Nitrile is a kind of synthetic rubber that is resistant to chemicals and abrasions, making it a good material for gloves that can be used in various situations. The packaging for a pair of nitrile gloves is deep purple.
While dealing with chemicals, most laboratory employees put on thin, disposable nitrile gloves. Nevertheless, it is essential to remember that these gloves provide very little protection against the risks associated with working with chemicals. These gloves should be worn for the sole purpose of providing temporary protection against contact with chemicals. As soon as they become contaminated, they should be removed and discarded.
Dealing With Nitrile Gloves
When exposed to chemicals, gloves are judged on these factors:
The time that must elapse before a chemical on the outside of the glove may be detected on the inside of the hand. When it comes to longevity, a fantastic glove should withstand at least eight hours of use.
A substance’s “degradation” refers to the process by which its contact with a chemical causes it to either expand, crack, soften, or shrink. Chemical penetration is possible even in gloves that are in good condition.
After a material has penetrated a barrier, the rate at which it can escape is referred to as the permeation rate of the glove. This rate considers both the diffusion and desorption that occurs inside the material and the surface absorption that occurs.
How to Increase Glove Safety
Adopting these precautions should prevent cross-contamination.
Selecting the Right Measurement of Thickness
Since one mil, the standard unit for measuring glove thickness, is comparable to 0.0inch, the standard unit for measuring the thickness of other things, a glove that is ten mils thick is equivalent to having a thickness of 0.010 inches. A glove made of the same material but with a bigger gauge will give more protection, but it will also be less flexible and less sensitive to the touch.
While simultaneously wearing two gloves may increase the total breakthrough time of a single glove, the comfort and safety concerns associated with doing so indicate that this tactic should be limited to only short-term use at most.
If you overstretch a glove already too small for your hand, you risk breaking down the fabric and rendering it worthless. A glove that is too large for the wearer’s hand may be unpleasant and wear out more quickly. Use the size guide provided by the manufacturer to ensure a comfortable fit.
Pulling off the Gloves With Extreme Caution
Whether putting on or taking off gloves, it is essential not to contact the outside of the glove at any point. The video that may be seen above, which UCLA produced, demonstrates two correct alternative methods to remove gloves.
Worn gloves may transfer germs to other surfaces and products, putting you in danger of being exposed to chemicals. This should be avoided to prevent contamination.
Washing With Bactol Wash
Bactol wash, a hand rub that kills germs without water, is an antibacterial product—having no hue or tint. Because of the pH level, the skin is left feeling smooth and revitalised after application.
Bactol wash is an efficient antiseptic that may be used in both hand and body washes. It has a concentration of 2% weight-per-volume chlorhexidine gluconate. This antiseptic hand wash has a dual purpose, as it may be used for the ordinary washing of hands and cleaning a patient’s body.
What to Remember With Frequent Use of Gloves
When nitrile gloves are used, they should be thrown away promptly after usage, and they should also be replaced if they get dirty or after handling chemicals. Nitrile gloves designed for single use should never be reused after their first application.
Establishing rules regarding the circumstances in which gloves are required as opposed to those in which they are not necessary, as well as the locations in which these rules apply, such as pens, keyboards, instruments, drawers, door handles, freezers, and work areas, and then taking off gloves and washing hands before leaving the laboratory.
To keep your gloves clean, avoid wearing them in public areas like hallways, offices, break rooms, elevators, and toilets. These are all places where people like to congregate.
Powder gloves are simpler to put on and take off than powder-free gloves because of the powder that is already on the gloves. Powder-free gloves need more effort to put on and remove. For those who are allergic to latex or worried about the possible health concerns linked with wearing powder gloves, choose nitrile gloves that do not include any extra powder. Nitrile is a kind of synthetic rubber distinguished by its exceptional resistance to chemicals and other corrosive substances.
The danger of infection is raised by using powdered gloves, even though these gloves are safer for those who suffer from allergies. While there is less disease risk, powder-free gloves are more difficult to don and remove than traditional gloves.
People allergic to latex shouldn’t be concerned while using nitrile gloves. Most powder-free nitrile gloves are also devoid of latex to reduce the possibility of an allergic reaction.