A kind of intraocular lens with hydrophilic-drug sustained-release synergistic function and preparation method thereof
An intraocular lens and drug technology, applied in intraocular lens, prosthesis, medical science, etc., can solve the problems of complex surface modification process and inability to effectively resist cell adhesion.
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Embodiment 1
[0020] Take 5 mg / mL polyethylene glycol methacrylate, 5 mg / mL doxorubicin, 5 mg / mL dopamine and 5 mg / mL polyethyleneimine and mix them uniformly in the aqueous solution system, put them into the intraocular lens, adjust pH to 10, light-blocked magnetic stirring for 0.5 hours, and ultrapure water washing to obtain a hydrophilic-drug-loaded synergistic functional coating modified intraocular lens.
Embodiment 2
[0022] Take 0.2 mg / mL sulfobetaine methacrylate, 0.1 mg / mL paclitaxel, 0.5 mg / mL dopamine and 0.2 mg / mL polyamidoamine-type dendrimers in the aqueous system, mix them uniformly, put them into artificial The lens was adjusted to a pH of 8.5, light-blocked and magnetically stirred for 12 hours, and washed with ultrapure water to obtain an intraocular lens modified with a hydrophilic-drug-loading synergistic functional coating.
Embodiment 3
[0024] Take 2 mg / mL phosphatidylcholine sterol methacrylate, 2 mg / mL rapamycin, and 2 mg / mL dopamine and mix them uniformly in the aqueous solution system, put them into the intraocular lens, adjust the pH to 9, and close the light Magnetically stirred for 6 hours, washed with ultrapure water, and a hydrophilic-drug-loaded synergistic functional coating-modified intraocular lens was obtained.
[0025] The principle of the present invention is: dopamine is a neurotransmitter existing in a living body. Studies have found that dopamine can undergo self-polymerization under certain conditions to form polydopamine, which is very similar to the naturally occurring mussel adhesive protein. Polydopamine can adhere to almost all material surfaces to form a bonding interface. The activation of hydrogen makes it easy to chemically bond compounds with active groups such as amino groups, mercapto groups, and carbon-carbon double bonds to the surface of polydopamine. In the present inventi...
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