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10-Methacryloyloxydecyl dihydrogen phosphate (an abbreviated title is MDP) is an adhesion monomer used for dental adhesive materials. The phosphate monomer was developed by Kuraray co., Ltd. with focus on the dental adhesion technology in 1981.

Synonyms
10-MDP

Synthesis
MDP is synthesized according to the following reaction. At first, 10-hydroxydecy methacrylate is synthesized by reaction with methacrylic acid and 1,10-decandiol. Next, phosphoryl chloride is added to 10-hydroxydecy methacrylate, then, the bonding of P-Cl is hydrolyzed.



Background
In the late 1970s, tooth adhesion phosphate monomer: 2-methacryloyloxethyl phenyl hydrogen phosphate (Phenyl-P) was developed for tooth substance saving restoration technique. 4-Methacryloyloxyethyl trimellitic acid anhydride (4-META) that adhere to not only tooth structures but also dental alloys, was developed almost at the same time. In order to create adhesive monomers having higher performance, investigation and optimization of adhesive monomer molecular structure was carried out. The results of the experiments have provided more suitable chemical structure of adhesive monomers, one is MDP.

MDP-Apatite or Dentin Interactions
The adhesive interaction of MDP with synthetic hydroxyapatite was observed using x-ray photoelectron spectroscopy and atomic absorption spectrophotometry. MDP readily adhered to hydroxyapatite and this bond appeared very stable, as confirmed by the low dissolution rate of its calcium salt in water.

MDP, which effectively interacts chemically with hydroxyapatite and the calcium salt of which is hardly soluble, showed no signs of degradation in bond strength. Micro-tensile bond strength (μTBS) to dentin of a selfetch adhesive that contains MDP were measured up to 100,000 thermocycles. The μTBS of the MDP-based adhesive to dentin after 100,000 thermocycles was not significantly different from that of the control.

MDP-Collagen Interactions
The binding interaction between collagen and MDP was studied by saturation transfer difference (STD) NMR spectroscopy. The STD results imply that MDP has a relatively stable interaction with the collagen, because of the hydrophobic interactions between the hydrophobic MDP moieties and the hydrophobic collagen surface.

Adhesion to Dental Metal of MDP
Tensile bond strengths to titanium plates treated with 3 experimental primers consisting of MDP in 3 concentrations were tested. The data obtained strongly suggest that MDP is effective to improve the adhesive performance of resin to titanium.

Adhesion to Zirconia of MDP
Tensile bond strength to zirconia of ethanol solutions that contains MDP were measured. MDP showed high bond strengths to zirconia.

Tensile bond strengths of MDP containing resin composites to zirconia ceramic were statistically significantly higher when compared with the bond strength of the conventional BisGMA resin composite which contains no adhesive monomer.

Uses

 * Dental bonding agent


 * Dental adhesive


 * Dental resin cement


 * Dental adhesive primer