Sunscreen is put to the test in a randomized controlled trial to see if it can actually prevent skin cancer. According to the U.S. Food and Drug Administration, only two sunscreen ingredients can be considered safe: zinc oxide and titanium dioxide.
Friday Favorites: Does Sunscreen Cause or Prevent Skin Cancer? Which Type Is Best to Use?
Below is an approximation of this video’s audio content. To see any graphs, charts, graphics, images, and quotes to which Dr. Greger may be referring, watch the above video.
Decades ago, studies started bubbling up, reporting that not only was the use of sunscreen not found to be protective against skin cancer, but it was associated with significantly elevated risk. But subsequent studies offered the obvious explanation of this paradox. People who use sunscreen are more likely to be sunbathers. That’s like finding that those who use motorcycle helmets are more likely to die on the highway. It’s not that sunscreen and helmets aren’t protective; it’s just that they are associated with engagement in risky activities. But you don’t know, until you put it to the test.
As I noted in my last video, randomized controlled trials have shown that regular use of sunscreen can arrest visible signs of skin aging, including biopsy-proven reductions in UV-related skin damage. But are there interventional trials proving sunscreen can prevent cancer? Yes.
Organ transplant recipients are highly susceptible to skin cancers because they have to be given immune suppressants to prevent organ rejection. A group of 120 organ recipients were equally informed about sun protection measures, but half were given free, broad spectrum SPF 50+ sunscreen for daily application to their head, neck, forearms, and hands. After two years, there were nine new basal carcinomas in the control group, versus only two in the sunscreen group. That sounds good, but it may have just been a fluke. In contrast, there was a highly significant difference in the proportion of patients who got new invasive squamous cell carcinomas. Eight new cases in the control group, versus zero in the sunscreen group. But wait until you hear about what happened to their actinic keratoses, the precancerous growths that can turn into skin cancer.
They all started out covered in them; a total of 191 detected in each group. In the subsequent 24 months, the control group developed 82 new ones. How many did the sunscreen group develop? Negative 102. More than 100 precancerous growths in the sunscreen group spontaneously regressed and vanished completely (compared to 82 new growths developing in the control group without a single one disappearing). Their bodies, even in their immunocompromised state, could heal itself once it just stopped being bombarded with so many cancer-causing rays.
Other randomized controlled trials have shown similar findings, but generalizability is limited. The studies all used high-risk populations––for example, those living in subtropical climates, or with a personal history of precancerous lesions. So, cancer prevention efficacy in the general population would be expected to be less. On the other hand, the studies could have also underestimated the impact, since they were relatively short-term (not exceeding four years), and ethically had to allow control group participants to slather on their own sunscreen, which would dilute the difference between groups.
For maximum effectiveness, sunscreen needs to be applied properly, which apparently rarely happens in the real world. In a study of nearly 5,000 skiers and snowboarders, almost no one, only about 4 percent, were fully compliant with sunscreen recommendations. First, there’s the amount. The FDA standard is two milligrams per square centimeter. What does that mean? Use the teaspoon rule: one teaspoon for your face, one for your head and neck, one for the front of your torso, another for your back, one teaspoon for each arm and two teaspoons for each leg. That’s a total of nine teaspoons. That’s about the total volume equivalent of a golf ball or shot glass, to help you visualize it.
Unfortunately, the average sunscreen user may only apply a quarter of the recommended amount. This is why high SPF sunscreens are often recommended, like 50+ SPF. Although the FDA recommends a minimum SPF of only 15 to prevent skin cancer, under normal consumer conditions, even an SPF of 50 may effectively give you only an SPF of 12.5, because most people don’t put on enough. Randomized double-blind, head-to-head, split-face experiments, where you are randomized to apply one sunscreen on one side of your face, and another sunscreen to the other side, show that in real life use, SPF 100+ sunscreen works significantly better than SPF 50+ sunscreen. More than 50 percent of the participants were sunburned more on their SPF 50+ side, compared to only about 5 percent on their SPF 100+ side.
