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Mange (/ ˈ m eɪ n dʒ /) is a type of skin disease caused by parasitic mites. [1] Because various species of mites also infect plants, birds and reptiles, the term "mange", or colloquially "the mange", suggesting poor condition of the skin and fur due to the infection, is sometimes reserved for pathological mite-infestation of nonhuman mammals.
Demodicosis / ˌ d ɛ m ə d ə ˈ k oʊ s ɪ s /, also called Demodex folliculitis in humans [1] and demodectic mange (/ d ɛ m ə ˈ d ɛ k t ɪ k /) or red mange in animals, is caused by a sensitivity to and overpopulation of Demodex spp. as the host's immune system is unable to keep the mites under control. Demodex is a genus of mite in the ...
The closely related term, mange, is commonly used with domestic animals and also livestock and wild mammals, whenever hair-loss is involved. Sarcoptes and Demodex species are involved in mange, but both of these genera are also involved in human skin diseases (by convention only, not called mange).
People for the Ethical Treatment of Animals (PETA) wrote a tongue-in-cheek article referencing the phenomenon, which urges non-vegetarians to "kick their unhealthy meat addictions", including a description of roadkill as "meat without murder" and a suggestion that "die-hard meat-eaters can help clear their consciences—and the streets—by ...
Benzoyl peroxide is a common acne-fighting ingredient found in a variety of skin care products. Shop cleansers, treatments and more from brands like Cerave and La Roche Posay. ... This treatment ...
People are ingesting borax. Also known by its chemical name sodium borate decahydrate, borax is a salt typically used to kill ants and boost laundry detergent, among other household cleaning needs ...
In particular, it is effective in the treatment of mouth ulcers, [10] [11] stomatitis, and glossitis. [12] It is also frequently used as a wash for the care of the mouth in unconscious patients. [13] It comprises 88% glycerin and 12% borax. Finely ground borax is dissolved in glycerin, and the solution is ready for use (Ref. IP 66).
In the presence of a strong acid catalyst, such as sulfuric acid, acetic acid and hydrogen peroxide produce peracetic acid: [3] H 2 O 2 + CH 3 CO 2 H ⇌ CH 3 CO 3 H + H 2 O. However, in concentrations (3-6%) of vinegar and hydrogen peroxide marketed for household use, mixing without a strong acid catalyst will not form peracetic acid.