Abstract: A drug-loaded polymer vesicle having an asymmetric membrane structure, a preparation method therefor, and an application thereof in preparation of drugs for treating acute myeloid leukemia. An amphiphilic triblock polymer having polyaspartic acid (PAsp), a targeted amphiphilic block polymer, and a small-molecule drug are assembled together to prepare the targeted small-molecule drug-loaded polymer vesicle having the asymmetric membrane structure. The drug-loaded polymer vesicle has many unique advantages, comprising small size, simple and controllable preparation, reversible crosslinking, in-vivo stability, targeted delivery, high enrichment concentration of intracellular drugs, reduction sensitivity, efficient killing of tumor cells, remarkable tumor growth inhibition effect, etc., and has an effective inhibition effect on both acute myelogenous leukemia cell strains and patient cells.

Abstract: An anti-tumor nano adjuvant is obtained by loading a drug on the vesicle formed by a reversibly cross-linked biodegradable polymer with an asymmetric membrane structure; the drug is an oligonucleotide activating an immune response; the vesicle formed by the degradable polymer is obtained by the self-assembly of a polymer followed by cross-linking; the molecular chain of the polymer includes a hydrophilic chain segment, a hydrophobic chain segment and positively charged molecules, successively connected; the hydrophobic chain segment is a polycarbonate chain segment and/or a polyester chain segment, which is compounded and loaded with a drug by electrostatic interaction; and the membrane is a polycarbonate chain segment and/or a polyester chain segment, which is reversibly cross-linked, biodegradable and has good biocompatibility, the dithiolane in the side chain thereof is similar to thioctic acid, a natural antioxidant in human body, and the shell thereof is based on PEG and targets cancer cells.

Abstract: Disclosed in the present disclosure is a biodegradable amphiphilic polymer containing disulfide in the side chain, a self-crosslinked polymeric vesicle thereof and an application in the targeted therapy of lung cancer. The polymer is obtained by an activity-controllable ring-opening polymerization based on a cyclic carbonate monomer containing a functional group of dithiolane ring, which has a controllable molecular weight and a narrow molecular weight distribution, and does not require processes of protection and deprotection; the polymer obtained by the ring-opening polymerization of the cyclic carbonate monomer of the present disclosure has biodegradability and can be used to control the drug release system, the prepared lung cancer-targeted reduction-sensitive reversibly-crosslinked polymeric vesicle as a nanomedicine carrier supports stable long circulation in vivo.

Abstract: Disclosed in the present disclosure is a biodegradable amphiphilic polymer containing disulfide in the side chain, a self-crosslinked polymeric vesicle thereof and an application in the targeted therapy of lung cancer. The polymer is obtained by an activity-controllable ring-opening polymerization based on a cyclic carbonate monomer containing a functional group of dithiolane ring, which has a controllable molecular weight and a narrow molecular weight distribution, and does not require processes of protection and deprotection; the polymer obtained by the ring-opening polymerization of the cyclic carbonate monomer of the present disclosure has biodegradability and can be used to control the drug release system, the prepared lung cancer-targeted reduction-sensitive reversibly-crosslinked polymeric vesicle as a nanomedicine carrier supports stable long circulation in vivo.

Abstract: The disclosure relates to a cyclic carbonate monomer containing double iodine, a biodegradable polymer prepared thereby and use. The polymer can be obtained by ring-opening polymerization of the cyclic carbonate monomer containing double iodine, without affecting the ring-opening polymerization and without a protection and deprotection process. The polymer which is obtained by ring-opening polymerization of the cyclic carbonate monomer of the present disclosure can be assembled into a nano-vesicle and a micelle as a drug carrier, a biological tissue scaffold or a CT contrast media.

Abstract: Disclosed are a hyaluronic acid-based amphiphilic polymer, preparation method and application thereof. A main chain of the amphiphilic polymer is a hydrophilic hyaluronic acid and can be employed in active targeting, and a side chain thereof is a hydrophobic group represented by Formula (1). The amphiphilic polymer can carry a small molecule anticancer drug. Polymer nanoparticles are obtained via chemical crosslinking, such that the nanoparticles are not readily dissociated outside a cell or in blood, thus ensuring the stability of a drug encapsulated by the nanoparticles. Upon arriving at a tumor tissue, the hyaluronic acid on a surface of the nanoparticle can immediately combine with a CD44 receptor on a surface of a tumor cell, and effectively enter the tumor cell via endocytosis mediated by the receptor, and then quickly de-crosslink to be dissociated.

