The invention provides a colon cleansing solution comprising: a) 300 to 2000 mmol per litre ascorbate anion provided by ascorbic acid, one or more salts of ascorbic acid, or a mixture thereof; and h) 10 to 200 g per litre polyethylene glycol. The invention also provides methods and kits associated with, or making use of the solutions. The invention also provides a method of cleansing the colon of a subject comprising: —administering to the subject an effect amount of a first cleansing solution; and then after a time interval—administering to the subject an effective amount of a second cleansing solution, wherein the two cleansing solutions are as described in the specification.

The invention provides a colon cleansing solution comprising: a) 300 to 2000 mmol per litre ascorbate anion provided by ascorbic acid, one or more salts of ascorbic acid, or a mixture thereof; and h) 10 to 200 g per litre polyethylene glycol. The invention also provides methods and kits associated with, or making use of the solutions. The invention also provides a method of cleansing the colon of a subject comprising: —administering to the subject an effect amount of a first cleansing solution; and then after a time interval—administering to the subject an effective amount of a second cleansing solution, wherein the two cleansing solutions are as described in the specification.

A composition for restoring or increasing tissue perfusion is provided. The composition includes polyethylene glycol polymers (PEG) with a molecular weight of 18,000-100,000 Da at a concentration of 5-20% by weight; PEG with a molecular weight of 1,000-10,000 Da at a concentration of 1-30% by weight; and water, wherein said PEG with a molecular weight of 18,000-100,000 Da and said PEG with a molecular weight of 1,000-10,000 Da are dissolved or dispersed in said water.

A composition for restoring or increasing tissue perfusion is provided. The composition includes polyethylene glycol polymers (PEG) with a molecular weight of 18,000-100,000 Da at a concentration of 5-20% by weight; PEG with a molecular weight of 1,000-10,000 Da at a concentration of 1-30% by weight; and water, wherein said PEG with a molecular weight of 18,000-100,000 Da and said PEG with a molecular weight of 1,000-10,000 Da are dissolved or dispersed in said water.

A composition for restoring or increasing tissue perfusion is provided. The composition includes polyethylene glycol polymers (PEG) with a molecular weight of 18,000-100,000 Da at a concentration of 5-20% by weight; PEG with a molecular weight of 1,000-10,000 Da at a concentration of 1-30% by weight; and water, wherein said PEG with a molecular weight of 18,000-100,000 Da and said PEG with a molecular weight of 1,000-10,000 Da are dissolved or dispersed in said water.

Provided herein are compositions and methods for diagnosis and therapy through targeted nano-delivery to injured brain endothelium. In some aspects, the compositions comprise a population of polyester derived nanoparticles, wherein each polyester derived nanoparticle comprises a) a therapeutic agent encapsulated therein for treating traumatically injured, inflamed, diseased, or disrupted endothelial cells, and b) a targeting ligand bound to the nanoparticle, wherein the targeting ligand binds to a biomarker for the injured, inflamed, diseased, or disrupted endothelial cells, are provided. The nanoparticles can be used for targeting difficult-to-reach injury sites, including the blood brain barrier and brain tissue.

Provided herein are compositions and methods for diagnosis and therapy through targeted nano-delivery to injured brain endothelium. In some aspects, the compositions comprise a population of polyester derived nanoparticles, wherein each polyester derived nanoparticle comprises a) a therapeutic agent encapsulated therein for treating traumatically injured, inflamed, diseased, or disrupted endothelial cells, and b) a targeting ligand bound to the nanoparticle, wherein the targeting ligand binds to a biomarker for the injured, inflamed, diseased, or disrupted endothelial cells, are provided. The nanoparticles can be used for targeting difficult-to-reach injury sites, including the blood brain barrier and brain tissue.

The present invention relates to a bowel cleansing composition comprising polyethylene glycol and ascorbate ingredients, the bowel cleansing composition of the present invention being easier to take, while having an excellent bowel cleansing effect, thereby being usable as an effective bowel cleansing agent.

The present invention relates to a polymer composite for ultrasound-based cancer immunotherapy, which comprises an peroxalate derivatives, and a preparation method thereof. The polymer composite according to the present invention is a structure in which the peroxalate derivatives are encapsulated in an amphipathic polymer compound in which a biocompatible polymer and a sonosensitizer are combined. The peroxalate derivatives produce free electrons and carbon dioxide (CO.sub.2) by reaction with a high concentration of hydrogen peroxide (H.sub.2O.sub.2) in cancer tissue, the generated electrons raise the energy level of the sonosensitizer in the polymer composite to increase the amount of reactive oxygen species (ROS) production, thereby exhibiting an effect of increasing the death rate of cancer cells. In addition, by ultrasound treatment, immunogenic cell death (ICD) is induced due to the cavitation effect of the produced CO.sub.2, so molecules capable of activating immune cells in cancer cells are released without damage to induce an immune response to cancer. Therefore, the polymer composite according to the present invention is expected to be effectively used as an ultrasound-based cancer immunotherapeutic agent.

Disclosed is a method of preparing a polycaprolactone powder possessing properties making it well-suited to powder bed fusion 3D printing processes. The polycaprolactone powder disclosed herein has an enthalpy of fusion between 80 J/g and 140 J/g. The polycaprolactone powder described herein has a D.sub.90 between 20 microns and 150 microns. The polycaprolactone powder described herein contains a detectable amount of a biocompatible solvent, a bioresorbable solvent, and/or ethyl lactate.