The Malnutrition Universal Screening Tool (MUST) is developed to screen the risk of malnutrition among adults. Height measurements are needed for MUST and also in healthcare settings (e.g. for the purpose of the estimation of the energy requirements), but its measurement is a challenge for patients who cannot stand up. For such patients, a MUST equation can be used to predict height using ulna lengthReference Stratton, King and Stroud1. However, the MUST equation does not take into consideration different ethnic backgrounds and the potential impact of ethnicity on the relationship between height and ulna lengthReference Madden, Tsikoura and Stott2. The aim of this study, therefore, is to investigate how accurately height can be estimated from ulna length in adults of Indian and Pakistani ethnicity using the MUST equation and to formulate more accurate ethnic specific equations, if necessary.
Ulna length and standing height was measured in 127 participants of Indian/Pakistani ethnicity, 67 males and 60 females. The participants were healthy volunteers aged 21–65 years. Height was predicted using the left ulna lengths firstly through the MUST equations and secondly compared against the measured values using an independent samples t-test. Regression formulas were then created for males and females.
The mean height (SD) was 171·0 (6·5) cm and 155·7 (5·8) cm for men and women respectively. Ulna lengths and height were significantly correlated in both males (r = 0·645, p < 0·01) and females (r = 0·596, p < 0·01). There was a significant difference between the mean predicted height using MUST equation and mean measured height of participants for men (177·2 cm vs. 171·0 cm, p < 0·001) and women (163·8 cm vs.155·7 cm, p < 0·001) respectively. The current prediction equations of MUST show systematic overestimation of height in Indian and Pakistani men and women (Figure 1).
The MUST equations for predicting height from ulna length in healthy adults should not be used among the Pakistani and Indian population as it overestimates the height, which could increase errors not only in the assessment of the risk of malnutrition but also in estimating energy requirement of patients. The results confirm previous findingsReference Madden, Tsikoura and Stott2; however this will be soon followed by a larger study in the field. This is preliminary data of a multi-central collaborative project running in several research centres to produce prediction equation formulae for estimation of body height from the length of ulna within a representative sample of different ethnic groups across the UK.