Abstract: The present invention relates to biodegradable polyesteramides (PEAs) comprising hydrophobic alpha-amino acids, diols, aliphatic dicarboxylic acids and optionally diamines whereby at least one of the dicarboxylic acids, diols or diamines comprises disulphide linkages. The present invention also relates to the use of the polyesteramides in medical applications such as cancer treatment, ophthalmic applications, therapeutic cardiovascular applications, veterinary applications, pain management applications, MSK applications and vaccine delivery compositions. The present invention also relates to a drug delivery composition comprising the PEA's and to a drug delivery system such as micro- or nanoparticles, micelles, liposomes, polymerosomes, micro- and nanogels, polymerosomes or nanotubes.

Abstract: Provided are an ovarian cancer specifically targeted biodegradable amphiphilic polymer, a polymer vesicle prepared thereby and use thereof. The biodegradable amphiphilic polymer is prepared by a polymer containing dithiocarbonate monomer bonded with targeting molecules. The polymer vesicle prepared with the biodegradable amphiphilic polymer can crosslink spontaneously without adding an extra crosslinker, and the crosslink has a reduction activity and hence can be used in drug controlled-release systems, and contributes to the clinical use and production of nano-drugs.

Abstract: Apparatus relates to a carbonate polymer containing a functional group of disulfide five-membered ring in the side chain and application thereof. The polymer can be prepared from cyclic carbonate monomer containing a disulfide five-membered ring functional group through the activity controllable ring-opening polymerization. For polymer, molecular weight is controlled, molecular weight distribution is narrowed and does not require the protection and deprotection procedures. Polymer prepared from the carbonate monomer through the ring-opening polymerization has biodegradability, can be used for controlling drugs release system, and can be used to prepare tumor-targeted nano-drug carrier which is sensitive to reduction and is reversible cross-linking, can support long circulation in the body, in high concentration of cancers cells can rapidly release cross-linking in the cancer cells, to release drugs, to kill cancer cells with high efficiency and specificity.

Abstract: The present invention relates to amphiphilic block copolymers comprising reduction sensitive biodegradable polyesteramides. The present invention also relates to micelles comprising the amphiphilic block copolymers. The invention also relates to drug delivery systems comprising the micelles. The amphiphilic block copolymers comprise hydrophilic and hydrophobic blocks whereby the hydrophobic blocks comprise a biodegradable polyesteramide based on alpha-amino acids, diols, aliphatic dicarboxylic acids and optionally diamines whereby at least one of the dicarboxylic acids, diols or diamines comprises disulphide linkages.

Abstract: Disclosed are a hyaluronic acid-based amphiphilic polymer, preparation method and application thereof. A main chain of the amphiphilic polymer is a hydrophilic hyaluronic acid and can be employed in active targeting, and a side chain thereof is a hydrophobic group represented by Formula (1). The amphiphilic polymer can carry a small molecule anticancer drug. Polymer nanoparticles are obtained via chemical crosslinking, such that the nanoparticles are not readily dissociated outside a cell or in blood, thus ensuring the stability of a drug encapsulated by the nanoparticles. Upon arriving at a tumor tissue, the hyaluronic acid on a surface of the nanoparticle can immediately combine with a CD44 receptor on a surface of a tumor cell, and effectively enter the tumor cell via endocytosis mediated by the receptor, and then quickly de-crosslink to be dissociated.

Abstract: The disclosure relates to a cyclic carbonate monomer containing double iodine, a biodegradable polymer prepared thereby and use. The polymer can be obtained by ring-opening polymerization of the cyclic carbonate monomer containing double iodine, without affecting the ring-opening polymerization and without a protection and deprotection process. The polymer which is obtained by ring-opening polymerization of the cyclic carbonate monomer of the present disclosure can be assembled into a nano-vesicle and a micelle as a drug carrier, a biological tissue scaffold or a CT contrast media.

Abstract: Disclosed are a cyclic carbonate monomer containing a double-sulfur five-membered ring functional group, and preparation method thereof. The cyclic carbonate monomer can be simply and efficiently synthesized without protection and deprotection processes. The cyclic carbonate monomer of the present invention can be utilized to obtain polycarbonate having a controllable molecular weight and molecular weight distribution via ring opening polymerization, and has biodegradability and reduction-sensitive reversible crosslinking properties. The present invention can be used in a carrier having controllably released drug, a biological tissue scaffold or a biochip.