Now, a potential downside of higher SPF sunscreens is that they could provide a false sense of security. Those randomized to an SPF 30 sunscreen ended up spending more cumulative time in the sun than those receiving an SPF 10 sunscreen––as much as five times longer in some cases.
What else? Well, people tend to remember to use sunscreen on a sunny day at the beach. But sun protection is needed even on cloudy days, since the UV rays are not dampened as much as visible light. There’s even a phenomenon known as “cloud enhancement” where overcast skies can sometimes result in even more UV reaching the Earth’s surface compared to clear skies.
Sunscreen labels often suggest waiting at least 15 minutes after application before going outdoors, but when put to the test, sunscreen was found to start working immediately, with the full effect apparent by minute ten. However, if water resistance is required, it may be prudent to wait the full 15 to 30 minutes after application before taking a dip. The terms “waterproof” or “sweatproof” appear to be meaningless marketing, as no difference in retention was noted between “waterproof” products and those merely labeled “water-resistant.” Both were better than non-water-resistant products, though, which lost nearly all their protective effects within 20 minutes of water immersion.
The suggestion that sunscreen should be reapplied every two to three hours only applies under conditions in which it is rinsed off by water or sweat, or rubbed off by friction from clothing or sand. Even after allowing sunscreen to dry first for 20 minutes, between 15 to 60 percent of its protective effect can be lost after contact with sand. Otherwise, if the recommended amount is applied and the sunscreen layer is not disturbed, SPF can be maintained for as long as eight hours.
What kind of sunscreen should you use? Cream-based is preferable to spray-on, since the completeness of application is more readily visualized. To help with adequate coverage, spray-on sunscreens should be rubbed on immediately after spraying. Aerosolized sunscreens are flammable and can combust on the skin upon exposure to an open flame, even after the sunscreen has dried. What’s more, the safety of breathing in aerosolized sunscreen chemicals has not been adequately studied, though frankly the same thing could be said about rubbing them on your skin.
The concerns surrounding sunscreen safety are three-fold: increased intentional sun exposure, vitamin D deficiency, and untoward effects from systemic absorption of sunscreen chemicals.
In the 1800s, we first learned that UV-B caused sunburns, and formulated sunscreens to block it. Nearly a century later, we learned about the contribution of UV-A. Now, a full century later, we are realizing that infra-red and visible light may also be contributing to cancer and premature skin aging. Sunlight comes to us in three major bands: visible light, ultraviolet, and infra-red. Visible light includes the colors of the rainbow—red, orange, yellow, green, blue, indigo, and violet, or ROYGBIV. Ultraviolet—UV—is to the right of violet in ROYGBIV, and infra-red to the left of red. Sunscreen can protect us against the free radical damage of UV, but half of the free radical formation in our skin from the sun may be from the visible or infrared spectrums, which sunscreens may not adequately cover. So, that’s where sun avoidance strategies come in. But you can imagine how shade-seeking could be undermined by the solacement of a sunscreen security blanket.
What about vitamin D? The theoretical concern about sunscreen affecting vitamin D status does not seem to manifest in the real world, likely because the UV dose necessary for vitamin D production is so low––well before skin turns a pinker shade.
However, concerns about the systemic absorption of sunscreen chemicals were underscored by the recent FDA bombshell that not a single one of sunscreen chemicals in current use can be considered generally recognized as safe. Only two active ingredients got the green light: the two non-chemical “mineral” sunscreens: titanium dioxide and zinc oxide. The revelation was based on a growing body of evidence that transdermal (meaning through-the-skin) absorption of sunscreen chemicals was greater than we previously thought, raising unevaluated safety concerns. Unevaluated, because we previously didn’t think so much got into our bloodstreams.
