HTN - VanRijn

Question 1

HTN is:
\_\_\_\_ measurements of Bp with a diastolic pressure  >\_\_\_\_\_
or 
Systolic > \_\_\_\_\_
or
Resting Pulse Pressure (SBP-DBP)  > \_\_\_\_

Answer 1

2 or more
D: > 90 mmHg
S: > 140 mmHg
RBP: > 65 mmHg

Question 2

Primary Or Secondary HTN?

Lifestyle

Answer 2

Primary

Question 3

Examples of Lifestyle that can affect HTN

Answer 3

Excess body weight; Smoking alcohol; excess sodium/too little K+
lack of exercise/sedentary lifestyle

Question 4

Primary Or Secondary HTN?

Hyperlipidemia

Answer 4

Primary

Question 5

Primary Or Secondary HTN?

Depression

Answer 5

primary

Question 6

Primary Or Secondary HTN?

Age

Answer 6

primary

Question 7

HTN (decreases or increases) with age

Answer 7

increases

Question 8

If someone is over ____ years old and has a SBP > _____ then they are at a high CVD risk

Answer 8

50; 140

Question 9

Primary Or Secondary HTN?

Sex

Answer 9

Primary

Question 10

Men are more likely to have HTN in what age range

Answer 10

< 55

Question 11

Women are more likely to have HTN in what age range

Answer 11

> 55

Question 12

Primary Or Secondary HTN?

genes (family hx)

Answer 12

primary

Question 13

Primary Or Secondary HTN?

Race (African Americans more common to have HTN)

Answer 13

Primary

Question 14

Primary Or Secondary HTN?

Kidney Disease

Answer 14

Secondary

Question 15

Primary Or Secondary HTN?

Renal Artery Constriction

Answer 15

Secondary

Question 16

What are some examples of kidney issues that can cause SECONDARY HTN

Answer 16

Stenosis; Cysts; Glomerulonephritis

Question 17

Primary Or Secondary HTN?

Tumors

Answer 17

Secondary

Question 18

Primary Or Secondary HTN?

Pheochromocytoma

Answer 18

Seconary

Question 19

what is Pheochromocytoma?

Answer 19

tumor on adrenal gland/ will cause increase in adrenanline

Question 20

Primary Or Secondary HTN?

Endocrine disease

Answer 20

secondary

Question 21

what are some endocrine diseases that lead to secondary HTN

Answer 21

Cushings Syndrome; Conn’s Syndrome

Question 22

Why does cushing syndrome lead to HTN

Answer 22

excessive secretion of gluocorticoids –> increase in BP

Question 23

why does Conn’s syndrome lead to HTN

Answer 23

Excessive production of aldosterone (aka hyperaldosteronism)

Question 24

Primary Or Secondary HTN?

Coarctation of the aorta

Answer 24

Secondary

Question 25

Primary Or Secondary HTN?

Pregnancy

Answer 25

Secondary

Question 26

Primary Or Secondary HTN?

Medication Side Effects

Answer 26

Secondary

Question 27

what are some common meds/side effects that will lead to secondary HTN

Answer 27

High estrogen oral contraceptives; Antidepressants (Clozapine, venlafaxine); Rebound HTN!

Question 28

Diabetes and HTN:

_____ and _____ lead to vascular damages

Answer 28

Glucose; Fat

Question 29

Diabetes & HTN:

___________ can lead to orthostatic HTN

Answer 29

autonomic neuropathy

Question 30

Diabetes & HTN:

Diabetic Nephropathy can lead to HTN - what is the proposed idea to explain this?

Answer 30

• RAAS system is affected; there is increased oxidative stress; SNS (sodium retention sympathetic nervous system is affected)

Question 31

Chronic HTN is damaging to ______ organs

Answer 31

end

Question 32

“End Organs” are heavily enervated by _______

Answer 32

small vessels

Question 33

What are some end organs that can be affected/damaged by Chronic HTN

Answer 33

Heart, Kidney, Brain, Eyes

Question 34

Blood Pressure = ____ x _____

Answer 34

CO (cardiac Output); PVR (Peripheral Vascular Resistnace)

Question 35

Goals of Pharmacotherapy of HTN:

Reduce what 3 things

Answer 35

• SYSTOLIC BP (diastolic not as predictive of mortality)
• Cardiac OUtput
• Vascular Resistance

Question 36

The Baroreceptor Reflex:

Vascular resistance is primarily controlled by ______

Answer 36

SANS (Sympathetic autonomic …..)

