Term
| Name 5 Classic symptoms of heart disease |
|
Definition
Pain in chest, neck, back, jaw, arms and shoulders
Dyspnea
Palpitations
Syncope
Edema |
|
|
Term
| Which type of vessels will show the effects of atherosclerosis first? |
|
Definition
| Medium muscular arteries will |
|
|
Term
| Which types of vessels will show the effects of hypertension first? |
|
Definition
|
|
Term
| Do arteries or veins tend to have larger lumen and diameters? |
|
Definition
|
|
Term
Which structure in the body has all these functions:
Blood tissue interchange
Control of coagulation and clotting
Vessel repair
Modulation of blood flow
Inflammation regulation
Cell growth regulation
Oxidation of LDL |
|
Definition
|
|
Term
| Name the main arteries that supply the heart |
|
Definition
Right Coronary artery
Left Coronary artery |
|
|
Term
| What is the main controller of heart rate? |
|
Definition
|
|
Term
|
Definition
| A heart rate higher than 100bpm |
|
|
Term
|
Definition
| A heart rate less than 60 bpm |
|
|
Term
| What is another term for normal heart rhythm? |
|
Definition
|
|
Term
| Which is the 'first' heart sound? |
|
Definition
|
|
Term
| What is occuring in the chambers of the heart during systole contraction |
|
Definition
| The right and left ventricles contract |
|
|
Term
| Where is blood being moved to during systole contraction |
|
Definition
| When the ventricles contract the blood is pumped into the pulmonary artery and aorta |
|
|
Term
| Which valves close at the beginning of systole? |
|
Definition
Mitral and Tricuspid valves
Systole is when the heart emptys, so think MT =Mitral and tricuspid |
|
|
Term
| What happens in the heart chambers during diastole ? |
|
Definition
Ventricle walls relax
Atrial walls fill with blood and then contract, forcing it into the ventricles. |
|
|
Term
| What are the valves doing during diastole? |
|
Definition
The mitral and tricuspid valves are open during diastole,
the pulmonary and aortic valves are closed |
|
|
Term
| Which valves are open during systole |
|
Definition
| Pulmonary and aortic valves are open until the end of systole |
|
|
Term
| Where does blood flow from (into the atria) during diastole? |
|
Definition
| From the venae cavae and pulmonary veins |
|
|
Term
|
Definition
| The amount of blood in the ventricle at the end of diastole, just before the ventricle contracts. |
|
|
Term
| Describe the Frank-Starling relationship? |
|
Definition
If there is lots of venous return the ventricles will be stretched more.
This causes more forceful and rapid ventricular contraction |
|
|
Term
|
Definition
| The force against which the ventricles must contract to push blood out. |
|
|
Term
| What is the biggest portion of afterload? |
|
Definition
|
|
Term
| Name 3 factors that affect afterload |
|
Definition
Arterial pressure
Blood thickness
Vessel elasticity |
|
|
Term
| How do inotropic drugs affect the heart? |
|
Definition
| They influence the contractility of the heart |
|
|
Term
| What does the 'contractility' of the heart refer to? |
|
Definition
| Force of contraction of ventricles independent of loading conditions (like preload and afterload) |
|
|
Term
| How do beta blockers affect the heart contractility? |
|
Definition
| They decrease contractility |
|
|
Term
| Name 2 factors that influence contractility of the heart |
|
Definition
|
|
Term
| How does Cardiac output differ from Cardiac index? |
|
Definition
| Output is simply the amount of blood ejected by the heart per minute, whereas index considers the output in relation to the body surface area |
|
|
Term
| What is the normal cardiac output? |
|
Definition
|
|
Term
| What is the normal Cardiac index? |
|
Definition
|
|
Term
| When the impulse goes from the SA node to the AV node, why does it stall before sending it on to the ventricles? |
|
Definition
| To allow blood to flow into the ventricles from the atria |
|
|
Term
| Explain how there is redundancy built into the hearts conduction system? |
|
Definition
The SA node is the primary 'pacemaker,' but if necessary the AV node can depolarize spontaneously
Also, the ventricles can depolarize spontaneously |
|
|
Term
| Describe the path of conduction through the heart starting with the SA node |
|
Definition
SA node
to
Atria and AV node
to
Bundle of His
to
Purkinje fibers
to
Ventricles
|
|
|
Term
| Name 3 ways in which the sympathetic system increases cardiac output |
|
Definition
1. Stimulates B-1 receptors of SA and AV node to increase heart rate
2. Shortens conduction time thru AV node
3. Increases calcium which in turn increases contractility |
|
|
Term
| What nerve does the parasympathetic system use to innervate the atria? |
|
Definition
|
|
Term
| How does the parasympathetic system affect the ventricles |
|
Definition
| Has little to no influence on the ventricles |
|
|
Term
Name 2 ways that the parasympathetic affects cardiac output.
