ITE CA2 Endocrine/Metab/Renal/Electrolytes

Question 1

Effect of corticosteroids on: WBC, hemoglobin, blood glucose, K, Na, acid/base status, urinary uric acid, urinary calcium.

Answer 1

Corticosteroids are associated with leukocytosis, increased hemoglobin, hyperglycemia, hypokalemia, mild hypernatremia, alkalosis, increased urinary uric acid, and increased urinary calcium.

Question 2

FENA cutoff for pre-renal

Answer 2

Fractional excretion of sodium is a useful tool in helping to distinguish the cause of acute kidney injury. In general, a FENA < 1% indicates a prerenal cause such as hypovolemia. Greater than 1% points toward ATN or another intrinsic cause.

Question 3

prerenal urine osmolality

Answer 3

greater than 500

Question 4

prerenal urine sodium

Answer 4

less than 10

Question 5

BUN:Cr ratio

Answer 5

prerenal greater than 20
intrinsic/ATN less than 15
postrenal greater than 15

Question 6

FENa cutoffs

Answer 6

prerenal <1
intrinsic >2
postrenal >2

Question 7

random urine sodium cutoffs

Answer 7

prerenal <20
intrinsic >20
postrenal >40

Question 8

Hypothermia, AMS, non-pitting edema

Answer 8

Myxedema coma is an extreme form of hypothyroidism that is classically characterized by altered mental status, hypothermia, and non-pitting edema. It is most commonly seen in patients with chronic hypothyroidism in the setting of a physiologic stressor such as infection and is considered a life threatening emergency.

TrueLearn Insight : Myxedema coma is rare, and most commonly presents to anesthesiologists in the postoperative period after a trigger such as infection, exposure to cold temperatures, and excessive sedation and analgesic medications.

Question 9

Table 3: Summary of PTH, Calcium, and Phosphorus Disorders
DISORDER - INTACT PTH - CALCIUM - PHOSPHORUS
pHPTH
FHH
2? HPTH
Malignancy
Hypo-PTH
(pHPTH = primary hyperparathyroidism, FHH = familial hypocalciuric hypercalcemia, 2? HPTH = secondary hyperparathyroidism, Hypo-PTH = hypoparathyroidism, PTH = parathyroid hormone)

Answer 9

Table 3: Summary of PTH, Calcium, and Phosphorus Disorders
DISORDER INTACT PTH CALCIUM PHOSPHORUS
pHPTH increased increased decreased
FHH normal-mild increase increased normal-mild decrease
2? HPTH increased decreased varies
Malignancy decreased increased normal
Hypo-PTH decreased decreased increased
(pHPTH = primary hyperparathyroidism, FHH = familial hypocalciuric hypercalcemia, 2? HPTH = secondary hyperparathyroidism, Hypo-PTH = hypoparathyroidism, PTH = parathyroid hormone)

Question 10

Carcinoid syndrome causes the classic triad of______. Diagnostic testing includes measuring _____

Answer 10

Carcinoid syndrome causes the classic triad of flushing, asthma, and right-sided heart disease. Diagnostic testing includes measuring urine 5-hydroxyindoleacetic acid

Lung metabolism of serotonin evidently prevents involvement of the left side of the heart with carcinoid syndrome.

Question 11

Best test to eval hepatic sythesis

Answer 11

Prothrombin time (PT) is the most useful to diagnose hepatic synthesis abnormalities because many of the procoagulants in this test are synthesized in the liver. They also have shorter half-lives thus alterations in synthesis are observed faster than with other tests, such as albumin.

Question 12

Factors not produced in the liver

Answer 12

III, IV, VIII

Question 13

Where is factor VIII produced

Answer 13

endothelial cells and bone marrow

Question 14

Growth hormone

Answer 14

Growth hormone is an anabolic hormone; most of its effects are mediated by IGF-1. It causes hyperglycemia and insulin resistance, as seen in patients with acromegaly.

