Sunscreens And Photoprotection


Article Author:
Sarah Gabros


Article Editor:
Patrick Zito


Editors In Chief:
Sherri Murrell


Managing Editors:
Avais Raja
Orawan Chaigasame
Khalid Alsayouri
Kyle Blair
Radia Jamil
Erin Hughes
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Navid Mahabadi
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beenish Sohail
Hajira Basit
Phillip Hynes
Sandeep Sekhon


Updated:
1/13/2019 12:16:18 AM

Indications

Photoprotection is indicated for the reduction of ultraviolet (UV) radiation-induced skin damage and skin cancers.[1][2]Photoprotection includes sunscreens, clothing, hats, makeup, sunglasses, and windshields.[3] The damaging effects of UV radiation include photoaging and photocarcinogenesis. Photoaging can manifest as sagging and wrinkling, while photocarcinogenesis is due to the damage of cells and DNA. It has been identified that recurrent and severe sunburns are a risk factor for nonmelanoma skin cancer.[2] The FDA regulates sunscreen as an over-the-counter medication. Currently, 16 UV filters are listed, 14 organic filters and two nonorganic filters, including zinc oxide and titanium dioxide. The FDA has changed its guidelines to address broad-spectrum sunscreen use, which involves UVA and UVB coverage; water resistance, to indicate the time duration the sunscreen is effective; and sun protection factor (SPF). SPF-15 or higher is recommended and can be labeled as reducing the risk of skin cancer and early skin aging.[4]

Mechanism of Action

UV radiation greatly affects the skin, causing aging, sunburns, precancerous and cancerous lesions, and immunosuppression.[5] UV radiation has an immunosuppressive effect on the antigen-presenting cells within the epidermis and contributes to the likelihood of skin cancer.[4] There are 3 types of UV radiation: UVC, UVB, and UVA. The ozone layer absorbs 100% of UVC, 90% of UVB, and a minimal amount of UVA. For this reason, depletion of the ozone layer increases UV transmission. UVA is associated with aging and pigmentation. It penetrates deep into the skin layer and produces free radical oxygen species, indirectly damaging DNA. UVA increases the number of inflammatory cells in the dermis and decreases the number of antigen presenting cells.[6] UVB causes sunburn and DNA strand breaks. It causes pyrimidine dimer mutations which are associated with nonmelanoma skin cancers.[7] 

Photoprotection involves both primary and secondary protective factors. Primary factors are sunscreens; these include physical barriers which reflect and scatter light, and chemical barriers which absorb light. Secondary factors include antioxidants, osmolytes, and DNA repair enzymes which help to limit skin damage by disturbing the photochemical cascade that takes place by UV sunlight.[5] 

Chemical sunscreens are known as organic sunscreens. Their mechanism of action is based on their chemical structure involving an aromatic compound conjugated with a carbonyl group. This structure allows for high energy UV rays to be absorbed, causing the molecule to be in an excited state. As the molecule returns to ground state, it will release the lower energy of longer wavelengths. The specific range of wavelength a sunscreen absorbs will vary. Chemical sunscreens consist of UVA and UVB blockers. UVB filters absorb the entire spectrum of UVB radiation (290 to 320 nm). UVA filters do not cover the entire spectrum of UVA radiation. Uva radiation is divided into UVA I (340 to 400 nm) and UVA II (320 to 340nm). Broad spectrum sunscreens absorb UV radiation from both the UVA and UVB portions.[8]

UVB Blockers

  • Aminobenzoates
  • Cinnamates
  • Salicylates
  • Octocrylene
  • Ensulizole
  • Camphor derivatives

Aminobenzoates are the most potent UVB absorber but do not absorb UVA. Their use has declined due to para-aminobenzoic acid (PABA) sensitivity. PABA is a very effective UVB filter; however, it was reportedly the most common photoallergen and contact allergen. For this reason, it has limited use in sunscreen. Padimate O is the most commonly used PABA derivative, it has a good safety profile and is an effective UVB filter.[3]

