Do zinc sunscreens stop working and go toxic after 2 hours?

Do zinc sunscreens stop working and go toxic after 2 hours?

Do zinc sunscreens stop working and go toxic after 2 hours?

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There is a new paper on zinc oxide sunscreens not doing the job and getting toxic immediately after 2 hrs of UV publicity. A ton of individuals have despatched me this paper, so here’s my assessment of it.

In shorter, the researchers located that sunscreen substances broke down when mixed with zinc oxide and exposed to UV light-weight, and the degraded mixtures had lessen UVA protection and ended up poisonous to zebrafish embryos.

I do not feel the ailments employed in the examine replicate what goes on in a modern day sunscreen, but some problems that had been lifted about sunscreens are valid (even though many of these troubles have been recognized for many years presently).

The scientists dissolved 5 mixtures of chemical filters in DMSO (DMSO or dimethyl sulfoxide is a solvent commonly made use of in research which is particularly fantastic for dissolving substances and boosting penetration through pores and skin). They place the mixtures below a light that replicated daylight for 120 minutes. (These mixtures mirror the energetic elements in genuine-daily life SPF 15 sunscreens.)

They also did this with uncoated microparticle (20-1000 nm) and nanoparticle (<100 nm) zinc oxide added to separate samples of one of the original mixtures.

They measured the UV absorption of each mixture (the greater the UV absorption the better the UV protection, since that’s how sunscreens work – they absorb UV before it hits your skin).

They also tested the effects of the mixtures on zebrafish embryos. Zebrafish are commonly used as models for humans since we share a lot of similar genes, but there are obviously still lots of differences between zebrafish embryos and human skin. They are also used to investigate toxicity to aquatic life.

The results:

  • Chemical sunscreen-only mixtures were largely unchanged after UV exposure:
    • UV absorption was largely the same before and after UV exposure, meaning that the sunscreens were mostly photostable (didn’t break down in UV light).
    • Toxicity to zebrafish embryos was minimal.
  • Chemical sunscreens + zinc oxide mixtures were very different after UV exposure:
    • UVA protection was significantly decreased (calculated UVAPF dropped by 91.8% for microparticles and 84.3% for nanoparticles) – this can be explained by avobenzone decomposing
    • Toxicity to zebrafish embryos increased with mixtures containing zinc oxide after UV exposure. 

This to me is by far the most glaring issue with their methodology, and severely limits how applicable the results are to real sunscreens and how we use them.

The researchers seem to think that actives degrading in UV while sitting in DMSO are pretty similar to actives in a real sunscreen degrading in UV on human skin.

Two big problems with this assumption:

Real sunscreens and solutions don’t interact with light the same way 

When you apply sunscreen on your skin, they dry down and much of the solvents in the sunscreens evaporate or absorb into skin. The sunscreening ingredients end up much closer together and interact with each other a lot more, changing their UV protection properties. The filters are a lot less free to move around than they are when dissolved into a liquid… which means they’re also not going to react as much with each other.

UV also interacts differently with films than with solutions – I discussed this in detail in my post on SPF testing.

This is why sunscreen testing labs usually go to the trouble of smearing sunscreen evenly on specially roughened PMMA plates and letting them dry down to form a film before testing for photostability. The authors mention the problems they had trying to do this in their lab, but there are many testing labs that have refined how they conduct these tests (some methodologies have been published as well). And even then, there’s a lot of debate about whether or not this reflects what actually happens on human skin. This is why there isn’t a standard test for photostability, like there is for SPF (UVA protection testing is a bit less settled than SPF, although it’s getting there).

The authors claim that DMSO might stabilise sunscreen filters based on its polarity, but DMSO actually makes avobenzone break down faster in UV.

Actual sunscreens use many methods to photostabilise avobenzone

There are also lots of ways that have been developed to stabilise avobenzone, since it’s notorious for being a drama queen and breaking down when it’s absorbed UV. The authors point out that some other UV filters will stabilise avobenzone by taking some of the extra energy it’s holding and returning it to its original state, including some used in the study (mixtures with octocrylene, oxybenzone and bisoctrizole (aka MBBT or Tinosorb M). (More on filter combos in the free chapter of my Skincare Guide.)

But that’s not the only method! Other photostabilising ingredients like DEHN, ethylhexyl methoxycrylene and AvoBrite can also take energy off avobenzone. Antioxidants like coenzyme Q10 and HDBM can stabilise avobenzone as well. Different solvent combinations can help too.