Question 37

Cardiac Output = what symbol?

Answer 37

Q

Question 38

Cardiac output is also known as blood ______

Answer 38

flow

Question 39

Cardiac output (or blood flow Q) is made up of what two things?

Answer 39

SV (stroke volume) x HR (heart rate)

Question 40

Baroreceptors located by ________ are important in sensing BP by the _____ in the arteries to keep homeostasis

Answer 40

aortic arch; stretch

Question 41

Chemoreceptors sense changes in what things?

Answer 41

pH; CO(2); O(2)

Question 42

How does the body compensate when chemoreceptors notice low O2

Answer 42

it stimulates SNS/increase HR/cause vasoconstriction

Question 43

How does the body compensate when chemoreceptors notice high O2

Answer 43

decrease HR

Question 44

How does the body compensate when chemoreceptors notice low CO2

Answer 44

decrease HR (Low CO2 = High O2)

Question 45

How does the body compensate when chemoreceptors notice high CO2

Answer 45

this means low O2 and then it stimulates SNS/increase HR/cause vasoconstriction

Question 46

4 main targets for antihypertensive

Answer 46

• Heart
• Resistant arterioles
• Veins (SANS)
• Kidney

Question 47

How does the body compensate when chemoreceptors notice low pH

Answer 47

stimulates SNS/increase HR/cause vasoconstriction

Question 48

ANS:

Notable signalers of parasympathetic system

Answer 48

Muscarine and Nicotine
(Ach too)
aka
Cholinergic

Question 49

ANS:

Notable signalers of Sympathetic system

Answer 49

Norepinephrine
Epinephrine
(Adrenergic Receptors)

Question 50

ANS:

All ______ nerves release ______ onto _______ that are expressing ______ receptors

Answer 50

PREGANG neurons; release Ach; postgang; nicotinic receptors

this is for BOTH parasympathetic and sympathetic

Question 51

Parasympathetic or Sympathetic ?

Postganglionic nerves release Ach onto muscarinic receptors

Answer 51

PARASYM

Question 52

Parasympathetic or Sympathetic ?

Postganglionic nerves primarily release NE that will bind to adrenergic receptors

Answer 52

Sympathetic

Question 53

There are postganglionic nerves in the kidney that release ______ to ______ receptors that will cause _________

Answer 53

release dopamine; to bind to dopamine (D1) receptors; which will cause vasodilation

Question 54

Receptors/Signal Transduction in the ANS:

What are the possible options

Answer 54

Gs; Gi; Gq

Question 55

Beta receptors use which pathway?

Gs or Gi or Gq

Answer 55

Gs

Question 56

Alpha1 receptors use which pathway?

Gs or Gi or Gq

Answer 56

Gq

Question 57

Activation of sympathetic nerves causes release of _________ from adrenals

Answer 57

epi/norepi

Question 58

Activation of sympathetic nerves causes release of epi/norepi from ________

Answer 58

adrenals

Question 59

Does the receptor do relaxation or contraction?

Alpha1

Answer 59

contraction (vasoconstriction)

Question 60

Does the receptor do relaxation or contraction?

Beta2

Answer 60

relaxation (vasodilation)

Question 61

Signal transduction through M3 receptor - causes vaso______ and is done via _____

Answer 61

vasoDILATION; via NO

Question 62

Chronotropic Effects:
______ of contraction
and
________

Answer 62

Rate; SA Node cells

Question 63

Ionotropic Effects:
_____ of contraction
and
__________

Answer 63

force; cardiomyocytes

Question 64

What are the two primary ANS receptors that work in the heart?

