"Aquaphor" redirects here. For the diuretic drug, see Xipamide.
Petroleum jelly, petrolatum, white petrolatum or soft paraffin, CAS number 8009-03-8, is a semi-solid mixture of hydrocarbons (with carbon numbers mainly higher than 25),[1] originally promoted as a topical ointment for its healing properties. Its folkloric medicinal value as a "cure-all" has since been limited by better scientific understanding of appropriate and inappropriate uses (see uses below). However, it is recognized by the U.S. Food and Drug Administration (FDA) as an approved over-the-counter (OTC) skin protectant, and remains widely used in cosmetic skin care.
Contents
- 1 History
- 2 Physical properties
- 3 Uses
- 3.1 Verified medicinal uses
- 3.2 Improper uses
- 4 Use in "green" applications
- 5 References
- 6 External links
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History
Original US patent application for the Vaseline product.
The raw material for petroleum jelly was discovered in 1859 in Titusville, Pennsylvania, United States, on some of the country's first oil rigs. Workers disliked the paraffin-like material forming on rigs because it caused them to malfunction, but they used it on cuts and burns because it hastened healing[citation needed].
Robert Chesebrough, a young chemist whose previous work of distilling fuel from the oil of sperm whales had been rendered obsolete by petroleum, went to Titusville to see what new materials had commercial potential. Chesebrough took the unrefined black "rod wax", as the drillers called it, back to his laboratory to refine it and explore potential uses. Chesebrough discovered that by distilling the lighter, thinner oil products from the rod wax, he could create a light-colored gel. Chesebrough patented the process of making petroleum jelly by U.S. Patent 127,568 in 1872. The process involved vacuum distillation of the crude material followed by filtration of the still residue through bone char.
Chesebrough traveled around New York demonstrating the product to encourage sales by burning his skin with acid or an open flame, then spreading the ointment on his injuries and showing his past injuries healed, he claimed, by his miracle product.
He opened his first factory in 1870 in Brooklyn using the name Vaseline.[citation needed]
Physical properties
Petroleum jelly is a semi-solid mixture of hydrocarbons, having a melting-point usually within a few degrees of human body temperature, which is approximately 37 °C (99 °F).[2] It is flammable only when heated to liquid, then the fumes will light, not the liquid itself, so a wick material like leaves, bark, or small twigs is needed to light petroleum jelly. It is colorless, or of a pale yellow color (when not highly distilled), translucent, and devoid of taste and smell when pure. It does not oxidize on exposure to the air and is not readily acted on by chemical reagents. It is insoluble in water. It is soluble in dichloromethane, chloroform, benzene, diethyl ether, carbon disulfide and oil of turpentine.[1][3]
There is a common misconception that petroleum jelly and glycerol (glycerine) are physically similar, because they feel similar when applied to human skin. While petroleum jelly is a non-polar hydrocarbon hydrophobic (water-repelling) and insoluble in water, glycerol (not a hydrocarbon but an alcohol) is the opposite: it is so strongly hydrophilic (water-attracting) that by continuous absorption of moisture from the air, it produces the feeling of wetness on the skin, similar to the greasiness produced by petroleum jelly.
Depending on the specific application of petroleum jelly, it may be USP, B.P., or Ph. Eur. grade. This pertains to the processing and handling of the petroleum jelly so it is suitable for medicinal and personal care applications.
Uses
Chesebrough originally promoted Vaseline primarily as an ointment for scrapes, burns, and cuts, but studies have shown that Vaseline has no medicinal effect nor any effect on the blistering process, nor is it absorbed by the skin. Petroleum jelly's effectiveness in accelerating wound healing stems from its sealing effect on cuts and burns, which inhibits germs from getting into the wound and keeps the injured area supple by preventing the skin's moisture from evaporating.
Vaseline brand First Aid Petroleum Jelly, or carbolated petroleum jelly, containing phenol to give the jelly additional anti-bacterial effect, has been discontinued.
After petroleum jelly became a medicine-chest staple, consumers began to use it for myriad ailments and cosmetic purposes, including chapped hands and lips, toenail fungus, male genital rashes (non-STD), nosebleeds, diaper rash, chest colds, and even to remove makeup or stains from furniture. Uses for pets include stopping fungi from developing on aquatic turtles' shells and keeping cats from making messes when they cough up furballs.[citation needed] In the first part of the twentieth century, petroleum jelly, either pure or as an ingredient, was also popular as a hair pomade. When used in a 50/50 mixture with pure beeswax, it makes an effective moustache wax.
- During World War II, a variety of petroleum jelly called red veterinary petrolatum, or Red Vet Pet for short, was often included in life raft survival kits. Acting as a sunscreen, it provides protection against ultraviolet rays.[4]
- Most petroleum jelly today is consumed as an ingredient in skin lotions and cosmetics. Although petroleum jelly is less expensive than glycerol, the most common active lubricating ingredient in skin lotion, it is not used in expensive lotions, because it is not absorbed into the skin, resulting in a greasy feel.
- Petroleum jelly is a useful material when incorporated into candle wax formulas. The petroleum jelly softens the overall blend, allows the candle to incorporate additional fragrance oil, and facilitates adhesion to the sidewall of glass.
