Provided are a porous composite containing OCP and collagen having higher compressive strength than before: a bone regeneration material containing the same: and a method for producing a porous composite. The porous composite contains octacalcium phosphate and collagen, has a pore size of 5 to 40 μm as determined by measurement using a mercury porosimeter, and contains pores of 71 to 200 μm at a rate of less than or equal to 8% in all pores of less than or equal to 200 μm.

The invention relates to a stable bicarbonate ion-containing drug solution, particularly a bicarbonate-containing drug solution for dialysis in which the stability has been improved by the presence of a phosphate ion. Further, the invention relates to a drug solution for acute blood purification, particularly a dialysate and a substitution liquid for acute blood purification to be mixed before use containing the drug solution. Still further, the invention relates to a dialysate and a substitution liquid for acute blood purification to be mixed before use in which the formation of insoluble fine particles or precipitates is prevented for a long time after mixing and with which hypokalemeia and hypophosphatemia are not caused.

The invention relates to a stable bicarbonate ion-containing drug solution, particularly a bicarbonate-containing drug solution for dialysis in which the stability has been improved by the presence of a phosphate ion. Further, the invention relates to a drug solution for acute blood purification, particularly a dialysate and a substitution liquid for acute blood purification to be mixed before use containing the drug solution. Still further, the invention relates to a dialysate and a substitution liquid for acute blood purification to be mixed before use in which the formation of insoluble fine particles or precipitates is prevented for a long time after mixing and with which hypokalemeia and hypophosphatemia are not caused.

The invention relates to a stable bicarbonate ion-containing drug solution, particularly a bicarbonate-containing drug solution for dialysis in which the stability has been improved by the presence of a phosphate ion. Further, the invention relates to a drug solution for acute blood purification, particularly a dialysate and a substitution liquid for acute blood purification to be mixed before use containing the drug solution. Still further, the invention relates to a dialysate and a substitution liquid for acute blood purification to be mixed before use in which the formation of insoluble fine particles or precipitates is prevented for a long time after mixing and with which hypokalemeia and hypophosphatemia are not caused.

An enzyme containing composition is provided comprising a stabilized liquid enzyme supplement encapsulated in phospholipid structures. The enzyme supplements may be administered to humans so that the enzymes are rapidly absorbed into the blood and tissues in order to improve metabolism, immune competence, sleep quality, and aid digestion, in addition to general health, well-being, and overall quality of life.

An enzyme containing composition is provided comprising a stabilized liquid enzyme supplement encapsulated in phospholipid structures. The enzyme supplements may be administered to humans so that the enzymes are rapidly absorbed into the blood and tissues in order to improve metabolism, immune competence, sleep quality, and aid digestion, in addition to general health, well-being, and overall quality of life.

The present invention relates to a dialysis solution containing bicarbonate, calcium and phosphate, wherein the dialysis solution contains phosphate having a concentration in the range from up to 0.4 mmol/l, preferably in the range from up to 0.375 mmol/l, or in the range from up to 0.25 mmol/l, and particularly preferably in the range from up to 0.2 mmol/l.

The present invention relates to a dialysis solution containing bicarbonate, calcium and phosphate, wherein the dialysis solution contains phosphate having a concentration in the range from up to 0.4 mmol/l, preferably in the range from up to 0.375 mmol/l, or in the range from up to 0.25 mmol/l, and particularly preferably in the range from up to 0.2 mmol/l.

A phosphorous compound such as STMP is used as a cross-linking agent while making a starch nanoparticle in an emulsion process. Negative charge of the nanoparticle is reduced or reversed by adding cations and/or cationizing the starch optionally while forming the nanoparticles. Anionic active agents, such as fluoride or fluorescein, are optionally incorporated into the nanoparticle during the formation process. For example, a fluoride salt can also be used, which promotes the crosslinking reaction while also providing fluoride in the nanoparticle. The retention of both calcium and fluoride in the nanoparticle is improved when both salts are used. Alternatively, the nanoparticle may be used without added calcium and/or fluoride. The nanoparticles may be useful for tooth remineralization, the treatment of dentinal hypersensitivity, to treat caries, or as a diagnostic agent to locate carious lesions.

A phosphorous compound such as STMP is used as a cross-linking agent while making a starch nanoparticle in an emulsion process. Negative charge of the nanoparticle is reduced or reversed by adding cations and/or cationizing the starch optionally while forming the nanoparticles. Anionic active agents, such as fluoride or fluorescein, are optionally incorporated into the nanoparticle during the formation process. For example, a fluoride salt can also be used, which promotes the crosslinking reaction while also providing fluoride in the nanoparticle. The retention of both calcium and fluoride in the nanoparticle is improved when both salts are used. Alternatively, the nanoparticle may be used without added calcium and/or fluoride. The nanoparticles may be useful for tooth remineralization, the treatment of dentinal hypersensitivity, to treat caries, or as a diagnostic agent to locate carious lesions.