Answer 64

M2 and B1

Question 65

G__ coupled beta receptors cause an increase in _____ and ______

Answer 65

Gs; heart rate; force of contraction

Question 66

B1 Receptor in Kidney:

Sympathetic activation causes secretion of _____ which will ______

Answer 66

renin; increase blood pressure

Question 67

B1 receptors are found in _______ cells in the kidney

Answer 67

Juxtaglomerular

Question 68

Renal/Dopamine System:

Dopamine is made in the ________

Answer 68

Proximal tubules

Question 69

_______ causes natriusesis

Answer 69

Dopamine

Question 70

Dopamine acts on the ____ exchanger in the _________ - which is a transporter that plays an important role in the entry of filtered sodium into the cell

Answer 70

Na-H; luminal membrane

Question 71

Sympathomimetics or Sympatholytics cause a decrease in Blood Pressure…

Answer 71

Sympatholytics

Question 72

What are the options/classes of Sympatholytics that can be used to decrease blood pressure

Answer 72

• Alpha 1 antagonist
• alpha 2 agonists
• catecholamine depleters
• beat-blockers

Question 73

T or F: Sympatholytic drugs are not used as 1st line treatment

Answer 73

TRUE (used as like 3rd or 4th line)

Question 74

Primary use for sympatholytic drugs?

Answer 74

used for rescue hypertensives/”in patient” setting

Question 75

Sympatholytics: short or long acting

Answer 75

short acting

Question 76

Sympatholytics: will reduce sudden _____ in BP

Answer 76

spikes (they are short acting/used for rescues)

Question 77

Why are Sympatholytic drugs not too effective as monotherapy?

Answer 77

due to homeostatic nature of ANS on BP via baroreceptor reflex

Question 78

Avoid sympatholytics drug sin what patients?

Answer 78

pregnant/breast feeding

Question 79

Monitor what types of patients that are using Sympatholytic Drugs

Answer 79

Angina; Parkinsons

Question 80

What drugs are alpha 1 antagonists?

Answer 80

-Osins

Prazosin; Terazosin; Doxazosin

Question 81

Primary use for alpha 1 antagonists?

Answer 81

BPH! (bc it relaxes urinary sphincter muscles)

Question 82

alpha 1 antagonists are good for BPH; it can also be good for patients with _________

Answer 82

phaechromocytoma

Question 83

Alpha 1 antagonists may reduce _______ levels

Answer 83

cholesterol

Question 84

Side Effects of alpha 1 antagonists?

Answer 84

• slight tachycardia
• first dose orthostatic hypotension
  (this is due to increase blood volume)

Question 85

alpha 1 receptors are found around the _____ which leads to one of their common uses

Answer 85

urethra (aka a med for BPH)

Question 86

Non-Selective alpha blockers

Answer 86

• phentolamine

- phenoxybenzamine

Question 87

Which non-seletctive alpha blocker is REVERSIBLE

Answer 87

phentolamine

Question 88

Which non-seletctive alpha blocker is IRREVERSIBLE

Answer 88

phenoxybenzamine

Question 89

a nonselective alpha blocker will also block alpha 2 receptor which leads to the prevention of ________

Answer 89

prevents alpha 2 receptor negative feedback of NE (blocking a2 = causes more release of NE)

Question 90

a nonselective alpha blocker will also block alpha 2 receptor which leads to what two side effects?

Answer 90

reflex tachycardia; arrhtymias

Question 91

what drugs will work on the a2 receptors in the CNS to inhibit NE release

Answer 91

• Methyldopa
• Clonidine
• Guanabenz
• Guanfacine

Question 92

why do a2 receptor agonist drugs work to decrease BP

Answer 92

they prevent the release of NE (NE will lead to an increase in BP)

Question 93

which sympatholytic drugs can be used in pregnant women?

Answer 93

methyldopa; labetalol

Question 94

what drug is known as a catecholamine depleter

Answer 94

Reserpine (Serpasil)

Question 95

Reserpine’s MOA ?

Answer 95

Irreversibly blocks VMAT (vesicular monoamine transporter)

it depletes Neurotransmitter vesicles of Dopamine (DA) & NE

Question 96

Side effects of Reserpine?

Answer 96

GI & CNS
GI: Diarrhea; Cramps; Acid Secretion
CNS: Sedation; nightmares; depression

Question 97

1st generation beta blockers block ______

Answer 97

B1 & B2

Question 98

Propranolol:

Reduces _______ & ______ & _______

Answer 98

reduces HR; Stroke volume; Renin release via B1 in kidney!