- Petroleum jelly is used to moisten plasticine, as part of a mix of hydrocarbons including greater (paraffin wax) and lesser (mineral oil) molecular weights.
- Petroleum jelly is commonly used as a personal lubricant. (Not recommended for use with condoms because it dissolves latex.)[5]
- It is used as a key ingredient for conditioners of Afro-textured hair.[citation needed]
- It can prevent moisture loss and chapped lips, soften nail cuticles, and provide rectal lubrication for conditions like hemorrhoids or anal fissures.[citation needed]
- It can be used as a release agent for plaster molds and castings.
- It can be used to coat corrosion-prone items such as metallic trinkets, non-stainless steel blades, and gun barrels prior to storage as it serves as an excellent and inexpensive water repellent. For keeping the shine and cleanliness on black patent leather shoes, apply a very thin coat with a paper towel and buff off gently.
- It can be used to condition and protect leather.
- It can be used to finish wood, much like a mineral oil finish.
- It can be used when using a home hair dye kit, if put onto skin close to the hairline it can prevent the hair dye staining the skin.
- It can be used by long distance runners, who wear loose t-shirts (usually men), on their nipples to prevent chafing caused by the friction between the skin and clothing while running.
- It can be used for tinder, lightly coated on a cotton ball.
- It can be used for coating the inner edges of terrariums, to deny organisms within physical purchase on the walls (which could allow them to escape).
- It was recommended by Porsche in the owner’s manual of their cars as a preservative for light alloy anodized Fuchs wheels to protect them against corrosion from road salts and brake dust. “Every three months (after regular cleaning) the wheels should be coated with petroleum jelly.”[6]
- It was also recommended by Porsche in maintenance training documentation for lubrication (after cleaning) of "Weatherstrips on Doors, Hood, Tailgate, Sun Roof". The publication states "…before applying a new coat of lubricant…" "Only acid-free lubricants may be used, for example: glycerine, Vaseline, tire mounting paste, etc. These lubricants should be rubbed in, and excessive lubricant wiped off with a soft cloth."[7]
Verified medicinal uses
- It is used to protect and prevent moisture loss of the skin of a patient in the initial post-operative period following laser skin resurfacing.[8][9]
Improper uses
- Petroleum jelly weakens latex condoms, increasing the chance of rupture.[5]
- Petroleum jelly should not be applied to the inside of the nose due to the risk of lipid pneumonia.[10]
Use in "green" applications
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Producers of personal care and cosmetic products try to incorporate into their formulas materials that are based on renewable resources. To keep the desirable properties of the petroleum based petroleum jelly (petrolatum), "hybrid petrolatums" are now being used in many applications. Hybrid petrolatum utilizes a complex mixture of vegetable oils and waxes and combines them with petroleum, micro wax based technologies. This allows a formulator to incorporate higher percentages of renewable resources while maintaining the beneficial properties of the petroleum jelly.
Due to the different chemical structure of vegetable based oils, producers of hybrid petrolatum must appropriately blend and match the correct petroleum and vegetable based materials in order to obtain an homogeneous mixture. This ensures the hybrid petrolatum will have compatibility comparable to a full, 100% petroleum based petroleum jelly when used in personal care, cosmetic, and other formulas.
References
- ^ a b "Petrolatum (white)". inchem.org. International Programme on Chemical Safety and the Commission of the European Communities. March 2002. http://www.inchem.org/documents/icsc/icsc/eics1440.htm. Retrieved August 5, 2011.
- ^ "Vaseline® | Petroleum Jelly". vaseline.com. 2011 [last update]. http://www.vaseline.com/Product.aspx?Path=Consumer/OurProducts/PetroleumJelly. Retrieved August 5, 2011. "has a melting point just above body temperature"
- ^ Vaseline (Petroleum Jelly) Material Safety Data Sheet (MSDS) (June 15, 2007). MakingCosmetics.com Inc. Retrieved August 5, 2011.
- ^ MacEachern, William; Jillson, Otis (1964). "A Practical Sunscreen – 'Red Vet Pet'". Archives of Dermatology 89: 147–50. doi:10.1001/archderm.1964.01590250153027. PMID 14070829.
- ^ a b "Condoms Fact Sheet". thebody.com. June 4, 2011. http://www.thebody.com/content/art6019.html. Retrieved August 5, 2011. "The oils in … Vaseline … will make latex fall apart."
- ^ P. 61 Porsche Owner’s Manual 911 Turbo 911 Carrera WKD91102187
- ^ P.16 928S Maintenance and General Repairs - Service Training Center WKS006021
- ^ Khan, Jemshed A. (2008). "CO2 Laser Resurfacing Immediate Postoperative Care Prior to Complete Epithelialization". In Hartstein, Morris E.; Holds, John B.; Massry, Guy G.. Pearls and Pitfalls in Cosmetic Oculoplastic Surgery. p. 417. doi:10.1007/978-0-387-69007-0_136. ISBN 978-0-387-25389-3.
