Infiltration Clinical Trial
Official title:
Ultrasound Detection of Peripheral IV Infiltration
The purpose of this study is to determine whether commercial ultrasound imaging systems can discern normal from infiltrated tissue near a peripheral intravenous site.
Peripheral intravenous (PIV) therapy is one of the most common invasive procedures performed
in US hospitals. A majority of hospital patients require intravenous therapy each year in
the United States. Despite widespread use, a number of potential complications can occur
during PIV therapy. One of the most common causes of IV complications is IV infiltration or
extravasation. Infiltration is the leakage of non-vesicant fluids like saline into the
surrounding tissue. Extravasation is the leakage of vesicant fluids, which include cytotoxic
drugs, intravenous nutrition, and calcium, potassium, and bicarbonate solutions. If not
detected and corrected early, infiltration and extravasation can lead to significant
complications such as severe inflammation, compartment syndrome, and skin necrosis.
ivWatch, LLC has developed an investigational device that may detect IV infiltration and
extravasation occurrences using a near infrared light sensor. Previous studies have
evaluated the performance of the ivWatch device by comparing to a nurse's diagnosis. The
nursing standard of care relies on tactile and visual indicators to diagnose an infiltration
event. The ivWatch product often signals an infiltration event before these indicators are
apparent to clinicians. Consequently, comparisons to the nurse's diagnosis often lead to
questionable false positives for the ivWatch device. A better reference is required to
evaluate the performance of the ivWatch device.
The purpose of this research study is to evaluate the ability of ultrasound to detect PIV
infiltrations. Ultrasound is a depth-resolved imaging technique for evaluating tissue
microstructure. Researchers have used ultrasound to examine exogenous fluids injected into
cutaneous and subcutaneous tissue. Ultrasound has been used to detect small volumes of
fluids such as cosmetic fillers and subcutaneous injections. These studies suggest
ultrasound may be a potential reference standard for future evaluation of ivWatch devices.
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Observational Model: Case-Only, Time Perspective: Cross-Sectional
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