Question 99

What are the partial agonist/1st generation/beta blockers

Answer 99

pindolol; acebutalol

Question 100

What are 1st generation beta blockers primarily used for now?

Answer 100

angina
cardiac arrhythmia
reduce tremors

Question 101

Side Effects of 1st generation beta blockers

Answer 101

• bradycardia
• AV block
• Hypotension
• bronchospasms(B2 effect)
• sedation
• rebound tachycardia

Question 102

Which drug is contraindicated in pts with Asthma, COPD & CHF

Answer 102

1st gen beta blockers (ex: Propranolol)

Question 103

which drug can increase risk for diabetes?

Answer 103

1st gen beta block (propranolol) because it blocks insulin release from pancrease and glucose release from liver

Question 104

T or F: Partial agonist beta blockers have LESS bradycardia response than propranolol

Answer 104

TRUE! (b/c only a partial agonist)

Question 105

what is nifty about 2nd gen beta blockers?

Answer 105

they are CARDIOSELECTIVE aka no beta 2 blocking

Question 106

what are the 2nd gen beta blockers

Answer 106

metoprolol tartrate
metoprolol succinate
Atenolol

Question 107

Metoprolol tartrate or Succinate?

Which one is long acting

Answer 107

succinate (brand is Toprol XL)

Question 108

what are the 3rd gen of beta blockers?

Answer 108

Nebivolol; Betaxolol

Question 109

what is Nebivolol (Bystolic) “special” property other than being cardioselective

Answer 109

it will also induce vasodilation via Nitric Oxide

Question 110

what is Betaxolol (Betoptic) “special” property other than being cardioselective

Answer 110

induces vasodilation via calcium channel blocking

Question 111

which drugs are non-selective beta blockers but also block alpha 1

Answer 111

carvedilol; labetalol

Question 112

what is max dose of carvedilol

Answer 112

25 mg

Question 113

why is it useful for carvediolol and labetalol to be non-selective beta blockers &block alpha 1

Answer 113

beta blocking activity prevents reflex receptor antagonist tachycardia which is seen in alpha 1 receptor antagonists

Question 114

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
which one does vasoconstriction?

Answer 114

alpha1

Question 115

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
does mydriasis

Answer 115

alpha 1

Question 116

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
causes vasodilation?

Answer 116

b2

Question 117

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
causes an increase in blood pressure

Answer 117

alpha 1 (b1 indirectly via renin)

Question 118

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
inhibits release of NE

Answer 118

alpha 2

Question 119

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
increases release of renin

Answer 119

beta1

Question 120

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
cause increased closure of internal sphincter of the bladder

Answer 120

alpha 1

Question 121

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
causes relaxation of uterine smooth muscle

Answer 121

Beta2

Question 122

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
inhibits Ach release

Answer 122

alpha 2

Question 123

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
which one increase lipolysis

Answer 123

beta 1

Question 124

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
which one increases myocardial contractility

Answer 124

beta 1

Question 125

what “things” does alpha 2 adrenoreceptor do upon activation

Answer 125

• • inhibit NE release
• inhibit Ach release
• inhibit of insulin release

Question 126

what “things” does beta 1 adrenoreceptor do upon activation

Answer 126

• tachycardia
• increased lipolysis
• increased myocardial contractility
• increased renin release

Question 127

what “things” does alpha 1 adrenoreceptor do upon activation

Answer 127

• vasoconstriction
• increased peripheral resistance
• increased BP
• mydriasis
• increase closure of internal sphincter of the bladder

Question 128

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
increases muscle and liver glycogenolysis

Answer 128

beta 2

Question 129

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
which one increases release of glucagon

Answer 129

beta 2

Question 130

which adrenoreceptor (a1, a2, b1, b2 - or a any combination)? (AGONIST used)
relaxes uterine smooth muscle

Answer 130

beta 2

Question 131

3 main types of diuretics used for blood pressure

Answer 131

loop diuretics; thiazide; K+ sparing

Question 132

where (in the kidney) is the largest bulk of sodium reabsorbed?

Answer 132

proximal tubule

Question 133

where (in the kidney) is the second largest bulk of sodium reabsorbed?

Answer 133

loop of henle

Question 134

where do K+ sparing diuretics work?