In 2019, a study published in the Journal of the American Medical Association found that under maximum usage conditions over a period of days, the blood levels of all of the sunscreen chemicals they tested exceeded the FDA threshold that could potentially waive further safety testing. Then, in 2020, they found that just a single application of all of the chemical sunscreens they tested surpassed the threshold. Now just because they’re absorbed into our system, doesn’t necessarily mean they’re unsafe. It just means they need to be tested for safety, which, the FDA determined, the multibillion-dollar sunscreen industry has so far failed to do.
The FDA concluded that two ingredients can be considered safe— zinc oxide and titanium dioxide, and two can be considered unsafe— PABA and trolamine salicylate. And the other 12 ingredients that are currently marketed have yet to be sufficiently safety tested. According to a review of more than 700 sunscreen brands, it appears PABA and trolamine are no longer being marketed in sunscreens sold in the United States. But they still may be available in other countries. Until the data are in on the rest of the chemical sunscreens, I would recommend sticking to the two mineral sunscreens. Historically, they’ve tended to be thicker and whiter, which could lead to even more severe underdosing. But newer micronized formulations with smaller mineral particle sizes tend to be less noticeable.
This is particularly an issue for those with darker skin. The average built-in SPF of black skin (also known in the medical literature as “ethnic skin” or “SOC,” skin of color) is around 13 naturally, compared with only about three for white skin. Though there haven’t been any interventional studies on sunscreen effectiveness for skin cancer prevention in people with dark skin, SPF 13 is not considered sufficient sun protection. So, the American Academy of Dermatology recommends regular sunscreen use with an SPF of 30 or higher for people of all skin types.
Unfortunately, only about 12 percent of non-Hispanic Blacks, and 31 percent of Hispanics report regularly using sunscreen, compared to around 44 percent of non-Hispanic whites. Despite this, the incidence of melanoma, the deadliest skin cancer, is five times lower in Hispanics compared to whites, and more than 25 times lower among Blacks. However, the mortality rate if you do get it is higher among African-Americans, presumed to be from delayed diagnosis.
Please consider volunteering to help out on the site.
- Westerdahl J, Olsson H, Måsbäck A, Ingvar C, Jonsson N. Is the use of sunscreens a risk factor for malignant melanoma? Melanoma Res. 1995;5(1):59-65.
- Westerdahl J, Ingvar C, Mâsbäck A, Olsson H. Sunscreen use and malignant melanoma. Int J Cancer. 2000;87(1):145-150.
- Li H, Colantonio S, Dawson A, Lin X, Beecker J. Sunscreen application, safety, and sun protection: the evidence. J Cutan Med Surg. 2019;23(4):357-369.
- Phillips TJ, Bhawan J, Yaar M, Bello Y, Lopiccolo D, Nash JF. Effect of daily versus intermittent sunscreen application on solar simulated UV radiation-induced skin response in humans. J Am Acad Dermatol. 2000;43(4):610-618.
- Ulrich C, Jürgensen JS, Degen A, et al. Prevention of non-melanoma skin cancer in organ transplant patients by regular use of a sunscreen: a 24 months, prospective, case-control study. Br J Dermatol. 2009;161 Suppl 3:78-84.
- Waldman RA, Grant-Kels JM. The role of sunscreen in the prevention of cutaneous melanoma and nonmelanoma skin cancer. J Am Acad Dermatol. 2019;80(2):574-576.e1.
- Ramos-e-Silva M, Celem LR, Ramos-e-Silva S, Fucci-da-Costa AP. Anti-aging cosmetics: facts and controversies. Clin Dermatol. 2013;31(6):750-758.
- Buller DB, Andersen PA, Walkosz BJ, et al. Compliance with sunscreen advice in a survey of adults engaged in outdoor winter recreation at high-elevation ski areas. J Am Acad Dermatol. 2012;66(1):63-70.
- Isedeh P, Osterwalder U, Lim HW. Teaspoon rule revisited: proper amount of sunscreen application. Photodermatol Photoimmunol Photomed. 2013;29(1):55-56.