|
|
Definition
1. Decreased heart rate thru nodes
2. Increased conduction time
Resulting in decreased cardiac output |
|
|
Term
| Describe the relative charge of the inside and outside of cardiac cells at resting potential |
|
Definition
Inside=negative charge
Outside=Postive charge |
|
|
Term
| How do the sodium/potassium pumps affect the charge inside the cell at rest |
|
Definition
The pump pulls 3 Na+ out for every 2 K+ it puts in.
In addition to this K leaks out of the cell
Net removal of positive charge, making the inside negative. |
|
|
Term
| Describe the movement of sodium as a result of a depolarizing stimulus |
|
Definition
| Na channels open, causing the Na to rush in, making the inside of the cell more positive |
|
|
Term
| Describe the movement of Na and K during repolarization. |
|
Definition
Na channels close
K channels open
K rushes OUT of the cell, making the inside of the cell excessively negative.
K gates close
Cell equalizes to resting potential via pumps and permability |
|
|
Term
| What stimulus is needed to depolarize the SA and AV node? |
|
Definition
| No stimulus, they are "self-excitatory" |
|
|
Term
| How does the speed of cardiac node action potentials compare to normal APs |
|
Definition
| Cardiac node APs are slower |
|
|
Term
| What causes the self- excitation of the SA node? |
|
Definition
Natural leakiness of cell membrane to Na and Ca,
eventually enough Na gets in to start the depolarization |
|
|
Term
| Why does depolarization last longer in Cardiac cells? |
|
Definition
The Ca enters the cell slowly and it's channels close slowly.
Thus even when the K leaves, Ca is still there so cell is still depolarized.
Cell repolarizes when both Ca and K channels close |
|
|
Term
| Describe 2 unique characteristics of cardiac cells that allows for low resistance for electrical activity |
|
Definition
Cells are smaller than skeletal muscle
Cell membranes are fused together |
|
|
Term
| Name 2 effects Ca has on Cardiac muscle |
|
Definition
1. It makes depolarization last longer
2. It increases contractility |
|
|
Term
| How does Ca affect contractility of cardiac muscle? |
|
Definition
The influx of Ca causes the release of even more Ca from the sarcoplasmic reticulum and mitochondria.