Answer 134

collecting tubule

Question 135

where do thiazide drugs work?

Answer 135

distal convoluted tubule

Question 136

ascending limb in the loop of henle is permeable to ________

Answer 136

ions/solutes (Na+, Cl-)

Question 137

descending limb in the loop of henle is permeable to ________

Answer 137

water

Question 138

Renin is released from ________ cells in the _____

Answer 138

juxtaglomerular cells in the kidney

Question 139

what are possible reasons that renin would be released?

Answer 139

• due to drop in blood pressure
• due to low NaCl
• due to activation of specific receptors

Question 140

Where are juxtaglomerular cells found? (not in kidney but b/w what things)

Answer 140

b/w glomerulus and macula densa

Question 141

Renin is released into blood stream and it will metabolize _________ into ______

Answer 141

angiotensinogen; angiotensin 1

Question 142

Angiotensin 1 gets converted to _________ by the ______ enzyme

Answer 142

converted to angiotensin 2; by ACE enzyme!

Question 143

where does the ACE enzyme come from?

Answer 143

from pulmonary endothelial cells

Question 144

Angiotensin will cause vaso________ and release of ________ from _____ medulla

Answer 144

vasoconstriction; release aldosterone from adrenal medulla

Question 145

To inhibit release of renin, ______ can be released from _____ gland - it will lead to water absorption in collecting duct

Answer 145

antidiuretic hormone; pituitary

Question 146

Aldosterone increases ______ levels and _____ in the kidney

Answer 146

plasma salt levels; volume

Question 147

Angiotensin II - why does it increase BP?
1 - stimulates \_\_\_\_\_\_\_ to release \_\_\_\_\_\_
2- causes vaso\_\_\_\_\_\_ in smooth muscle
3- activates \_\_\_\_\_\_ center (\_\_\_\_\_ gland)
4 - can modulate the \_\_\_\_\_\_\_\_\_
5 - causes CV \_\_\_\_\_\_\_\_\_\_

Answer 147

stimulates adrenal cortex to release aldosterone

vasoCONSTRICTION
activates thirst center (pituitary glad)
module baroreceptor reflex
causes CV hypertrophy

Question 148

which drug class prevents the making of angiotensin II

Answer 148

ACE Inhibitors (ACE will make angiotensin II)

Question 149

2 ways to indirectly inhibit renin release

Answer 149

• loop diuretics (prevent low Na+ induced release)

- B1 blockers

Question 150

Which ACE inhibitor is very short acting (< 3 hrs)

Answer 150

Captopril

Question 151

Is lisinopril or enalapril a prodrug?

Answer 151

enalapril

Question 152

what type of drug is Aliskiren?

Answer 152

Renin Inhibitor

Question 153

Can you use ACEIs in pregnant women?

Answer 153

No!

Question 154

ACEIs are typically not used in patients with a _________ value > _____

Answer 154

serum creatinine > 2.5

Question 155

What are some drug interactions for ACEIs?

Answer 155

• food/antacids may reduce bioavailability
• NSAIDs reduce effectiveness
• K+ supplements - hyperkalemia risk
• increase plasma levels of digoxin/lithium

Question 156

NSAIDs make ACEIs less effective because?

Answer 156

NSAIDs inhibit production of prostaglandins which can act as vasodilators

Question 157

There are _____ subtypes of Angiotensin receptors

Answer 157

2

Question 158

What are the 2 subtypes of Angiotensin receptors

Answer 158

AT1 and AT2

Question 159

AT1 and AT2 are ______ receptors

Answer 159

G protein coupled

Question 160

Effects of AT1
activating \_\_\_\_\_\_\_ channels
Reduce \_\_\_\_ synthesis
Vaso\_\_\_\_\_\_\_ of smooth muscle
Increase in \_\_\_\_\_\_\_\_\_ production

Answer 160

activates Ca2+; reduce NO; vasoCONSTRICTION; aldosterone

all above are why we want to block Ang II to work on AT1

Question 161

which drug class blocks Angiotensin from working on AT1

Answer 161

ARB’s (-sartans) aka Angiotensin Receptor Type 1 blockers

Question 162

which drug class will reduce gout risk? and how?

Answer 162

ARBs; by blocking urate transporter