mcb 135e midterm 2 review november 3, 2006
DESCRIPTION
MCB 135e Midterm 2 Review November 3, 2006. Midterm 2. Wednesday, November 8 12:10 – 1:00 p.m. Covers material from Labor and Delivery on 10/6/06 to Growth and Endocrinology (II) on 11/3/06 Development of the Nervous System (Part 3) will be covered on final. Format of Exam. - PowerPoint PPT PresentationTRANSCRIPT
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MCB 135e
Midterm 2 Review
November 3, 2006
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Midterm 2
• Wednesday, November 812:10 – 1:00 p.m.
• Covers material from Labor and Delivery on 10/6/06 to Growth and Endocrinology (II) on 11/3/06– Development of the Nervous System
(Part 3) will be covered on final
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Format of Exam
• Same as Midterm 1
– Multiple Choice (30 points)
– True/False (20 points)
– Short Answer (50 points)
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Sections covered on exam
• Labor and Delivery• Cardiorespiratory Changes after Birth• Infant at Risk• Thermoregulation• Lactation• Gastrointestinal Function• Liver• Development of Kidney Function/Kidney and Acid-
Base Balance• Growth and Growth Patterns• Growth & Endocrinology (I and II)
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Labor and Delivery
• Parturition– birth of the baby
– a biological and social event
– Delivery 38 weeks after fertilization or 40 weeks after last menstrual period
• Mechanism of onset of labor not completely understood– Mechanical and hormonal factors are important
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Hormones Involved in Labor
• Fetal Hormones– Corticotropin Releasing Hormone (CRH)– Adrenocorticotropic Hormone (ACTH)
• Placental Hormones– Estrogen (E)– Progesterone (P)– Prostaglandins
• Maternal Hormones– Oxytocin– Relaxin (produced by ovary and also placenta)
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Fetal Hormones
• Corticotropin Releasing Hormone (CRH)– Secreted by hypothalamus
• Adrenocorticotropic Hormone (ACTH)– Secreted by anterior pituitary
• Cortisol– Secreted by adrenal cortex– Stimulates Estrogen secretion from placenta– Inhibits Progesterone secretion
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Placental and Maternal Hormones
• Increased E secretion and decreased P secretion, leads to:– High E:P ratio– Uterine contractions, because:
• E stimulates contractions• P inhibits contractions
• Contractions stimulate the maternal hypothalamus to secrete Oxytocin
• Oxytocin further stimulates contractions
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Prostagladins and Relaxin• Prostagladins
– Released from the placenta– Stimulated by E and oxytocin– Stimulates oxytocin and promotes
contractions
• Relaxin– Produced by corpus luteum of the ovary– Loosens ligaments and softens cervix– Increases number of oxytocin receptors
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Cardiorespiratory Changes after Birth
• Transition from prenatal to postnatal life– Must be rapid– Requires critical changes in pulmonary
and circulatory systems• Expansion of lungs for first breath• Closure of ductus venosus, ductus
arteriosus, and foramen ovale• Removal of fluid from lungs
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Closure of Foramen Ovale
• Results from pressure change in atria– Increased pulmonary blood flow
increases pressure in LA
– Pressure in left heart greater than right (after birth)
– Also, decreased flow from placenta to IVC
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Closure of Ductus Arteriosus
• Results from reduced pulmonary resistance– Pulmonary pressure falls and equals
aortic pressure
– Lack of pressure gradient reduces blood flow through DA, causing it to shut
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Fetal Lung Fluid
• Composed of amniotic fluid and fluid secreted by the lungs itself
• Chloride ion drives fluid into potential airspace of lungs– Generates pressure to stretch the lungs and
stimulate growth
• Function of the fluid:– Important for growth and specialization of lung
components prior to birth– Influences lung resistance
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Removal of Fetal Lung Fluid
• Absorption of Na+ ion at birth switches lung’s capacity to an absorptive state
• Membrane of lungs switches from predominantly Cl- secreting to predominantly Na+ absorbing– Reverses flow of fluid in the lungs– Fluid exits the interstitial space via the
lymphatic ducts and microcirculation
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Infant at Risk• Fetal Distress
– Low oxygen• Meconium aspiration
– Fetal bowl content discharged at birth that could be inhaled and block airways
• Sepsis – Blood poisoning
• Congenital anomalies• Maternal Diseases• Toxins• Premature birth
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Thermoregulation
• Process of regulating body temperature
• Environment, vascular and metabolic adaptations, shivering and sweating are various ways in which adults regulate body temp.