The increased concentration of unbound Ca causes increased contraction |
|
|
Term
| Where is calcium released from inside the cardiac cell? |
|
Definition
| The sarcoplasmic reticulum and mitochondria |
|
|
Term
| There are 2 types of Ca channels, which one is most affected by medications (like Calcium channel blockers) |
|
Definition
|
|
Term
| What channels are used for the sodium-calcium exchange? |
|
Definition
| The Calcium L channels primarily |
|
|
Term
| Explain the movement of Ca and Na in the context of Sodium-channel exchange |
|
Definition
| Sodium is put into the cell as Ca is taken out |
|
|
Term
| What drug was discussed in class that interferes with the sodium-potassium pump in the heart? |
|
Definition
|
|
Term
| Describe the action of Digitalis |
|
Definition
It causes slower conduction through the AV node, thereby decreasing heart rate
Also increases intracellular concentration of Ca, thereby increasing contractility |
|
|
Term
| Name 3 ocular side effects of digitalis |
|
Definition
1. Blurred vision
2. Altered color perception
3. Haloes on dark object |
|
|
Term
| What is one disadvantage of Digitalis? |
|
Definition
| It's effective dose is close to it's lethal dose, thus overdose is a risk. |
|
|
Term
| Name the 3 mechanisms of cardiac meds discussed |
|
Definition
Interfere with sodium-potassium pump
Block calcium channels
Interfere with autonomic nervous system |
|
|
Term
| How does the blockage of Ca channels affect heart rate? |
|
Definition
| This slows heart rate by interfering with repolarization |
|
|
Term
| What is an example of a calcium channel blocker? |
|
Definition
|
|
Term
| Name 3 ways that blockage of calcium channels affect the heart |
|
Definition
1. Delays influx of calcium into smooth muscle cells of vascular system
2. Decreases contractility
3. Delays removal of calcium from pacemaker cells |
|
|
Term
| How do beta blockers affect heart rate, contraction and conduction? |
|
Definition
Decreased heart rate
decreased contractility
slower conduction time |
|
|
Term
| What tests may be done to indicate if an MI has occured? |
|
Definition
|
|
Term
| Name 3 enzymes that are analyzed during serum enzyme tests |
|
Definition
Creatine phosphokinase
Lactate dehydrogenase
Troponin I |
|
|
Term
| Why are serum enzyme tests used to tell if an MI has occurred? |
|
Definition
| It tests for enzymes that dying heart muscle would release into the blood if an MI had occurred. |
|
|
Term
| Name 2 enzymes that might be tested for if a patient thinks they may have had an MI in the past 24 hours |
|
Definition
Creatine phosphokinase
Troponin I |
|
|
Term
| What serum enzyme test is done if the pt suspects they had an MI ~3 days prior |
|
Definition
|
|
Term
| What is the name of the test that gives a graphical display of electrical signals generated by the heart |
|
Definition
|
|
Term
| What information does an ECG leave out in terms of health of the heart? |
|
Definition
| It only gives information about the electrical signals in the heart, it does not indicate if any vessels are blocked. |
|
|
Term
| What information can be found out about the heart using cardiac catheterization? |
|
Definition
Detect pressures
Detect patterns of blood flow |
|
|
Term
| Briefly describe the process of angiography |
|
Definition
Dye is injected into the bloodstream/heart chamber
X rays are taken to evaluate blood flow |
|
|
Term
| How might Ca buildup be used in evaluation of heart disease? |
|
Definition
Coronary Calcium scans show deposits of Ca in the heart which can be markers for atherosclerosis.
The scoring indicates the pt's risk for developing coronary artery disease (>100) |
|
|
Term
| What test 'determines the hearts response to physical exertion'? |
|
Definition
| The Stress test, aka Exercise Tolerance Test |
|
|
Term
| Name 2 downsides of the Coronary Calcium Scan |
|
Definition
1. Scan only picks up Ca, no cholesterol deposits
2. Involves high doses of radiation |
|
|
Term
| Briefly describe the process of the Exercise Tolerance Test |
|
Definition
Pt exercises on treadmill while being monitored with ECG, BP and pulse monitors.
