Methods To Assess Nutritional Status And Body Composition PDF

Summary

This document outlines methods to assess nutritional status and body composition, including anthropometric measures, body weight, height and weight, effect of BMI, and various questionnaires. It discusses different body composition measures and their use in various populations.

Full Transcript

Methods to Assess
NUT 602
Nutritional Status FALL 2024
& Body Composition
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Outline

Anthropometric Muscle mass and Nutritional status
measures muscle strength
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Components of Total Body Mass
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Anthropometric Measures

Height & Weight ➔ BMI

Waist & Hip Circumference

Skinfold Thickness

Mid-Upper-Arm Circumference

Mid-Upper-Arm Muscle Area

Calf & Thigh Circumference

Novel Markers
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Body Weight

Changes in hydration, recency
r=0.96 for repeated
of food intake & intended
Among the most precise assessments at 1 year among
weight change increase error
biologic measurements, even adult women: first value based
more than technical aspects
with simple and imperfect on self-report; second value
of weighing ➔ repeated
conditions based on measurement using
measurements over a period
a bathroom-type scale
of months
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Height & Weight:
Reported vs. Measured
Tendency to underreport weight & overreport height (slight) ➔ BMI will be biased downward ➔
Slight systematic error

Adults in NHANES III: mean self-reported BMI was lower than technician-measured BMI (25.07 vs.
25.52 kg/m2): underreporting of weight (-0.56 kg, 95% CI: -0.71, -0.41) & overreporting of height
(0.76 cm, 95% CI: 0.64, 0.88) (McAdams, Van Dam, and Hu, 2007)

Correlations between self-reported & measured BMI values were very high (r=0.95 for whites, 0.93
for blacks, and 0.90 for Mexican-Americans)

Self-reported & measured BMI values were equally correlated with FBG (r=0.43), HDL-C (r=-0.53),
and SBP (r=0.54)
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Height & Weight:
Reported vs. Measured
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Height & Weight:
Reported vs. Measured
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Effect on BMI

The BMI of a woman with a Measured Reported
Height & Height &
weight of 50 kg and a height of Weight Weight
1.65 m, would differ by 2.36% (95%
CI 2.07–2.58%) if measured using
self-reported data (Seijo et al) H=165 cm H = 165 +0.36
W = 55 kg W = 55 – 0.94
The difference between the two
BMIs in this example is 2.24%
BMI = 20.20 BMI = 19.75
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BMI = Measure of Body Fatness

Ideal 1. Accurate in assessing the amount of body fat

measure 2. Precise with small measurement error
of body 3. Predict risks of health consequences
fatness 4. Possible to develop cut-points to separate individuals
into groups of excess adiposity-related health risks
5. Accessible (simple, cheap, easy to use)

6. Acceptable to be used in epidemiologic studies
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BMI = Measure of Body Fatness

Strengths Limitations
Associated with height in
Has most of the features
children

Biologic differences
Cheap, easily accessed
between ethnic groups

Low sensitivity compared
Strong association with with obesity classification
body fat and health risks based on %Body Fat &
novel markers
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BMI in Children
 WHO growth standards to monitor growth for infants and children aged 0 to 5 years
 CDC growth charts for children aged 5 years and older

https://www.cdc.gov/growthcharts/who_charts.htm
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BMI in Asian Populations
 Different BMI cut-points recommended for some Asian and Pacific populations

 2002 WHO Expert Consultation:
 Proportion of Asian people with a high risk of T2D & CVD is substantial at BMI30 kg/m2; HR 0.85;
95% CI 0.64–1.14) NS associated with mortality

BMI 25–35 kg/m2 (23.8–25.9%): lowest absolute
rates of death at 10 years FU

Beleigoli et al., 2012, plos one
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BMI in Older Adults
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Waist & Hip Circumference

WC valid measure for identifying central adiposity

Predictor of risk for CVD and T2D

Different cut-offs or indices

Ethnic groups for which WC may reflect more body fat at a
BMI level ➔ Asians have higher % body fat at lower BMIs
Waist & Hip Circumference 20
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Skinfold Thickness

 Measurements based on Strengths Limitations
an assumption that
subcutaneous fat is ~50% Inexpensive Training of personnel
of total body fat
Easy to measure Type of calipers

 Indirectly predict % BF Appropriate selection of
through population- equation

specific (gender-specific, Not all fat is accessible to the
calipers (intraabdominal/
age-specific) equations intramuscular)

Distribution of subcutaneous
fat varies over the body
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Mid-Upper-Arm Muscle Area

MAMA determined from MUAC & Triceps Skinfold Thickness
Evaluation of overall muscle mass

Midarm muscle circumference & muscle status
% of standard measurement Muscle status category
50 Wasted
60 Below average - depleted
75 Average – marginal
100±20 Adequate
>120 High muscle
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Calf & Thigh Circumference

Because of complexity & impracticality of using DXA ➔ NIA recommends CC to
assess muscle mass & bone density