• Newborns and infants have reduced capability of regulating body temp.
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Thermoregulation in Newborns/Infants• Primarily occurs through Non-shivering Thermogenesis• Exposure to cold stimulates hypothalamus
• Norepinephrine (NE) is released and stimulates receptors on brown fat cells
• Triglycerides are broken down into fatty acids and glycerol through the action of lipase– Fatty acids broken down (oxidized) in mitochondria of
BFC– Uncoupling protein leads to heat production instead of
ATP
• Also, leads to conversion of T4 to T3 – Increased metabolic rate leads to increased body heat
production
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Mechanisms of Heat Loss• Conduction
– Transfer of heat from one solid body to another
• Convection– Transfer of heat from a solid to the surrounding
gas or liquid
• Evaporation– Air passing over body evaporates water on
surface and removes heat– Largest source of heat loss in infants
• Radiation– Exchange of infrared (IR) photons with
surroundings– Heat is gained/lost depending on temp. gradient
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Lactation
• Survival and growth of an infant depends on:
– Mother’s ability to breastfeed
– Baby’s ability to suck
– Proper development/function of GI system
– Proper development/function of CNS
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Witches’ Milk and Colostrum• Witches’ Milk
– Baby secretes milk few days after birth under the influence of maternal estrogen
– Occurs in full-term infants, not pre-mature• Estrogen levels may not be high enough for pre-mature
infants
• Colostrum– First milk that precedes the production of true milk– Yellowish in color– Rich in antibodies and minerals– High in carbohydrates, proteins, but no fat
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Milk Production• Stimulated by the hormone Prolactin
(PRL)– Secreted by anterior pituitary gland
– Levels of PRL increase 20 fold during pregnancy
– However, its action is inhibited by high E and P levels
– Therefore, milk production is suppressed until birth (except for small amount of colostrum)
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Milk Production (after birth)
• Once the levels of E and P decrease, milk is produced.
• With each feeding, secretion of PRL is stimulated.
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Milk Ejection
• Stimulated by the hormone Oxytocin
– Suckling stimulates hypothalamus to release oxytocin from posterior pituitary
– Oxytocin increases contraction of myoepithelial cells around the ducts• Forces milk out of alveoli and into the large
ducts (sinuses) and then out the nipple
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Benefits of Breastfeeding
• Infant– Reduction in infections– Initial increased growth– Decreased obesity in adulthood– Positive effects on mental development
• Mother– Rapid weight loss– Decreased risk of breast cancer– Psychological benefits
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Breastfeeding Not Always Ideal
– Maternal illness
– Stress
– Inadequate milk production
– If drugs and toxins are taken by mother
– Increased risk of HIV transmission
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Gastrointestinal Function• Major functions
– Digestion and absorption
– Defense• Biochemical and immunologic mechanisms
– Endocrine• Hormones that regulate GI secretion and motility
– Mechanical and chemical mechanisms• Break-down of food, propulsion of food along GI tract,
excretion of feces, enzymatic reactions, transport reactions
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Increased Risk of Dehydration• Smaller size of organs of GI system in
early postnatal development
• Food contents are liquid, so rapid transit– Shorter duration of food in stomach and
throughout GI system– Reduced rate of digestion/absorption– Reduced water reabsorption of intestinal
mucosa
• Proteins used for growth and development– Very little urea is excreted
• A byproduct of proteins• Produced in liver• Helps reabsorb water in the kidneys
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Liver• Complex functions of digestion and
body growth– Formation of bile– CHO storage and release– Formation of urea– Metabolism of cholesterol– Manufacture of plasma proteins– Regulation of fat metabolism– Metabolism of some hormones– Reduction and conjugation of steroid hormones– Vitamin D metabolism– Detoxification of drugs/toxins
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Jaundice• Caused by high levels of bilirubin in blood
• Begins with breakdown of RBCs
• Heme from Hb is broken down to bilirubin
• Bilirubin enters liver
• Conjugation of bilirubin to form a water soluble product and secretion into bile
• Conjugated bilirubin excreted in feces
• Jaundice occurs when bilirubin is not excreted and instead accumulates in the blood
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Kidney • Major functions:
