DeRoyal PRO-II Negative Pressure Wound Therapy

877-301-4276
SKU: NP-2000
Weight: 3.00 LBS

Description

Negative Pressure Wound Therapy (NPWT) is a therapeutic method using a suction pump and dressing to remove excess fluid within a wound. Subatmospheric pressure is localized over the wound using the sealed wound dressing.  Since 2006, DeRoyal has been at the forefront of providing NPWT systems and accessories to assist with hard to heal wounds. The PRO-II is portable, lightweight and comfortable so ambulatory and homecare patients can get on with their lives.

Features:

• Contoured design for patient comfort

• Virtually silent operation

• Discreet, disposable canister

• Over 24-hour battery run time

• Carrying case that can be worn on the waist or over the shoulder

• Lower pressure settings enhance comfort during use

• Variable Pressure Therapies (VPT® ) provide intermittent pressure in the form of a gentle massage effect, eliminating painful high to low spikes characteristic of traditional intermittent pressure

Benefits:

• Flexible, easy-to-use settings with CPT (Continuous) or VPT (Variable) Pressure Therapies

• Contoured design makes pump easy to wear at the waist or over the shoulder

• Reduces pain and discomfort with wear time and dressing changes

• Reduces the need for pain medication prior to dressing changes

Benefits of Variable Pressure Technology:

Research confirms Variable Pressure Technology (VPT) increases blood to the wound site more effectively than continuous negative pressure.  VPT also leads to proliferation of new granulation tissue at significantly higher rates than continuous pressure.  The PRO-II is engineered to deliver comfortable, massaging variable pressure therapy for best results and patient comfort

• Customizable time and pressure settings

• Calibrated to increase and decrease in comfortable 5mmHg increments between -40mmHg and -80mmHg, providing a gentle massaging effect

• Virtually eliminates painful high and low pressure spikes

• Always maintains negative pressure, never dropping to 0mmHg.