Question 15

where is angiotensin I converted to II

Answer 15

pulmonary circulation by ACE

Question 16

Where is renin produced

Answer 16

juxtaglomerular apparatus in kidney

Question 17

what does renin do

Answer 17

cleaves angiotensinogen into angiotensin I

Question 18

Norepinephrine site of degradation and inactivation

Answer 18

pulmonary endothelium and nerve terminals

Question 19

Acromegaly lung volumes

Answer 19

Patients with excess growth hormone (GH) actually have increased lung volumes, which causes subsequent ventilation-to-perfusion mismatching.

Resultant manifestations of a GH-secreting pituitary tumor include mass effect side effects (headache, visual field defects, rhinorrhea) and excess growth hormone side effects (skeletal overgrowth such as prognathism, soft-tissue overgrowth, connective tissue overgrowth causing possible recurrent laryngeal nerve paralysis and/or hoarseness, peripheral neuropathy (e.g. carpal tunnel syndrome,), visceromegaly, glucose intolerance, osteoarthritis, osteoporosis, hyperhidrosis, skeletal muscle weakness, increased lung volumes).

Question 20

Lab findings in SIADH

Answer 20

1) Urine osmolality >100 mOsm, and often > 200-300 mOsm
2) Fractional excretion of sodium (FENa) > 1%
3) Urine Na+ > 20 mEq/L
4) Low serum uric acid and BUN
5) Dilutional, euvolemic hyponatremia (serum Na+ < 135 mEq/L)

Question 21

what do glucocorticoids do

Answer 21

Glucocorticoids act to produce more aldosterone and inhibit the phospholipase A2 enzyme (PLA2). The PLA2 enzyme converts phosphatidylcholine to arachidonic acid, a precursor to prostaglandins, leukotrienes, and other proinflammatory mediators (e.g. TNF-α, interleukin-1, interleukin-6, cellular adhesion molecules).

Question 22

Symptoms of Cushing syndrome

Answer 22

Cushing syndrome is characterized by a group of signs and symptoms resulting from prolonged exposure to excess cortisol. Classic symptoms include moon facies, buffalo hump, abdominal weight gain, thinning of the extremities, hirsutism, elevated blood sugar, and mood changes.

Protein synthesis and breakdown become mismatched and the resulting progressive protein loss causes drastic perturbations of body mass composition.

Classic physical signs of EXCESS protein breakdown that characterize Cushing syndrome are increased fatty deposits in the face (moon facies), shoulders, and neck (buffalo hump), truncal obesity, and muscle wasting (thinning) of the upper and lower extremities.

Question 23

anesthetic considerations for Cushing

Answer 23

Anesthetic management of patients with Cushing Syndrome focuses on blood pressure regulation (these patients are typically hypertensive), glucose control, balancing electrolytes (often hypokalemia), and positioning (due to osteopenia).

Question 24

Primary hyperthyroidism is characterized by

Answer 24

Primary hyperthyroidism is characterized by elevated T3, T4 (free and total), and thyroid hormone binding ratio, and a low or normal TSH

Question 25

Primary hyperthyroidism vs Secondary hyperthyroidism

Answer 25

Primary hyperthyroidism is the term used when the pathology is within the thyroid gland. Secondary hyperthyroidism is the term used when the thyroid gland is stimulated by excessive thyroid-stimulating hormone (TSH) in the circulation.

Question 26

Aldosterone effect on potassium

Answer 26

Aldosterone and cortisol promote renal potassium secretion leading to losses through the urine. Insulin and thyroid hormones enhance cellular potassium uptake.

Question 27

Cortisol effect on potassium

Answer 27

Aldosterone and cortisol promote renal potassium secretion leading to losses through the urine. Insulin and thyroid hormones enhance cellular potassium uptake.

Question 28

Insulin effect on potassium

Answer 28

Aldosterone and cortisol promote renal potassium secretion leading to losses through the urine. Insulin and thyroid hormones enhance cellular potassium uptake.

Question 29

Thyroid hormones effect on potassium

Answer 29

Aldosterone and cortisol promote renal potassium secretion leading to losses through the urine. Insulin and thyroid hormones enhance cellular potassium uptake.