– Regulation of water and electrolytes
– Maintenance of pH
– Excretion of waste and byproducts of metabolism
– Secretion of hormones• Erythropoietin• Renin• Vitamin D3
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Functions of Hormones
• Erythropoietin– Increases the number of RBCs so there is better
oxygen transport (Hematopoiesis – increased formation of RBCs)
• Renin– Involved in the secretion of angiotensin– Secreted by juxtaglomerular apparatus of kidneys
in response to low blood volume or low body NaCl
• Vitamin D3– Important for calcium metabolism, by increasing
calcium absorption in the intestine
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Hormones that Regulate Kidney Function
• AldosteroneDecreased blood pressure/Low blood flow to kidneys
Release of Renin from JGA of kidneys
AngiotensinogenAngiotensin I Angiotensin IIStimulation of Adrenal CortexAldosterone Secretion
ACE = Angiotensin Converting Enzyme
Function: Aldosterone leads to increased salt and water retention by kidneys
ACE
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Hormones that Regulate Kidney Function
• Antidiuretic Hormone (ADH or vasopressin)
– Secreted by hypothalamus
– Stored and released from posterior pituitary
– Acts on loop of Henle, distal tubules, collecting ducts
– Function:» Stimulates cAMP and increases number of
water channels» Increases water reabsorption
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Risk of Dehydration in Infants• Skin – Greater water loss through skin (increased
surface area)
• GI Tract – Less mature, faster transit so less time for water reabsorption
• Kidney – malformations at 5 developmental stages, less urea, shorter loop of Henle (less water through medulla)
• Posterior Pituitary – Less ADH Secreted, less sensitivity of cells that line collecting duct
• Adrenal Cortex – less aldosterone
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Changes in Urinary pH in Premature Infants
• First week of life– pH tends to be more alkali (pH 6-7)
• Second week of life– pH much more acidic (pH 5)
– Maintenance of pH difficult in newborns (esp. premature infants)• Kidneys not fully developed• Systems are less efficient
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Growth
• Increase in an organism’s size and weight
• Reflection of how well you are (all other systems of body must be functioning properly for growth to occur)
• Occurs when anabolic processes predominate over catabolic processes
Anabolic: simple substances converted to complex compounds
Catabolic: complex substances converted to simple compounds
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Factors that Affect Growth• Prenatal Period
– Genetic factors
• Environmental factors– Availability of nutritional substances– Parental age– Parity (amount of time between
successive childbirths)– Multiple births– Fetal sex
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Changes in proportion of human body during growth
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Comparison of Kwashiorkor and Marasmus
Kwashiorkor: West African, means “disease that occurs when displaced from the breast by another child.” Major pathology: protein deficiency
Marasmus: Progressive emaciation due to diet deficient in all calories & nutrients
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Catch-up growthCatch-up growthMalnutrition and severe disease cause
• Growth retardation
However
Establishment of adequate nutrition and recovery from illness
• Induces growth rate acceleration until individual growth patterns and normalcy in
terms of chronologic age are restored.
Malnutrition and severe disease cause• Growth retardation
However
Establishment of adequate nutrition and recovery from illness
• Induces growth rate acceleration until individual growth patterns and normalcy in
terms of chronologic age are restored.
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Compensatory GrowthCompensatory Growth
• Growth that usually follows the loss of an organ or part of an organ or tissue
• Examples:• Cellular hypertrophy (increase in SIZE of cell) as in
growth of muscle• Increase in contralateral kidney size when one kidney
is removed• Increase in size (hypertrophy and hyperplasia) in
response to increased functional demand (e.g., adrenal enlargement during stress)– Hyperplasia: increase in NUMBER of cells
• Growth that usually follows the loss of an organ or part of an organ or tissue
• Examples:• Cellular hypertrophy (increase in SIZE of cell) as in
growth of muscle• Increase in contralateral kidney size when one kidney
is removed• Increase in size (hypertrophy and hyperplasia) in
response to increased functional demand (e.g., adrenal enlargement during stress)– Hyperplasia: increase in NUMBER of cells
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Reminder
• No discussion section on Monday, Nov. 6
• My office hours on Monday:– 9:10 – 10:00 a.m. Free Speech Café– 1:10 – 2:00 p.m. 105 GPB
• Bring pen and pencil to exam