Sphygmomanometer

 

Sphygmomanometer, blood pressure meter, or blood pressure gauge (also referred to as a sphygmometer) is a device used to measure blood pressure, consist of an inflatable cuff to restrict blood flow, and a mercury or mechanical manometer to measure the pressure. It is always used in conjunction with a means to determine at what pressure blood flow is just starting, and at what pressure it is unimpeded. Manual sphygmomanometers are used in conjunction with a stethoscope.

 

There are two types of sphygmomanometers:

-Manual sphygmomanometers require a stethoscope for auscultation. They are used by trained practitioners. It is possible to obtain a basic reading through palpation alone, but this only yields the systolic pressure.

       -Mercury sphygmomanometers are considered to be the gold standard. They measure blood pressure by observing the height of a column of mercury, which requires at least annual calibration. Due to their accuracy, they are often required in clinical trials of pharmaceuticals and for clinical evaluations of determining blood pressure for high-risk patients including pregnant women.

       -Aneroid sphygmomanometers (mechanical types with a dial) are in common use; they require calibration checks, unlike mercury manometers. Aneroid sphygmomanometers are considered safer than mercury based, although inexpensive ones are less accurate. A major cause of departure from calibration is mechanical jarring. Aneroids mounted on walls or stands are not susceptible to this particular problem.

 

       -Improvement of technology has enabled digital sphygmomanometer. Digital sphygmomanometer use oscillometric measurements and electronic calculations rather than auscultation. They may use manual or automatic inflation. These are electronic, easy to operate without training, and can be used in noisy environments. They measure systolic and diastolic pressures by oscillometric detection, using a piezoelectric pressure sensor and electronic components including a microprocessor. They do not measure systolic and diastolic pressures directly, per se, but calculate them from the mean pressure and empirical statistical oscillometric parameters. Calibration is also a concern for these instruments. Most instruments also display pulse rate. Digital oscillometric monitors are also confronted with several "special conditions" for which they are not designed to be used, such as: arteriosclerosis; arrhythmia; preeclampsia; pulsus alternans; and pulsus paradoxus. Such people should use analog sphygmomanometers, as they are more accurate when used by a trained person. Digital instruments may use a cuff placed, in order of accuracy and inverse order of portability and convenience, around the upper arm, the wrist, or a finger. The oscillometric method of detection used gives blood pressure readings that differ from those determined by auscultation, and vary subject to many factors, for example pulse pressure, heart rate and arterial stiffness. Some instruments claim also to measure arterial stiffness. However such machines are not recommended for regular users as machines that claim to have 3% accuracy rate, are usually inaccurate to over 7%, and even provided two different readings when checked at the same time. Some of these monitors also detect irregular heartbeats.

In humans, the cuff is normally placed smoothly and snugly around an upper arm, at roughly the same vertical height as the heart while the subject is seated with the arm supported. Other sites of placement depend on species; it may include the flipper or tail. It is essential that the correct size of cuff is selected for the patient. Too small a cuff results in too high a pressure, while too large a cuff results in too low a pressure. For clinical measurements it is usual to measure and record both arms in the initial consultation to determine if the pressure is significantly higher in one arm than the other. A difference of 10 mm Hg may be a sign of coarctation of the aorta. If the arms read differently, the higher reading arm would be used for later readings. The cuff is inflated until the artery is completely occluded.

 

With a manual instrument, listening with a stethoscope to the brachial artery at the elbow, the examiner slowly releases the pressure in the cuff. As the pressure in the cuffs falls, a "whooshing" or pounding sound is heard when blood flow first starts again in the artery. The pressure at which this sound began is noted and recorded as the systolic blood pressure. The cuff pressure is further released until the sound can no longer be heard. This is recorded as the diastolic blood pressure. In noisy environments where auscultation is impossible (such as the scenes often encountered in emergency medicine), systolic blood pressure alone may be read by releasing the pressure until a radial pulse is palpated (felt). In veterinary medicine, auscultation is rarely of use, and palpation or visualization of pulse distal to the sphygmomanometer is used to detect systolic pressure.

 

 

Digital instruments use a cuff which may be placed, according to the instrument, around the upper arm, wrist, or a finger, in all cases elevated to the same height as the heart. They inflate the cuff and gradually reduce the pressure in the same way as a manual meter, and measure blood pressures by the oscillometric method.

 

 

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