Cinnamates have replaced PABA as the next most potent UVB absorber and include octinoxate (OMC) and cinoxate. [5] Octinoxate is the most commonly used UVB filter in the United States. It is not as potent a UVB absorber as padimate O; for this reason, other UVB absorbers are used in combination to increase the SPF. Octinaxate is not very photostable and degrades in the presence of sunlight after a short period of time. Cinnoxate is less commonly used.[3]

Salicylates are used in high concentrations as they are weak UVB absorbers. They are also used to increase the effect of other UVB filters. Two salicylates which are FDA listed are homosalate and octisalate. They function to decrease the photodegradation of other UV filters, such as oxybenzone and avobenzone. A water-soluble salicylate is trolamine salicylate.[3]

Octocrylene is a very safe chemical associated with a decreased likelihood of irritation, phototoxicity, and photoallergic potential.[9] When combined with other UV absorbers, it can increase the SPF formula.[5]

Ensulizole is a pure UVB filter and does nothing in effects of UVA. It is a water-soluble compound that is commonly used in cosmetics for a lighter, less oily feel. [5] 

Camphor derivatives are not FDA-listed but are moderately effective UVB filters. A camphor derivative that is also a broad UVA filter is terephthalyidene dicamphor sulfonic acid.[3]

UVA Blockers

  • Benzophenones
  • Anthranilates
  • Avobenzones
  • Ecamsule

Typical benzophenones absorb mostly UVB; however, oxybenzone is considered a broad spectrum absorber as it can absorb UVA II as well.[5] It is the most commonly used benzophenone.[3] However, out of all the sunscreens, oxybenzone has the greatest likelihood of inducing contact or photocontact dermatitis. Oxybenzone is not considered photostable, and although not scientifically proven yet, there is a concern about carcinogenic and endocrine adverse effects.[5]Other benzophenones that are FDA-listed are sulisobenzone and dioxybenzone.[3] 

Anthranilates are very weak UVB and UVA filters and are less effective than the benzophenones. As a result, they are rarely used.[3]

Avobenzones are considered broad spectrum and have a high efficacy against UVA I (>380 nm); however, they are very photounstable and lose from 50% to 90% of their particles after 1 hour of UV exposure. It is also reported that they degrade the UV filter octinoxate. To increase the photostability, UV absorbers such as octocrylene, benzophenones, salicylates, camphor derivatives, and micronized zinc oxide or titanium dioxide are used in combination.[3]

Ecamsule is made up of terephthalyidene dicamphor sulfonic acid, a very photostable product that is water resistant with low systemic absorption. In animal studies, it prevented UVA-induced photoaging.[3]

Broad spectrum sunscreens include methylene-bis-benzotriazolyl tetramethylbutylphenol (MBBT) and bis- ethylhexyloxyphenol methoxyphenyl triazine (BEMT). MBBT is advantageous as it is a large molecule which decreases the likelihood of systemic absorption or endocrine effects. It works as a combination of organic and inorganic filters ultimately absorbing, scattering, and reflecting UV radiation. It decreases UVA transmission more than UVB. BEMT also does not have an effect on the endocrine system and is photostable.[5]  

The mechanism of action of physical sunscreen is based on the reflection and scattering of UV light in much the same way as clothing. The reflective properties determine the effectiveness of the sunscreens. These properties include the reflective index, the size of the particles, the film thickness, and the dispersion of base. The higher the reflective index, the better the UV filter. Decreasing the size of the particles to a micronized form (10 to 50 nm) is more cosmetically appealing but leads to protection of shorter wavelengths and increases the risk of systemic absorption.[8]  A thick coating increases the degree of reflection but is cosmetically less appealing. Iron oxide can be added to increase absorption and improve UVA protection. Physical sunscreens consist of zinc oxide and titanium dioxide.[3]

