Physiology of growth

Question 1

What are the 4 phases of growth?

Answer 1

Intrauterine phase
Infancy phase
Early childhood phase
Pubertal phase

Question 2

Growth in intrauterine phase?

Answer 2

Depends on the genetic constitution of foetus + nutrition and function of the placenta.

Question 3

Growth in the infancy phase?

Answer 3

First 2-3 years of life driven by nutrition, a continuation of intrauterine life.

Question 4

Growth in the early childhood phase?

Answer 4

Driven by growth hormones.

Question 5

What occurs in the pubertal phase?

Answer 5

Driven by both growth hormones and sex hormones.

Question 6

What period does growth end?

Answer 6

Puberty

Question 7

Which structures continue to grow until adulthood?

Answer 7

Skin, hair and nails.

Question 8

What are the mechanisms of cellular growth?

Answer 8

Hyerplasia: increase in cell number
Hypertrophy: increase in cell size
Volume of intracellular fluid increase.

Question 9

Which parts of the body do not generate new cells?

Answer 9

Nerve cells and muscle cells; they last for most of the lifetime

Question 10

Which tissues of the body are replaced by new cells?

Answer 10

Skin, GI lining and blood cells because they contain a germinative zone (for blood cells, this is in the bone marrow.)

Question 11

Which components are relatively stable in cell numbers?

Answer 11

Glands, Parts of the liver and kidney if tissue is damaged or requires increase in activity.

Question 12

What is development?

Answer 12

A series of co-ordinated events where the complexity of an organism increases due to maturation of the nervous system, most rapid in childhood.

Question 13

What influences growth and development?

Answer 13

Genetics determine overall height and pattern+ timing of growth spurts. Environmental influences have a lesser effect such as diet and socioeconomic factors.

Question 14

What is apoptosis?

Answer 14

Programmed cell death and removal

Question 15

What occurs in apoptosis foetal development?

Answer 15

Removal of webs between fingers
Formation of hollow organs such as the heart
Tissues with high cell turnover

Question 16

What is the process of apoptosis?

Answer 16

Cell shrinks and chromatin condenses, cytoskeleton collapses, plasma membrane fragmentation occurs and nuclear DNA disintegrates.

Question 17

Which pathway is involved in apoptosis?

Answer 17

Intrinsic pathway and extrinsic pathway

Question 18

What is the intrinsic pathway of apoptosis?

Answer 18

Mitochondria-dependent pathway in response to lethal stimuli such as oxidative damage, regulated by anti-apoptotic proteins BCL-2. It is activated by the p53 protein and capsases.

Question 19

What is the extrinisc pathway of apoptosis?

Answer 19

Involves transmembrane activation with death ligand to death receptors part of the TNF family (tumour necrosis factor). Capsases are important for cell breakdown in this pathway

Question 20

What period of foetal growth is fastest?

Answer 20

16-20 weeks gestation where new proteins are laid down by cell division.

Question 21

What is the peak of foetal weight gain?

Answer 21

Reaches peak at 34 weeks gestation in third trimester, where it eventually slows down.

Question 22

What is the patterns of growth in adolescence?

Answer 22

In pre-natal and pre-pubertal stages, gender has a minimal impact on growth, which deviates at age 10 where girls achieve a greater velocity of growth that peaks at 13 and steadily declines. Boys achieve a peak at age 16 which then declines.

Sex hormones like androgens have an anabolic effect

Question 23

What is the patterns of growth in the body tissues?

Answer 23

Lymphoid tissue grows and reaches peak velocity of growth rate around puberty
Steady growth which plateaus after age 3
Reproductive tissue has a steady growth with rapid increase in late teens

Question 24

What is senescence?

Answer 24

Physical growth ceases but physiological changes continue to occur and at a molecular level, this leads to death, therefore impairing the ability of the elderly to regulate homeostatic functions.

Question 25

What are the CNS changes in aging?

Answer 25

Impaired co-ordination, memory and intellectual function.

Question 26

What are the circulatory changes in aging?

Answer 26

Reduced blood flow increases risk of atherosclerosis.
Reduced lung elasticity decreases lung function.

Question 27

What are the GI changes in aging?

Answer 27

Decrease in muscle tone involved in GI tract, reducing peristaltic action and increasing the risk of constipation/

Question 28

Which systems are affected in aging?

Answer 28

Functional impairment of reproductive system such as menopause.
Reduced sensitivity and responsiveness of the immune system.
Reduced activity of endocrine system.
Reduced kidney function causes drop in GFR.

