Disclosed are adjustable intraocular lenses and methods of adjusting intraocular lenses post-operatively. In one embodiment, an adjustable intraocular lens can comprise an optic portion and a peripheral portion. The peripheral portion can comprise a composite material comprising an energy absorbing constituent and a plurality of expandable components. A base power of the optic portion can be configured to change in response to an external energy directed at the composite material.

Disclosed are adjustable accommodating intraocular lenses and methods of adjusting accommodating intraocular lenses post-operatively. In one embodiment, an adjustable accommodating intraocular lens comprises an optic portion and a peripheral portion. At least one of the optic portion and the peripheral portion can be made in part of a composite material comprising an energy absorbing constituent and a plurality of expandable components. At least one of a base power and a cylindricity of the optic portion can be configured to change in response to an external energy directed at the composite material.

Embodiments herein relate to active agent depots formed in situ and related methods. In various embodiments, a method of forming an active agent depot in situ is included. The method can include contacting a composition with a vessel wall, wherein the composition includes an active agent and a fibrin promoting vessel wall transfer agent wherein the ratio of active agent to fibrin promoting vessel wall transfer agent (wt./wt.) is at least 5:1. The method also includes transferring the composition from a device surface to the vessel wall surface. The method also includes forming a fibrin matrix around the composition. Other embodiments are also included herein.

Disclosed herein are functionalized dopamine derivatives comprising an optionally substituted acrylic acid moiety and optionally a polyethylene glycol linking moiety. The functionalized dopamine derivatives are useful in cryogel formulations to improve the adhesivity of the cryogel, while preventing undesirable oxidation typically associated with dopamine-containing hydrogels and cryogels. Properties such as cryogel adhesivity, pore size, and interconnectivity are tunable features. Also provided herein are methods of treating a wound or promoting tissue regeneration with a cryogel of the invention or a formulation comprising such a cryogel.

The disclosure provides hyaluronic acid (HA) gel formulations and methods for treating the appearance of the skin. The formulations contain hyaluronic acid and at least one additional ingredient. Methods for treating lines, wrinkles, fibroblast depletions, and scars with the disclosed composition are provided as well.

An anchorage device is provided that is configured to surround an implantable medical device. The anchorage device includes a substrate having a hemostatic agent and an active pharmaceutical ingredient selectively positioned on the substrate. Kits, systems and methods are disclosed.

A device for protecting neurons and reducing inflammation and adhesion formation following surgery is provided. Also provided is a method for protecting neurons and reducing inflammation and adhesion formation following surgery. The device includes a bioabsorbale substrate and a layer of an oxidation inhibitor mimicking the effects of superoxide dismutase and catalase enzymes located on a surface of the substrate. Oxidation inhibitors that may be used include EUK-8, EUK-134, EUK-189, and EUK-207 (a mimetic of superoxide dismutase/catalase), monosodium luminol or phenyl N-t-butylnitrone or an analog with similar anti-oxidant properties. The oxidation inhibitors reduce oxidative stress and trigger the subject's natural anti-oxidant and anti-inflammatory defenses, thereby reducing neuron death, loss of neuron connectivity, inflammation and scarring and restoring excitatory function of neurons.

Intraocular pressure sensors, systems, and methods of use. Implantable intraocular pressure sensing devices that are hermetically sealed and adapted to wirelessly communicate with an external device. The implantable devices can include a hermetically sealed housing, the hermetically sealed housing including therein: an antenna in electrical communication with a rechargeable power source, the rechargeable power source in electrical communication with an ASIC, and the ASIC in electrical communication with a pressure sensor.

The present invention relates to a suspension for coating of medical devices containing at least one tri-O-acylglycerol, at least one limus active agent in the form of microcrystals and at least one solvent in which the at least one tri-O-acylglycerol dissolves and in which the microcrystals of the at least one limus active agent do not dissolve. Furthermore, the present invention relates to a pmethod for preparing said suspension, a p method for coating a medical device with said suspension, and medical devices coated with at least one tri-O-acylglycerol and at least one microcrystalline limus active agent.

Disclosed herein are functionalized dopamine derivatives comprising an optionally substituted acrylic acid moiety and optionally a polyethylene glycol linking moiety. The functionalized dopamine derivatives are useful in cryogel formulations to improve the adhesivity of the cryogel, while preventing undesirable oxidation typically associated with dopamine-containing hydrogels and cryogels. Properties such as cryogel adhesivity, pore size, and interconnectivity are tunable features. Also provided herein are methods of treating a wound or promoting tissue regeneration with a cryogel of the invention or a formulation comprising such a cryogel.