Lactation
1. Lactation
A. Final Phase of the reproductive cycle of mammals
B. Physiological state of mammary gland linked to reproductive
state of the animal
C. Essential Phase of Farm Animal Reproduction
2. Anatomy of the Udder
A. Teat--Cows, Sheep, Goats, Horses
Nipple--Pigs, Humans
B. Streak Canal
C. Teat Cistern
D. Gland Cistern
E. Milk Ducts & Ductules
G. Lobes and Lobules
a. Lobule: Contain up to 200 alveoli
H. Alveoli
a. Functional Unit
--Where milk is synthesized and released
b. Alveoli Cells
--Secretory epithelial cells
c. Myoepithelial Cells
--Contract in response to Oxytocin
--Cause Milk letdown
d. Capillaries
--Bring milk building blocks to Alveoli cells
--500 to 1000 volumes of blood to make one volume of milk.
3. Species Differences
A. Cattle
a. 4 mammary glands (quarters)
b. 4 teats (one per gland)
c. 1 streak canal per teat
B. Sheep & Goats
a. 2 mammary glands
b. 2 teats
c. 1 streak canal per teat
C. Horses
a. 4 mammary glands
b. 2 teats
c. 2 streak canals per teat
D. Pigs
a. 4-9 pairs of mammary glands
b. 8-18 nipples
c. 2 streak canals per nipple
--drain sectors (simple glands)
d. 2 sectors per gland
E. Humans
a. 2 mammary glands
b. 2 nipples
c. 10-20 streak canals per nipple
d. 10-20 sectors (simple glands)
4. Mammary Growth (Mammogenesis)
A. Embryonic and Fetal Period
a. Ectodermal
b. Milk lines (band, streak, line, crest, hillock)
--Divide into nodules
c. Mammary Buds
--Lenticular
--Spherical
--Conical
d. Primary Mammary Cord or Sprout
--Sprouts from apex of cone
--Becomes Gland & Teat Cisterns
--In species with two streak canals have two Cords per Bud
e. Secondary & Tertiary Cords
--Develop into ducts
B. Postnatal Mammary Growth
a. Before Pregnancy
--Puberty
--Estrus effect
b. During Pregnancy
--Further duct development
--New Alveoli appear later
--Hypertrophy
C. Endocrine Control of Mammary Growth
a. Gland Ablation Studies (Rodents)
--To get full mammary development
i. Estrogen
ii. Progesterone
iii. Somatotropin
iv. Prolactin
v. ACTH (Adrenocorticotropic Hormone)
--Stimulates Glucocorticoids
b. Ruminants
i. Placental Lactogen
--May be primary player
--has ST & PRL-like effects
c. Sex Steroid Hormones
i. Estrogen
--Involved in lengthening
and branching of ducts
ii. Progesterone
--Duct and ductule cell multiplication
--Enlargement and/or widening
--Actually inhibits mammary growth
at high levels
iii.Progesterone + Estrogen
--Causes lobuloalveolar development
--Occurs eventually if animal doesn't
become pregnant
d. Artificial Induction of Mammary Growth
i. Estrogen + Progesterone
ii. Never get lactation like natural
iii. High incidence of ovarian cysts
5. Initiation of Lactation (Lactogenesis)
A. Hormonal
a. Ovarian steroids fall (Progesterone inhibits)
b. Placental Lactogen disappears
c. Lactogenic Complex
i. Prolactin
ii. Glucocorticoids
iii. Insulin or IGF-I
6. Milk-Ejection Reflex
A. Up to half of milk secreted is stored in large
ducts and cisterns
--Readily available
B. Remainder need to be ejected
C. Oxytocin/Neuroendocrine Reflex
a. Suckling or other teat/udder stimulation
causes release of oxytocin from
neurohypophysis
b. Oxytocin synthesized in hypothalamus
c. Released from neurohypophysis or posterior
pituitary
7. Maintenance of Lactation (Galactopoesis)
A. Physical
a. Animal must be suckled or milked
B. Hormonal (Galactopoetic Complex)
a. Prolactin (Not Cattle)
b. Somatotropin
c. Insulin
d. Thyroid Hormone
e. Glucocorticoids
8. Regression of the Mammary Gland (Involution)
A. Weaning or Drying-off
a. Milk pressure on the alveolar cells cause cell death
b. Alveoli collapse
c. Alveoli and Lobes disappear
--apoptosis (programmed cell death)
B. Senile involution
a. Caused by lack of reproductive hormones
ANS 331 Webpage
ANS 431 Webpage
ANS 434 Webpage
~~~~~Revised 3/31/98~~~~~ TAW