Your blood pressure measurement takes into account how much blood is passing through your blood vessels and the amount of resistance the blood meets while the heart is pumping.
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Normal Cardiac output is 5 liters per minute.
So, human heart pumps 5 liters of blood/minute.
300 liters/hour.
7200 liters/day.
Calculation of Resistance can be done by using these following formulae:
Calculating resistance is that flow is equal to driving pressure divided by resistance. The systemic vascular resistance can therefore be calculated in units of dyn.s.cm−5 as
Where Mean Arterial pressure is 2/3 of diastolic blood pressure plus 1/3 of systolic blood pressure.
The basic tenet of calculating resistance is that flow is equal to driving pressure divided by resistance.
The systemic vascular resistance can therefore be calculated in units of dyn.s.cm−5 as
The pulmonary vascular resistance can therefore be calculated in units of dyn.s.cm−5 as
Where the pressures are measured in units of millimetres of mercury (mmHg) and the cardiac output is measured in units of litres per minute (L/min).
So, human heart pumps 5 liters of blood/minute.
300 liters/hour.
7200 liters/day.
Calculation of Resistance can be done by using these following formulae:
Calculating resistance is that flow is equal to driving pressure divided by resistance. The systemic vascular resistance can therefore be calculated in units of dyn.s.cm−5 as
Where Mean Arterial pressure is 2/3 of diastolic blood pressure plus 1/3 of systolic blood pressure.
The basic tenet of calculating resistance is that flow is equal to driving pressure divided by resistance.
The systemic vascular resistance can therefore be calculated in units of dyn.s.cm−5 as
The pulmonary vascular resistance can therefore be calculated in units of dyn.s.cm−5 as
Where the pressures are measured in units of millimetres of mercury (mmHg) and the cardiac output is measured in units of litres per minute (L/min).
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