Microfine zinc oxide protects against a wide range of UVA including UVA 1 (340 to 400 nm). It is very photostable and does not react with other UV filters. It is more effective than titanium dioxide in regards to UVA protection [3]; however, it is less efficient against UVB radiation.[5]

Microfine titanium dioxide protects against UVA 2 (315-340 nm) and UVB, but does not protect against UVA 1 as does zinc oxide .[5] It has a smaller particle size and higher refractive index than zinc oxide, causing it to appear white and making it cosmetically less appealing. Photochemical reactions cause zinc oxide and titanium dioxide to become less effective as a sunscreen. For this reason, silica and dimethicone coat these particles, stabilizing these inorganic filters.[3] 

Secondary photoprotection includes antioxidants, osmolytes, and DNA-repair enzymes which help to limit skin damage by disturbing the photochemical cascade that takes place by UV sunlight. The mechanism of action of antioxidants is to reduce the reactive oxygen species (ROS) produced from UVA radiation. Naturally, these ROS are neutralized by antioxidants found naturally within the body, such as superoxide dismutase and catalase. These enzymes can become saturated within an overproduction of reactive oxygen species, resulting in a deficiency of antioxidant and damage to proteins and DNA. Topical antioxidants function from within the cell to decrease the shortage of antioxidants and can remain active for several days after application.[10][5]  

Included in many sunscreens are antioxidants such as vitamin C, vitamin E, silymarin, and green tea polyphenols. Vitamin C acts to protect against UV- damage which results in sunburn and erythema.[5][11] Vitamin E has many protective actions, such as decreasing immunosuppression, erythema, photoaging, and photocarcinogenesis.[5][12][13][14] Silymarin comes from milk thistle plants, functioning to prevent lipid and lipoprotein oxidation and acting as a scavenger of reactive oxygen species. Topical application results in a decrease in UVB-induced sunburn cells and a reduction in the amount of UVB-induced pyrimidine dimers. In mice, it has shown to reduce the amount of UVB-induced tumors.[15] Green tea polyphenols contain antioxidants which are more potent than vitamin C and E. They are anti-inflammatory and anti-carcinogenic. They function to scavenge singlet oxygen, superoxide radicals, hydroxyl radicals, peroxyl radicals, and hydrogen peroxide.[16]

Osmolytes are small molecules that stabilize the cell in stressful conditions by regulating hydration. Taurine and ectoine are osmolytes that protect against many UV effects and are utilized in many sunscreens.[5][17][18]

Administration

Sunscreen should be applied topically. Correct administration is key for the effectiveness of use. A liberal uniform film of sunscreen should be applied, and application should be 15 minutes before sun exposure. The adequate amount to apply is 2 mg/cm2 which is equivalent to 30 mL/ body application. Sunscreen should be reapplied every 2 hours and after sweating or swimming.[2]

Clothing is a form of photoprotection, which can be measured using the UV protection factor.[5] This measures the transmission of UVA and UVB through a given fabric. In animal studies, a UPF over 30 has been shown to protect against erythema and premalignant lesions. Whether the fabric is wet or dry may increase or decrease UPF based on the type of fabric. Light colored fabrics have a decreased UPF compared to dark-colored fabrics.[3]  Overall, clothing provides a balanced amount of protection against both UVA and UVB, and loose-fitting, colored fabric is the best form of photoprotection.[5]

Hats are a variable form of photoprotection that is dependent on the brim width, material, and weaving. A hat with a brim width of more than 7.5 cm has an SPF of 7 for the nose, 5 for the neck, 3 for the cheeks, and 2 for the chin. A hat with a brim width of 2.5 to 7.5 cm has an SPF of 3 for the nose, 2 for the neck and cheek, and 0 for the chin. A hat with a brim of less than 2.5 cm has an SPF of 1.5 for the nose and a minimal amount for the chin and neck.[3]

