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A deodorant is a substance applied to the body to prevent or mask caused by bacterial breakdown of , for example in the , , or . A subclass of deodorants, called antiperspirants, prevents sweating itself, typically by blocking . Antiperspirants are used on a wider range of body parts, at any place where sweat would be inconvenient or unsafe, since unwanted sweating can interfere with comfort, , and grip (due to slipping). Other types of deodorant allow sweating but prevent action on sweat, since human sweat only has a noticeable smell when it is decomposed by bacteria.

The first commercial deodorant, Mum, was introduced and patented in the late nineteenth century by an in , , . The product was briefly withdrawn from the market in the US. The modern formulation of the antiperspirant was by on January 28, 1941. This formulation was first found in "Stopette" deodorant spray, which Time magazine called "the best-selling deodorant of the early 1950s".

Use of deodorant with compounds has been suspected of being linked to breast cancer, but research has not proven any such link.

Overview
The human body produces (sweat) via two types of : eccrine sweat glands which cover much of the and produce watery odourless sweat, and apocrine sweat glands in the and , which produce a more oily "heavy" sweat containing a proportion of waste , and , that can be by bacteria to produce compounds that cause . In addition, the produces secretions which are not a form of sweat but may be undesired and also masked with deodorants.

Human perspiration of all types is largely odorless until its organic components are fermented by that thrive in hot, humid environments. The human underarm is among the most consistently warm areas on the surface of the human body, and readily provide moisture containing a fraction of organic matter, which when excreted, has a vital cooling effect. When adult armpits are washed with pH soap, the skin loses its protective (pH 4.5–6), raising the skin pH and disrupting the skin barrier. Many bacteria are adapted to the slightly alkaline environment within the human body, so they can thrive within this elevated pH environment. This makes the skin more than usually susceptible to bacterial colonization. Bacteria on the skin feed on the waste proteins and fatty acids in the sweat from the apocrine glands and on dead skin and hair cells, releasing trans-3-methyl-2-hexenoic acid in their waste, which is the primary cause of body odor.

wicks the moisture away from the skin and aids in keeping the skin dry enough to prevent or diminish bacterial colonization. The hair is less susceptible to bacterial growth and therefore reduces bacterial odor.

(2025). 9781420069631, Informa Health Care.
The apocrine sweat glands are inactive until , which is why body odor often only becomes noticeable at that time.

Deodorant products work in one of two ways – by preventing sweat from occurring, or by allowing it to occur but preventing bacterial activity that decomposes sweat on the skin.

History
Modern deodorants
In 1888, the first modern commercial deodorant, Mum, was developed and patented by a U.S. in , , ;
(2025). 9781579548483, Rodale Books.
the small company was bought by in 1931. In the late 1940s, Helen Barnett Diserens developed an underarm applicator based on the newly invented .
(2015). 9781621452386, Reader's Digest. .
(2011). 9780984102587, Ampersand Books. .
In 1952, the company began marketing the product under the name Ban Roll-On. The product was briefly withdrawn from the market in the U.S., but it is once again available at retailers in the U.S. under the brand Ban. In the UK it is sold under the names Mum Solid and Mum Pump Spray. acquired the Ban deodorant brand in 1998 and subsequently sold it to in 2000.

In 1903, the first commercial antiperspirant was Everdry. The modern formulation of the antiperspirant was patented by on January 28, 1941. This patent addressed the problem of the excessive acidity of aluminum chloride and its excessive irritation of the skin, by combining it with a soluble or a similar compound. This formulation was first found in "Stopette" deodorant spray, which Time magazine called "the best-selling deodorant of the early 1950s". "Stopette" gained its prominence as the first and long-time sponsor of the game show What's My Line?; it was later eclipsed by many other brands once the 1941 patent expired.

Between 1942 and 1957, the market for deodorants increased 600 times to become a $70 million market. Deodorants were originally marketed primarily to women, but by 1957 the market had expanded to male users, and estimates were that 50% of men were using deodorants by that date. The Ban Roll-On product led the market in sales.

In the early 1960s, the first antiperspirant in the marketplace was Gillette's , whose brand was later sold to in 2006. Aerosols were popular because they let the user dispense a spray without coming in contact with the underarm area. By the late 1960s, half of all the antiperspirants sold in the U.S. were aerosols, and continued to grow in all sales to 82% by the early 1970s. However, the late 1970s saw two developments which greatly reduced the popularity of these products. First, in 1977 the U.S. Food and Drug Administration banned the active ingredient used in aerosols, aluminium zirconium chemicals, due to safety concerns over long term inhalation. Second, the U.S. Environmental Protection Agency limited the use of chlorofluorocarbon (CFC) propellants used in aerosols due to awareness that these gases can contribute to depleting the ozone layer. As the popularity of aerosols slowly decreased, stick antiperspirants became more popular.

