Midterm 3 Key

Answers in italics

Multiple choice:   As always, choose the best answer for each question.  Answer on your scantron form.  Each question (except #1) is worth 3 points.

1.      Fill in your scantron form as follows:  (1 point)

·        Write in your name in the upper left (last name first) and bubble it in.

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·        Sign your form in the upper right.

a.      Mmm…free point.

b. – e.  D’oh!

2.      The tough outer layer of the main gastrointestinal tract is known as the

a.       mucosa.

b.      lumen.

c.       muscularis externa.

d.      serosa.

e.       submucosa.

3.      By definition, “digestion” would include which of the following?

a.       The mechanical or physical breakdown of food.

b.      The chemical breakdown of food.

c.       The transport of nutrients across the gut epithelium.

d.      Two of the above.

e.       All of the above.

4.      The activity of the stomach is increased by

a.       increased release of the hormone gastrin.

b.      increased activity of the parasympathetic nervous system.

c.       increased activity of the sympathetic nervous system.

d.      a and b.

e.       a and c.

5.      In the stomach, mucus is secreted by the

a.       chief cells.

b.      gastric cells.

c.       goblet cells.

d.      mucosal cells.

e.       parietal cells.

6.      The injection of a quantity of acid directly into the upper end of the small intestine would most strongly effect the secretion of which of the following hormones?

a.       Cholecystokinin

b.      Gastrin

c.       Glucose-dependent insulinotropic peptide

d.      Norepinephrine

e.       Secretin

7.      The liver is responsible for release of which of the following into the small intestine?

a.      Sodium bicarbonate

b.      Lipases

c.       Amylase

d.      All of the above.

e.       None of the above.

8.      Bile salts are important in the digestion of fats because

a.      they help break fat droplets up into much smaller volumes.

b.      they digest fats into fatty acids and glycerol.

c.       they help package fats up into chylomicrons.

d.      Two of the above.

e.       All of the above.

9.      The level of leptin in the blood is determined primarily by

a.       the level of glucose in the blood.

b.      the amount of glycogen in the liver.

c.       the level of fatty acids in the blood.

d.      the amount of fat stored in the body.

e.       metabolic rate.

10.  If a substance filtered into the kidneys is neither secreted nor reabsorbed, its concentration in the final urine compared to its concentration in the initial glomerular filtrate would be

a.      much higher.

b.      slightly higher.

c.       about the same.

d.      slightly lower.

e.       much lower.

11.  The blood vessel most closely associated with the loop of Henle is the

a.       afferent arteriole.

b.      efferent arteriole.

c.       glomerulus.

d.      peritubular capillary.

e.       vasa recta.

12.  Which of the following is not reabsorbed in the proximal tubule?

a.       Glucose

b.      Sodium

c.       Urea

d.      Water

e.       All of the above are reabsorbed in the proximal tubule.

13.  The loop of Henle is an example of

a.       a counter-current exchanger.

b.      a counter-current multiplier.

c.       a portal exchange system.

d.      tubuloglomeric feedback.

e.       Jacob Henle’s ability to get something named after himself.

14.  In the collecting duct, final urine concentration is controlled mainly by

a.       the diffusion of solutes into the urine.

b.      the active transport of solutes into of the urine.

c.       the osmotic movement of water out of the urine.

d.      the active transport of water out of the urine.

e.       Two of the above.

15.  Increased levels of anti-diuretic hormone are released in response to

a.       decreased blood pressure.

b.      increased plasma osmolarity.

c.       decreased urine flow in the distal tubule.

d.      Two of the above.

e.       None of the above.

16.  Increased levels of angiotensinogen are released in response to

a.       decreased blood pressure.

b.      increased plasma osmolarity.

c.       decreased urine flow in the distal tubule.

d.      Two of the above.

e.       None of the above.

17.  Low venous blood pressure ultimately results in low arterial blood pressure because

a.       low venous BP reduces heart rate.

b.      low venous BP reduces stroke volume.

c.       low venous BP reduces blood flow to the coronary arteries.

d.      low venous BP reduces capillary resistance.

e.       low venous BP creates a stronger arterial-venous pressure gradient.

18.  The only way to actually increase the volume of your extra-cellular fluid is to

a.       increase urine concentration.

b.      decrease urine volume.

c.       decrease urine concentration.

d.      increase urine volume.

e.       take in water.

19.  In human females, meiosis I of the oocyte is completed

a.       when the woman is still a fetus.

b.      at puberty.

c.       at the beginning of follicular development.

d.      at ovulation.

e.       at fertilization.

20.  The corpus luteum, when fully developed, produces physiologically important amounts of

a.       estrogen.

b.      progesterone.

c.       inhibin.

d.      Two of the above.

e.       All of the above.

