Some evidence suggests that pulse pressure is a better predictor of clinical outcome than the systolic or diastolic blood pressure alone. However, using pulse pressure as a clinical predictor or diagnosis tool is complicated because the pulse pressure doesn't provide unique information. Pulse pressure must be calculated from the systolic and diastolic readings. So, saying that someone has an "elevated pulse pressure" is usually the same as saying that they have an "elevated systolic blood pressure," which is already known to be an important clinical finding requiring treatment.
the length is important because the length is one of basic measurement that we needed to use. so we are able to give an importance unto this measurement like length.
it is important so scientist can measure the things that is in concern. Proof need to be quantified and indicated. without measurement, the judgement would strongly impaired by personal bias and could not be repeated.
You have odd units. Microns is a measurement of distance (micrometer) Inch is a measurement of distance. 25400 microns in an inch. Edit: You just answered the question, a micron is also a measure of pressure just like an inch of mercury is a measure of pressure. So 1 inch of mercury is equal to 25400 microns of mercury.
Meters is a measurement of distance and milliliter is a measurement of volume. So there is no way to figure this out.
Accuracy, precision, repeatability and so on are terms that have been closely defined for measurement purpose. By folk such as ASTM. and ISO.The true value is the value towards which a large number of different measurements (by different measurement teams, using different measuring systems ... ..) tends.The accuracy of a particular method or measurement is how closely that answer comes to the True Value.The precision of a measurement represents the confidence you have in the measurement. (Generally by making several measurements.)The resolution of a measurement is merely the number of figures in your answer. A number with many places would have greater resolution, but many of those numbers might be meaningless.So, a single measurement of the height of a mountain for example, might be correct, (true value) but you don't necessarily have reason to be confident of the answer.
The first number recorded in a blood pressure measurement is the systolic pressure and represents the peak pressure generated by cardiac contraction. The second number is the diastolic pressure and represents the intravascular pressure during relaxation of the heart while it is filling. The difference between these two measurements is called the pulse pressure. So, for a normal BP reading of 120/80, there would be a normal pulse pressure of 40.
MAP=diastolic pressure+(pulse pressure/3) so... MAP - (pulse pressure/3)= diastolic pressure
A blood pressure of 107/74 and pulse of 80 is within normal limits (WNL).
No. In fact, their blood pressure is lower than what is considered normal. So is their pulse.
If a patient is aware that you are counting his breaths they may alter the pattern. It is easy after you finish taking the pulse to count the respirations and the patient is not aware so they don't alter the pattern. This allows you to get a good measurement
When the cuff is initially put on, it's put on with high air pressure in order to pinch so tightly that even at systolic pressure the blood cannot flow through that vein the cuff is monitoring. So there is no pulse detected by the cuff as there is no blood flow in the vein at that place. Then when the cuff air is released that relaxes the pinch to where its pressure matches or below the systolic pressure, the blood and its pulse from the heart beat flow again in the vein. And that pulsing is the "twitch" that you see. But then as more cuff pressure is relieved it reaches the same pressure as the diastolic pressure in the vein. And the diastolic pressure does not pulse as it's the pressure when the heart is relaxed and not pumping. So the twitching stops at or below the diastolic pressure on the cuff because there is no pulse in the diastolic or below range.
so that they could make pyramids
Measurement is important for tracking progress, evaluating results, making informed decisions, and identifying areas for improvement. It provides quantifiable data that can be used to monitor performance, set goals, and ensure accountability. Additionally, measurement enables organizations to demonstrate their impact and effectiveness to stakeholders.
its checked for high blood pressure which cause problems so they like to check it so if it happens they can put you on medication to fix it
measuring devices are really important so that you can give accurate information regarding measurements.
It takes about 20 minutes for pulse and blood pressure to resume to their prior baseline.
the length is important because the length is one of basic measurement that we needed to use. so we are able to give an importance unto this measurement like length.