- Krutmann J, Berking C, Berneburg M, Diepgen TL, Dirschka T, Szeimies M. New strategies in the prevention of actinic keratosis: a critical review. Skin Pharmacol Physiol. 2015;28(6):281-289.
- Williams JD, Maitra P, Atillasoy E, Wu MM, Farberg AS, Rigel DS. SPF 100+ sunscreen is more protective against sunburn than SPF 50+ in actual use: Results of a randomized, double-blind, split-face, natural sunlight exposure clinical trial. J Am Acad Dermatol. 2018;78(5):902-910.e2.
- Autier P, Doré JF, Négrier S, et al. Sunscreen use and duration of sun exposure: a double-blind, randomized trial. J Natl Cancer Inst. 1999;91(15):1304-1309.
- Strauss DG, Michele TM. Skin cancer prevention and sunscreen safety: commentary on american society of clinical oncology policy statement on skin cancer prevention. JCO Oncol Pract. 2020;16(8):436-438.
- Calbó J, Pagès D, González JA. Empirical studies of cloud effects on uv radiation: a review: cloud effects on uv radiation. Rev Geophys. 2005;43(2).
- Guidance for Industry Labeling and Effectiveness Testing: Sunscreen Drug Products for OverThe-Counter Human Use — Small Entity Compliance Guide. HHS, FDA, CDER. Dec 2012.
- de Gálvez MV, Aguilera J, Buendía EA, Sánchez-Roldán C, Herrera-Ceballos E. Time required for a standard sunscreen to become effective following application: a UV photography study. J Eur Acad Dermatol Venereol. 2018;32(4):e123-e124.
- Stokes RP, Diffey BL. The water resistance of sunscreen and day-care products. Br J Dermatol. 1999;140(2):259-263.
- Stokes RP, Diffey BL. A novel ex vivo technique to assess the sand/rub resistance of sunscreen products. Int J Cosmet Sci. 2000;22(5):329-334.
- Sander M, Sander M, Burbidge T, Beecker J. The efficacy and safety of sunscreen use for the prevention of skin cancer. CMAJ. 2020;192(50):E1802-E1808.
- Sander M, Sander M, Burbidge T, Beecker J. The efficacy and safety of sunscreen use for the prevention of skin cancer. CMAJ. 2020;192(50):E1802-E1808.
- Barr J. Spray-on sunscreens need a good rub. J Am Acad Dermatol. 2005;52(1):180-181.
- Pearce K, Goldsmith WT, Greenwald R, Yang C, Mainelis G, Wright C. Characterization of an aerosol generation system to assess inhalation risks of aerosolized nano-enabled consumer products. Inhal Toxicol. 2019;31(9-10):357-367.
- Waldman RA, Grant-Kels JM. The role of sunscreen in the prevention of cutaneous melanoma and nonmelanoma skin cancer. J Am Acad Dermatol. 2019;80(2):574-576.e1.
- Urbach F. The historical aspects of sunscreens. J Photochem Photobiol B. 2001;64(2-3):99-104.
- Kumakiri M, Hashimoto K, Willis I. Biologic changes due to long-wave ultraviolet irradiation on human skin: ultrastructural study. J Invest Dermatol. 1977;69(4):392-400.
- Michalski B, Olasz E. What you didn’t know about the sun: infrared radiation and its role in photoaging. Plast Surg Nurs. 2016;36(4):170-172.
- Zastrow L, Meinke MC, Albrecht S, Patzelt A, Lademann J. From uv protection to protection in the whole spectral range of the solar radiation: new aspects of sunscreen development. Adv Exp Med Biol. 2017;996:311-318.
- Passeron T, Bouillon R, Callender V, et al. Sunscreen photoprotection and vitamin D status. Br J Dermatol. 2019;181(5):916-931.
- FDA proposed order: sunscreen drug products for over-the-counter-human use. US FDA.