Question 30

indications for emergent dialysis

Answer 30

AEIOU: Acidosis (uncompensated metabolic acidosis with pH below 7.1), Electrolytes, Ingestions (toxins), Overload, Uremia.

Question 31

Perioperative hyperglycemia has been associated with

Answer 31

Perioperative hyperglycemia has been associated with 
immunosuppression,
 increased infections, 
osmotic diuresis, 
delayed wound healing, 
delayed gastric emptying, 
sympatho-adrenergic stimulation, and 
increased mortality.  

In addition, it reduces skin graft success, exacerbates brain, spinal cord, and renal damage by ischemia, worsens neurologic outcomes in traumatic head injuries, and is associated with postoperative cognitive dysfunction following CABG.

Question 32

pre-op pheo meds

Answer 32

Preoperatively, patients are commonly treated with phenoxybenzamine, which is a long-acting non-selective α-blocker. Selective α1-blockers, such as doxazosin, terazosin, and prazosin, are also commonly used.

Question 33

Angiotensin II causes ___

Answer 33

Angiotensin II results in 
increased inotropy, 
chronotropy, 
catecholamine release, 
catecholamine sensitivity, 
aldosterone levels, 
vasopressin levels, and 
cardiac remodeling through AT1 receptors.  

ACE inhibitors and ARBs help to prevent the remodeling that occurs secondary to angiotensin II and are beneficial in congestive heart failure.

Question 34

substances commonly removed from patient’s blood in dialysis

Answer 34

Substances that are commonly removed from the patient’s blood include calcium, creatinine, magnesium, phosphate, potassium, urea, and free water.

Question 35

substances may be added or removed from blood by dialysis

Answer 35

Substances that may be added to, or removed from, the patient’s blood include bicarbonate, chloride, glucose, and sodium.

Question 36

dialysis effect on albumin or prealbumin

Answer 36

Serum concentrations of larger molecules such as proteins are usually (transiently) increased following HD due to a concentrating effect from the removal of free water. The absolute amount of these substances in blood stays approximately the same.

Question 37

Metabolic Changes Associated With TPN:

Answer 37

Metabolic Changes Associated With TPN:

• Hypophosphatemia
• Hyperglycemia
• Hypercarbia
• Hypokalemia
• Hypomagnesemia
• Hyperinsulinemia

Question 38

respiratory quotient

Answer 38

respiratory quotient of 0.7 would be pure lipid oxidation and a quotient of 1.0 would be pure carbohydrate oxidation.

Question 39

Acute respiratory acidosis compensation

Answer 39

An acute respiratory acidosis is compensated with an increase in HCO3- of 0.2 mmol/L for each 1 mm Hg increase in PaCO2 above 40 mm Hg

Question 40

Chronic respiratory acidosis compensation

Answer 40

A chronic respiratory acidosis is compensated with an increase in HCO3- of 0.4 mmol/L for each 1 mm Hg increase in PaCO2 above 40 mm Hg.

Question 41

Type 1 hepatorenal syndrome

Answer 41

Type I HRS is an acute and rapid renal failure (doubling of serum creatinine) associated with a precipitating cause (e.g. spontaneous bacterial peritonitis, sepsis, surgery), that responds to medical therapy and stabilizes even after medical therapy is discontinued. Without treatment, the median survival is 2-4 weeks for type I HRS.

Question 42

Type 2 hepatorenal syndrome

Answer 42

Type II HRS is an insidious onset of renal failure as a result of portal hypertension. Loss of intravascular volume from splanchnic dilation and ascites formation is compensated for with increased renal vasoconstriction and activation of the sympathetic, renin-angiotensin, and vasopressin systems

Question 43

Propylthiouracil (PTU) and methimazole (MTZ)

Answer 43

Propylthiouracil (PTU) and methimazole (MTZ) are both medications that can be used to inhibit the production of thyroid hormone (T4).
In addition, propylthiouracil blocks the peripheral conversion of T4 to T3 - this makes PTU favorable over MTZ

Question 44

thyroid storm treatment

Answer 44

Thyroid hormone release can be blocked by sodium or potassium iodide administration, however only after a thyrostatic medication such as propylthiouracil has been given. plus supportive treatment

Question 45

A 56-year-old female is being monitored in the intensive care unit after presenting with a subarachnoid hemorrhage. On post-bleed day 2, the patient is noted to have new onset hyponatremia. On exam the patient appears euvolemic. Further workup reveals a high urine sodium and high urine osmolarity. Which of the following is MOST likely?

