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Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Objectives
• Hormonal requirement for breast development (Mamogenesis)
• Hormones involved in the process of lactation (Lactogenesis) and their physiological action
• Physiological basis of suckling reflex and its role in lactation
• Galactopoeisis
• Involution (the termination of milk production).
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Definitions 1-Lactation : Formation or secretion of the milk 2-Lactogenesis : Change of mammary epithelial cells from non secretory state to secretory state 3-Galactopoiesis : Maintenance of milk production
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Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Where does milk come from?
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Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
. Each breast consists of 12~20 lobes of secretory
tissue
a. Each lobe has one lactiferous duct
b. Lobes (and ducts) arranged radialy
c. Lobes composed of lobules
d. Lobules comprise alveoli
Structures of the Mammary Gland
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Alveolar Structure:
• Alveolus - microscopic unit made up of alveolar cells with an open lumen for collection of secreted milk
• Alveolar cell (epithelial cell)- basic cell producing milk in the mammary gland
• Myoepithelial cell- muscle-like cell surrounding the alveolus; contracts to express milk from the alveolar lumen
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Ductal System:
• Alveolar Tubule
• Secondary tubule
• Mammary duct
• Ampula (lactiferous sinus)
• Lactiferous duct
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Fig. 20.53
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Stages of lactogenesis
Mamogenesis and Lactogenesis Galctopoesis
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Breast development (mamogenesis)
• During puberty
– Estrogen stimulate proliferation of ducts and deposition of fat
– Progesterone stimulate development of lobules
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Breast development (mamogenesis)
• During pregnancy
– Complete development of glandular tissue
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Breast development (mamogenesis)
• Endocrine system plays a major role in synchronizing development (mamogenesis) and function (lactogenesis) of mammary gland with reproduction
• Three categories of hormones: – Reproductive hormones (endocrine)
• Estrogen, progesterone, prolactin, oxytocin and hPL
– Metabolic hormones (endocrine) • GH, corticosteroids, thyroxin, PTH and insulin
– Mammary hormones (autocrine) • leptin
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Breast development (mamogenesis)
• Reproductive hormones (direct effect) – Estrogen (placenta)
• Growth & branching of ductal system (with GH)
• Fat deposition in the stroma
– Progesterone (placenta) • Growth of lobule-alveolar system(budding of
alveoli and secretory changes in epithelial cells )
• Although estrogen and progesterone are essential for physical development of the breasts, they inhibit actual secretion of milk
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Breast development (mamogenesis)
• Prolactin (anterior pituitary)
– Its level increases during pregnancy (10-20 times)
– Its main function is milk production
– Sudden drop in E & P after delivery allows milk production
– It is controlled mainly by hypothalamic hormone
• PIH (Dopamine)
• Human placental lactogen HPL(placenta)
– Facilitate mammogenesis
– Delays milk production
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Lactogenesis
• Lactogenesis: cellular changes by which mammary epithelial cells are converted from a non secretory state to a secretory state:
– Hormones involved:
1. Progesterone (suppresses milk secretion)
2. Prolactin and/or placental lactogen
3. Growth hormone
4. Glucocorticoids (Cortisol)
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Lactogenesis
• Lactogenesis :
– Suckling stimulates milk secretion with expansion of alveolar epithelium
– Lactation is maintained by emptying of milk
– 2 hormones involved
• Prolactin (milk production)
• Oxytocin (milk let-down)
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Stages of lactogenesis
Mamogenesis and Lactogenesis Galctopoesis
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Hormonal regulation of lactogenesis
• Metabolic hormones (direct effect) – GH
• Can be produced locally
• Its secretion is stimulated by progesterone
• Increases production of IGF-1 (insulin like growth factor) by the liver
– Corticosteroids • Increases during pregnancy (fivefold)
• Involved in breast development (permissive action on milk protein synthesis)
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Hormonal regulation of lactogenesis
• Thyroxin
– Essential for milk production
– Thyroxin & TSH level decreases during lactation
• Insulin
– Low during lactation
– Shunt of nutrients from storage depots to milk synthesis
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Galactopoeisis
• Definition: Galactopoeisis is defined as the maintenance of lactation once lactation has been established.
• Role of Hormones – Prolactin: Milk production – Growth Hormone: support increase in synthesis of lactose,
protein, and fat in the mammary gland – Glucocorticoids: galactopoeitic in physiological doses – Thyroid Hormones: galactopoeitic – Ovarian Hormones :
• Estrogen in very low doses is galactopoietic • Progesterone alone has no effect on galactopoeisis because there
are no progesterone receptors in the mammary gland during lactation
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Suckling reflex
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The most critical time in the establishment of lactation is its onset, during the transition from pregnancy to lactation, a period now called secretory activation (previously termed lactogenesis stage II).
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
The major inhibitor of milk production during pregnancy is progesterone. Once birth occurs, a developed mammary epithelium, the continuing presence of high levels of prolactin, and a fall in progesterone are necessary for the onset of copious milk secretion.
Hormonal Requirements for Secretory Activation
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Milk production is a
"use it or lose it" process.
The more often and effectively the baby
nurses, the more milk will be produced Milk production <100 ml/day in day 1 postpartum Milk production by day 3 reaches 500 ml/day
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Suckling reflexes
Mechanosensors in nipple
Suckling
Hypothalamus
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Nerve pathway Increase prolactin-releasing factor
Decrease prolactin-inhibitory hormone
Posterior pituitary Anterior pituitary
Increase oxytocin
Increase prolactin
Contraction
Myoepithelial cells
Increase milk ejection Increase milk secretion
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Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
Milk “Letdown”:
• Milk letdown is the evacuation of milk from the alveolar lumen to the duct system
– Nerves receive stimuli at the end of nipple
– Stimuli is received in the posterior pituitary
– Oxytocin is released from pituitary into blood
– Blood circulation brings oxytocin to mammary tissue
– Targets are the myoepithelial cells that contract
Copyright © 2011 by Saunders, an imprint of Elsevier Inc.
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