Topic 32 - Properties of circulation in the coronaries, the skin, the brain, splanchnic circulation, and the fetal circulation Flashcards

1
Q

Words to include in circulation in the coronaries

A
  • A. coronaria dextra
    • Right atrium
    • Right ventricle
  • A. cornaria sinistra
    • Left anterior descending arterie
      • A. descendens
        • Anterior septum
        • Anterior left ventricular wall
    • Left circumflex arterie
      • A. circumflexus
        • Left atrium
        • Left ventricle
  • Conductive system
    • Bradycardia
    • Stenosis (in a. coronaria sinistra)
  • Beginning of systole (isovolumetric contraction)
    • Reverse blood flow
  • Fast ejection phase
    • Aorta pressure high
  • Slow ejection phase
    • Aorta pressure drops
    • Coronary perfusion (↓)
  • Diastole
    • Maximum coronary flow
  • Aortic pressure (mmHg)
  • Coronary flow (ml/min/100g)
  • Isovolumetric contraction
  • Ejection
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2
Q

Words to include in circulation in the brain

A
  • Venous blood flow
  • Arterial blood flow
  • Overpressure
  • Hypoxia
    • Local reflex mechanisms
  • Cushing-effect
    • Intracranial pressure (↑)
    • Peripheral blood pressure (↑)
    • Compressed vasomotor center
  • pCO2
  • pH
  • N. facialis
    • Parasympathetic innervation
  • 60-160 mmHg
    • Edema (over)
    • Syncope (under)
  • Myogenic tone
  • Intravasal / EC volume ratio
  • Circle of Willis
  • Closed cerebral cavity
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3
Q

Words to include in circulation in the skin

A
  • Metabolic demand
  • Thermoregulation
    • Heat balance regulation
      • Vasoconstrictor tone
      • A-V anastomoses
  • Skin capillaries
  • Arterioles
  • Vessel reflexes
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4
Q

Words to include in splanchnic circulation

A
  • Double capillary system
    • Two serially attached capillary systems
      • Portal circulation
  • Myogenic tone (ø)
  • Sympathetic tone
    • α-receptor
  • Metabolic autoregulation (less developed)
  • Splanchnic area
    • Liver
      • Reservoir
        • 15%
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5
Q

Words to include in fetal circulation

A
  • Oxygenated blood
    • V. umbilicalis
    • Ductus venosus
  • Deoxygenated blood
    • A. umbilicalis
  • Forame ovale
    • Intracardial change
    • Parallelly coupled system
    • Fossa ovalis
  • Ductus arteriosus
    • Botalis ductus
      • Pulmonary circulation
    • Lig. arteriosus
  • Ductus venosus
    • Arantius duct
  • A. umbilicalis
    • Lig. teres hepatis
    • 5 mmHg (higher than aorta)
  • V. umbilicalis
    • Lig. teres hepatis
  • V. cava caudalis
    • Right atrium (enter)
  • Aorta
    • Fetal tissue
  • Fetal liver
  • Right ventricle
  • Systemic circulation
  • Placenta
  • Pulmonary resistance ↓
  • Surfacant factors
  • Lung
  • Prostaglandin liberation
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6
Q

Circulation in the coronaries

A
  • The coronary arteries arise from the aorta; they are separated into the left and the right coronary arteries
  • A. Coronaria dextra: supply the right atrium and ventricle, continues down and supply also the posterior left ventricular wall and the posterior part of the interventricular septum
    • Known as the posterior descending coronary artery
  • A. Coronaria sinistra: divide into left anterior descending and left circumflex arteries
    • A. Descendens: supplies the anterior septum and the anterior left ventricular wall
    • A. Circumflexus: supplies left atrium and ventricle
  • The conductive system is also supplied by the coronary arteries
  • Disease of the coronary arteries may cause:
    • Bradycardia
    • Stenosisof thea. coronaria sinistra
  1. Beginning of systole (isovolumetric contraction)
    • The tension of the left chamber of the heart is so high that the blood will be pressed out from the coronary vessels, then reversed blood flow will occur
    • Reverse flow will not occur in the right chamber, but it will have the same effect except from that
  2. Fast ejection phase
    • The high pressure in the aorta secures the flow in the coronary arteries
  3. Slow ejection phase
    • The pressure in the aorta drops
    • Therefore the coronary perfusion slows down
  4. Diastole
    • More blood enter the coronary vessels (more than during systole), maximum coronary flow can be measured
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7
Q

Circulation of the brain

A
  • Venous and arterial blood flow to and from the brain is equal; if not the brain tissue could suffer from overpressure
  • The brain tissue is very sensitive to hypoxia; therefore there are local reflex mechanisms that keep the blood flow constant
  • Cushing-effect: when the intracranial pressure increases, then the peripheral blood pressure increases as well to keep the constant blood flow to the brain
    • Most likely caused by hypoxia in the compressed vasomotor center
  • Blood flow in the brain can be altered by:
    • pCO2
    • pH
      • ↓ pH = ↑ blood flow
  • N. Facialis: parasympathetic innervations of the brain vessels
  • The brain can tolerate a change in the mean blood pressure between 60 – 160mmHg
    • Over: edema
    • Under: syncope (fainting, collapse)
  • Myogenic tone
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8
Q

Circulation of skin

A
  • Low metabolic demand
  • Crucial area of thermoregulation / heat balance regulation
  • Flow rate varies in a very large range
  • Vasoconstrictor tone is of major importance
  • A-V anastomoses
  • Arterioles regulate
  • Vessel reflexes of the skin is of diagnostic importance
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9
Q

Splanchnic Circulation

A
  • Two serially attached capillary systems: portal circulation
  • Myogenic tone is almost non existent
  • The main regulator is the sympathetic tone (α-receptor)
  • Metabolic autoregulation is less developed
  • In the liver (a. Hepatica), myogenic autoregulation occurs
  • The splanchnic area (liver) serves as a reservoir
    • 15% of the circulating blood volume resides here in resting conditions
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10
Q

Fetal circulation

A
  • The fetus receives the oxygenated blood through the v. Umbilicalis
    • This blood is saturated with oxygen by 85%
  • Most of the blood reaches the fetal liver, while a small part of it reaches the heart directly through the v. cava caudalis
  • Finally blood goes from the liverright ventricle
  • Left and right atria communicate with each other through the foramen ovale
  • In the fetus the left and right ventricles work as a parallelly coupled system, as most of the blood pumped out from the right ventricle circumvents the resistant lung tissue
  • Blood goes through the ductus arteriosus → aorta and is then added to the systemic circulation
    • Pressure in the a. pulmonalis is approximately 5 mmHg higher that in the aorta
  • Blood from aorta:
    • One third goes to the cranial part of the body
    • Rest is delivered to the caudal one
      • Half of this blood goes through the placenta
  • After delivery:
    • Sudden increase of the pulmonary circulation sets in
    • The pulmonary resistance decreases
      • Because of the surfactant factors after the onset of breathing
    • More and more blood goes through the lung
    • Pressure decreases in the right atrium as compared to the left atrium
      • Leads to the closure of the foramen ovale = fossa ovale
      • Pressure decreases in both the a. pulmonaris and ductus arteriosus
    • Pressure drop → prostaglandin liberation
      • Closes the ductus arteriosus = lig. arteriosum
  • Muscles of the left ventricle develop rapidly and finally the serially coupled pulmonary and systemic circulation evolves
  • Comparison of fetal and adult circulation:
    • For. ovale = Fossa ovale
    • Ductus arteriosus (Botalli) = Lig. arteriosum
    • A/V. umbilicalis = Lig. teres hepatis
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