Answer 45

SIADH

Hyponatremia with euvolemia or hypervolemia is most likely syndrome of inappropriate antidiuretic hormone secretion (SIADH) in this patient

Question 46

cerebral salt wasting volume status

Answer 46

hypovolemic

Question 47

EKG changes hypocalcemia

Answer 47

shortened PR
prolonged QT*** classic
T wave inversion

Question 48

EKG changes hypokalemia

Answer 48

PR prolonged
QRS narrowed
QT prolonged
T waves flat
U waves

Question 49

EKG changes hypomagnesemia

Answer 49

PRshortened
QRS narrowed
QT prolonged

Question 50

EKG changes hypercalcemia

Answer 50

PR prolonged
QRS widened
QT shortened
T waves peaked

Question 51

EKG changes hyperkalemia

Answer 51

PR prolonged
QRS widened
T waves peaked

Question 52

EKG changes hypermagnesemia

Answer 52

PR prolonged

QRS widened

Question 53

Vasopressin secretion stimultated by

inhibited by

Answer 53

Vasopressin secretion is stimulated by increased plasma osmotic pressure, decreased intravascular volume, and systemic arterial hypotension. Vasopressin secretion is also mediated by certain hormonal triggers: AT2 stimulates vasopressin secretion while ANP inhibits secretion.

Question 54

Oxytocin similar in structure to what

Answer 54

Vasopressin’s structure is similar to oxytocin; their amino acid sequences only differ by two amino acids. As a result, the two peptides exhibit some cross-reactivity at high plasma concentrations: vasopressin can cause uterine contractions while oxytocin can slightly inhibit diuresis.

Question 55

Vasopressin receptors

Answer 55

Activation of V2 receptors in the renal collecting ducts causes water reabsorption and an increase in circulating volume.

Activation of smooth muscle V1 receptors in blood vessels causes vasoconstriction (especially in splanchnic vasculature). This effect is particularly important at the renal efferent glomerular arterioles where it serves to maintain glomerular filtration pressure.

Question 56

other name for somatostatin and what does it do

Answer 56

Somatostatin, also known as growth hormone-inhibiting hormone (GHIH), inhibits insulin secretion. It also inhibits glucagon and thyroid stimulating hormone (TSH).

Question 57

cholecystokinin does what to insulin

Answer 57

increase

Question 58

gastric inhibitory peptide does what to insulin

Answer 58

increase

Question 59

somatostatin does what to insulin

Answer 59

decrease

Question 60

what does glucagon do for blood sugar

Answer 60

• stimulates hepatic glycogenolysis
• stimulates hepatic gluconeogenesis
• stimulates lipolysis
• inhibits hepatic glycolysis
• inhibits hepatic glycogen synthesis

RESULT IS RAISED BLOOD GLUCOSE

Question 61

Other effects of glucagon include, but are not limited to:

Answer 61

Other effects of glucagon include, but are not limited to:

• Decreased gastric motility
• Relaxation of smooth muscle
  
  • Decreases biliary sphincter and lower esophageal sphincter tone
  • Mild generalized vasodilation
  • Dilates hepatic arterioles and increases hepatic and splanchnic blood volume
  • Antagonizes vasoconstrictor effects of catecholamines
• Enhanced urinary excretion of inorganic electrolytes

Glucagon also has cardiac inotropic and chronotropic effects. Similar to catecholamines, it enhances activation of adenyl cyclase in cardiac myocytes, but its effects are NOT blocked by β-blockers. Typical dose is 1-5 mg IV followed by an infusion.

Question 62

Adrenal insufficiency electrolyte disturbances

Answer 62

Adrenal insufficiency is more likely to manifest with hyponatremia, hyperkalemia, hypercalcemia, and hypoglycemia.