Question 29

What are the structural changes in aging?

Answer 29

Skin loses elasticity, with sagging and wrinkling.
Reduced muscle mass, strength and agility.
Reduced bone deposition rate, reducing mobility.
Decreased tone of urinary system (bladder), increasing incontinence risk.

Question 30

When is ossification complete?

Answer 30

By 3rd decade.

Question 31

How does height increase occur pre-adulthood?

Answer 31

Growth of long bones, via the proliferation of chrondroblasts beneath the epiphyseal growth plate giving rise to chondrocytes.

Question 32

How does bone change post-puberty?

Answer 32

Epiphyseal growth plate located in the metaphysis is the site of longitudinal bone growth. It eventually thins and the diaphysis and epiphysis fuse.

Question 33

What are the regions in the epiphyseal growth plate?

Answer 33

It contains 4 regions:
Proliferation zone where dividing chondroblasts separate the epiphysis and diaphysis.

Hypertrophic zone where chondrocytes enlarge and signal to extracellular matrix to begin calcification.

Calcification zone where extracellular matrix calcifies and causes chondrocytes to die, leaving behind trabeculae shape cartilage.

Ossification where osteoclasts digest dead calcified cartilage and osteoblasts replace it with bone cells in the same shape to form the bone trabeculae.

Question 34

What mediates growth?

Answer 34

Growth Hormone
IGF-1
IGF-2
Placental lactogen
T3 and T4- thyroid hormones
Growth factors, eg FGF and PDGF.
Glucocorticoids

Question 35

Which hormones are important for increasing bone and muscle growth?

Answer 35

Growth hormone and IGF-1

Question 36

Which hormones decrease growth?

Answer 36

Glucocorticoids.

Question 37

Which hormones are important for tissue and organ growth?

Answer 37

Placental lactogen
T3 and T4- thyroid hormones
Growth factors, eg FGF and PDGF.

Question 38

Which sex hormones mediate growth?

Answer 38

Oestrogen and testosterone are involved in Pubertal growth spurt for long bone growth and height along with interaction with growth hormone and IGF-1.

Question 39

Where are the sex hormones released?

Answer 39

Leydig cells produce testosterone
Granulosa cells produce oestrogen

Question 40

What is growth hormone?

Answer 40

Produced by somatotroph cells in the anterior lobe of pituitary gland in pulsatile bursts during sleep. It promotes bone growth, free fatty acid and glucose availability and muscle growth especially in childhood.

GH stimulates the release of Insulin-like growth factor I and II to aid this process. It peaks in puberty and steadily declines.

Question 41

Where is GHRH produced?

Answer 41

Arcuate nucleus of hypothalamus.

Question 42

What increases the release of GHRH?

Answer 42

GABA
Ghrelin
Sex steroids
Alpha adrenergic receptor

Question 43

What are the direct effects of growth hormone?

Answer 43

Acts on the JAKS-STATs growth hormone receptor to increases fat and carbohydrate metabolism which has an anti-insulin effect. It increases bone and muscle growth.
Growth hormone is similar in structure to prolactin.

Question 44

What are the indirect effects of growth hormone?

Answer 44

Induces IGF-1 release for increased muscle and bone growth via driving protein synthesis and cartilage formation.

Question 45

What factprs affects secretion of growth hormone?

Answer 45

Most of growth hormone secretion occurs at night in slow wave deep sleep.
Life stage- peaks at puberty and declines in adulthood
Levels of IGF-1 in blood.
Starvation and stress stimulates growth hormone to increase energy reserves.

Question 46

What increases growth hormone release directly?

Answer 46

Ghrelin
GHRH
Thyroid hormones

Question 47

What hormone inhibits GH release?

Answer 47

Somatostatin which is released from the hypothalamus and acts directly on the anterior pituitary gland to reduce growth hormone release, competing against GnRH. Function in the body is to reduce pancreatic secretions and GI activity.

Question 48

What is IGF-1?

Answer 48

Production is via Growth hormone acting on GH receptors mainly in the liver, lesser in the kidneys and muscles. Aids growth hormone for increasing bone and tissue growth via the MAP kinase pathways. Levels peak at puberty and drop with age.

Question 49

How does IGF-1 influence growth hormone?

Answer 49

High levels of circulating IGF-1 mediates growth hormone levels by stimulating somatostatin release from the periventricular nucleus of hypothalamus and suppressing GRH release from arcuate nucleus.

