19 Factors affecting growth

1.   Introduction

 

The term “Growth” denotes a net increase in the size, or mass of the tissue. It is largely attributed to multiplication of cells and increase in the intracellular substance. According to Hurlock, “growth is the change in size, in proportion, disappearance of old features and acquisition of new ones. Growth pattern of every individual is unique and different patterns in the body grow at different rates. From the earliest moments of life, the interaction of heredity and environment works to influence the growth of an individual. In the current scenario, lifestyle factors are playing an effective role on growth. Pre and post-natal growth is based on both hereditary and environmental factors which include lifestyle factors as well. Each factor must be in optimal state for the normal growth of a child. Also, some fetal conditions may affect postnatal growth too.

 

The genetic instructions a child inherits from his parents may set out a road map for development, the environment can influence how these directions are expressed, shaped and event silenced. The complex interaction of heredity and environment does not just occur at definite moments or at a definite periods of time; it is persistent and lifelong. This unit consists of three major factors influencing the growth including biological, environmental and lifestyle.

 

2.   Biological factors influencing Growth

 

The height, weight and body-build of an individual always represent the subsequent of both environmental and genetic factors, together with their interaction. From the possession of a gene, it is a long way to the acquisition of a trait for instance the height of 2m. For its expression first gene depends upon the internal environment shaped by all other genes and secondly on the external environment. Throughout the growth period, genetic material seems to be operative.

 

2.1 Genetics of Size and Shape

 

Size and shape of an individual is independently controlled by genetical and environmental factors. The genetical mechanism of shape is too difficult than that of the size, because shape signifies primarily how the cells are distributed, while size characterizes more the sum of sizes of the various cells. The number of the cells is fixed early, in comparative safety of uterus; their size continues to change during most of the childhood, and in some cases, such as the fat cell, all through life.

 

2.1.1 Genetics of Size

 

From the Louisville data of Wilson, it has been shown in the table 1.1 that dizygotic same-sexed twins resemble each other genetically no more closely than any other brothers and sisters, since they arise each from a different fertilized ovum. The monozygotic pairs were in fact less similar than dizygotic at birth, but then this state quickly changed. Asymmetrical division of the original ovum, one twin getting just a little more cytoplasm than the other, and somewhat to their different positions in an overcrowded uterus could be responsible for differences between pairs at birth. The twin, who is smaller at birth, even if very little, ordinarily remains smaller throughout life. But if difference is large in size at birth, signifying some real intrauterine distress to the smaller twin, then the differences later are quite large.

 

Table 1.1 Mean differences between lengths of monozygotic twin pairs (140 pairs) and same-sexed dizygotic twin pairs (90 pairs) from birth to 4 years, and within pair correlation coefficient.

2.2 Effect of Hormones on Growth

Endocrine glands are pool of cells that manufacture chemical agents and release them into the blood stream-the hormones. The endocrine system is one of the chief agents for translating the instructions of the genes into the reality of the adult form, at the pace, and with the result, permitted by the available environment ( Tanner 1990). Some hormones act on cells very close to their origin and do not enter the blood; some enter the blood but only in a special portion of the circulation designed to carry them a short distance to their target; and some enter the general blood-stream and are carried in it all over the body. Hormones play an important role in the control of human growth. Some of them are discussed below:

 

2.2.1 Growth Hormone (GH)

Growth hormone is one of the most essential hormones for normal growth from birth to adulthood. Deficiency of GH ends in children ends up as adult in shorter height than their normal counterparts. Nowadays Growth hormone can be extracted from pituitary glands and can be administer to such children by injection, after that they can grow normally. GH is distinctly species-specific. Majority of the time the secretion of GH in the blood of children as well as adults are so low that it is scarcely detectable, but few times in each 24 hours the levels escalates for periods of the order of 30 or 60 minutes. GH habitually secreted some 60 to 90 minutes after sleep begins, and usually in response to anxiety and exercise.

 

The secretion of GH is different in different individual. Differences between normally large and normally small children and adults are perhaps due to receptors in the cartilage cells which control size. Besides, normal small children have plenty of GH and they are not turned into normal big ones by being given GH in excess. In healthy children blood levels of somatomedin do not reduce with age to parallel the velocity curve, but, amazingly, increase from infancy to puberty. Thus, the normal velocity of growth depends on a more elaborate level of control.