Changes in the feedback indicate presence and severity of ischemia. |
|
|
Term
| Name 1 non-invasive, non-damaging test used to show the structure and movement of the heart |
|
Definition
| Ultrasonography-waves return from structures of the heart and are recorded |
|
|
Term
| What test is used to test the heart's function and cardiac output? |
|
Definition
MUGA scan
Multiple Gated Acquisition Scan |
|
|
Term
| Which portion of the heart in specifically studied during a MUGA scan? |
|
Definition
| The Left ventricular wall |
|
|
Term
| Explain how the stress-thallium test works |
|
Definition
Radioactive Thallium is injected into veins
Scans are used to measure the concentrations of thallium in the heart
Damaged heart tissue does not take up the isotope-"cold spot" |
|
|
Term
| Which is more of a concern, supraventricular or ventricular arrhythmia? |
|
Definition
| Ventricular arrhythmias are of more concern |
|
|
Term
| Explain the difference in regular vs. irregular arrhythmias. |
|
Definition
Regular refers to simply a timing issue, like too fast or too slow.
Irregular refers to missed beats, the rhythm is disrupted. These are more concerning since they have a greater effect on cardiac output |
|
|
Term
| Name 3 types of Supraventricular tachycardias |
|
Definition
Sinus tachycardia
Atrial fibrillation
Paroxysmal supraventricular tachycardia |
|
|
Term
| Name 5 'conditions' that can cause Sinus tachycardia |
|
Definition
Exercise
Enhanced catecholamine release (fear, flight, fight etc.)
Anemia
Hyperthyroidism
Heart failure |
|
|
Term
| What is the clinical term for Increased rate of SA node? |
|
Definition
|
|
Term
| Name 2 drug types that might be used to treat sinus tachycardia |
|
Definition
Beta Blockers
Calcium channel blockers |
|
|
Term
| What is the most common rhythm disturbance? |
|
Definition
|
|
Term
| Where is the depolarizing signal coming from in atrial fibrillation? Where should it be coming from? |
|
Definition
| Signals arise from the pulmonary vessels when they should be coming from the SA node |
|
|
Term
Atrial fibrillation is:
a. Regular Irregularity
b. Irregular Regularity
c. Irregular Irregularity
|
|
Definition
c. an Irregular Irregularity
The vessels signal the depolarization with no rhythm, thus the atria contract with no pattern and the ventricles do so as well. |
|
|
Term
| Name the 2 most common causes of Atrial fibrillation |
|
Definition
|
|
Term
| What were the 3 Classic causes of Atril fibrillation? |
|
Definition
Rheumatic heart disease
Excessive alcohol
Thyrotoxicosis |
|
|
Term
Which of these is NOT listed as a cause of Atrial fibrillation?
a. Rheumatic heart disease
b. Hypertension
c. Diabetes
d. Cigarette smoking
e. Thyrotoxicosis |
|
Definition
| c. Diabetes, is not a cause of atrial fibrillation |
|
|
Term
| Atrial fibrillation increases the risk of: (3 things) |
|
Definition
1. Severe Ischemic stroke
2. Embolization
3. Dementia, even w/o stroke |
|
|
Term
| Why might atrial fibrillation result in embolization and dementia? |
|
Definition
The blood is not sent out from the heart effectively. Thus embolisms can occur due to blood pooling in the heart chambers.
