Biodegradable, cross-linked polymer particle embolics and methods of making the same are described. The particle embolics can be used as embolization agents.

The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.

Radiopaque hydrogels, in particular radiopaque hydrogel microspheres, comprising a polymer having 1,2-dil or 1,3-diol groups acetalized with radiopaque species.

The present invention relates to ultrasound (US) mediated delivery of therapeutic agents, such as the delivery of a drug, gene, nanoparticle or radioisotope, using a bi-phasic microparticle system comprising gas microbubbles, emulsion microdroplets and clusters thereof. Thus, the present invention relates to a cluster composition and a pharmaceutical composition, and their use for delivery of therapeutic agents and as a contrast agent for ultrasound imaging. It further relates to methods for delivering such therapeutic agents and to the use of said compositions.

Devices, methods and kits for preventing or reducing non-target microparticles deposition and embolization, in conjunction with delivering microparticles (e.g., embolization material) via a blood vessel to a target bodily part. Applicable for entrapping infiltrated microparticles within heart right atrium. Entrapping device includes: filter; and filter collapsing mechanism sized for positioning in catheter lumen of a filter delivering catheter, and having proximal end actuatable from outside of subject. Filter configured for positioning within heart right atrium, for self-expanding and covering right atrium inlet opening, and configured, when expanded, to collect embolic material delivered to target organ and infiltrated into outflow vessel thereof draining to right atrium. Filter collapsing mechanism configured for collapsing, and being manipulated to form a pocket in filter, to entrap collected embolic material therein, and drawing filter with collected embolic material in pocket, into catheter lumen of filter delivering catheter.

Described herein are polymers and associated methods to occlude structures and malformations of the vasculature with polymers with delayed controlled rates of expansion. Methods of forming such devices are also disclosed.

An embodiment of the invention is a shape memory polymer (SMP) foam designed to recover its original shape through exposure to a solvent. Thermo-responsive SMPs are polymers designed to maintain a programmed secondary shape until heated above their transition temperature, upon which the polymer recovers its original, or primary, shape. The thermo-responsive SMP foam is programmed to its secondary shape prior to use, typically compression of the foam to a small volume, and remains in this programmed shape until exposed to a selected solvent such as dimethyl sulfoxide or ethyl alcohol. Upon exposure to the solvent, the transition temperature of the SMP foam decreases below the temperature of the environment and the SMP foam actuates to its primary shape. The SMP foam is tailored to actuate upon exposure to specific solvents while minimizing or preventing actuation when exposed to water or other solvents. This selective solvent actuation can be used to increase working time of a SMP foam device, that is, the time allowed for use of a device without undesired actuation, while maintaining functional SMP actuation. Solvent actuated SMP foams can be used in various applications including, but not limited to, treatment of aneurysms and arterio-venous malformations, tissue engineering, and wound healing.

Biodegradable, cross-linked polymer particle embolics and methods of making the same are described. The particle embolics can be used as embolization agents.

A hydrophilic polymer comprising pendent groups of the formula I: Wherein: W is independently selected from —OH, —COOH, —SO.sub.3H, —OPO.sub.3H, —O—(C.sub.1-4alkyl), —O—(C.sub.1-4alkyl)OH, —O—(C.sub.1-4alkyl)R.sup.2, —O—(C.sub.2H.sub.5O).sub.qR.sup.1—(C═O)—O—C.sub.1-4alkyl and —O—(C═O)C.sub.1-4alkyl; or a group —BZ; wherein —OH, COOH, O—PO.sub.3H and SO.sub.3H maybe in the form of a pharmaceutically acceptable salt; wherein: B is a bond, or a straight branched alkanediyl, oxyalkylene, alkylene oxaalkylene, or alkylene (oligooxalkylene) group, optionally containing one or more fluorine substituents; and Z is an ammonium, phosphonium, or sulphonium phosphate or phosphonate ester zwitterionic group; X is either a bond or a linking group having 1 to 8 carbons and optionally 1 to 4 heteroatoms selected from O, N and S; G is a coupling group through which the group of the formula I is coupled to the polymer and is selected from ether, ester, amide, carbonate, carbamate, 1,3 dioxolone, and 1,3 dioxane; R.sup.1 is H or C.sub.1-4 alkyl; R.sup.2 is —COOH, —SO.sub.3H, or —OPO.sub.3H.sub.2 q is an integer from to 4; n is an integer from 1 to 4; p is an integer from 1 to 3; and n+p is from 2 to 5; and wherein —COOH, —OPO.sub.3H.sub.2 and —SO.sub.3H as well as phenolic —OH maybe in the form of a pharmaceutically acceptable salt.

Embolic materials, suspensions, kits and related methods useful for embolization are disclosed. An embolic material can comprise a resorbable microsphere including cross-linked gelatin as its primary ingredient and having a substantially spherical shape with a diameter of about 50 micrometers to about 1,500 micrometers, inclusive. The microsphere can optionally include one or both of a marker or an active agent. The microsphere can be cross-linked, such as with glutaraldehyde or formaldehyde, which can affect the microsphere's in vivo degradation profile and ability to withstand a sterilization process at certain temperatures. In an embodiment, the microspheres can resorb during an in vivo time period of between about 24 hours and about 15 weeks, inclusive. An embolization suspension can include a plurality of resorbable microspheres and a liquid carrier, and the suspension can be disposed in a syringe, vial or other applicator for administration to a patient.