- FDA, HHS. Sunscreen Drug Products for Over-the-Counter Human Use. Federal Register. Feb 2019. 84(38);6204-6275.
- Matta MK, Zusterzeel R, Pilli NR, et al. Effect of sunscreen application under maximal use conditions on plasma concentration of sunscreen active ingredients: a randomized clinical trial. JAMA. 2019;321(21):2082-2091.
- Matta MK, Florian J, Zusterzeel R, et al. Effect of sunscreen application on plasma concentration of sunscreen active ingredients: a randomized clinical trial. JAMA. 2020;323(3):256-267.
- Strauss DG, Michele TM. Skin cancer prevention and sunscreen safety: commentary on american society of clinical oncology policy statement on skin cancer prevention. JCO Oncol Pract. 2020;16(8):436-438.
- FDA advances new proposed regulation to make sure that sunscreens are safe and effective. US FDA. Feb 2019.
- Diffey BL, Grice J. The influence of sunscreen type on photoprotection. Br J Dermatol. 1997;137(1):103-105.
- Li H, Colantonio S, Dawson A, Lin X, Beecker J. Sunscreen application, safety, and sun protection: the evidence. J Cutan Med Surg. 2019;23(4):357-369.
- Tsai J, Chien AL. Photoprotection for skin of color. Am J Clin Dermatol. 2022;23(2):195-205.
- National Cancer Institute. Cancer Trends Progress Report. Bethesda, MD. Oct 2022.
Motion graphics by Avo Media
Below is an approximation of this video’s audio content. To see any graphs, charts, graphics, images, and quotes to which Dr. Greger may be referring, watch the above video.
Decades ago, studies started bubbling up, reporting that not only was the use of sunscreen not found to be protective against skin cancer, but it was associated with significantly elevated risk. But subsequent studies offered the obvious explanation of this paradox. People who use sunscreen are more likely to be sunbathers. That’s like finding that those who use motorcycle helmets are more likely to die on the highway. It’s not that sunscreen and helmets aren’t protective; it’s just that they are associated with engagement in risky activities. But you don’t know, until you put it to the test.
As I noted in my last video, randomized controlled trials have shown that regular use of sunscreen can arrest visible signs of skin aging, including biopsy-proven reductions in UV-related skin damage. But are there interventional trials proving sunscreen can prevent cancer? Yes.
Organ transplant recipients are highly susceptible to skin cancers because they have to be given immune suppressants to prevent organ rejection. A group of 120 organ recipients were equally informed about sun protection measures, but half were given free, broad spectrum SPF 50+ sunscreen for daily application to their head, neck, forearms, and hands. After two years, there were nine new basal carcinomas in the control group, versus only two in the sunscreen group. That sounds good, but it may have just been a fluke. In contrast, there was a highly significant difference in the proportion of patients who got new invasive squamous cell carcinomas. Eight new cases in the control group, versus zero in the sunscreen group. But wait until you hear about what happened to their actinic keratoses, the precancerous growths that can turn into skin cancer.
They all started out covered in them; a total of 191 detected in each group. In the subsequent 24 months, the control group developed 82 new ones. How many did the sunscreen group develop? Negative 102. More than 100 precancerous growths in the sunscreen group spontaneously regressed and vanished completely (compared to 82 new growths developing in the control group without a single one disappearing). Their bodies, even in their immunocompromised state, could heal itself once it just stopped being bombarded with so many cancer-causing rays.
Other randomized controlled trials have shown similar findings, but generalizability is limited. The studies all used high-risk populations––for example, those living in subtropical climates, or with a personal history of precancerous lesions. So, cancer prevention efficacy in the general population would be expected to be less. On the other hand, the studies could have also underestimated the impact, since they were relatively short-term (not exceeding four years), and ethically had to allow control group participants to slather on their own sunscreen, which would dilute the difference between groups.
