Hypertension PBL outcome questions

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Questions created form PBL outcomes
Etomby Namme
Test por Etomby Namme, actualizado hace más de 1 año
Etomby Namme
Creado por Etomby Namme hace más de 8 años
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Pregunta 1

Pregunta
The secondary causes of hypertention are[blank_start]..[blank_end]?
Respuesta
  • underlying conditions such as..

Pregunta 2

Pregunta
The risk of hypertension include
Respuesta
  • Being of oriental descent
  • Age 45 and above
  • age 55 and above
  • Afro Caribbean descent
  • Father has heart problems
  • low in vitamin D
  • 67 year old woman
  • chewing tobacco
  • normal weight but not physically active
  • smoking weed

Pregunta 3

Pregunta
The short term mechanism for decreasing blood pressure involves..
Respuesta
  • stimulation of barorecpetors
  • Renin-angiotensin mechanims
  • alterations in blood volume
  • blood vessel constriction

Pregunta 4

Pregunta
Regulation of [blank_start]blood vessel diameter[blank_end] is a short term mechanism to control changes in blood pressure. Rising blood pressure causes stretching of arterial walls which stimulates the [blank_start]baroreceptors[blank_end] in the [blank_start]carotid sinus[blank_end], [blank_start]aortic arch[blank_end] and other large arteries of the neck and thorax. Stimulation of baroreceptors [blank_start]increases[blank_end] impulses to the brain which in turn causes increased [blank_start]parasympathetic[blank_end] activity in the heart via the [blank_start]vagus[blank_end] nerve and decreased [blank_start]sympathetic[blank_end] activity. This results in [blank_start]relaxation[blank_end] of vascular smooth muscle, increased arterial diameter and lower blood pressure. As well as a decrease in heart rate and cardiac output. In falling blood pressure, baroreceptors are [blank_start]inhibited[blank_end], [blank_start]decreasing[blank_end] impulses to the brain and [blank_start]decreasing[blank_end] parasympathetic activity, while [blank_start]increasing[blank_end] sympathetic activity to the heart, resulting in increased vasoconstriction and raised blood pressure.
Respuesta
  • blood vessel diameter
  • osmolarity
  • blood volume
  • baroreceptors
  • nerves
  • muscles
  • carotid sinus
  • blood vessels
  • brain
  • aortic arch
  • aortic notch
  • jugular vein
  • increases
  • decreases
  • maintains
  • parasympathetic
  • sympathetic
  • vagus
  • sympathetic
  • sympathetic
  • parasympathetic
  • relaxation
  • constriction
  • inhibited
  • stimulated
  • decreasing
  • increasing
  • maintaining
  • decreasing
  • increasing
  • increasing
  • decreasing

Pregunta 5

Pregunta
Long term regulation of blood pressure is primarily accomplished by altering [blank_start]blood volume[blank_end] via the [blank_start]Renin-Angiotensin[blank_end] mechanism. [blank_start]Juxtaglomerular[blank_end] cells in the kidney monitor alterations in blood pressure. If blood pressure falls to low, these specialised cells release the enzyme [blank_start]renin[blank_end] into the bloodstream. Renin travels through the bloodstream and binds to inactive plasma protein, [blank_start]Angiotensinogen,[blank_end] activating it to Angiotensin I. As [blank_start]Angiotensin I[blank_end] passes through the [blank_start]lung[blank_end] capillaries and enzyme in the lungs called [blank_start]Angiotensin Converting Enzyme[blank_end], converts Angiotensin I to Angiotensin II. Angiotensin II continues through the blood stream until it reaches the [blank_start]adrenal glands[blank_end] where it stimulates cells in the [blank_start]adrenal cortex[blank_end] to release the hormone [blank_start]Aldosterone[blank_end]. When aldosterone reaches the kidneys it promotes [blank_start]increased[blank_end] reabsorption of sodium from the kidney tubules. As water follows sodium movement, water is also reabsorbed from the tubule lumen into the blood stream, thus increasing blood volume and therefore blood pressure. Angiotensin II also acts as a [blank_start]vasoconstrictor[blank_end] and therefore raises blood pressure in the body's arterioles.
Respuesta
  • blood volume
  • blood vessel diameter
  • blood osmolarity
  • Renin-Angiotensin
  • ADH
  • Juxtaglomerular
  • basal membrane
  • endothelial
  • renin
  • aldosterone
  • angiotensin
  • Angiotensinogen,
  • Aldosterone promoting protein
  • Angiotensin
  • Angiotensin I
  • Angiotensinogen
  • lung
  • heart
  • brain
  • kindey
  • Angiotensin Converting Enzyme
  • Antidiuretic hormone
  • Angiotensinogen Converting Enzyme
  • adrenal glands
  • kidneys
  • hypothalamus
  • adrenal cortex
  • renal cortex
  • adrenal medulla
  • Aldosterone
  • antidiuretic
  • ADH activating enzyme
  • increased
  • decreased
  • vasoconstrictor
  • vasodilator
  • blood thinner