The pigment content of makeup provides an SPF of 3 to 4, even if no sunscreen is included; however, this photoprotective effect is lost 4 hours after application. Many foundations now include UV filters to provide photoprotection.[3] 

Sunglasses are a form of photoprotection for the eyes. Sun exposure can result in many eye condition such as cataracts, which are the direct result of sun exposure, specifically UVB radiation. Chronic exposure results in the formation of cataracts and eye cancer. Sunglasses should absorb 99% to 100% of the full UV spectrum. Contact lenses can also provide photoprotection for the ocular lens; however, they do not protect the anterior portion of the eye.[3] 

Car windshields provide UV protection. The Federal Motor Vehicle Safety Standard No. 205 mandates that the tinted glass in cars provide no less than 70% transmission of visible radiation. The windshields of cars contain zinc, chrome, nickel, and other metals which block UV radiation. The windshield of the car is more photoprotective than the side window glass of the automobile.[3]

Adverse Effects

Adverse effects of sunscreen include four types of contact dermatitis: irritant, allergic, phototoxic, and photoallergic.[8] In Germany, a 15-year study of patch and photopatch testing demonstrated that the most common reaction to sunscreen is a nonimmune-based irritant response.[2] The most common UV filters that cause adverse effects are benzophenones and dibenzoylmethanes, with the most common photoallergen being benzophenone-3(BP-3), as it is a derivative of PABA. For this reason, benzophenone 3 is not used frequently in the United States.[2]  Some studies have associated sunscreen use with melanoma due to the users false sense of security which may increase the duration in the sun, resulting in UVA formation and malignant changes.[8] Phototoxic and allergic contact dermatitis are usually caused by UVA (320 to 400 nm) and visible light ranges (400 to 800 nm). UVA is capable of penetrating the reticular dermis and is the cause of most photosensitivity reactions.[19]

An American study revealed that UV filters are the most common cause of positive photo patch testing.[20] Risk factors that can lead to sunscreen allergy are unknown but are more likely to be sex, prior photodermatosis, use of sunscreen on damaged skin, working outdoors, and atopy. It was a concern in the past that regular sunscreen use would result in Vitamin D deficiency; however, vitamin D levels are not significantly affected by the regular use of sunscreen.[2]

The adverse effects of physical sunscreen are due to the usage of nanoparticles which has a more beneficial cosmetic effect. The increased surface area of nanoparticles can result in a greater amount of catalytic reactions, increasing the production of free radical and damage to DNA and proteins. These smaller particles can form complexes with the protein that can behave as haptens, inducing autoimmune conditions.[5][21]

Three observations led to the review of animal and human studies regarding the adverse effects of UV filters:

  • An increase in sunscreen use
  • An increase in incidence of malignant melanoma
  • An increase in experimental studies demonstrating UV filters have adverse endocrine effects

In vivo and in vitro animal studies have demonstrated multiple potential adverse effects of UV filters within sunscreen. These adverse effects include endocrine dysfunction of the reproductive and developmental system. The UV filters of concern include BP-3, 4-MBC, and OMC. An anti-estrogenic effect was strongly associated with BP-3 as well as 3-BC, 4 MBC, and OMC. This was based on the uterine weight of immature rats. The anti-estrogenic effect of HMS, OD-PABA, and PABA was demonstrated by UV filters in yeast expressing human estrogen receptor a. After exposure to UV filters, 3-BC and 4—MBC, there was a delay in male puberty and a reduction in prostate weight. The mechanism of action behind the reproductive toxicity may be due to alterations in proteins of the gene expression of estrogen receptor, androgen receptor, progesterone receptor, insulin-like growth factor I, complement proteins, nuclear receptor co-repressor, and steroid receptor coactivator 1 in the uterus and prostate. In a 90-day study with BP-3, fertility was affected in male mice. This was demonstrated by a decrease in sperm density in a dose-related manner following dermal exposure in mice and oral exposure in mice and rats.[20]