For maximum effectiveness, sunscreen needs to be applied properly, which apparently rarely happens in the real world. In a study of nearly 5,000 skiers and snowboarders, almost no one, only about 4 percent, were fully compliant with sunscreen recommendations. First, there’s the amount. The FDA standard is two milligrams per square centimeter. What does that mean? Use the teaspoon rule: one teaspoon for your face, one for your head and neck, one for the front of your torso, another for your back, one teaspoon for each arm and two teaspoons for each leg. That’s a total of nine teaspoons. That’s about the total volume equivalent of a golf ball or shot glass, to help you visualize it.
Unfortunately, the average sunscreen user may only apply a quarter of the recommended amount. This is why high SPF sunscreens are often recommended, like 50+ SPF. Although the FDA recommends a minimum SPF of only 15 to prevent skin cancer, under normal consumer conditions, even an SPF of 50 may effectively give you only an SPF of 12.5, because most people don’t put on enough. Randomized double-blind, head-to-head, split-face experiments, where you are randomized to apply one sunscreen on one side of your face, and another sunscreen to the other side, show that in real life use, SPF 100+ sunscreen works significantly better than SPF 50+ sunscreen. More than 50 percent of the participants were sunburned more on their SPF 50+ side, compared to only about 5 percent on their SPF 100+ side.
Now, a potential downside of higher SPF sunscreens is that they could provide a false sense of security. Those randomized to an SPF 30 sunscreen ended up spending more cumulative time in the sun than those receiving an SPF 10 sunscreen––as much as five times longer in some cases.
What else? Well, people tend to remember to use sunscreen on a sunny day at the beach. But sun protection is needed even on cloudy days, since the UV rays are not dampened as much as visible light. There’s even a phenomenon known as “cloud enhancement” where overcast skies can sometimes result in even more UV reaching the Earth’s surface compared to clear skies.
Sunscreen labels often suggest waiting at least 15 minutes after application before going outdoors, but when put to the test, sunscreen was found to start working immediately, with the full effect apparent by minute ten. However, if water resistance is required, it may be prudent to wait the full 15 to 30 minutes after application before taking a dip. The terms “waterproof” or “sweatproof” appear to be meaningless marketing, as no difference in retention was noted between “waterproof” products and those merely labeled “water-resistant.” Both were better than non-water-resistant products, though, which lost nearly all their protective effects within 20 minutes of water immersion.
The suggestion that sunscreen should be reapplied every two to three hours only applies under conditions in which it is rinsed off by water or sweat, or rubbed off by friction from clothing or sand. Even after allowing sunscreen to dry first for 20 minutes, between 15 to 60 percent of its protective effect can be lost after contact with sand. Otherwise, if the recommended amount is applied and the sunscreen layer is not disturbed, SPF can be maintained for as long as eight hours.
What kind of sunscreen should you use? Cream-based is preferable to spray-on, since the completeness of application is more readily visualized. To help with adequate coverage, spray-on sunscreens should be rubbed on immediately after spraying. Aerosolized sunscreens are flammable and can combust on the skin upon exposure to an open flame, even after the sunscreen has dried. What’s more, the safety of breathing in aerosolized sunscreen chemicals has not been adequately studied, though frankly the same thing could be said about rubbing them on your skin.
The concerns surrounding sunscreen safety are three-fold: increased intentional sun exposure, vitamin D deficiency, and untoward effects from systemic absorption of sunscreen chemicals.
In the 1800s, we first learned that UV-B caused sunburns, and formulated sunscreens to block it. Nearly a century later, we learned about the contribution of UV-A. Now, a full century later, we are realizing that infra-red and visible light may also be contributing to cancer and premature skin aging. Sunlight comes to us in three major bands: visible light, ultraviolet, and infra-red. Visible light includes the colors of the rainbow—red, orange, yellow, green, blue, indigo, and violet, or ROYGBIV. Ultraviolet—UV—is to the right of violet in ROYGBIV, and infra-red to the left of red. Sunscreen can protect us against the free radical damage of UV, but half of the free radical formation in our skin from the sun may be from the visible or infrared spectrums, which sunscreens may not adequately cover. So, that’s where sun avoidance strategies come in. But you can imagine how shade-seeking could be undermined by the solacement of a sunscreen security blanket.