 

2.2.2 Adrenal Hormones:

The adrenal gland secretes a wide variety of hormones. This gland comprises of an inner core, the medulla and an outer shell, the cortex. The two are distinct from a functional point of view, and the medulla, which secretes mostly adrenalin, contributing little to growth. The adrenal cortex secrets three groups of hormones:

 

Glucocorticoids (corticoids): This cortisol raises the formation of glucose from protein and has an anti-inflammatory and anti-stress action. Normal amount of cortisol may not play ant role in controlling rate of growth, but if given in excess of normal, it slows up growth in height and retards skeletal maturity, and causing an increase in fat reflecting an antigrowth action.

 

Mineralocorticoids: These are aldosterone and to a smaller extent II-deoxycorticosterone. Aldosterone is necessary to life, but then has no direct bearing on growth.

 

Androgens: These are responsible for some changes of puberty and may maintain the presence and size of some secondary sex characters, including muscle bulk. The peak levels in the blood are in early adulthood; after which the amount declines and by ages 60 to 70 returns to pre-pubertal values. The main hormone of this group isdehydroepiandrosterone. In girls they are responsible for adolescent growth spurt and for the growth of pubic and axillary hair.

 

2.2.3 Testosterone and Oestrogens

These are sex hormones. Testosterone is a male sex hormone and secreted by the Leydig cells of testis. On the other hand, oestrogens are known to be female sex hormone and secreted by ovaries. The first is in the fetus, where the rise begins at about 11 postmenstrual weeks and last probably till birth. During this time the testosterone first causes differentiation of the external genitalia to form a penis and scrotum, and then sustains the further growth of the penis. It may also have an action on brain, differentiating the hypothalamus irreversibly to the male, non-cyclic, type(Tanner, 1990). Oestrogen level is low till puberty in females. A large increase occurs then resulting in growth of the breasts, uterus and vagina, and development of the associated vaginal glands. It is also responsible for growth of parts of the pelvis. During menstruation oestradiol levels fluctuate regularly with the phase of the cycle, the secretion of Oestradiol is controlled by pituitary FSH (follicle-stimulating hormone).

 

2.2.4 Gonadotropins

FSH (follicle stimulating hormone) and LH (Leydig-cell-stimulating hormone) are the two pituitary hormones. Both secrete at low level in childhood and increase sharply at puberty. FSH in males causes growth of the seminiferous tubules, the sperm-producing parts of the testis. FSH is necessary for the growth of sperm, just as it is for the growth of the eggs. On the other hand, in females LH interacts with FSH to control the menstrual cycle. The egg grows under the influence of FSH and is shed. LH stimulates the body to produce the hormone progesterone, which maintains the uterus in a state receptive to the implantation and growth of the ovum should it be fertilized; if not fertilization and implantation occurs, LH levels decline, the uterus sheds its lining in menstruation and cycle starts again ( Tanner, 1990).

3. Environmental factors affecting Growth:

The prolonged period of biological immaturity, has keen sensitivity to the environment resulting in a plasticity of growth as a consequence of environmental interactions. The growth responses to the environment are part of the adaptive potentials of human beings. In the past, demographic parameters were appropriate to the conditions of the environment and, when disease and malnutrition occurred though acute, they tended to be short-term. But in the current scenario, many populations exist under conditions of great social and economic disadvantages, with overcrowding, poverty, malnutrition and disease. Under these circumstances, environmental stress and deprivation, while ranging from moderate to acute, are chronic and intractable in the short term. This situation is exacerbated by the forces of acculturation in which cultural values alter in response to changing norms.

having less bulky individuals are more often found in warm climates nearer to the equator, while those with greater bulk, or mass, are found farther from the equator in colder regions.”

 

According to Allen’s rule among warm blooded animals, individuals in populations of the same species living in warm climates near the equator tend to have shorter limbs than do populations living farther away from the equator in colder environment.

 

Schreider (1964) on the basis of height and weight data from populations residing at different latitudes found that body surface area increases from colder to hotter climate. Similarly based on world-wide sample, Roberts (1953) found a negative correlation between body weights and mean annual temperature that is, higher body weight in colder regions as stated in Bergmann rule.

 

As the climatic variation influences the growth rate, similarly the seasonal variations also have subsequent effect on growth.at temperate latitudes; healthy well-nourished children grow more quickly in height during the spring and summer while fall or winter is the season of maximum weight gain. The sunlight synchronizes the body’s fluctuations in growth regulating hormone activity so that all the necessary hormones are working simultaneously to speed-up or slow-down the rate of skeletal growth.in an experiment Nylin (1929) tested the sunlight effect on a sample of Swedish boys of Stockholm. He exposed 45 boys to sunlamp during winter and compared them with the normal sunlight taking population of 292 boys. He found that experimental group averaged 1.5 cm more growth in height than the control group.