Abstract: The present invention relates to biodegradable polyesteramides (PEAs) comprising hydrophobic alpha-amino acids, diols, aliphatic dicarboxylic acids and optionally diamines whereby at least one of the dicarboxylic acids, diols or diamines comprises disulphide linkages. The present invention also relates to the use of the polyesteramides in medical applications such as cancer treatment, ophthalmic applications, therapeutic cardiovascular applications, veterinary applications, pain management applications, MSK applications and vaccine delivery compositions. The present invention also relates to a drug delivery composition comprising the PEA's and to a drug delivery system such as micro- or nanoparticles, micelles, liposomes, polymerosomes, micro- and nanogels, polymerosomes or nanotubes.

Abstract: The present invention relates to amphiphilic block copolymers comprising reduction sensitive biodegradable polyesteramides. The present invention also relates to micelles comprising the amphiphilic block copolymers. The invention also relates to drug delivery systems comprising the micelles. The amphiphilic block copolymers comprise hydrophilic and hydrophobic blocks whereby the hydrophobic blocks comprise a biodegradable polyesteramide based on alpha-amino acids, diols, aliphatic dicarboxylic acids and optionally diamines whereby at least one of the dicarboxylic acids, diols or diamines comprises disulphide linkages.

Abstract: Apparatus relates to a carbonate polymer containing a functional group of disulfide five-membered ring in the side chain and application thereof. The polymer can be prepared from cyclic carbonate monomer containing a disulfide five-membered ring functional group through the activity controllable ring-opening polymerization. For polymer, molecular weight is controlled, molecular weight distribution is narrowed and does not require the protection and deprotection procedures. Polymer prepared from the carbonate monomer through the ring-opening polymerization has biodegradability, can be used for controlling drugs release system, and can be used to prepare tumor-targeted nano-drug carrier which is sensitive to reduction and is reversible cross-linking, can support long circulation in the body, in high concentration of cancers cells can rapidly release cross-linking in the cancer cells, to release drugs, to kill cancer cells with high efficiency and specificity.

Abstract: Disclosed are a cyclic carbonate monomer containing a double-sulfur five-membered ring functional group, and preparation method thereof. The cyclic carbonate monomer can be simply and efficiently synthesized without protection and deprotection processes. The cyclic carbonate monomer of the present invention can be utilized to obtain polycarbonate having a controllable molecular weight and molecular weight distribution via ring opening polymerization, and has biodegradability and reduction-sensitive reversible crosslinking properties. The present invention can be used in a carrier having controllably released drug, a biological tissue scaffold or a biochip.

Abstract: The present invention relates to a method for making a polymer wherein during ring opening polymerisation is incorporated into the polymer chain at least one cyclic (alkyl) carbonate monomer having the formula (1) wherein Y is optional and represents the residue of a sulfhydryl reacted group, X represents a functional group reactive with a sulfhydryl group, L=—[CH2]n with n=0-10, or L=—[CH2]p-S—S—[CH2]q with p and q are 0-5 or L=-[PEG]- with PEG is a group that comprises a —[CH2CH2O]m-group with m=1-200, and R2 is hydrogen, methyl or ethyl. Optionally a cyclic (alkyl) acryloyl carbonate, or other additional monomer A may be used as comonomer. The polymer may be formed into a polymer article, such as a polymer film, such as a coating and modified and/or cross linked, to a polymer or polymer article obtainable, and to a biodevice, their use, and to the cyclic (alkyl)carbonates.

Abstract: The invention relates to a method for making a polymer wherein during the polymerization is incorporated in the polymer chain by ring opening polymerization a cyclic (alkyl)acryloyl carbonate having the formula (4): wherein R1 and R2 each independently are hydrogen, methyl or ethyl. Preferable the polymer is an (alkyl)acryloyl polycarbonate such that at least one first monomer a cyclic (alkyl)acryloyl carbonate having the formula (4). The (alkyl)acryloyl polyester may be modified and used in biodevices.

Abstract: The present invention relates to a method for making a polymer wherein during ring opening polymerisation is incorporated into the polymer chain at least one cyclic (alkyl) carbonate monomer having the formula (1) wherein Y is optional and represents the residue of a sulfhydryl reacted group, X represents a functional group reactive with a sulfhydryl group, L=—[CH2]n with n=0-10, or L=?[CH2]p-S—S—[CH2]q with p and q are 0-5 or L=-[PEG]- with PEG is a group that comprises a —[CH2CH2O]m-group with m=1-200, and R2 is hydrogen, methyl or ethyl. Optionally a cyclic (alkyl) acryloyl carbonate, or other additional monomer A may be used as comonomer. The polymer may be formed into a polymer article, such as a polymer film, such as a coating and modified and/or cross linked, to a polymer or polymer article obtainable, and to a biodevice, their use, and to the cyclic (alkyl)carbonates.