What about vitamin D? The theoretical concern about sunscreen affecting vitamin D status does not seem to manifest in the real world, likely because the UV dose necessary for vitamin D production is so low––well before skin turns a pinker shade.
However, concerns about the systemic absorption of sunscreen chemicals were underscored by the recent FDA bombshell that not a single one of sunscreen chemicals in current use can be considered generally recognized as safe. Only two active ingredients got the green light: the two non-chemical “mineral” sunscreens: titanium dioxide and zinc oxide. The revelation was based on a growing body of evidence that transdermal (meaning through-the-skin) absorption of sunscreen chemicals was greater than we previously thought, raising unevaluated safety concerns. Unevaluated, because we previously didn’t think so much got into our bloodstreams.
In 2019, a study published in the Journal of the American Medical Association found that under maximum usage conditions over a period of days, the blood levels of all of the sunscreen chemicals they tested exceeded the FDA threshold that could potentially waive further safety testing. Then, in 2020, they found that just a single application of all of the chemical sunscreens they tested surpassed the threshold. Now just because they’re absorbed into our system, doesn’t necessarily mean they’re unsafe. It just means they need to be tested for safety, which, the FDA determined, the multibillion-dollar sunscreen industry has so far failed to do.
The FDA concluded that two ingredients can be considered safe— zinc oxide and titanium dioxide, and two can be considered unsafe— PABA and trolamine salicylate. And the other 12 ingredients that are currently marketed have yet to be sufficiently safety tested. According to a review of more than 700 sunscreen brands, it appears PABA and trolamine are no longer being marketed in sunscreens sold in the United States. But they still may be available in other countries. Until the data are in on the rest of the chemical sunscreens, I would recommend sticking to the two mineral sunscreens. Historically, they’ve tended to be thicker and whiter, which could lead to even more severe underdosing. But newer micronized formulations with smaller mineral particle sizes tend to be less noticeable.
This is particularly an issue for those with darker skin. The average built-in SPF of black skin (also known in the medical literature as “ethnic skin” or “SOC,” skin of color) is around 13 naturally, compared with only about three for white skin. Though there haven’t been any interventional studies on sunscreen effectiveness for skin cancer prevention in people with dark skin, SPF 13 is not considered sufficient sun protection. So, the American Academy of Dermatology recommends regular sunscreen use with an SPF of 30 or higher for people of all skin types.
Unfortunately, only about 12 percent of non-Hispanic Blacks, and 31 percent of Hispanics report regularly using sunscreen, compared to around 44 percent of non-Hispanic whites. Despite this, the incidence of melanoma, the deadliest skin cancer, is five times lower in Hispanics compared to whites, and more than 25 times lower among Blacks. However, the mortality rate if you do get it is higher among African-Americans, presumed to be from delayed diagnosis.
Please consider volunteering to help out on the site.
- Westerdahl J, Olsson H, Måsbäck A, Ingvar C, Jonsson N. Is the use of sunscreens a risk factor for malignant melanoma? Melanoma Res. 1995;5(1):59-65.
- Westerdahl J, Ingvar C, Mâsbäck A, Olsson H. Sunscreen use and malignant melanoma. Int J Cancer. 2000;87(1):145-150.
- Li H, Colantonio S, Dawson A, Lin X, Beecker J. Sunscreen application, safety, and sun protection: the evidence. J Cutan Med Surg. 2019;23(4):357-369.
- Phillips TJ, Bhawan J, Yaar M, Bello Y, Lopiccolo D, Nash JF. Effect of daily versus intermittent sunscreen application on solar simulated UV radiation-induced skin response in humans. J Am Acad Dermatol. 2000;43(4):610-618.