Experimental studies in humans have demonstrated an increased permeability of the UV filters BP-3, 4 MBC, and OMC. Levels could be detected in the plasma 1 to 2 hours after exposure. The study also demonstrated a difference in concentration based on gender. Male urine and plasma concentration samples were higher than female samples. A Swiss study of human breast milk revealed that 85% of the sample contained UV filters. Bisphenol and BP-3 share a similar chemical structure. Bisphenol can cross the blood-placenta barrier, so it is assumed that BP-3 can also cross the placenta. An increased concentration of BP-3 in a mother’s urine was associated with decreased birth weight in girls and increased birth weight and head circumference in boys.[20]

Contraindications

Although photoprotection is indicated in all age groups, the 1999 FDA Sunscreen Final Monograph recommended that parents of children under the age of 6 months should consult a physician before sunscreen administration in this age group. This is due to the lack of development of metabolism and excretion of the chemically absorbed agents within sunscreen. If sunscreen is necessary, it should be limited and infrequently used on sun-exposed regions only.[3]

Monitoring

Sunscreen is monitored as an over-the-counter medication by the FDA. The efficacy of sunscreen is determined by UVB protection, which is measured by the sun protection factor (SPF) and substantivity. SPF is the ratio of the smallest dose of UVB radiation required to produce minimal erythema on sunscreen-protected skin compared to the dose of UVB required to produce the same amount of erythema on non- protected skin. SPF is a greater predictor of protection against UVB since it is 1000 times more erythemogenic than UVA. An SPF-15 can block 94% of UVB radiation while an SPF-30 can block 97% of UVB radiation.[3] Substantivity is the ability of the sunscreen to withstand adverse conditions such as water and sweat. The FDA has defined terminology to label substantivity. Water-resistant refers to a 40 minute time interval of maintained photoprotection with water immersion and moderate activity. Very water resistant refers to an 80 minute time period. Both terms can be categorized as sweat resistant.[5]

Toxicity

In regards to contact dermatitis, the first step is to avoid the causative agent. Patch testing can be done to identify the etiologic agent, and the results of patch testing can be listed in the American Contact Dermatitis Society website. This can provide patients with a list of non-allergenic products that can be used. Treatment includes topical steroids for local reactions. Severe reactions require the use of systemic steroids. If oral steroids are ineffective, immunosuppressants such as oral cyclosporine, methotrexate, or mycophenolate mofetil can be used. For mild-to-moderate dermatitis, the calcineurin inhibitors, pimecrolimus, and tacrolimus can be used. [8]

With photoallergy and phototoxicity, UVA radiation is usually a requirement to precipitate the reaction. The etiologic agent should be avoided, but if avoidance is not possible, the patient should be advised to avoid direct sunlight and tanning beds and wear protective clothing and nonallergenic sunscreen.[8]

Barrier creams and high-lipid moisturizers can be used to prevent and improve irritant contact dermatitis.[8]

Enhancing Healthcare Team Outcomes

An estimated 1 million new cases of nonmelanoma skin cancer occur every year. The numbers have increased significantly over the last 20 years within the United States and Europe. A research survey completed in 2005 revealed that there is limited awareness of nonmelanoma skin cancer and prevention in the U.S., Australia, and Europe. For a majority of individuals, healthcare providers are not the main source of information for sun protection measures. The media plays a major influential role; however, there is minimal long-term behavioral change. These findings support the importance of engaging healthcare professionals to increase patient education regarding photoprotection and its role in the prevention of nonmelanoma skin cancer.[22]


Interested in Participating?

We are looking for contributors to author, edit, and peer review our vast library of review articles and multiple choice questions. In as little as 2-3 hours you can make a significant contribution to your specialty. In return for a small amount of your time, you will receive free access to all content and you will be published as an author or editor in eBooks, apps, online CME/CE activities, and an online Learning Management System for students, teachers, and program directors that allows access to review materials in over 500 specialties.

