If you’re using Nordics’ products, you already know we’re after offering sustainable expert solutions to dental problems. It sounds complicated in the beginning and surely quite dull but we always find a way to make dentistry a bit more exciting and a lot more innovative. This is why we grind through boring scientific data to speak in a non-boring way about hydroxyapatite (HA).
Hydroxyapa-what?
For decades, fluoride has been the Superman of dental health, swooping in to save us from cavities and weak enamel. But as technology and research advance, a new hero has entered the scene—one that’s a little more understated but just as mighty. Meet hydroxyapatite! So, what’s the deal with it, and could it be the next big thing in Nordics toothpaste?
Hydroxyapatite (HA) is a complicated name for a naturally occurring form of calcium apatite. It’s the same stuff your bones and teeth are made of. This mineral has the chemical formula Ca₅(PO₄)₃(OH), and its structure mimics the very enamel of your teeth (Pushpalatha, 2023). It doesn’t just coat your teeth; it bonds with them, filling in the tiny cracks and crevices like a well-practiced mason.
If you’re thinking, “Wait, why haven’t I heard of this before?” you’re not alone. Hydroxyapatite has been the star of orthopaedic surgeries for years, helping with bone regeneration and implants (Ielo et al., 2022). Now it’s making a name for itself in dentistry.
How Does Hydroxyapatite Work?
Unlike fluoride, which strengthens your enamel from the outside in, hydroxyapatite works by bonding directly with your teeth. Think of it as adding reinforcements to a castle wall—except the wall is your enamel, and hydroxyapatite is the perfectly matched stone (Pushpalatha, 2023).
When you brush with a HA toothpaste, the tiny crystals penetrate the enamel and begin to rebuild it. It doesn’t just protect your teeth from further damage; it actively repairs them. That’s a bit like finding out your toothpaste can fix potholes in the road!
Fluoride vs. Hydroxyapatite
Let’s be clear—fluoride has been the anti-cavity substance used most widely for a reason. It works by making your teeth more resistant to acid attacks and helps with remineralization. But here’s the kicker: HA can do the same things and more. Both Hydroxyapatite and the most commonly used fluorine compounds (sodium fluoride and sodium monofluorophosphate) have a remineralizing function i.e. fight against the formation of caries. Yet, hydroxyapatite has more to offer. If “liquid enamel” doesn’t ring a bell yet, keep reading.
Japanese scientists Ohashi and colleagues made an in vitro study testing the remineralizing power of nano hydroxyapatite (mHAP) and microscope photos revealed that mHAP recovers demineralized areas of enamel more effectively than simply saliva, and just as effectively as fluoride does.
1. Biocompatibility -Your Body Likes It
Since it’s already a part of your bones and teeth, your body welcomes it with open arms, making it super biocompatible (Pepla et al., 2024). Fluoride, while effective, can sometimes overstay its welcome, especially if overused, leading to a condition known as fluorosis. Kids, in particular, are at risk if they ingest too much fluoride. With hydroxyapatite, that risk is practically zero, since it’s completely non-toxic ( Saumya et al., 2024).
2. Remineralization
Fluoride helps with remineralization too, but HA actually repairs the cracks in your enamel. A study published in the Journal of Materials Chemistry showed that hydroxyapatite (a.k.a. liquid enamel) can not only prevent further demineralization but also kickstart the repair process for damaged enamel (Li et al., 2017).
3. No Swallowing Worries or Safe for Kids and for Adults
We all know that fluoride toothpaste comes with a warning: Don’t swallow! That’s because fluoride can be toxic in large doses. But with hydroxyapatite? No worries! It’s safe to ingest in small amounts, which makes it a better option for children (and, let’s be honest, adults who are still a bit clumsy when brushing).
The Future of Dentistry and Nordics Role in it
So, could hydroxyapatite be the new gold standard in dental care? It’s certainly headed that way. Its ability to naturally repair and strengthen enamel, combined with its biocompatibility and non-toxic nature, make it a strong contender for your next toothpaste.
Whether you’re looking for something safe for your kids or simply want to try the latest in dental science, keep a close eye on HA and even a closer eye on Nordics’ portfolio 😉
References
- Pushpalatha C., Gayathri V.S. , Sowmya S.V., Dominic Augustine, Ahmed Alamoudi, Bassam Zidane, Nassreen Hassan Mohammad Albar, Shilpa Bhandi, (2023). Nanohydroxyapatite in dentistry: A comprehensive review, The Saudi Dental Journal, Volume 35, Issue 6,
- Ielo, I.; Calabrese, G.; De Luca, G.; Conoci, S. (2022) Recent Advances in Hydroxyapatite-Based Biocomposites for Bone Tissue Regeneration in Orthopedics. Int. J. Mol. Sci., 23, 9721.
- Pepla E, Besharat LK, Palaia G, Tenore G, Migliau G. (2014) Nano-hydroxyapatite and its applications in preventive, restorative and regenerative dentistry: a review of literature. Ann Stomatol (Roma). 20;5(3):108-14. PMID: 25506416; PMCID: PMC4252862.
- Nemours KidsHealth. Fluoride. Medically reviewed by: Amy W. Anzilotti, MD
- Saumya John, Rakhi Manoharan, Kavya Suresh, Lekshmi Mini, Nibu Varghese, Sajith Vellapally and Nebu George Thomas. (2024) Toxicity of Natural Hydroxyapatite. Novel Biomaterials for Tissue Engineering
- Li, Li & Pan, Haihua & Tao, Jinhui & Xu, X. & Mao, C. & Gu, X. & Tang, Ruikang. (2008). Repair of enamel by using hydroxyapatite nanoparticles as the building blocks. Journal of Materials Chemistry. 18. 4079-4084. 10.1039/B806090H.
- T.Ohashi et al, (1991) Remineralization of Artificial Caries Lesions by Hydroxyapatite, J Dent Hlth 41(2): 214-223