Question 63

addisons disease

Answer 63

adrenal insufficiency

Question 64

anabolic stuff insulin does

Answer 64

myocytes: increase glucose uptake, increase amino acid uptake, increase glycogen storage, increase protein synthesis
adipocytes: increase glucose uptake, increase fatty acid storage
hepatocytes: increase macronutrient uptake, increase glycogen synthesis, increase fatty acid synthesis

Question 65

catbolic stuff that insulin inhibits

Answer 65

Insulin also inhibits catabolic processes throughout the body. Within the liver, it inhibits glycogenolysis and gluconeogenesis. Throughout the body, it inhibits lipolysis, protein breakdown (proteolysis), ketone formation, and oxidation of fatty acids and amino acids.

Question 66

causes of anion gap

Answer 66

Causes of an anion gap include the mnemonic GOLDMARK:

• Glycols (ethylene, propylene)
• Oxoproline (acetaminophen toxicity in malnourished/diabetics)
• L lactic acid
• D lactic acid
• Methanol
• Aspirin
• Renal failure
• Ketoacids (diabetes, starvation, alcohol)

Question 67

Causes of a non-gap acidosis

Answer 67

Causes of a non-gap acidosis include administration of normal saline, gastrointestinal losses (diarrhea, high-output ileostomy, fistula), renal losses (renal tubular acidosis), and certain drugs (such as acetazolamide).

Question 68

Lab findings suggestive of ATN include:

Answer 68

Lab findings suggestive of ATN include: 
muddy brown casts, 
FENa > 1%, 
Uosm < 350 mOsm/kg, 
UNa > 40 mEq , 
low specific gravity, and 
BUN:Cr 10:1 – 15:1.

Question 69

urine sodium content in ATN

Answer 69

Destruction of the tubular and epithelial cells in ATN impairs the kidney’s ability to concentrate the urine and retain sodium. As a result, the urine is typically diluted with a high Na content

Question 70

what carries highest risk for post cardiopulmonary bypass acute kidney injury.

Answer 70

Elevated preoperative creatinine, complex cardiac procedures, emergency surgery, and preoperative intraaortic balloon pump carry the highest risk for post cardiopulmonary bypass acute kidney injury.

Other well-known minor risk factors include: female gender, congestive heart failure, chronic obstructive pulmonary disease, insulin-requiring diabetes, and depressed left ventricular ejection fraction.

Question 71

Renal compensation for respiratory acidosis

Answer 71

Renal compensation for respiratory acidosis occurs at a slow rate. In acute respiratory acidosis, serum bicarbonate levels increase 1 mEq/L for each 10 mm Hg rise in PaCO2. If the respiratory acidosis is chronic, bicarbonate levels increase between 4-5 mEq/L for each 10 mm Hg rise in PaCO2.

Question 72

signs of hypocalcemia

Answer 72

Hypocalcemia is a complication found following a parathyroidectomy. Signs and symptoms include distal paresthesias, tetany, anxiety/psychosis, abdominal cramps, urinary frequency, and in severe cases seizures and laryngospasm. Immediate repletion of calcium is necessary if these signs are present.

Question 73

fluid-induced metabolic acidosis mechanism

Answer 73

But an important point to recognize is that fluid-induced metabolic acidosis can also result from infusions containing low Cl- (0.45% saline or mannitol). The reason for this is because the metabolic acidosis is not due to the chloride, rather due to the reduction in SID. Large infusions of fluid that have a SID of zero will dilute the plasma SID (normal is 40 mEq/L). This results in “dilutional” acidosis.

SID = strong ion difference

Question 74

How does hyperchloremia affect strong ion difference

Answer 74

In the setting of hyperchloremia (from large saline infusion) the plasma Cl- concentration increases which results in a decrease in HCO3- to maintain net neutrality. The decrease in HCO3- reduces the SID.

Question 75

strong ion difference and pH

Answer 75

As SID decreases, pH decreases, and vice versa.

Question 76

SID takes into account what ions

Answer 76

SID takes into account HCO3-, albumin, phosphate, and unmeasured anions.