CC better depicts body composition changes, reflecting lower extremity
muscle loss & atrophy contributing to decreased mobility & risk of falling

TC is an alternative marker of muscle mass & a predictor of risk for bone
fracture

Strong positive correlation of CC & TC to muscle mass (predict BMD & disability)
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Anthropometric Measurements

Benefits Limitations
Time of day
Low cost
variance

Variations in
Ease of training location or sire of
measurement

Observational
Non-invasive
subjectivity
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Novel Markers

 AVI, WHtR, WC best
predicted cardiometabolic
abnormalities in a sample
of Lebanese adults

Abboud M, Haidar S, Mahboub N, Papandreou D, Rizk R (2023)
Abdominal volume index, waist-to-height ratio, and waist
circumference are optimal predictors of cardiometabolic abnormalities
in a sample of Lebanese adults: A cross-sectional study. PLOS Glob
Public Health 3(12): e0002726.
https://doi.org/10.1371/journal.pgph.0002726
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Muscle Mass
DXA
Bioelectrical impedance (BIA) ➔ Total body water ➔ estimate lean
body mass & by difference from total body mass ➔ fat mass

Advantages

Does not require
Ease of use in
Cheap Portable extensive training
research settings
to operate
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Nutritional Status
Anthropometric & body composition measures
for nutritional assessment
Protein status Mid-arm-muscle circumference
Grip strength
Fat stores Triceps skinfold
BMI
BIA
DXA
Waist circumference
Body water BIA
Weight change
Waist circumference
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Nutritional Status

Anthropometric &
body composition
measures

Questionnaires
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Muscle Strength

 Assessment of nutritional status may include tests of muscle function
 Handgrip strength (Dynanometer, commercially available)
 Typical strength in healthy males is 40–50 kg; females 20–30 kg
 May differ between dominant and non-dominant arms
 Tends to decline in later years
 Several protocols depending on posture, timing, number of repeats,
use of dominant vs. non-dominant arms
 Good predictor of health changes, morbidity & mortality in adults
and children
 Strong marker of nutritional status & frailty
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Questionnaires to Assess
Nutritional Status

Hospital Community
Computerized
setting setting
NRS-2002 MUST CONUT
MNA MNA INFORNUT
SGA, PG-SGA SNAQ
NRI, GNRI
GLIM criteria
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Validated Malnutrition Screening Tools
 Position of AND: Malnutrition 33

(Undernutrition) Screening Tools for Adults
 Position of AND: Malnutrition 34

(Undernutrition) Screening Tools for Adults
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SGA: Golden Standard

 Subjective Global Assessment
 Valid tool for the nutritional diagnosis of hospitalized clinical and surgical
patients
 Potential superiority of nutritional screening methods in the early
detection of malnutrition (Da Silva Fink et al., 2015)

https://nutritioncareincanada.ca/sites/default/uploads/files/SGA%20Tool%20EN%20BKWT_2017.pdf
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MNA

 Mini Nutritional Assessment
 Validated nutrition screening and assessment tool
 Can identify geriatric patients aged ≥65 years who are malnourished or at
risk of malnutrition
 Two forms: long and short forms

https://www.mna-elderly.com/forms/mini/mna_mini_english.pdf
 MNA 37

 Functional, psychological, & cognitive parameters (not considered in
MUST & NRS-2002) are probably more important risk factors for
malnutrition than acute illness in geriatric long-term care inpatient settings
 May account for the low predictive value of these tests
 MNA-SF seems to combine the predictive capacity of the full version of
the MNA with a sufficiently short time of administration
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Appetite: AHSP, CNAQ, SNAQ
AHSP
Appetite Hunger and Sensory Perception Questionnaire
29-item multidomain: taste (14 items), smell (6 items), hunger (9items)
5-point Likert-type scale

CNAQ
Council on Nutrition Appetite Questionnaire
8-item single domain questionnaire
5-point Likert-type scale

SNAQ
Simplified Nutritional Appetite Questionnaire
4-item single domain
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VALIDITY
Considerations for RELIABILITY
Choosing a Tool SENSITIVITY
SPECIFICITY

https://www.youtube.com/watch?v=psELBu7muNY
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Validity vs. Reliability

 Validity – extent to which a test measures what it is supposed to measure
VS.
 Reliability – consistency of a test or measure over a period, and between
different participants
 Inter-rater reliability – produces consistent results for the same subject
regardless of the user
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Validation Terms

 Sensitivity – how likely is the test to detect presence of condition in
someone with the condition?
 Specificity – how likely is the test to detect the absence of a condition in
someone without the condition?
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MST

 Malnutrition Screening Tool (MST) and Nutritional Screening Tool (NUTRISCORE)
 Global Leadership Initiative of Malnutrition (GLIM) as reference standard
 Sensitivity and specificity: MST: 75% and 94% vs. NUTRISCORE 45% and 97%
 Area under ROC curves: MST: 0.90 for MST vs. NUTRISCORE: 0.85
 MST has a significantly better diagnostic performance over NUTRISCORE
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Take-home message