Anatomy and Lactation Physiology Dairy Cattle Technology.
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Transcript of Anatomy and Lactation Physiology Dairy Cattle Technology.
![Page 1: Anatomy and Lactation Physiology Dairy Cattle Technology.](https://reader033.fdocuments.in/reader033/viewer/2022061407/56649e5c5503460f94b53c7e/html5/thumbnails/1.jpg)
Anatomy and Lactation Physiology
Dairy Cattle Technology
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Mammary Gland (Udder)
Common to all mammalsExocrine glandTwo Functions
To nourish the young Produce immunoglobulins for protection
Relies on many of the same hormones that control reproduction
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The surface anatomy (External Features) of the bovine udder.
The appearance of the udder varies depending on maturity and functional status.
In dairy cows it is very large and can weigh up to 60 kg.
The udder is divided into quarters corresponding to the four glands - each bearing a principle teat.
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Four separate glands or quarters
Fore (40%) and rear (60%) The division between fore- and rear
quarters is less distinct. Right and left sides separated by a
median intermammary groove No interaction between quarters
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Teats
Usually one teat per quarterSupernumeries (~50%)
• Nonfunctional and functional• 92% caudal, 5% between, 3% cranial• Removed when 1-2 years of age
No hair, sweat or sebacious glands 2.5 inches
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Udder Suspensory System
Skin Superficial fascia Coarse aerolar tissue
fore udder to abdominal wall
Lateral suspensory ligaments superficial deep arise from the subpelvic ligament and prepudic
tendon
Median suspensory ligament main suspension elastic
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Suspension of the Udder
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Udder Suspension
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Median Suspensory Ligament
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Compass Cow
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Udder Edema
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Interior of the Udder Gland cistern
100-400 ml. milk storage duct systems drains into used to detect end of milking
Duct system drains secretory tissue no secretory function
Alveoli Milk producing units secretory cells, myoepithelial cells and capillaries,
duct
Lobules 150-200 alveoli, common duct
Lobes group of lobules
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Diagram of Duct System
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Alveolus
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Mammary Cells
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Vascular System
Blood:Milk Ratio; 500:12 Arteries
External pudic Perineal
3 Veins External pudic Perineal Subcutaneous abdominals
milk wells
Venous circle
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Blood System to the Udder
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Venous Circle
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Diagram of Arteries and Lymphatics
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Lymph System
Lacteals Originate in the peripheral tissues of the teat
ends Move fluids to the lymph nodes
Ducts 2-4 main ducts drain the rear udder 1-3 main dusts drain the fore udder
Supramammary Lymph Nodes Located in the rear udder
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Lymphatic Drainage
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Innervation of the Mammary Gland
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Milk Ejection Reflex
Neuroendocrine Pressure sensitive receptors on the teats feed back to
the supraoptic and paraventricular nuclei Stimulation of these neurons causes release of oxytocin
Other stimuli can cause letdown Oxytocin causes myoepithelial cells to contract
Peak oxytocin 2 mins following stimulation Half life of .55 - 3.6 mins
Timing of stimulation important to milk flow rate and machine-on time
Machine attachment in 20-45 seconds Adrenalin blocks letdown by:
Decreasing mammary blood flow Reducing myoepithelial response reducing oxytocin release
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Oxytocin Release
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Milking Frequency:
Effects on Milk Production
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Effect of Increased Milking Frequency (IMF) on Milk Production
Milking FrequencyChange
Increased MilkProduction
1X - 2X 13.6 lb.
2X - 3X 7.7 lb.
2X - 4X 10.8 lb.
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Effect of Udder Pressure on Milk Secretion
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Early Lactation IMF & Changes in milk yield
Study
Times Milked
Length
of Trt
“Earned Milk”
Trt Diff.
“Free Milk”
Carryover Effects
Poole, 1982 3X vs. 2X 20 wks 8.8 lb/d 4.8 lb/d
Bar Peled et al., 1995
6X vs. 3X 6 wks 16.0 lb/d 11.2 lb/d
Sanders et al., 2000
6X vs. 3X 6 wks 9.0 lb/d 5.5 lb/d
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IMF Results Depend on Timing
IMF initiated during mid lactation Increases milk production during IMF Milk production declines to pre IMF level after
IMF ceases All extra milk is “Earned”
IMF initiated during early lactation Increases milk production during IMF Milk production does not decline to pre IMF
level after IMF ceases A large portion of the extra milk is “Free”
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IMF & Mammary Growth
There is a high correlation between milk yield and the number of secretory cells (Tucker, 1966)
In goats, IMF correlates with an increase in rate of secretory cell proliferation (Wilde et al., 1987)
Administration of bST during lactation may increase the rate of mammary cell proliferation (Capuco et al., 2001)
How does IMF in early lactation affect mammary growth in cattle?
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IMF Milking Interval
IMF cows milked before and after the normal 2X milking ~2 ½ hours between 2 AM and 2 PM milkings 8 ½ hours between AM and PM milkings
6:30a 9:00a
2X
5:30p 8:00p
4X 4X 4X 4X
2X
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Mi lk
Pro
duct
i on
Lactation Days
2X-2X
4X-4X
4X-2X
Carryover“Free” Milk
“Earned”Milk
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Effects of IMF
Milk Response 15 lbs. “Earned” Milk 6 lbs. “Free” Milk
Older Cows had a greater carryover effect 2 lb versus 6 lbs
Profitability 8 cents/cow/day at 3 lb response 32 cents/cow/day at 6 lb response
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Effect of Milking Interval
Interval Cows Days Milk
12-12 35 305 13.760
14-10 35 305 13.716
16-8 35 305 13.582
Schmidt & Trimberger (1963)
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Normal Lactation Curve of a Dairy Cow
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Figure 10-6 The neurohormonal reflex of milk ejection. Stimulus(A) that a cow associates with milking causes a nerve impulse (B) to travel via the inguinal nerve(1) to the spinal cord(2)and the brain(3). The brain causes the release of oxytocin (D) from the posterior pituitary (C). Oxytocin is released into a branch of the jugular vein(4) and travels to the heart(5) and is then transported to all parts of the body by the arterial blood. The oxytocin reaching the udder leaves the heart by the aorta(6) and enters the udder through the external pudic arteries (7).In the udder. it causes the myoepithelial cells to contract, resulting in milk ejection from the alveioli.