Dementia can occur as a result of poor oxygen supply to the brain due to disrupted cardiac output
|
|
|
Term
| Name 3 types of medication used to treat atrial fibrillation |
|
Definition
1. Meds to slow ventricular contractions
2. Meds to prolong action potentials
3. Anti-coagulative therapy |
|
|
Term
| Name the most common type of drug used to treat atrial fibrillation |
|
Definition
| Beta blockers-slow ventricular contraction |
|
|
Term
| Name 2 drugs used to treat Atrial fibrillation by prolonging AP |
|
Definition
Amiodarone (Cordarone)
Dronedarone (Multaq)
Vernakalant is under investigation |
|
|
Term
| Name 2 drugs used as Anti-coagulative therapy in treatment of atrial fibrillation |
|
Definition
Warfarin (Coumadin)
Dabigatran (Pradaxa) |
|
|
Term
| Name 4 possible ocular effects of taking Amiodarone (Cordarone) |
|
Definition
1. Corneal microdeposits (whorl keratopathy) 90%
2. Disc edema
3. Optic neuritis
4. Lens opacities |
|
|
Term
| Your patient comes in and informs you they have just started taking amiodarone-what is your action plan? |
|
Definition
Perform a baseline exam, careful recording of all structures
Recheck every 6 months for whorl keratopathy, neuritis , edema and opacities in the lens |
|
|
Term
| Why might the corneal microdeposits due to amiodarone be colored? |
|
Definition
| Due to the presence of iodine in amiodarone |
|
|
Term
| Name 2 drugs commonly known to cause whorl keraopathy |
|
Definition
|
|
Term
T/F
Optic Neuritis due to amiodarone happens to many patients and will resolve once the drug is discontinued |
|
Definition
False
Optic neuritis is rare but permanent |
|
|
Term
T/F
The lens opacities that result from Amiodarone generally do not affect vision |
|
Definition
|
|
Term
| Warfarin is associated with increased risk of bleeding. Name 4 ways this might manifest in the eye |
|
Definition
Subconjunctival hemorrhage
Spontaneous hyphema
Retinal/vitreous hemorrhage
Cerebral hemorrhage |
|
|
Term
| Your pt has told you they are on warfarin and upon examination you find a subconjunctival hemorrhage. What steps should you take (outside of treatment within your office) |
|
Definition
Send them for clotting studies
Contact their PCP or cardiologist to monitor for cerebral hemorrhage |
|
|
Term
| What might electrical cardioversion do for a pt with Atrial fibrillation? |
|
Definition
| It would be used to attempt to correct the hearts rhythm |
|
|
Term
|
Definition
|
|
Term
|
Definition
| A light-headed feeling, like they are about to faint |
|
|
Term
| What is occurring electrically to cause AV nodal re-entry tachycardia? |
|
Definition
There are two functionally different paths through the AV node.
One is a slow pathway with a short refractory period. The other is a faster pathway (faster conduction) with a longer refractory period, atrial impulse usually conducts thru this one.
However, if the atrial impulse happens too soon the normal, fast pathway is still in refractory period.
Then the slow pathway will propogate the impulse. By the time it reaches the ventricles the fast pathway has recovered so the impulse travels back through it. |
|
|
Term
| Name 3 mechanical maneuvers used in treatment of AVNRT and what their target is. |
|
Definition
Their target is to stimulate the vagus nerve
1. Carotid sinus massage - increase parasympathetic
2. Valsalva maneuver
3. Head immersion in cold water |
|
|
Term
| If mechanical methods do not resolve AVNRT, what should be the next step? |
|
Definition
| Using IV drugs to block the heart for a fraction of a second, ie. decrease heart rate. |
|
|
Term
| What happens electrically in Wolff-Parkinson-White Syndrome? |
|
Definition
| An accessory connection between the atria and ventricles is used to conduct impulses, they move quickly and in either direction causing a complex tachycardia. |
|
|
Term
| What arrhythmia are patients with Wolff-Parkinson-White Syndrome more prone to? |
|
Definition
| Atrial fibrillation and subsequent ventricular fibrillation |
|
|
Term
| Describe a long term treatment of AVRT like WPW syndrome |
|
Definition
| Catheter ablation-where a portion of the tissue responsible for inappropriate conduction is ablated. |
|
|
Term
| What is the one type of non life-threatening ventricular tachyarrhythmia discussed in class |
|
Definition
| Premature Ventricular Contraction- has no long term consequences and requires no therapy |
|
|
Term
| What portion of the heart depolarizes to cause Premature Ventricular Contraction? |
|
Definition
| The ventricles spontaneously contract-SA and AV nodes are unaffected |
|
|
Term
| Name 6 factors that might increase the frequency of Premature Ventricular Contractions |
|
Definition
Age
Alcohol
Emotional Stress
Caffeine
Infection
Tobacco |
|
|
Term
| Name 2 types of life-threatening ventricular tachyarrhythmias discussed in class |
|
Definition
Sustained Ventricular tachycardia
Ventricular fibrillation |
|
|
Term
| What does it mean when something occurs 'paroxysmally'? |
|
Definition
| It means it occurs with sudden recurrence or intensification |
|
|
Term
| What does the term 'sustained' mean clinically? |
|
Definition
| It means the condition occurs for longer than 30 sec |
|
|
Term
| Explain what is happening to cardiac muscle and the subsequent output in Sustained Ventricular Tachycardia |
|
Definition
| The relaxation of the cardiac muscle is impaired, there is less time for the chambers to fill and thus cardiac output is reduced. |
|
|
Term
| What is the treatment of Sustained Ventricular Tachycardia |
|
Definition
| Direct cardioversion (defibrillator) |
|
|
Term
| What is a big risk for patients with ventricular fibrillation? |
|
Definition
| High risk of sudden cardiac death |
|
|
Term
| Describe what happens in the heart muscle in Ventricular fibrillation |
|
Definition
There is no order to the contraction of the ventricles, causing a rapid and irregular heart rate.
