Davids Hydroxi™ Kids + Adults Orange Vanilla — Remineralising Nano-Hydroxyapatite Toothpaste for the Whole Family
Enamel erosion and mineral loss are daily realities, yet most conventional toothpastes rely on fluoride compounds or harsh detergents that can overwhelm younger mouths. Davids Hydroxi™ answers with nano-hydroxyapatite — a bioidentical mineral that mirrors the natural composition of tooth enamel — suspended in a creamy, naturally sweetened paste with a bright orange vanilla flavour that turns brushing into a moment children and adults genuinely look forward to. The result is a clean, confident smile built on science that works with the body, not around it.
| Ingredient | INCI Name | Concentration | Function | Skin Benefit |
|---|---|---|---|---|
| Nano-Hydroxyapatite | Hydroxyapatite (nano) | High | Remineralising agent | Replenishes lost calcium and phosphate ions in enamel; reduces sensitivity by occluding dentinal tubules |
| Xylitol | Xylitol | Mid | Anticariogenic sweetener | Inhibits Streptococcus mutans adhesion; reduces acid production and supports a balanced oral microbiome |
| Stevia | Steviol Glycosides | Low | Natural sweetener | Provides sweetness without fermentable sugars; does not contribute to cariogenic acid formation |
| Orange Flavour (Natural) | Aroma (Natural Orange) | Low | Flavouring | Delivers pleasant citrus sensory experience without synthetic fragrance compounds |
| Vanilla Flavour (Natural) | Aroma (Natural Vanilla) | Low | Flavouring | Rounds orange note with warm sweetness; enhances brushing compliance in children |
Nano-hydroxyapatite (nHA) particles, sized to penetrate enamel micro-fissures, adsorb directly onto the tooth surface and integrate into the hydroxyapatite crystal lattice — effectively remineralising softened or demineralised enamel at a structural level. Unlike fluoride, which converts hydroxyapatite into fluorapatite, nHA replenishes enamel using the body's own mineral blueprint, making it highly biocompatible for developing teeth. Xylitol complements this mechanism by starving cariogenic bacteria of fermentable substrates, reducing the acidic environment that drives demineralisation in the first place. Together, these actives deliver a dual-action defence: structural enamel repair paired with a measurable reduction in cavity-causing bacterial activity.
- Children transitioning from training toothpaste who need effective remineralisation without fluoride exposure
- Adults seeking a fluoride-free, SLS-free alternative that still delivers clinically relevant enamel support
- Households looking for a single, clean-formulation toothpaste that satisfies both adult efficacy standards and child safety requirements
