A. monitoring tutorial, Appendix a, Introduction – Fluke Biomedical Cufflink User Manual

A-1

Appendix A

Non-Invasive Blood Pressure (NIBP)

Monitoring Tutorial

Introduction

Manufacturers of NIBP monitors that use the oscillometric technique have performed

clinical trials to determine the correlation between both auscultatory techniques and

invasive (arterial line) methods of measuring blood pressure to the oscillometric

technique. Various interpretations have emerged from these manufacturers with varying

degrees of agreement. Because no regulatory agency has put forth a standard as to how

pulse amplitudes should be interpreted to determine blood pressure, the accuracy and

repeatability of these monitors is difficult to determine.
Because the Analyzer produces a stable live subject response to the cuff during the

measurement cycle, it is possible to determine the repeatability and agreement of these

monitors. The Analyzer produces the same response, independent of the inflate/deflate

cycle or the algorithm used by the monitor; therefore, we offer the term Target Value as

an approximation of the patient's actual blood pressure.
Absolute dynamic accuracy cannot be assigned to MAP, diastolic, and systolic target

values at this time because no standard exists. Should any public standards emerge, the

Analyzer can be programmed to implement them and test blood pressure monitor

accuracy.

NIBP Monitoring

Blood pressure can be measured using a variety of techniques. They can be classified

into two major categories. They are known as invasive and non-invasive. The invasive

approach inserts a catheter into an artery of a test subject. The catheter may contain a

pressure transducer at its tip or it may be fluid filled and couple the blood pressure thru

the fluid to an external transducer. The change of fluid pressure (blood pressure) in the

subject's artery is said to be measured invasively. This technique is also referred to

as a direct measurement, because the parameter being measured is directly coupled to the

transducer.
The non-invasive technique can be realized several ways. It usually involves the use of an

inflatable cuff wrapped around the limb of a test subject. The cuff is inflated and deflated

at a controlled rate and physical parameters are observed. The auscultatory and