 

The seasonal variation in the rate of growth in weight could be explained by seasonal food shortages and disease experienced by Gambian population. Weight growth is clearly due to increases and decreases in energy balance during the year. There has been considerably more agreement regarding the significance of seasonal variation in the intake of fat and carbohydrates. Carbohydrates and fat have a peak intake during winter and minimum in the summer. In both China and India variability in micronutrients, such as beta carotene, was larger than macronutrients (Hebert et al.,2000; Cai et al., 2004).

 

3.3 Effect of Socio-economic status on Growth:

An individual’s growth is the reflection of the bio-cultural environment in which the individual conceived and developed. This environment is associated with the socio-economic status included educational background, purchasing power for food in turn nutrition, access to and use of health care facilities and programs, and lifestyle. Among all mother’s education plays an important role during pregnancy and also child rearing which can affect the children’s nutritional status, well-being and survival.

 

Verma et al. (1980) carried out the nutritional anthropometry of preschool children of poor socioeconomic status in rural setting of Uttar Pradesh, India. Weight for height for age of the boys and girls were below the international standard. Also, height fro age indicates the past nutritional history, these underweight children had suffered growth failure either for a short period at an early age or for longer period at a later age. According to Hunshul et al.(2010) there is a positive relation between family income and physical growth imply inaccessibility of the economically deprived parents to provide quality nutrition, medical care and opportunities necessary for proper physical growth of children.

 

In a study by Johnston et al.(1980), it was found that w and parents with smaller linear dimensions than better nourished children. Since small body size is likely to be the result of poor living conditions, the effect of

 

Consumption of alcohol is another important lifestyle factor which affects the fetus in several ways including restriction of fetal growth to a considerable extent. Roche (1999) observed that while consumption of 2 or less drinks a day by pregnant mothers led to a deficit of on an average 65 g in birth weight of their children, the same for the pregnant mothers consuming more than 2 drinks were found to deficit 150 g. it was also observed that higher the alcohol consumption by pregnant mothers, greater the prenatal growth restriction.

 

Other chemicals substances like caffeine, cocaine, heroin, methadone and the like have adverse effect on intrauterine growth. Substances abuse in the form of cocaine, heroin and methadone can lead to estimated deficit of 500g, 600g and 350g respectively in birth weight and 2.0 cm, 2.4 cm and 1.5 cm respectively in birth height (Roche et al., 1999). It is well stated that most of the factors responsible for influencing intra-uterine outcome as depicted by birth weight are linked to maternal lifestyles, exemplified by maternal nutrition status, maternal substance use status etc.

 

Physical activity including non-strenuous physical exercise is considered important to pregnant women for the benefit of fetal health and growth especially during first 6 to 7 months. However, some evidences exist on association between strenuous exercise and reduced birth weight in humans (Pivarnik, 1998).

 

4.2 Impact of lifestyle factors on post-natal growth:

 

After birth the fetus gets exposed to external environment and the new born starts adjusting and adapting newly introduced external environment. Human growth process is a product of intricate interaction among biological endowment and physical environment in which they are living and the socio-economic and political environment that humans create as a cultural being.

 

Demographic, economic and political reasons force people to migrate from one place to another. This naturally leads to changes in biological, physical and social environment and consequently lead to changes in many facets of life leading to changes in growth patterns. Several studies were undertaken to demonstrate urban-rural difference in growth profiles in terms of height and other anthropometric variables. Studies by Shapiro (1939) among Japanese children in Japan and in Hawaii by Goldstein (1943) and Lasker (1952) among Mexicans in Mexico are considered historical. They reflected the effect of migration on growth confirming contribution of developmental plasticity and its interaction with the changed environment settings. Shapiro’s study demonstrated that improvements in diet regimen , health care opportunities and overall socio-economic status were result of migration and that these factors are associated with urban lifestyle and contributes to growth changes.

 

Diet and nutrition also plays important role in human physical growth and development. According to Bogin (1999) the growth and development of infants, children and adolescents are dependent on balanced nutritional intake. Rich nutrient food will undisputedly help human grow faster. Jenkin’s (1981) emphasize ethnic differences in growth pattern as a result of differential access to socioeconomic resources and cultural practices. Poorer grow at a slower rate as compared to their counterparts belonging to high socioeconomic status. It has been demonstrated beyond any doubt that breast milk is the best food for the newborns and the infant as milk has all the nutrients they acquire. A recommendation from WHO suggests that infants should have exclusive breastfeeding from birth to 6 months of age. Stinson (2000) observed that breast-fed babies grow faster than the bottle-fed babies during the first year of life, in the developing countries.

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