Results in virtually no cardiac output, which can cause death without resolution |
|
|
Term
| How are survivors of Ventricular fibrillation treated? |
|
Definition
| With implanted Cardioverter-defibrillators |
|
|
Term
| Name 2 possible causes within the heart of bradycardia |
|
Definition
Inadequate SA node activity
Blocked conduction |
|
|
Term
| What is the most commonly used drug in treatment of bradycardia? |
|
Definition
|
|
Term
| In what situation/lifestyle would bradycardia be normal? |
|
Definition
| Athletes who do cardiovascular conditioning |
|
|
Term
| What other treatment options are available for bradycardia, other than atropine? |
|
Definition
|
|
Term
|
Definition
| Impulse generated from SA node is blocked somewhere along the path, preventing it from reaching the ventricles |
|
|
Term
| Name 2 common causes of AV block |
|
Definition
Age
Medications (like beta blockers and calcium channel blockers) |
|
|
Term
| Differentiate between 1st and 2nd degree AV block. |
|
Definition
1st- longer conduction time, but impulse does make it to ventricles-no symptoms or tx
2nd-sometimes the impulse does not make it to the ventricles -->Pacemaker |
|
|
Term
| Describe 3rd degree AV block |
|
Definition
Virtually no atrial impulses reach the ventricles.
The ventricles may contract spontaneously, but at a very slow rate
Treated with pacemaker |
|
|
Term
| Your pt comes in for a routine exam and tells you that his dr told him he has a 2nd degree AV block, what is the absolutely last drug on the planet you should give this pt? |
|
Definition
| A beta blocker-could progress the patient to a 3rd degree block and possibly kill them |
|
|
Term
| Name 4 ocular associations of HTN |
|
Definition
Hypertensive retinopathy
Retinal Artery emboli
Anterior Ischemic Optic neuropathy
Retinal Vein/Artery Occulsion |
|
|
Term
| Why is noncompliance such a big issue in treatment of hypertension? |
|
Definition
| Generally Hypertension has no symptoms, whereas the treatments do. Thus pts feel worse when they take the pills than when they don't. |
|
|
Term
| What is the 2nd most common cause of preventable death in the US |
|
Definition
|
|
Term
| How does an increase of 20/10 mmHg above 115/75 mmHg affect risk of CVD? |
|
Definition
| Such an increase doubles the risk of CVD |
|
|
Term
| Name 4 things that might cause an individuals BP to vary |
|
Definition
Time of Day
Level of anxiety (white coat)
Recent activity
Caffeine intake
|
|
|
Term
| What is the NORMAL blood pressure for adults > 18 yo |
|
Definition
|
|
Term
| What systolic measure of BP puts a pt in the category 'pre-hypertension'? |
|
Definition
|
|
Term
| What systolic measure of BP puts a pt in the category "Stage 1 Hypertension" |
|
Definition
|
|
Term
What systolic measure of BP puts a pt in the category
"Stage 2 Hypertension"? |
|
Definition
|
|
Term
What diastolic measure of BP puts a pt in the category
"pre-hypertension" |
|
Definition
|
|
Term
| What diastolic measure of BP puts a pt in the category "Stage 1 Hypertension" |
|
Definition
|
|
Term
What diastolic measure of BP puts a pt in the category
"Stage 2 Hypertension" |
|
Definition
|
|
Term
| Pt presents with BP of 145/85, what category do you place them in? |