Question 77

normal strong ion difference

Answer 77

40

Question 78

FENa = formula

Answer 78

FENa = Excreted Na/Filtered Na x 100 = (UNa x PCr)/(UCr x PNa x 100)
UNa – urine sodium
PNa – plasma sodium
UCr – urine creatinine
PCr – plasma creatinine

Question 79

adrenal cortex does what in response to what

adrenal medulla does what in response to what

Answer 79

The adrenal gland consists of two grossly and functionally distinct zones. The outer cortex secretes steroid hormones in response to fluid/electrolyte shifts and ACTH. The adrenal medulla secretes catecholamines in response to direct innervation by preganglionic sympathetic fibers.

Question 80

primary adrenal insufficiency is a result of what

Answer 80

Primary adrenal insufficiency is a result of intrinsic adrenal gland dysfunction.

Question 81

secondary adrenal insufficiency is a result of what

what electrolyte derrangements

Answer 81

Secondary adrenal insufficiency is a result of decreased ACTH, which is most commonly due to exogenous steroid administration.
Generally, mineralocorticoid production remains adequate in secondary adrenal insufficiency, so fluid/electrolyte derangements are often not seen.
Therefore, treatment with an exogenous glucocorticoid (e.g. dexamethasone) would be appropriate. (methylprednisolone is not needed)

Question 82

Metabolic alkalosis can be caused by

Answer 82

Metabolic alkalosis can be caused by blood product administration; gastric losses, urinary loses, or excessive exogenous bicarbonate administration.

Question 83

alkalosis and calcium

Answer 83

Hypocarbia resulting from the patient hyperventilating during venipuncture could result in respiratory alkalosis. This alkalosis could, in turn, result in a decrease in the ionized fraction of calcium in the serum, causing functional hypocalcemia. Symptoms of this hypocalcemia would include perioral numbness along with tingling in the hands and feet.

The second effect stems from the alkalinization of the serum itself. This results in a decrease in the fraction of calcium that is ionized due to increased binding of calcium to albumin. As ionized calcium is the functional form of calcium in the serum, this results in functional hypocalcemia. Symptoms such as tingling in the hands and feet, cramping, and eventually tetany can occur following hyperventilation.

Question 84

The renal medulla extracts oxygen at a ratio of

Answer 84

The renal medulla extracts oxygen at a ratio of ~80% making it exquisitely sensitive to small changes in renal blood flow. The mechanisms of many perioperative renal insults are based on the disruption of adequate blood flow (and therefore oxygen delivery) to the renal medulla.

Question 85

blood flow in and oxygen extraction in the kidneys

Answer 85

The kidneys receive approximately 20% of the cardiac output. Whereas in many organs, the oxygen extraction ratio is ~45%, it is much lower in the kidneys when considered as a whole, at < 20%. A critical difference, however, is the contrast between the renal cortex and the medulla.

The renal cortex receives the lion’s share of the blood flow (~94%) but exhibits an oxygen extraction ratio of 18-20%. This leads to a relatively high PO2 within the renal cortex. The medulla, on the other hand, receives the remaining 6% of the renal blood flow but has an oxygen extraction ratio of nearly 80%. Because of this, a small change in total blood flow to the kidney could have exaggerated effects in the medulla causing local hypoxia and subsequent injury.

Question 86

how do NSAIDs damage kidneys

Answer 86

In this region, prostaglandins cause vasodilation, increasing blood flow. Nonsteroidal anti-inflammatory drugs (NSAIDs) inhibit the synthesis of these compounds, preventing the increase of blood flow to the medulla

Question 87

what does angiotensin II do

Answer 87

Angiotensin II causes efferent glomerular arteriolar vasoconstriction which will maintain or increase glomerular filtration rate (GFR) in states of hypovolemia.

Angiotensin II then promotes aldosterone production. Angiotensin II and aldosterone both act to increase intravascular volume, raise systemic blood pressure, and maintain adequate GFR.

Angiotensin II also promotes release of antidiuretic hormone (ADH) which increases renal collecting duct water absorption and SVR.