Classification
Deodorant
In the United States, deodorants are classified and regulated as by the U.S. Food and Drug Administration (FDA) Cosmetics Q&A: "Personal Care Products" . U.S. Food and Drug Administration. and are designed to eliminate odor. Deodorants are often -based. Alcohol initially stimulates sweating but may also temporarily kill bacteria. Other active ingredients in deodorants include , , and . Deodorants can be formulated with other, more persistent such as that slow bacterial growth or with metal compounds such as . Deodorants may contain fragrances or natural intended to mask the odor of perspiration. Some of the first patented deodorants used , acids, ammonium chloride, sodium bicarbonate (has limination of 10%) and (which is now known as a ), and some of these ingredients were messy, irritating to the skin.

Crystal deodorant, or natural deodorant crystal, contains the active ingredient or , which prevents bacterial action on sweat. These have gained popularity as an alternative health product, in spite of concerns about possible risks related to aluminum (see below – all alum salts contain aluminum in the form of aluminum sulphate salts) and contact dermatitis.

Whole body deodorant, in the forms of sprays, sticks, creams, and wipes, is used by men and women to mask orders on all parts of the body, including armpits, breasts, genitals, and feet. It is considered safe to use all over the body, even in sensitive areas. Various active ingredients may be used, including alpha hydroxy acids such as , which have antibacterial properties and/or deodorizing effects.

Vaginal deodorant, in the form of sprays, , and wipes, is often used by women to mask vaginal secretions. Vaginal deodorants can sometimes cause .

Deodorant antiperspirant
In the United States, deodorants combined with antiperspirant agents are classified as by the FDA. Antiperspirants attempt to stop or significantly reduce perspiration and thus reduce the moist climate in which bacteria thrive. Aluminium chloride, aluminium chlorohydrate, and - compounds, most notably aluminium zirconium tetrachlorohydrex gly are frequently used in antiperspirants. Aluminium chlorohydrate and aluminium-zirconium tetrachlorohydrate gly are the most frequent active ingredients in commercial antiperspirants. Aluminium-based complexes react with the in the sweat to form a gel plug in the duct of the sweat gland. The plugs prevent the gland from excreting liquid and are removed over time by the natural of the skin. The metal salts work in another way to prevent sweat from reaching the surface of the skin: the aluminium salts interact with the keratin fibrils in the sweat ducts and form a physical plug that prevents sweat from reaching the skin's surface. Aluminium salts also have a slight effect on the pores; causing them to contract, further preventing sweat from reaching the surface of the skin. The blockage of a large number of sweat glands reduces the amount of sweat produced in the underarms, though this may vary from person to person. Methenamine in the form of cream or spray is effective in the treatment of excessive sweating and attendant odor. Antiperspirants are usually best applied before bed.

Product formulations and formats
Formulations
Common and historical formulations for deodorants include the following active ingredients:

* salts (aluminum chlorohydrate, aluminum zirconium tetrachlorohydrex gly, and others) – used as the basis for almost all non-prescription (everyday) antiperspirants. The aluminum reacts within the sweat gland to form a which physically prevents sweating.
* (typically or , also described as "rock alum", or "rock crystal", or "natural deodorant"). Alum is a natural crystalline product widely used both historically and in modern times as a deodorant, because it inhibits bacterial action. The word 'alum' is a historical term for salts, therefore all alum products will contain aluminum, albeit in a different chemical form from antiperspirants.
* products such as (TCS), octenidine dihydrochloride, and kill bacteria on the skin.
* Alcohols and related compounds such as – these products can have both drying and effects.
* (hexamethylenetetramine, also known as hexamine or urotropin) is a powerful antiperspirant, often used for severe sweat-related issues, as well as prevention of sweating within the sockets of devices used by .
* and pH neutral products – deodorants that prevent bacterial action by enhancing (or at least, not depleting) the skin's natural slight acidity, known as the , which naturally reduces bacterial action but can be compromised by typically alkaline soaps and skin products.
* Masking scents – other strong or overriding scents of a pleasing type may be used, used to mask bodily odors. Typically these are strongly smelling plant extracts or .
* Activated charcoal and other products capable of absorbing sweat and/or smell. Although charcoal most often has a black color, the activated charcoal used in deodorants may be a very light color for aesthetic reasons.
* Less commonly used, products such as milk of magnesia (a thick liquid suspension of magnesium hydroxide) are sometimes used as deodorants. Many milk of magnesia products contain small amounts of sodium hypochlorite () at very low levels that are safe for ingestion and skin application. Sodium hypochlorite is a powerful , and it is possible that its presence in a product that can dry onto the skin, may explain this use as a deodorant. ( Safety info: bleach is caustic and extremely poisonous, and can be lethal, in higher concentrations.)