Improve Content - Become an Author or Editor

This is an academic project designed to provide inexpensive peer-reviewed Apps, eBooks, and very soon an online CME/CE system to help students identify weaknesses and improve knowledge. We would like you to consider being an author or editor. Please click here to learn more. Thank you for you for your interest, the StatPearls Publishing Editorial Team.

Sunscreens And Photoprotection - Questions

Take a quiz of the questions on this article.

Take Quiz
An unprotected patient develops minimal erythema after 20 minutes of sun exposure. What is the main form of radiation that induces erythema and is used to determine the sun protection factor (SPF)?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
Which of the following is an example of a cinnamate that would be found in a sunscreen cream?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
Which of the following is not considered a physical or chemical ultraviolet (UV) filter?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
A mother is determining whether she should apply sunscreen to her 2-month-old child. She is concerned about potential adverse effects at such a young age. The regular use of sunscreen is not recommended for children below what age?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
A sunscreen label has listed the active ingredients of octinoxate, homosalate, and octocrylene. Which of the following explains the type and mechanism of these ultraviolet (UV) filters?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
What is the sun protection factor (SPF) for a sunscreen that induces minimal erythema on sunscreen-protected skin at a ratio of 45:1 compared to the minimal erythema produced on unprotected skin?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
What is expected length of protection that could be expected using sunscreen with a sun protection factor of 10 if the individual normally starts to burn within 60 minutes?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
What category of over-the-counter products might contain the ingredient ecamsule, and what is the mechanism of action of this ingredient?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up