Question 88

Hyperparathyroidism can cause what electrolyte abnormalities

and acid/base status

Answer 88

Hyperparathyroidism can cause hyperchloremia and increase renal bicarbonate loss, which may result in a normal anion gap metabolic acidosis.

Question 89

what does juxtaglomerular apparatus sense

what results if it senses decreased renal blood flow

Answer 89

When renal blood flow (RBF) decreases from a variety of factors, the concurrent decrease in glomerular filtration rate (GFR) leads to a decrease in the amount of chloride that is sensed at the juxtaglomerular (JG) apparatus. When there is decreased chloride concentration at the JG apparatus, the afferent arterioles dilate and increase glomerular flow and GFR. In addition, the decreased chloride concentration leads to the release of renin from the JG apparatus, ultimately causing vasoconstriction of the efferent arterioles by angiotensin II.

Question 90

Where does T3 come from

Answer 90

The thyroid secretes T3 and T4, which are the regulators of metabolism and homeostasis. Most T3, the more potent hormone of the two, is formed through peripheral conversion of T4.

Question 91

what drug decreases T4 to T3 conversion

Answer 91

The process of peripheral T4-to-T3 conversion is targeted in treating hyperthyroidism with the drug propylthiouracil (PTU). In addition to central thyroid inhibition by inhibiting thyroperoxidase, PTU decreases peripheral conversion by inhibiting 5’-deiodinase.

Question 92

what is the neurohypophysis

Answer 92

posterior pituitary gland

secretes oxytocin, vasopressin

Question 93

Sodium bicarbonate amount that will normalize blood pH

Answer 93

Sodium bicarbonate can be administered perioperatively to correct a metabolic acidosis. The amount that will normalize blood pH can be approximated with the formula:Sodium bicarbonate (mEq) = 0.2 * patient weight (kg) * base deficit.

Question 94

Treatment for hyperkalemia includes

Answer 94

Treatment for hyperkalemia includes, but is not limited to, albuterol, insulin, sodium bicarbonate, sodium polystyrene sulfonate, loop diuretics, and/or hemodialysis. Albuterol and insulin are rapid acting and the most effective pharmacologic interventions for acutely lowering serum potassium. Calcium does not affect potassium levels.

Calcium chloride and calcium gluconate stabilize cardiac myocyte membranes. Though onset is immediate, it has no effect on serum potassium levels and thus is not used to lower potassium levels.

Question 95

what does angiotensin II do

Answer 95

Angiotensin II acts on the zona glomerulosa of the adrenal cortex to release the mineralocorticoid, aldosterone. Angiotensin II also acts on other systems – in the blood vessels it stimulates smooth muscle contraction, in the brain, it activates thirst centers, and in the posterior pituitary it stimulates the release of antidiuretic hormone. Angiotensin II and aldosterone both act to maintain fluid balance and blood pressure.

Question 96

Conn syndrome

Answer 96

Conn syndrome is mineralocorticoid excess. It results in potassium depletion, sodium retention, polyuria, tetany, and weakness.

Question 97

what does adrenal medulla produce

what amino acid does it start with

Answer 97

The adrenal medulla is an endocrine gland that produces dopamine, epinephrine, and norepinephrine. The initial step in catecholamine synthesis is the production of DOPA from the amino acid tyrosine.

Question 98

main function of principal cells in collecting tubule

Answer 98

ADH-mediated sodium reabsorption

Question 99

does nicardipine decrease likelihood of cardiac remodeling

Answer 99

no

Question 100

renal failure cause acidosis or alkalosis

Answer 100

acidosis

Question 101

what structure is responsible for the release of renin

Answer 101

macula densa

Question 102

what portion of the nephron is impermeable to water

Answer 102

distal convoluted tubule

Question 103

U wave on EKG

Answer 103

hypokalemia

Question 104

chlorthalidone affect on calcium

Answer 104

hypercalcemia

Question 105

portion of nephron responsible for majority of sodium reabsorption

Answer 105

proximal convoluted tubule

Question 106

where does cortisol act

Answer 106

Glucocorticoids diffuse through cell membranes to bind to specific receptors that then alter gene transcription.

