- Condition: Factory New
- Weight: 11.4 lb
- Nonstick properties resist tape and adhesives.
- 0.16 mm fingertip thickness
- Textured fingertips
- Extended beaded cuff length
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Learn more:
- MFR: Microflex Medical Ships from MFI Medical
- MPN: FFE-775-XXL
Frequently asked questions
Do these gloves prevent tape from sticking?
Yes. These gloves are engineered with special nonstick properties specifically designed to resist medical tape and adhesives, which helps streamline your clinical workflow.
How long is the extended cuff?
The gloves feature an 11.4-inch length with an extended beaded cuff, providing superior wrist coverage compared to standard-length exam gloves.
Do they provide good tactile sensitivity?
Absolutely. With a fingertip thickness of 0.16 mm and a textured surface, these gloves are designed to provide both a secure grip and the sensitivity needed for delicate procedures.
How do I know if the 2X-Large size fits?
These 2X-Large gloves are designed to comfortably fit users with a palm circumference of 10.5 to 11 inches.
Are these gloves sterile?
No, these are non-sterile, single-use nitrile gloves intended for general examination and clinical tasks.
Does the beaded cuff provide extra security?
Yes, the extended beaded cuff is designed to stay securely in place around the wrist, minimizing the risk of exposure and providing a reliable fit during long procedures.
Can I use these on either hand?
Yes, these gloves feature an ambidextrous design, allowing you to put them on quickly and efficiently without worrying about which glove goes on which hand.
What is the total quantity included in a case?
Each case contains 10 boxes, with 50 gloves per box, for a total of 500 gloves per order.
Are they suitable for laboratory environments?
Yes, the Microflex Medical FreeForm EC gloves are ideal for clinical, hospital, and laboratory environments where robust barrier protection and dexterity are required.
Why choose nitrile for this application?
Nitrile is chosen for its robust barrier protection while remaining flexible enough to provide the tactile feedback necessary for precise medical tasks.