Growth and puberty

Published on 21/03/2015 by admin

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Last modified 21/03/2015

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Growth and puberty

In contrast to adults, growth of all body parameters and, later, the development of puberty are key features of childhood and adolescence. Deviation from the norm needs to be recognised and the underlying cause identified and treated. This requires knowledge concerning normal growth and puberty.

There are four phases of normal human growth (Fig. 11.1).

Measurement

Growth must be measured accurately, with attention to correct technique and accurate plotting of the data:

• Weight – readily and accurately determined with electronic scales but must be performed on a naked infant or a child dressed only in underclothing as an entire month’s or year’s weight gain can be represented by a wet nappy or heavy jeans, respectively.

• Height – the equipment must be regularly calibrated and maintained. In children over 2 years of age, the standing height is measured as illustrated in Figure 11.2. In children under 2 years, length is measured lying horizontally (Fig. 11.3), using the mother to assist. Accurate length measurement in infants can be difficult to obtain, as the legs need to be held straight and infants often dislike being held still. For this reason, routine measurement of length in infancy is often omitted from child surveillance, but it should always be performed whenever there is doubt about an infant’s growth.

• Head circumference – the occipitofrontal circumference is a measure of head and hence brain growth. The maximum of three measurements is used. It is of particular importance in developmental delay or suspected hydrocephalus

These measurements should be plotted as a simple dot on an appropriate growth centile chart. Standards for a population should be constructed and updated every generation to allow for the trend towards earlier puberty and taller adult stature from improved childhood nutrition. In 2009, the UK adopted the World Health Organization (WHO) new global Child Growth Standards for infants and children 0–4 years old (See Appendix Fig. A1). The new charts are based on the optimal growth of healthy children totally breast-fed up to the age of 6 months. These charts allow for the lower weight of totally breast-fed infants and are therefore less likely to identify some breast-fed babies as underweight and may also allow early identification of bottle-fed babies gaining weight too rapidly.

Height in a population is normally distributed and the deviation from the mean can be measured as a centile or standard deviation (Fig. 11.4). The bands on the growth reference charts have been chosen to be two-thirds of a standard deviation apart and correspond approximately to the 25th, 9th, 2nd and 0.4th centiles below the mean, and the 75th, 91st, 98th and 99.6th centiles above the mean. The further these centiles lie from the mean, the more likely it is that a child has a pathological cause for his short or tall stature. For instance, values below the 0.4th or above the 99.6th centile will occur by chance in only 4 per 1000 children and can be used as a criterion for referral from primary to specialist care. A single growth parameter should not be assessed in isolation from the other growth parameters: e.g. a child’s low weight may be in proportion to the height if short, but abnormal if tall. Serial measurements are used to show the pattern and determine the rate of growth. This is helpful in diagnosing or monitoring many paediatric conditions. The WHO charts include an adult height predictor and a BMI centile ready-reckoner.

Puberty

Puberty follows a well-defined sequence of changes that may be assigned stages, as shown in Figures 11.5 and 11.6. Over the last 20 years, the mean age at which puberty starts in girls has lowered. However, the age at which menarche occurs has remained stable. Therefore, females now remain in puberty for longer.

In females the features of puberty are:

In males:

The height spurt in males occurs later and is of greater magnitude than in females, accounting for the greater final average height of males than females.

In both sexes, there will be development of acne, axillary hair, body odour and mood changes.

If puberty is abnormally early or late, it can be further assessed:

Menstruation has a wide range of normal variation. The normal cycle length varies between 21 and 45 days. The length of blood loss varies between 3 and 7 days and the average blood loss per cycle is <80 ml – passage of blood clots or the use of more than six pads per day implies heavy bleeding, which needs evaluation. Rarely, it can indicate clotting disorders such as von Willebrand disease.

Short stature

Short stature is usually defined as a height below the second centile (i.e. two standard deviations (SD) below the mean) or 0.4th centile (−2.6 SD). Only 1 in 50 children will be shorter than the 2nd centile and 1 in 250 (4 in 1000) shorter than the 0.4th centile. Most of these children will be normal, though short, with short parents, but the further the child is below these centiles, the more likely it is that there will be a pathological cause. However, the rate of growth (measured as height velocity; Fig. 11.1) may be abnormal long before a child’s height falls below these values. This growth failure can be identified from the child’s height falling across centile lines plotted on a height velocity chart (Fig. 11.1). This allows growth failure to be identified earlier, even though the child’s height is still above the 2nd centile.

Measuring height velocity is a sensitive indicator of growth failure. Two accurate measurements at least 6 months but preferably a year apart allow calculation of height velocity in cm/year (Fig. 11.1). This is plotted at the midpoint in time on a height/velocity chart. A height velocity persistently below the 25th centile is abnormal and that child will eventually become short. A disadvantage of using height velocity calculations is that they are highly dependent on the accuracy of the height measurements and so tend not to be used outside specialist growth units.

The height centile of a child must be compared with the weight centile and an estimate of their genetic target centile and range calculated from the height of their parents. This is calculated as the mean of the father’s and mother’s height with 7 cm added for the mid-parental target height of a boy, and 7 cm subtracted for a girl. The 9th–91st centile range of this estimate is given by ±10 cm in a boy and ±8.5 cm in a girl (see examples in Fig. 11.9).

Most short children are psychologically well adjusted to their size. However, there may be problems from being teased or bullied at school, poor self-esteem and they are at a considerable disadvantage in most competitive sport. They are also assumed by adults to be younger than their true age and may be treated inappropriately.

Endocrine

Hypothyroidism, growth hormone (GH) deficiency, IGF-1 (insulin-like growth factor 1) deficiency and steroid excess are uncommon causes of short stature. They are associated with children being relatively overweight, i.e. their weight on a higher centile than their height.

Hypothyroidism

This is usually caused by autoimmune thyroiditis during childhood (see Ch. 25). This produces growth failure, usually with excess weight gain. It may go undiagnosed for many years and lead to short stature. When treated, catch-up growth rapidly occurs but often with a rapid entry into puberty that can limit final height. Congenital hypothyroidism is diagnosed soon after birth by screening and so does not result in any abnormality of growth.

Growth hormone deficiency

This may be an isolated defect or secondary to panhypopituitarism. Pituitary function may be abnormal in congenital mid-facial defects or as a result of a craniopharyngioma (a tumour affecting the pituitary region), a hypothalamic tumour or trauma such as head injury, meningitis and cranial irradiation. Craniopharyngioma usually presents in late childhood and may result in abnormal visual fields (characteristically a bitemporal hemianopia as it impinges on the optic chiasm), optic atrophy or papilloedema on fundoscopy. In growth hormone deficiency, the bone age is markedly delayed. Laron syndrome is a condition due to defective growth hormone receptors resulting in growth hormone insensitivity. Patients with this condition have high growth hormone levels but low levels of the downstream active product of growth hormone known as insulin-like growth factor 1 (IGF-1) produced at the growth plate and in the liver. Rare abnormalities in the gene producing IGF-1 have also recently been discovered in children.

Psychosocial deprivation

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