Question 107

what does cortisol do

Answer 107

Cortisol acts with epinephrine and glucagon to enhance transcription of genes responsible for producing gluconeogenic enzymes such as glucose-6-phosphate.

The end product is the mobilization of fatty acids, catabolism, and an increase in blood glucose levels.

This occurs through the stimulation of gluconeogenesis. Additionally, sensitization of adipose tissue to the action of lipolytic hormones and increased proteolysis by blockage of antiproteolytic actions of insulin act to increase energy substrates. Cortisol causes an increase in insulin resistance decreasing the glucose uptake system.

Question 108

signs/symptoms of hypercalcemia

Answer 108

Hypercalcemia leads to “stones, bones, abdominal groans, thrones, and psychiatric overtones”
Stones: kidney stones
Bones: bone-related complications
Groans: gastrointestinal symptoms
Thrones: polyuria, constipation (throne = toilet)
Overtones: central nervous system effects

Hyperparathyroidism is most often manifested by hypercalcemia, which can lead to preoperative skeletal weakness and unpredictable response to neuromuscular blocking agents.

Hypercalcemia can result in a range of other signs and symptoms. These include nephrolithiasis, polyuria, polydipsia, decreased GFR, anemia, shortening of the QT interval, prolongation of the PR interval, systemic hypertension, abdominal pain, emesis, peptic ulcers, pancreatitis, skeletal demineralization, pathologic fractures, psychosis, decreased pain sensation, and somnolence.

Question 109

signs/symptoms hypophosphatemia

Answer 109

Hypophosphatemia is another manifestation of hyperparathyroidism. It can result in impaired cardiac contractility, congestive heart failure, skeletal muscle weakness, hemolysis, and platelet dysfunction.

Question 110

Angiotensin-II-mediated vasoconstriction is produced within ___nminutes after the onset of acute hypotension or hypovolemia.

Answer 110

Angiotensin-II-mediated vasoconstriction is produced within 20 minutes after the onset of acute hypotension or hypovolemia. The release of A2 is modulated by the RAAS. Blockade of the RAAS by ACEIs and ARBs may cause profound and refractory perioperative hypotension, particularly after induction of general anesthesia.

Question 111

What is cholecystokinin

Answer 111

a hormone which is secreted by cells in the duodenum and stimulates the release of bile into the intestine and the secretion of enzymes by the pancreas.

Question 112

steroid myopathy symptoms and electrolyte changes

Answer 112

Chronic or high-dose use of steroids can lead to myopathy. It often presents with proximal muscle weakness and normal levels of creatine kinase.

Question 113

A mnemonic to help remember the signs and symptoms of hyperthyroidism

Answer 113

A mnemonic to help remember the signs and symptoms of hyperthyroidism is “THYROIDISM” for Tremor, Heart rate up, Yawning (fatigue), Restlessness, Oligomenorrhea & amenorrhea, Intolerance to heat, Diarrhea, Irritability, Sweating, Muscle wasting & weight loss, Exophthalmos.

Question 114

Acute respiratory acidosis is compensated by

Chronic respiratory acidosis is compensated by

Answer 114

Acute respiratory acidosis is compensated by an increase in serum HCO3- of 2 mmol/L for every 10 mm Hg increase in PaCO2.

Chronic respiratory acidosis is compensated by an increase in serum HCO3- of 4 mmol/L for every 10 mm Hg increase in PaCO2.

Question 115

acetazolamide acid/base

Answer 115

hyperchloremic metabolic acidosis

Question 116

furosemide acid/base disturbance

Answer 116

hypokalemic-hypochloremic metabolic alkalosis

Question 117

what diuretics cause alkalosis

Answer 117

thiazides and loops

Question 118

what diuretics cause acidosis

Answer 118

acetazolamide and potassium-sparing

Question 119

thiazide diuretics acid/base disturbance

Answer 119

hypokalemic-hypochloremic metabolic alkalosis

Question 120

k-sparing diuretics acid/base

Answer 120

hyperchloremic metabolic acidosis

Question 121

cAMP in general does what

Answer 121

smooth muscle relaxation