|
Definition
|
|
Term
|
Definition
|
|
Term
|
Definition
|
|
Term
| At what systole BP level do you refer your patient to PCP within 24-48 hours? |
|
Definition
|
|
Term
| At what diastole BP level do you refer your patient to PCP within 24-48 hours? |
|
Definition
|
|
Term
| Patient presents with Stage 1 Hypertension, what do you put in the chart for recall? |
|
Definition
|
|
Term
| How might Hypertension affect the heart? |
|
Definition
Atherosclerosis
Coronary artery disease
Heart failure
Left Ventricular HYpertrophy
MI |
|
|
Term
| How might hypertension affect the brain? |
|
Definition
Could cause
Stroke
Alzheimer's disease |
|
|
Term
| Out of age, height and weight, which is not considered in determining a child's stature-for-age percentile? |
|
Definition
|
|
Term
| What BP level is normal for children ( <18) |
|
Definition
|
|
Term
| In what percentile would a child fall into to be considered pre-hypertension? |
|
Definition
| 90th and <95th percentiles |
|
|
Term
| What range of percentiles does a child fall into to be classified as stage 1 hypertension? |
|
Definition
| >95th percentile to 5mm above 99th percentile |
|
|
Term
| Name two vascular factors that affect blood pressure |
|
Definition
Peripheral Resistance
Cardiac output |
|
|
Term
| Name 3 things that affect peripheral resistance |
|
Definition
Vessel size
Vessel elasticity
Blood viscosity |
|
|
Term
| Name 2 feedback mechanisms of blood volume |
|
Definition
Juxtaglomerular cells
Systemic Baroreceptors (in aortic arch, carotid, pulmonary vessels) |
|
|
Term
| How does the body interpret increased blood osmolality? |
|
Definition
|
|
Term
How does the body interpret increased Co2 and H in the blood?
How does it respond? |
|
Definition
Interprets high levels as inadequate tissue perfusion
Responds by increasing sympathetic brain stem activity |
|
|
Term
|
Definition
The removal of salt from the body,
impairment can cause hypertension |
|
|
Term
| Name 7 causes of secondary hypertension |
|
Definition
1. defective renal excretion of salt
2. Altered renin-angiotensin-aldosterone system
3. adrenal or pituitary tumor
4. Thyroid disease
5. Sleep apnea
6. Sleep deprivation
7. Medications |
|
|
Term
| Name 6 types of medications that can cause secondary hypertension |
|
Definition
Oral Contraceptives
Steroids
NSAIDs (except ASA)
Cold remedies
Appetite suppressants
Tricyclic antidepressants |
|
|
Term
| What results can be expected from reducing BP? |
|
Definition
Reduced cardio risk
Decreased stroke incidence
Decresed MI incidence
Decreased heart failure incidence |
|
|
Term
| When lowering BP, what is the target BP? |
|
Definition
|
|
Term
| Name one ion where control of intake is extremely important in control of hypertension |
|
Definition
|
|
Term
| Name 4 lifestyle modifications you can talk to your patient about in terms of controlling hypertension |
|
Definition
Smoking cessation
Dietary restriction/regulation of things like sodium, potassium, calcium, magnesium, vitamins etc.
Weight loss and exercise
Limitation of alcohol intake |
|
|
Term
| Name 2 non-pharmaceutical treatments of hypertension discussed in class |
|
Definition
|
|
