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The “Lasso-o” tape: stretchability and observer variability in head circumference measurement
  1. J L Bartram1,
  2. A S Rigby2,
  3. P S Baxter1
  1. 1Sheffield Children’s Hospital, UK
  2. 2Academic Cardiology, University of Hull, UK
  1. Correspondence to:
    Dr J L Bartram
    Sheffield Children’s Hospital, Western Bank, Sheffield S10 2TH, UK; jacklbartramhotmail.com

Abstract

Head circumference is an important clinical measurement in children. The stretchability of the Lasso-o tape and the intra- and inter-observer reproducibility of measurements using it were investigated. Old Lasso-o tapes stretch significantly. The intra-class coefficients were 0.999 for intra-observer and 0.979 for inter-observer measurements. Nonetheless in 9% of measurements inter-observer variability was over 1 cm.

  • head circumference
  • measurement
  • observer variability
  • reliability
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Measurement of head circumference (occipito-frontal circumference) is a routine part of the physical examination of a child and is of great importance in detecting abnormal patterns of growth. Clinical decisions can depend on serial changes in the measurement. Head circumference is also widely used as a variable in research. Apart from studies in neonates,1 few studies have examined the accuracy of measurement. In recent years in the UK the Lasso-o tape has been marketed specifically for head circumference measurement. Anecdotal evidence from clinics and ward rounds highlighted that older Lasso-o tapes, some of which were in bad condition, appeared to be of different lengths and were more easily stretched. Currently there are no guidelines on when to replace the tapes. We therefore wished to assess whether the Lasso-o tape is still an accurate measuring tool after multiple use and to apply measures of intra- and inter-observer variability and reproducibility of head circumference measurement using the Lasso-o tape.

METHODS

Tapes were tested at the University of Sheffield Department of Engineering, under standard conditions of constant temperature and humidity. The normal range of force required in clinical practice was calculated using Newton meters attached to a tape wrapped around a volunteer’s head. Varying continuous tensile forces were then applied to four new and six old Lasso-o tapes from clinics and wards, to simulate multiple strain-relax forces. Their change in lengths were measured against a calibrated steel rule and compared by paired one tailed t tests.

Ethical approval was obtained from South Sheffield Local Research Ethics Committee.

Using new Lasso-o tapes the head circumferences of 79 outpatients aged 3 weeks to 16 years were measured by three observers, blinded to each other’s results, to assess inter-observer differences. One observer made repeated measurements to assess intra-observer reliability. The differences between readings, and their correlation and agreement were analysed using the Pearson correlation coefficient and the intra-class correlation coefficient. The latter reflects the difference in mean values as well as the degree of correlation between the two sets. Inter-observer measurements were also compared by analysis of the variance, as this is the only method which directly compares all three: an F value greater than or equal to F critical indicates a significant difference.2–4

RESULTS

In the clinical force range (fig 1), the length of new Lasso-o tapes increased from a mean of 70.0 to 70.2 cm (95% CI 0.0 to 0.3; p = 0.28). Old tapes increased from a mean of 70.1 to 70.6 cm (95% CI 0.3 to 0.7; p = 0.02).

Figure 1

 Comparison of the extension of old and new Lasso-o head circumference tape measures under a tensile load. Area 2–6 N load represents area of approximate force needed to pull the tape taught during a clinical measurement.

Intra-observer measurements

The Pearson correlation coefficient was 0.996 and the intra-class correlation coefficient 0.999. The limits of agreement were −0.71 to 0.65 cm, which indicates that 5% of measurements differed by 0.65 cm or more. Standard error of measurement was 0.24 cm, with repeatability of ±0.66 cm and relative bias of ±0.47 cm, which means that in statistical terms 95% of the time when the observer takes two measurements they will be within 0.66 cm of each other and within 0.47 cm of the underlying “true” value. The mean difference between measurements was 0.26 cm.

Inter-observer measurements

Pearson’s correlation matrix and a mean difference matrix showed good overall agreement between observers. Intra-class correlation coefficient was 0.979. Analysis of the variance gave an F value = 0.574 with F critical = 3.051, which shows no significant difference. In seven patients (9%) the difference was greater than 1 cm.

DISCUSSION

We found that with forces used in clinical practice Lasso-o tapes stretch significantly and that this increases after multiple use. For new tapes this is statistically but probably not clinically significant. However, for old tapes the 0.5 cm mean stretch appears both statistically and clinically significant. Currently there is no advice on when the tape should be replaced. Our study was not designed to address this question, but we suggest replacement at regular intervals and especially when the tape looks “used”, as these tapes are often unreliable.

In statistical terms the intra- and inter-observer differences were both small. As reported in studies using other tapes,5 the intra-observer differences were smaller than inter-observer ones, giving weight to the recommendation that repeated measurements should ideally be carried out by the same observer. Despite this the reliability of both was very high. Nonetheless the larger variability in 9%, especially if compounded by stretch in older tapes, could result in clinically significant differences in measurements in an important minority of children. This supports the recommendation that those responsible for measuring should be taught the appropriate method6 for the growth chart used and that everyone should use the same method.

REFERENCES

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Footnotes

  • Competing interests: none declared

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