Pregunta 6

Pregunta
Regulation of [blank_start]blood osmolarity[blank_end] is another way to regulate blood pressure with both long and short term effects. As increased osmolarity and thus [blank_start]decrease[blank_end] in blood volume is detected in the [blank_start]hypothalamus[blank_end], it sends signals to the [blank_start]posterior pituitary[blank_end] to release [blank_start]antidiuretic hormone[blank_end]. ADH [blank_start]increases[blank_end] water reabsorption in the kidney by stimulating an increase in the number of water channels in the [blank_start]distal convoluted tubules[blank_end] and walls of the collecting ducts. These channels aid the movement of water [blank_start]back into[blank_end] the capillaries, [blank_start]decreasing[blank_end] the osmolarity of the blood volume and therefore decreasing blood pressure. In the short term, increased osmolarity excites the [blank_start]thirst centre[blank_end] of the hypothalamus and stimulates the individual to drink more water.
Respuesta
  • blood osmolarity
  • vasodilation
  • decrease
  • increase
  • hypothalamus
  • adrenal glands
  • posterior pituitary
  • anterior pituitary
  • antidiuretic hormone
  • aldosterone
  • increases
  • distal convoluted tubules
  • proximal convoluted tubules
  • back into
  • out of
  • decreasing
  • thirst centre

Pregunta 7

Pregunta
Use the image below to understand the pathophysiological mechanisms of hypertension
Respuesta
  • Stress

Pregunta 8

Pregunta
The long term consequences of hypertension on the heart include ...
Respuesta
  • coronary atheroma
  • Pulmonary atheroma
  • left ventricular hypertophy
  • Right ventricular hypertrophy
  • Increased peripheral resistance
  • increased flow to myocardium
  • aortic aneurysm
  • decreased sheer stress

Pregunta 9

Pregunta
The long term consequences of hypertension to the brain include..
Respuesta
  • haemorrhagic stroke
  • charcot-bouchard aneurysms
  • thrombotic stroke
  • memory loss
  • increased risk of epilepsy

Pregunta 10

Pregunta
Long term concequences of hypertension to the Kidney and eye include
Respuesta
  • glomerular damage
  • increased renal perfusion
  • gradual parenchymal loss
  • increased retinal perfussion
  • retinall anneurysm
  • papiloedema
  • hard exudates
  • flame haemorrhage

Pregunta 11

Pregunta
What are the predictors used in calculating cardiovascular disease risk[blank_start]?[blank_end]
Respuesta
  • ?

Pregunta 12

Pregunta
Risk benefit of treating hypertension can be estimated simply by looking at?
Respuesta
  • Number Needed to Treat v. Number Needed to Harm
  • Risk ratio
  • Relative risk of side effects

Pregunta 13

Pregunta
Which drug is a beta blocker?
Respuesta
  • Ramipril
  • Nifedipine
  • Atenolol

Pregunta 14

Pregunta
Which of these drugs does not cause hypokalaemia?
Respuesta
  • Lisonipril
  • Indapamide
  • Spironolactone

Pregunta 15

Pregunta
Which of these is the best choice for treating diabetic patients?
Respuesta
  • Perindopril
  • Metalazone
  • Atenolol

Pregunta 16

Pregunta
Which of these antihypertensive drugs is safe to use in pregnancy?
Respuesta
  • Captopril
  • Methyldopa
  • Bendroflumethiazide

Pregunta 17

Pregunta
Which of these drugs is used to treat hypertension?
Respuesta
  • Amiodarone
  • Adenosine
  • Amlodipine
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