Sunscreens And Photoprotection - References

References

Moloney FJ,Collins S,Murphy GM, Sunscreens: safety, efficacy and appropriate use. American journal of clinical dermatology. 2002     [PubMed]
Rai R,Srinivas CR, Photoprotection. Indian journal of dermatology, venereology and leprology. 2007 Mar-Apr     [PubMed]
Kullavanijaya P,Lim HW, Photoprotection. Journal of the American Academy of Dermatology. 2005 Jun     [PubMed]
Rai R,Shanmuga SC,Srinivas C, Update on photoprotection. Indian journal of dermatology. 2012 Sep     [PubMed]
Latha MS,Martis J,Shobha V,Sham Shinde R,Bangera S,Krishnankutty B,Bellary S,Varughese S,Rao P,Naveen Kumar BR, Sunscreening agents: a review. The Journal of clinical and aesthetic dermatology. 2013 Jan     [PubMed]
Lavker RM,Gerberick GF,Veres D,Irwin CJ,Kaidbey KH, Cumulative effects from repeated exposures to suberythemal doses of UVB and UVA in human skin. Journal of the American Academy of Dermatology. 1995 Jan     [PubMed]
Rhodes LE, Topical and systemic approaches for protection against solar radiation-induced skin damage. Clinics in dermatology. 1998 Jan-Feb     [PubMed]
Heurung AR,Raju SI,Warshaw EM, Adverse reactions to sunscreen agents: epidemiology, responsible irritants and allergens, clinical characteristics, and management. Dermatitis : contact, atopic, occupational, drug. 2014 Nov-Dec     [PubMed]
Nash JF, Human safety and efficacy of ultraviolet filters and sunscreen products. Dermatologic clinics. 2006 Jan     [PubMed]
Pinnell SR,Yang H,Omar M,Monteiro-Riviere N,DeBuys HV,Walker LC,Wang Y,Levine M, Topical L-ascorbic acid: percutaneous absorption studies. Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.]. 2001 Feb     [PubMed]
Roshchupkin DI,Pistsov MY,Potapenko AY, Inhibition of ultraviolet light-induced erythema by antioxidants. Archives of dermatological research. 1979 Aug     [PubMed]
Jurkiewicz BA,Bissett DL,Buettner GR, Effect of topically applied tocopherol on ultraviolet radiation-mediated free radical damage in skin. The Journal of investigative dermatology. 1995 Apr     [PubMed]
Burke KE,Clive J,Combs GF Jr,Commisso J,Keen CL,Nakamura RM, Effects of topical and oral vitamin E on pigmentation and skin cancer induced by ultraviolet irradiation in Skh:2 hairless mice. Nutrition and cancer. 2000     [PubMed]
Yuen KS,Halliday GM, alpha-Tocopherol, an inhibitor of epidermal lipid peroxidation, prevents ultraviolet radiation from suppressing the skin immune system. Photochemistry and photobiology. 1997 Mar     [PubMed]
Katiyar SK,Korman NJ,Mukhtar H,Agarwal R, Protective effects of silymarin against photocarcinogenesis in a mouse skin model. Journal of the National Cancer Institute. 1997 Apr 16     [PubMed]
Elmets CA,Singh D,Tubesing K,Matsui M,Katiyar S,Mukhtar H, Cutaneous photoprotection from ultraviolet injury by green tea polyphenols. Journal of the American Academy of Dermatology. 2001 Mar     [PubMed]
Rockel N,Esser C,Grether-Beck S,Warskulat U,Flögel U,Schwarz A,Schwarz T,Yarosh D,Häussinger D,Krutmann J, The osmolyte taurine protects against ultraviolet B radiation-induced immunosuppression. Journal of immunology (Baltimore, Md. : 1950). 2007 Sep 15     [PubMed]
Buenger J,Driller H, Ectoin: an effective natural substance to prevent UVA-induced premature photoaging. Skin pharmacology and physiology. 2004 Sep-Oct     [PubMed]
Jatana S,DeLouise LA, Understanding engineered nanomaterial skin interactions and the modulatory effects of ultraviolet radiation skin exposure. Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology. 2014 Jan-Feb     [PubMed]
Krause M,Klit A,Blomberg Jensen M,Søeborg T,Frederiksen H,Schlumpf M,Lichtensteiger W,Skakkebaek NE,Drzewiecki KT, Sunscreens: are they beneficial for health? An overview of endocrine disrupting properties of UV-filters. International journal of andrology. 2012 Jun     [PubMed]
Donaldson K,Stone V,Tran CL,Kreyling W,Borm PJ, Nanotoxicology. Occupational and environmental medicine. 2004 Sep     [PubMed]
Halpern AC,Kopp LJ, Awareness, knowledge and attitudes to non-melanoma skin cancer and actinic keratosis among the general public. International journal of dermatology. 2005 Feb     [PubMed]

Disclaimer

The intent of StatPearls is to provide practice questions and explanations to assist you in identifying and resolving knowledge deficits. These questions and explanations are not intended to be a source of the knowledge base of all of medicine, nor is it intended to be a board or certification review of Nurse-Elder Adult Care. The authors or editors do not warrant the information is complete or accurate. The reader is encouraged to verify each answer and explanation in several references. All drug indications and dosages should be verified before administration.

StatPearls offers the most comprehensive database of free multiple-choice questions with explanations and short review chapters ever developed. This system helps physicians, medical students, dentists, nurses, pharmacists, and allied health professionals identify education deficits and learn new concepts. StatPearls is not a board or certification review system for Nurse-Elder Adult Care, it is a learning system that you can use to help improve your knowledge base of medicine for life-long learning. StatPearls will help you identify your weaknesses so that when you are ready to study for a board or certification exam in Nurse-Elder Adult Care, you will already be prepared.

Our content is updated continuously through a multi-step peer review process that will help you be prepared and review for a thorough knowledge of Nurse-Elder Adult Care. When it is time for the Nurse-Elder Adult Care board and certification exam, you will already be ready. Besides online study quizzes, we also publish our peer-reviewed content in eBooks and mobile Apps. We also offer inexpensive CME/CE, so our content can be used to attain education credits while you study Nurse-Elder Adult Care.