Product formats
Deodorants are available in a wide range of application formats, each with distinct physical characteristics, ingredients, and usage contexts:

  • Stick: Solid sticks are waxy and glide directly onto the skin. They typically use stearyl alcohol or other fatty bases to deliver active ingredients. Sticks are among the most popular formats in North America.
  • Roll-on: These use a ball applicator to dispense liquid formulations. Roll-ons are especially common in European and Asian markets and often have a quicker drying time than sticks.
  • Spray (Aerosol): Aerosol sprays release deodorant through pressurized gas. They are known for fast drying and even coverage but raise concerns over inhalation safety and environmental impact due to propellants. Non-aerosol pump sprays are also available.
  • Gel: Gel deodorants are clear, wet-feeling products dispensed through holes in a plastic applicator. They often leave less visible residue but may require longer drying times.
  • Cream or Paste: These are applied manually, often marketed as "natural" deodorants. They frequently exclude aluminum compounds and use baking soda, clay, or zinc-based ingredients for odor control.
  • Crystal: Made primarily from potassium alum, crystal deodorants are natural mineral salts that create a barrier to inhibit bacterial growth. They contain no fragrances or aluminum chlorohydrate.
  • Wipes: Single-use deodorant wipes are impregnated with odor-neutralizing agents and are convenient for travel or post-exercise freshness.
  • Powder: Popular in some Asian markets, powders can be applied to underarms or feet and absorb moisture while masking odor.

Innovations and emerging trends
The deodorant industry has seen notable innovation in response to changing consumer preferences, regulatory shifts, and sustainability concerns:
  • Whole-Body Deodorants: A growing trend is the use of deodorants on non-traditional areas such as the chest, back, thighs, or feet. These “whole-body” or “multi-zone” deodorants are formulated with sensitive-skin-safe ingredients and marketed for use beyond the underarms. This trend has been fueled by increased attention to total-body hygiene in beauty and fitness culture.
  • Natural and Aluminum-Free Formulas: Many consumers are opting for deodorants without aluminum salts due to health or environmental concerns. These formulations often use baking soda, activated charcoal, arrowroot powder, or magnesium hydroxide as alternatives for odor control. However, these are typically less effective at reducing perspiration compared to traditional antiperspirants.
  • Microbiome-Friendly Deodorants: Some brands have developed products that aim to support the skin’s natural microbiome rather than disrupt it. These deodorants may contain prebiotics or postbiotics to promote the growth of beneficial skin bacteria and reduce odor-causing microbes without antimicrobial agents.
  • Refillable and Sustainable Packaging: In response to environmental concerns over plastic waste, many companies now offer refillable deodorant containers made from metal or recycled materials. Some products are also sold in biodegradable cardboard tubes or reusable jars.
  • Fragrance Customization and Gender-Neutral Scents: Consumers increasingly seek personalized or gender-neutral scents. Some brands allow users to customize their deodorant fragrance online, while others promote unscented or minimal-fragrance options to accommodate sensitivities.
  • Therapeutic and Clinical Formulas: Clinical-strength deodorants and prescription antiperspirants are designed for people with hyperhidrosis (excessive sweating). These typically contain higher concentrations of active ingredients like aluminum chloride and are regulated as over-the-counter drugs in many jurisdictions.

Health effects
After using a deodorant containing zirconium, the skin may develop an , axillary response. Antiperspirants with , when applied to the , can cause irritation and may promote sensitization to other ingredients in the antiperspirant. Deodorant crystals containing synthetically made were found to be a weak to the skin. Unscented deodorant is available for those with sensitive skin. Frequent use of deodorants was associated with blood concentrations of the .

Aluminum
Many deodorants and antiperspirants contain in the form of such as aluminium chlorohydrate.