But the one most commonly used in sunscreens that have both chemical and physical sunscreen ingredients together (combo or hybrid sunscreens) is coating. Uncoated zinc oxide was used in this study, and coatings are mentioned only very briefly in this paper.

This study demonstrates the massive difference coatings can make, silica-coated zinc oxide was mixed with avobenzone, and exposed to a UV lamp for a full week. 49% of the original avobenzone remained (uncoated zinc oxide left <1%).

The authors seem to be under the impression that testing mixtures of sunscreen filters for photostability isn’t commonly done, and call for “the potential for zinc oxide induced photodegradation of the whole formulation” to be considered “in the design of future cosmetic formulations”.

But it’s a known issue in sunscreen development, and photostability testing of mixtures has been done for decades. I’m not sure how they missed this.

  • There are plenty of papers on how to test for and improve the photostability of sunscreen formulas, both peer-reviewed and in trade publications, dating back to the 1990s.
  • Photostability of different formulas is routinely tested in sunscreen development.
  • Some brands even advertise their commitment to photostable formulas, e.g. Neutrogena’s Helioplex standard, which requires that sunscreens maintain 85% UVA protection after 5 hours of UV exposure.
  • Many independent testing laboratories (e.g. Eurofins, Helioscreen) offer photostability testing.
  • Photostability is taken into account in both the FDA and ISO “broad spectrum” tests: the UV protection of the dried sunscreen film is measured, then it’s exposed to a set amount of UV, before UV protection is measured again.
  • Increased photostability is one of the big marketing points for coated zinc oxide and titanium dioxide.

The toxicity of degraded mixtures to zebrafish embryos hasn’t been published before. However, it’s pretty unlikely that these mixtures would degrade to a similar extent in sunscreens to begin with. Zebrafish embryo results also don’t entirely reflect what happens on human skin, with a product that’s designed to stay on the surface.

Both the UVA reduction and zebrafish embryo toxicity parts of the study use DMSO solutions that aren’t really relevant to real sunscreens. So it doesn’t really mean much. 

My advice for wearing sunscreens is unchanged:

For hybrid sunscreens that contain both zinc oxide and avobenzone, pick a sunscreen made by a company you trust to invest in smart formulation and thorough testing. Luckily, most hybrid sunscreens are generally produced by larger companies who invest a lot into R&D. And if you buy a broad spectrum sunscreen from a market that uses FDA or ISO UVA testing, it’s likely to have demonstrated pretty good photostability anyway.

Be careful when layering sunscreens – it’s best to reapply the same sunscreen, or sunscreens with similar filters. Avoid layering uncoated zinc oxide sunscreens with chemical sunscreens… but since uncoated zinc oxide is usually only found in “natural” sunscreen brands that cater to people avoiding synthetic ingredients, it’s unlikely that this was happening much anyway.

Related post: Tip: Multi-Sunscreening for Maximum Protection and Minimum Grease

Even if you mess up with layering, the interactions between the filters in different sunscreens probably won’t be as great in the experiments, since they won’t be as free to bump into each other as in a DMSO solution. 

Don’t mix sunscreens – it messes up how the film performs on your skin, along with introducing potential photoinstability.

Related: The Lab Muffin Guide to Basic Skincare

This study does highlight a couple of things that I think sometimes get lost in the Sunscreen Debates:

Synthetic modifications are done for a reason

One of the reasons for ingredient companies coming up with coated zinc oxide and titanium dioxide decades ago was exactly this: to create a physical barrier around the metal particle, so it didn’t react with other substances when exposed to UV (titanium dioxide is usually worse when it comes to photoreactions!).

There are disadvantages with inorganic sunscreens

The authors make a fantastic point in their conclusion: switching out chemical sunscreen ingredients for zinc oxide and titanium dioxide can introduce different problems, leading to “regrettable substitutions”. Zinc oxide and titanium dioxide have lots of downsides too, which I’ve discussed a lot before. 

Related post: Zinc Sunscreens Don’t Work Better: Every Myth Busted (with video)

It isn’t just nano zinc oxide that’s bad

In my post about how sunscreens aren’t killing coral reefs, I mentioned that non-nano zinc oxide probably has issues too, since it can also release zinc ions. So… yep. Don’t think you can have a completely safe sunscreen just by wearing clown paint!

I can’t deny that it’s kind of a nice change to finally see negative press coverage of zinc oxide though, even if it’s overblown. It’s definitely weird to have to defend zinc oxide!

For more about how to choose and use sunscreens in your skincare routine, check out The Lab Muffin Guide to Basic Skincare.

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