cohen's d < 0.20 and Cohen's f < 0.10 were regarded as very small relative magnitudes of difference.Differences in LVEDV among White, Black, and Asian races were smallest when BSA1.5 or BSA1.8 was used for indexation, followed by estimated lean body mass. LVEDV/BSA1.5 was nearly identical for men and women (very small, d = 0.05). However, both LVEDV/BSA1.5 and LVEDV/BSA1.8 still provided moderate relative magnitudes of difference (f = 0.22-0.37) among geographic regions. Specifically, among Asians, Indians had the smallest LVEDV/BSA1.5 (1.8). Brazilians had the smallest LVEDV/BSA1.5 (1.8) among Whites.RESULTSDifferences in LVEDV among White, Black, and Asian races were smallest when BSA1.5 or BSA1.8 was used for indexation, followed by estimated lean body mass. LVEDV/BSA1.5 was nearly identical for men and women (very small, d = 0.05). However, both LVEDV/BSA1.5 and LVEDV/BSA1.8 still provided moderate relative magnitudes of difference (f = 0.22-0.37) among geographic regions. Specifically, among Asians, Indians had the smallest LVEDV/BSA1.5 (1.8). Brazilians had the smallest LVEDV/BSA1.5 (1.8) among Whites.Gender and racial differences in LVEDV became smaller when LVEDV was indexed to BSA1.5 or BSA1.8. However, differences in LVEDV among nations remain even after applying allometric scaling. This finding suggests that differences in body composition and/or hemodynamics are potentially more important determinants of heart size than race or gender.CONCLUSIONSGender and racial differences in LVEDV became smaller when LVEDV was indexed to BSA1.5 or BSA1.8. However, differences in LVEDV among nations remain even after applying allometric scaling. This finding suggests that differences in body composition and/or hemodynamics are potentially more important determinants of heart size than race or gender. BackgroundGender and racial differences in cardiac chamber size are vital to establish normal ranges of cardiac chamber size in healthy subjects. Many studies report either nonindexed raw measurements or measurements indexed to isometric body surface area (BSA) when establishing normal reference values. Other studies advocate allometric indexation for standardization of heart size. We compared several allometric methods on gender and racial differences in left ventricular end-diastolic volume (LVEDV) measured on three-dimensional echocardiography. MethodsThree-dimensional echocardiographic LVEDV data from the World Alliance Societies of Echocardiography normal values study were indexed to isometric BSA, BSA 1.5, BSA 1.8, isometric height, height 2.3, height 2.9, and estimated lean body mass. Gender, racial, national, and regional differences in indexed and nonindexed LVEDV were assessed using Cohen’s d statistic or Cohen’s f statistic, according to the number of groups being compared. Cohen’s d < 0.20 and Cohen’s f < 0.10 were regarded as very small relative magnitudes of difference. ResultsDifferences in LVEDV among White, Black, and Asian races were smallest when BSA 1.5 or BSA 1.8 was used for indexation, followed by estimated lean body mass. LVEDV/BSA 1.5 was nearly identical for men and women (very small, d = 0.05). However, both LVEDV/BSA 1.5 and LVEDV/BSA 1.8 still provided moderate relative magnitudes of difference ( f = 0.22–0.37) among geographic regions. Specifically, among Asians, Indians had the smallest LVEDV/BSA 1.5 (1.8). Brazilians had the smallest LVEDV/BSA 1.5 (1.8) among Whites. ConclusionsGender and racial differences in LVEDV became smaller when LVEDV was indexed to BSA 1.5 or BSA 1.8. However, differences in LVEDV among nations remain even after applying allometric scaling. This finding suggests that differences in body composition and/or hemodynamics are potentially more important determinants of heart size than race or gender. |
| Author | Asch, Federico M. Nabeshima, Yosuke Addetia, Karima Lang, Roberto M. Takeuchi, Masaaki |
| Author_xml | – sequence: 1 givenname: Yosuke orcidid: 0000-0003-4329-2819 surname: Nabeshima fullname: Nabeshima, Yosuke email: yosuke_nabeshima@live.jp organization: Second Department of Internal Medicine, University of Occupational and Environmental Health, Kitakyushu, Japan – sequence: 2 givenname: Karima surname: Addetia fullname: Addetia, Karima organization: Department of Cardiology, University of Chicago, Chicago, Illinois – sequence: 3 givenname: Federico M. surname: Asch fullname: Asch, Federico M. organization: MedStar Health Research Institute, Washington, District of Columbia – sequence: 4 givenname: Roberto M. surname: Lang fullname: Lang, Roberto M. organization: Department of Cardiology, University of Chicago, Chicago, Illinois – sequence: 5 givenname: Masaaki surname: Takeuchi fullname: Takeuchi, Masaaki organization: Department of Laboratory and Transfusion Medicine, Hospital of University of Occupational and Environmental Health, Kitakyushu, Japan |
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| CitedBy_id | crossref_primary_10_1002_clc_70029 crossref_primary_10_1016_j_jcmg_2023_09_003 crossref_primary_10_3390_jcm13164961 crossref_primary_10_1007_s10554_024_03197_6 crossref_primary_10_1002_mco2_550 |
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| Keywords | BSA ELBM WASE LBM Three-dimensional echocardiography LV LVEDV Allometric method Racial difference Left ventricular World Alliance Societies of Echocardiography Lean body mass Body surface area Estimated lean body mass Left ventricular end-diastolic volume |
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| SubjectTerms | Allometric method Brazil Cardiovascular Echocardiography Echocardiography - methods Female Heart Ventricles Heart Ventricles - diagnostic imaging Humans Male Race Factors Racial difference Reference Values Stroke Volume Three-dimensional echocardiography |
| Title | Application of Allometric Methods for Indexation of Left Ventricular End-Diastolic Volume to Normal Echocardiographic Data and Assessing Gender and Racial Differences |
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