- ^ Jeong, Jeung-Tae; Kye, Young-Chul (2001). "Resurfacing of Pitted Facial Acne Scars with a Long-Pulsed Er:YAG Laser". Dermatologic Surgery 27 (2): 107–10. doi:10.1046/j.1524-4725.2001.00201.x. PMID 11207680.
- ^ Brown, A. C.; Slocum, P. C.; Putthoff, S. L.; Wallace, W. E.; Foresman, B. H. (1994). "Exogenous lipoid pneumonia due to nasal application of petroleum jelly". Chest 105 (3): 968–9. doi:10.1378/chest.105.3.968. PMID 8131586.
- This article incorporates text from a publication now in the public domain: Chisholm, Hugh, ed. (1911). Encyclopædia Britannica (11th ed.). Cambridge University Press.
External links
- Study of the effect of Aquaphor and petroleum jelly ointment on wound healing
- Test methods for petroleum jelly
- Typical specifications of petroleum jelly when blended with vegetable based oils
E numbers
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Colours (E100–199) • Preservatives (E200–299) • Antioxidants & Acidity regulators (E300–399) • Thickeners, stabilisers & emulsifiers (E400–499) • pH regulators & anti-caking agents (E500–599) • Flavour enhancers (E600–699) • Miscellaneous (E900–999) • Additional chemicals (E1100–1599)
Waxes (E900–909) • Synthetic glazes (E910–919) • Improving agents (E920–929) • Packaging gases (E930–949) • Sweeteners (E950–969) • Foaming agents (E990–999)
Dimethyl polysiloxane (E900) • Beeswax (E901) • Candelilla wax (E902) • Carnauba wax (E903) • Shellac (E904) • Paraffins (E905) • Mineral oil (E905a) • Vaseline (E905b) • Microcrystalline wax (E905c) • Gum benzoic (E906) • Crystalline wax (E907) • Rice bran wax (E908)
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Routes of administration / Dosage forms
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Oral |
Digestive tract (enteral)
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Solids
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- Pill
- Tablet
- Capsule
- Time release technology
- Osmotic controlled release capsule (OROS)
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Liquids
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- Solution
- Softgel
- Suspension
- Emulsion
- Syrup
- Elixir
- Tincture
- Hydrogel
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Buccal / Sublabial / Sublingual
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Solids
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- Orally Disintegrating Tablet (ODT)
- Film
- Lollipop
- Lozenges
- Chewing gum
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Liquids
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- Mouthwash
- Toothpaste
- Ointment
- Oral spray
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Respiratory tract
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Solids
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- Smoking device
- Dry Powder Inhaler (DPI)
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Liquids
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- pressurized Metered Dose Inhaler (pMDI)
- Nebulizer
- Vaporizer
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Gas
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- Oxygen mask
- Oxygen concentrator
- Anaesthetic machine
- Relative analgesia machine
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Ocular / Otologic / Nasal |
- Nasal spray
- Ear drops
- Eye drops
- Ointment
- Hydrogel
- Nanosphere suspension
- Mucoadhesive microdisc (microsphere tablet)
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Urogenital |
- Ointment
- Pessary (vaginal suppository)
- Vaginal ring
- Vaginal douche
- Intrauterine device (IUD)
- Extra-amniotic infusion
- Intravesical infusion
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Rectal (enteral) |
- Ointment
- Suppository
- Enema
- Murphy drip
- Nutrient enema
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Dermal |
- Ointment
- Liniment
- Paste
- Film
- Hydrogel
- Liposomes
- Transfersome vesicles
- Cream
- Lotion
- Lip balm
- Medicated shampoo
- Dermal patch
- Transdermal patch
- Transdermal spray
- Jet injector
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Injection / Infusion
(into tissue/blood) |
Skin
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- Intradermal
- Subcutaneous
- Transdermal implant
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Organs
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- Intracavernous
- Intravitreal
- Intra-articular or intrasynovial injection
- Transscleral
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Central nervous system
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- Intracerebral
- Intrathecal
- Epidural
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Circulatory / Musculoskeletal
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- Intravenous
- Intracardiac
- Intramuscular
- Intraosseous
- Intraperitoneal
- Nanocell injection
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Additional explanation: |
- Mucous membranes are used by the human body to absorb the dosage for all routes of administration, except for "Dermal" and "Injection/Infusion".
Administration routes can also be grouped as Topical (local effect) or Systemic (defined as Enteral = Digestive tract/Rectal, or Parenteral = All other routes).
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Routes of administration by organ system
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Gastrointestinal |
- Oral
- Buccal
- Sublabial
- Sublingual
- Rectal
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Respiratory system |
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Visual system / Auditory system |
- Ocular (Ocular-topical / Intravitreal / Transscleral)
- Otologic (Oto-topical)
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Reproductive system |
- Intracavernous
- Intravaginal
- Intrauterine (Extra-amniotic)
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Urinary system |
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Peritoneum |
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Central nervous system |
- Intracerebral
- Intrathecal
- Epidural
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Circulatory system |
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Musculoskeletal system |
- Intramuscular
- Intraosseous
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Skin |
- Epicutaneous
- Intradermal
- Subcutaneous
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