- Ulrich C, Jürgensen JS, Degen A, et al. Prevention of non-melanoma skin cancer in organ transplant patients by regular use of a sunscreen: a 24 months, prospective, case-control study. Br J Dermatol. 2009;161 Suppl 3:78-84.
- Waldman RA, Grant-Kels JM. The role of sunscreen in the prevention of cutaneous melanoma and nonmelanoma skin cancer. J Am Acad Dermatol. 2019;80(2):574-576.e1.
- Ramos-e-Silva M, Celem LR, Ramos-e-Silva S, Fucci-da-Costa AP. Anti-aging cosmetics: facts and controversies. Clin Dermatol. 2013;31(6):750-758.
- Buller DB, Andersen PA, Walkosz BJ, et al. Compliance with sunscreen advice in a survey of adults engaged in outdoor winter recreation at high-elevation ski areas. J Am Acad Dermatol. 2012;66(1):63-70.
- Isedeh P, Osterwalder U, Lim HW. Teaspoon rule revisited: proper amount of sunscreen application. Photodermatol Photoimmunol Photomed. 2013;29(1):55-56.
- Krutmann J, Berking C, Berneburg M, Diepgen TL, Dirschka T, Szeimies M. New strategies in the prevention of actinic keratosis: a critical review. Skin Pharmacol Physiol. 2015;28(6):281-289.
- Williams JD, Maitra P, Atillasoy E, Wu MM, Farberg AS, Rigel DS. SPF 100+ sunscreen is more protective against sunburn than SPF 50+ in actual use: Results of a randomized, double-blind, split-face, natural sunlight exposure clinical trial. J Am Acad Dermatol. 2018;78(5):902-910.e2.
- Autier P, Doré JF, Négrier S, et al. Sunscreen use and duration of sun exposure: a double-blind, randomized trial. J Natl Cancer Inst. 1999;91(15):1304-1309.
- Strauss DG, Michele TM. Skin cancer prevention and sunscreen safety: commentary on american society of clinical oncology policy statement on skin cancer prevention. JCO Oncol Pract. 2020;16(8):436-438.
- Calbó J, Pagès D, González JA. Empirical studies of cloud effects on uv radiation: a review: cloud effects on uv radiation. Rev Geophys. 2005;43(2).
- Guidance for Industry Labeling and Effectiveness Testing: Sunscreen Drug Products for OverThe-Counter Human Use — Small Entity Compliance Guide. HHS, FDA, CDER. Dec 2012.
- de Gálvez MV, Aguilera J, Buendía EA, Sánchez-Roldán C, Herrera-Ceballos E. Time required for a standard sunscreen to become effective following application: a UV photography study. J Eur Acad Dermatol Venereol. 2018;32(4):e123-e124.
- Stokes RP, Diffey BL. The water resistance of sunscreen and day-care products. Br J Dermatol. 1999;140(2):259-263.
- Stokes RP, Diffey BL. A novel ex vivo technique to assess the sand/rub resistance of sunscreen products. Int J Cosmet Sci. 2000;22(5):329-334.
- Sander M, Sander M, Burbidge T, Beecker J. The efficacy and safety of sunscreen use for the prevention of skin cancer. CMAJ. 2020;192(50):E1802-E1808.
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Friday Favorites: Does Sunscreen Cause or Prevent Skin Cancer? Which Type Is Best to Use?
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Content URLDoctor's Note
The most exciting part of that study is the spontaneous regression of more than 100 precancerous growths in the sunscreen group. The masses completely vanished! Their bodies, even in immunocompromised states, could heal themselves once they stopped being bombarded with so many cancer-causing rays.
For more on this topic, see the most important thing you can do for skin care. If you’re concerned about getting enough vitamin D, make sure to read my recommendations.
You can also watch the recording of the webinar I did on this subject, which includes a great Q&A.
The original videos aired on May 27 & 29, 2024
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