Testing the Protein Leverage Hypothesis in a free-living human population

被引:36
|
作者
Martinez-Cordero, Claudia [1 ]
Kuzawa, Christopher W. [2 ]
Sloboda, Deborah M. [1 ]
Stewart, Joanna [1 ]
Simpson, Stephen J. [3 ,4 ]
Raubenheimer, David [5 ]
机构
[1] Univ Auckland, NRCGD, Liggins Inst, Auckland 1, New Zealand
[2] Northwestern Univ, Dept Anthropol, Evanston, IL 60208 USA
[3] Univ Sydney, Sch Biol Sci, Sydney, NSW 2006, Australia
[4] Univ Sydney, Charles Perkins Ctr, Sydney, NSW 2006, Australia
[5] Massey Univ, Inst Nat Sci, Palmerston North, New Zealand
来源
APPETITE | 2012年 / 59卷 / 02期
关键词
Macronutrients; Protein intake; Dietary changes; Longitudinal study; Cebu; CEBU LONGITUDINAL HEALTH; BODY-MASS INDEX; GEOMETRIC ANALYSIS; WEIGHT; CONSEQUENCES; SATIETY; OBESITY; WOMEN; FAT;
D O I
10.1016/j.appet.2012.05.013
中图分类号
B84 [心理学]; C [社会科学总论]; Q98 [人类学];
学科分类号
03 ; 0303 ; 030303 ; 04 ; 0402 ;
摘要
The Protein Leverage Hypothesis (PLH) predicts that humans prioritize protein when regulating food intake. We tested a central prediction of PLH: protein intake will remain more constant than fat or carbohydrate in the face of dietary changes in a free-living population. Data come from a large sample of adult Filipino women participating in the Cebu Longitudinal Health and Nutrition Survey (CLHNS) located in Philippines. Longitudinal data analysis showed that, as predicted, calories of dietary protein remained more constant over time than calories of dietary carbohydrates or fat, even if corrected for the low proportional contribution of protein to dietary energy. (C) 2012 Elsevier Ltd. All rights reserved.
引用
收藏
页码:312 / 315
页数:4
相关论文
共 50 条
  • [31] HYPERLIPOPROTEINEMIA - PREVALENCE IN A FREE-LIVING POPULATION IN ALBANY, NEW YORK
    BROWN, DF
    DAUDISS, K
    CIRCULATION, 1973, 47 (03) : 558 - 566
  • [32] THE POPULATION BIOLOGY OF THE FREE-LIVING PHASE OF HAEMONCHUS-CONTORTUS
    SMITH, G
    PARASITOLOGY, 1990, 101 : 309 - 316
  • [33] A population of free-living highland wild dogs in Indonesian Papua
    McIntyre, James K.
    Wolf, Lisa L.
    Sacks, Benjamin N.
    Koibur, Johon
    Brisbin, I. Lehr, Jr.
    AUSTRALIAN MAMMALOGY, 2020, 42 (02): : 160 - 166
  • [34] Inbreeding depression by environment interactions in a free-living mammal population
    J M Pemberton
    P E Ellis
    J G Pilkington
    C Bérénos
    Heredity, 2017, 118 : 64 - 77
  • [35] Isolation of 'free-living' amoebae causing human disease
    Rowbotham, TJ
    JOURNAL OF MEDICAL MICROBIOLOGY, 1998, 47 (10) : 937 - 937
  • [36] Eating patterns in a free-living healthy US adult population
    Ma, YS
    Bertone-Johnson, ER
    Stanek, EJ
    Reed, GW
    Herbert, JR
    Cohen, NL
    Olendzki, BC
    Rosal, MC
    Merriam, PA
    Ockene, IS
    ECOLOGY OF FOOD AND NUTRITION, 2005, 44 (01) : 37 - 56
  • [37] FREE-LIVING AMEBAS
    PAGE, FC
    BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY, 1977, 9 (04) : 384 - 384
  • [38] IDENTIFICATION OF ANTIGENS OF PATHOGENIC FREE-LIVING AMEBAS BY PROTEIN IMMUNOBLOTTING WITH RABBIT IMMUNE AND HUMAN SERA
    POWELL, EL
    NEWSOME, AL
    ALLEN, SD
    KNUDSON, GB
    CLINICAL AND DIAGNOSTIC LABORATORY IMMUNOLOGY, 1994, 1 (05) : 493 - 499
  • [39] PROTEIN-INDUCED CALCIURIA AND MAGNESURIA IN FREE-LIVING MEN
    LURIE, DG
    CARPER, AM
    KYLE, EE
    BOWEN, PE
    FEDERATION PROCEEDINGS, 1984, 43 (04) : 1051 - 1051
  • [40] TAXONOMIC ANALYSES OF THE FREE-LIVING AMEBA USING PROTEIN POLYMORPHISM
    FRIZ, CT
    ARCHIV FUR PROTISTENKUNDE, 1987, 133 (3-4): : 165 - 171
12345