The US Food and Drug Administration, in a 2003 paper discussing deodorant safety, concluded that "despite many investigators looking at this issue, the agency does not find data from topical and inhalation chronic exposure animal and human studies submitted to date sufficient to change the monograph status of aluminum containing antiperspirants", therefore allowing their use and stating they will keep monitoring the scientific literature. Members of the Scientific Committee on Consumer Safety (SCCS) of the European Commission concluded similarly in 2015, that "due to the lack of adequate data on dermal penetration to estimate the internal dose of aluminium following cosmetic uses, risk assessment cannot be performed." In the light of new data in 2020 the SCCS considered aluminium compounds safe up to 6.25% in non-spray deodorants or non-spray antiperspirants and 10.60% in spray deodorants or spray antiperspirants.

Myths and claims related to aluminium compounds in deodorants
Common myths and marketing claims for aluminium in deodorants (including aluminum in alum products) include claims:

  • That aluminium in deodorants applied to the skin is a risk factor for some cancers (notably breast cancer) and some forms of
  • That aluminium in antiperspirants can enter the body (possibly through shaving cuts)
  • That aluminium in alum "natural deodorant" products is "safer" because it is "too large" to enter the body

Of note, the parts of the body which are commonly shaved and also commonly treated with deodorants, such as the , contain substantial deposits of . Shaving cuts would be extremely unlikely to penetrate sufficiently beyond the very outer layers of the skin, for much if any product to enter the bloodstream.

Alzheimer's disease
A 2014 review of 469 peer-reviewed studies examining the effect of exposure to aluminum products concluded "that health risks posed by exposure to inorganic depend on its physical and chemical forms and that the response varies with route of administration, magnitude, duration and frequency of exposure. These results support previous conclusions that there is little evidence that exposure to metallic Al, the Al oxides or its salts increases risk for Alzheimer's disease, genetic damage or cancer".

Breast cancer
The claim that breast cancer is believed to be linked with deodorant use has been widely circulated and appears to originate from a email sent in 1999; however, there is no evidence to support the existence of such a link. The myth circulates in two forms:

  • Antiperspirants block the "purging" of toxins which build up in the body and cause breast cancer: As sweat glands simply do not have this function, the claim is scientifically implausible. Perspiration from the eccrine sweat glands is 99% water, with some (sodium chloride) and only trace amounts of (almost entirely in the ), (almost entirely excreted by the ), and only very small amounts of all other components. Perspiration from the apocrine sweat glands (those in the armpits and groin, which are more responsible for body odor) also include waste , , and   which would otherwise be processed by other organs such as the liver.

It is possible that there has been confusion between sweat glands, and the deep within the armpits which form part of the and help filter toxins, but if so, there is no evidence at all of such "blocking" of lymph nodes, nor any scientifically plausible route by which this could result from deodorant use.

  • Aluminum in antiperspirants can enter the body (possibly through cuts) and cause breast cancer: There is no current evidence to support this claim, nor any convincing evidence that it is true. A fact often cited to back up this claim is that more breast cancers occur in the part of the breast near the armpits. However, is not evenly spread out, and the part of the breast near the armpit (the Tail of Spence) simply contains much more breast tissue than the other quadrants, making it much more likely that any cancer would occur in that location. See above for current scientific knowledge regarding aluminum in deodorants.

The National Cancer Institute states that "no scientific evidence links the use of these products to the development of breast cancer" and that "no clear evidence that the use of aluminum-containing underarm antiperspirants or cosmetics increases the risk of breast cancer", but also concludes that studies of antiperspirants and deodorants and breast cancer have provided conflicting results, additional research would be needed to determine whether a relationship exists".

Another constituent of deodorant products that has given cause for concern are , a chemical additive. However parabens do not cause cancer.

Kidney dysfunction
The FDA has "acknowledged that small amounts of aluminum can be absorbed from the gastrointestinal tract and through the skin", leading to a warning "that people with may not be aware that the daily use of antiperspirant drug products containing aluminum may put them at a higher risk because of exposure to aluminum in the product." - updated links: PubMed link , Government website , direct federal register entry . The agency warns people with kidney dysfunction to consult a before using antiperspirants containing aluminum.

Aerosol burns and frostbite
If aerosol deodorant is held close to the skin for long enough, it can cause an —a form of . In controlled tests, spray deodorants have been shown to cause temperature drops of over 60 °C in a short period of time.

Clothing
Aluminium zirconium tetrachlorohydrex gly, a common antiperspirant, can react with sweat to create yellow stains on clothing. are an antiperspirant alternative that does not leave stains.
(1999). 9780824717469, CRC Press.
(2025). 9780743451451, SImon and Schuster.

See also

External links

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