Question 50

What is IGF-2?

Answer 50

Regulates foetal and placental growth during pregnancy; overexpression leads to disproportionate size of tongue, liver, kidney and muscles. It is independent of growth hormone regulation.

Question 51

What is the role of glucocorticoids?

Answer 51

Steroid hormones such as cortisol produced by the adrenal gland with anti-inflammatory effects by suppressing immune system in short bursts. It inhibits secretion of growth hormone

Question 52

How do glucocorticosteroids inhibit growth?

Answer 52

Increase skeletal maturation by interfering with cartilage and bone synthesis, reducing the potential for further growth.

Question 53

Which conditions are associated with growth suppression?

Answer 53

Cushing’s syndrome with excess cortisol production
Excess intake of glucocorticoids in eczema, asthma, rheumatoid or kidney disease
-> Has no effect on levels of growth hormone or IGF-1

Question 54

Role of thyroid hormones

Answer 54

Begins production from 15-20 weeks gestation and is important in brain growth in early foetal and childhood life via stimulating brain protein synthesis.

It is important in puberty for promoting linear bone growth.

In adulthood, it promotes differentiation and maturation of the musculoskeletal system.

Question 55

What is the impact of thyroid hormone deficiency?

Answer 55

Results in Cretinism, mental retardation if this occurs in early life and goes untreated.
Lethargy, poor motor co-ordination and hyporeflexia
-> Due to reduced number and size of brain cortical neurons because of reduced blood supply to brain, decreased neuron myelination and dendrite branching.

Question 56

Features of hypothyroidism

Answer 56

Dry thin hair, weight gain/puffy face, bradycardia

Question 57

How is hypothyroidism screened?

Answer 57

Guthrie blood spot test

Question 58

What are the causes of dwarfism?

Answer 58

Hypopituitary activity
Achondroplasia
Laron Dwarfism

Question 59

What is achondroplasia?

Answer 59

Autosomal dominant genetic condition caused by mutation in chromosome 4 which results in dwarfism. There is early epiphyseal fusion in long bone.

Question 60

What is the function of chromosome 4?

Answer 60

Decreases endochondral ossification, chondrocyte proliferation and cellular hypertrophy and matrix production.

Question 61

What is hypopituitary dwarfism?

Answer 61

Deficiency in growth hormone in childhood due to pituitary/hypothalamic tumour, infection, infarction or insult due to head trauma. Skeleton fails to grow and may affect other structures controlled by the pituitary gland. It can be treated with growth hormone therapy

Question 62

What is acromeglay?

Answer 62

Excess growth hormone secretion, occurs AFTER epiphyseal plate fusion in adulthood due to adenoma in the somatotroph region of pituitary gland. It causes growth in the terminal parts of the Skeleton, with large hands and feet, kyphosis of spine and spacing between the teeth. There will be organomegaly and soft tissue growth. Structural similarity to prolactin results in gynaecomastia.

Question 63

What are the risks with acromegaly?

Answer 63

Increases hypertension, cardiovascular disease and type 2 diabetes mellitus because of promotion of carbohydrate and fat metabolism, while inhibiting insulin release.

Question 64

What is Larson Dwarfism?

Answer 64

Mutation in growth hormone receptor results in retardation of growth. Levels of growth hormone are high to compensate for the lack of body’s responsiveness and there is downregulation of IGF-1 and IGF-binding protein 3 levels are low because of their inhibitory effects on growth hormone. It is treated with recombitant IGF-1.

Question 65

What is the most common cause of growth failure worldwide?

Answer 65

Malnutrition due to lack of protein.

Question 66

What is the embryonic origin of the anterior pituitary Gland?

Answer 66

Surface ectoderm which also gives rise to the epidermis, skin, hair and nails.

Question 67

What is the embryonic origin of the posterior pituitary gland?

Answer 67

Neuroectoderm which also gives rise to the brain and CNS

Question 68

What is gigantism?

Answer 68

Hypersecretion of growth hormone which occurs prior to the fusion of the epiphysis and diaphysis which results in proportional growth in height. This occurs due to a tumour in the adenophysis which can compress other structures and result in undersecretion, leading to conditions like delayed puberty. High growth hormone will result in hyperglycaemia, soft tissue growth and organ size increase.

Question 69

What is the difference between acromegaly and gigantism?

Answer 69

Gigantism occurs before growth plate fuses; acromegaly occurs after growth plate fuses.