ApaCare remineralising varnish is intended for the following indications:
extreme sensitivity of the teeth or the cervix;
frequent or incipient caries;
severe tooth decay, or frequent or frequent tooth decay, or severe tooth enamel damage or demineralisation.
ApaCare toothpaste, in addition to sodium fluoride (1450 ppm F), contains a liquid form of adamantine (hydroxyapatite). This salt, which has great potency strengthens the teeth, improving the enamel of the teeth (makes the enamel harder) during the daily care of teeth in the morning and evening. ApaCare toothpaste is suitable for adults...
ApaCare toothpaste, in addition to sodium fluoride (1450 ppm F), contains a liquid form of adamantine (hydroxyapatite). This salt, which has great potency strengthens the teeth, improving the enamel of the teeth (makes the enamel harder) during the daily care of teeth in the morning and evening. ApaCare toothpaste is suitable for adults...
ApaCare & Repair is a highly efficient dental repair gel for all ages for use after brushing. Main ingredients medical hydroxyapatite and xylitol help to: – Repair enamel defects – Reduce tooth sensitivity – Smooth tooth surface – Protect against caries, plaque and bacteria –...
ApaCare® OraLactin mouthwash with hyaluronic acid, fluoride, liquid dental enamel and pre- and post-biotics 200ml
and
Toothpaste for daily tooth cleaning/care.
With pre- and post-biotics, L-arginine and potassium nitrate.
With medical hydroxyapatite (liquid enamel).
For adults and children 6 years and older.
For daily teeth cleaning/care.
With pre- and post-biotics, L-arginine and potassium nitrate.
With medical hydroxyapatite (liquid enamel).
For adults and children 6 years and older.
For daily teeth cleaning/care.
With pre- and post-biotics, L-arginine and potassium nitrate.
With medical hydroxyapatite (liquid enamel).
For adults and children 6 years and older.
BioMin is a technology developed by scientists at Queen Mary University London and Imperial College, London, for over the past decade. Observing the properties of various bioactive glass formulations through years of scientific-studies, BioMin Technologies Limited have developed fine particulate materials for inclusion as additives in toothpaste formulation. These glass materials are able...
BioMin is a technology developed by scientists at Queen Mary University London and Imperial College, London, for over the past decade. Observing the properties of various bioactive glass formulations through years of scientific-studies, BioMin Technologies Limited have developed fine particulate materials for inclusion as additives in toothpaste formulation. These glass materials are able...
BioMin F for Kids toothpaste- 2 strawberry flavoured toothpastes
Biomin F Kids protects natural remineralization by supplementing tooth enamel and has a 6 times longer lasting effect than other toothpastes.
BioMin F for Kids is based on the same innovative technology as the original BioMin F, available in two pleasant fruity flavours – melon and strawberry – and comes as a silvery coloured gel. Key Benefits “Smart technology”. Unique, continuous low level mineral delivery for up...
Biomin F protects natural remineralization by supplementing tooth enamel and has 6 times longer duration of action than other toothpastes.Travel package size 18ml or 25g
BioMin is a technology developed by scientists at Queen Mary University London and Imperial College, London, for over the past decade. Observing the properties of various bioactive glass formulations through years of scientific-studies, BioMin Technologies Limited have developed fine particulate materials for inclusion as additives in toothpaste formulation. These glass materials are able...
BioMin is a technology developed by scientists at Queen Mary University London and Imperial College, London, for over the past decade. Observing the properties of various bioactive glass formulations through years of scientific-studies, BioMin Technologies Limited have developed fine particulate materials for inclusion as additives in toothpaste formulation. These glass materials are able...