21.  The uterine endometrium is ready for implantation during the.

a.       chorionic phase.

b.      follicular phase.

c.       menstrual phase.

d.      proliferative phase.

e.       secretory phase.

22.  Except during the emission-ejaculation sequence, mature sperm are found mainly in the

a.       testes.

b.      epididymus.

c.       vas deferens.

d.      ejaculatory duct.

e.       urethra.

23.  The erection of the penis in human males is relies mainly on

a.      blood pressure.

b.      the penile muscle.

c.       the pubic bone.

d.      the prostate gland.

e.       the bulbourethral gland.

24.  The “window of opportunity” each month for fertilization in humans is about

a.       twelve hours.

b.      one day.

c.       three days.

d.      one week.

e.       three weeks.

25.  During month seven of pregnancy, the progesterone levels in the mother’s blood are due mainly to release of the hormone from the

a.       anterior pituitary.

b.      corpus luteum.

c.       placenta.

d.      Two of the above.

e.       All of the above.

"d" was also accepted.

26.  Milk secretion in females is promoted by

a.       estrogen.

b.      luteinizing hormone.

c.       oxytocin.

d.      progesterone.

e.       prolactin.

"c" was also accepted.

Short answer:   Write a concise answer to each of the following questions.  Your answers should fit in the spaces provided.  Each question is worth 4 points.

27.  Discuss the enzymatic breakdown of proteins in the digestive system.  Specifically, indicate the enzymes involved and for each where it comes from, how it is activated, and where in the GI tract its activity occurs.

Pepsin is secreted by the stomach (as pepsinogen) and activated by the low pH of the stomach’s contents.  It helps break down proteins in the stomach itself.

The pancreas secretes three enzymes into the small intestine, where they have protease activity.  Trypsin (secreted as trypsinogen) is activated by the enzyme enterokinase, secreted by the SI itself.  Chymotrypsin(ogen) and (pro)carboxypeptidase are then activated by trypsin.

28.  Consider a person who hyposecretes glucagon.  How do you think her blood glucose levels would compare to a normal person’s during both the absorptive state and the post-absorptive state?  Explain your answer.

During the absorptive phase, glucose is entering the bloodstream from the GI tract and levels are brought back down by the action of insulin.  This control loop is not influenced significantly by glucagon and should be about the same as in a normal person.  During fasting, however, glucagon normally triggers the release of glucose from the liver to help keep blood glucose levels up when no absorption is occurring.  In this individual, the low glucagon levels would likely lead to low blood glucose levels during this period.

29.  If someone were injected with a drug that poisoned the sodium transporters in the ascending loop of Henle and initial distal tubule so that they ceased functioning, how might this affect the person’s ability to make a hyperosmotic urine?  How about a hyposmotic urine?  Explain your answer.

The sodium transporters in this region do two things.  One is to run the counter-current multiplier that maintains the concentration gradient in the medulla.  Without the transporters, this gradient would disappear.  Without that gradient, water couldn’t be reabsorbed as the urine travels down the collecting duct, which means the person could no longer make a hyperosmotic urine.  The other thing the transporters do is transport out enough salt to make the urine hyposmotic by the time it reaches the beginning of the distal tubule.  If the transporters aren’t working, the urine would never become hyposmotic

Note that other answers are possible – what I’m looking for is an understanding of the function of this region.

30.  Using a flow chart or a list of events, describe the hormonal pathway involving atrial natriuretic factor.  Be sure to indicate the source of the hormone, what controls its release, and what the effects are.

High blood pressure, sensed by the cells of the heart’s atria, cause these cells to release increasing amounts of ANF.  ANF then blocks both the release and effects of ADH and the effects of aldosterone, thus helping to reduce blood volume and bring BP back down.

31.  What should be the respiratory response to a metabolic alkalosis, and how will this response affect blood pH?

A metabolic alkalosis means that [H⁺] in the internal environment drops below normal.  This drop should cause decreased ventilation, which will help to increase the P_CO2 in the blood.  That increase in CO₂ should drive the bicarbonate buffering equation more to the right, helping to increase [H⁺], or decrease pH,  again.

32.  Diagram or describe the hormonal pathways involved in promoting spermatogenesis in males.  Be sure to include the tissues affected by each hormone.

The hypothalamus releases GnRH, which promotes the release of both FSH and LH from the anterior pituitary.  The LH promotes production and release of testosterone by the Leydig cells; testosterone enters the bloodstream but also diffuses to the Sertoli cells where, in combination with the FSH, it promotes spermatogenesis.  (The Sertoli cells promote meiotic activity by the spermatogonia.)