Abstract: The present invention relates to a method for decontaminating glucose polymers or the hydrolysates of the pro-inflammatory molecules thereof. Said method includes a) providing glucose polymers or the hydrolysates thereof, b) optionally, detecting or assaying the pro-inflammatory molecules in the glucose polymers or the hydrolysates thereof provided in Step a), and c) carrying out the following purifying steps: i. treatment using an enzymatic preparation having detergent properties and clarification properties; ii. treatment using a pharmaceutical-grade activated carbon with very high adsorption properties and “micropore” porosity; iii. optionally, treatment using a second activated carbon with “mesopore” porosity; iv. passing them over a macroporous adsorbent polymer resin having porosity greater than 100 Angstroms; and v. continuous ultrafiltration at 5 kDa.

Abstract: The invention relates to a method for detecting contaminants of glucose polymers, said contaminants being capable of acting in synergy with one another so as to trigger an inflammatory reaction, characterized in that it comprises an in vitro inflammatory response test using modified cell lines.

Abstract: The present invention concerns a method for determining the impact of a production step or a purification step on the presence or nature of pro-inflammatory contaminating molecules in glucose polymers or the hydrolysates of same by using an in vitro test of inflammatory response using cell lines. It further concerns an optimised method of producing or purifying glucose polymers or the hydrolysates of same comprising an analysis of the pro-inflammatory contaminating molecules in glucose polymers or the hydrolysates of same and the selection of production or purification steps optimised with respect to the presence and nature of the pro-inflammatory contaminating molecules.

Abstract: The present invention relates to a method for decontaminating glucose polymers or the hydrolysates of the pro-inflammatory molecules thereof. Said method includes a) providing glucose polymers or the hydrolysates thereof, b) optionally, detecting or assaying the pro-inflammatory molecules in the glucose polymers or the hydrolysates thereof provided in Step a), and c) carrying out the following purifying steps: i. treatment using an enzymatic preparation having detergent properties and clarification properties; ii. treatment using a pharmaceutical-grade activated carbon with very high adsorption properties and “micropore” porosity; iii. optionally, treatment using a second activated carbon with “mesopore” porosity; iv. passing them over a macroporous adsorbent polymer resin having porosity greater than 100 Angstroms; and v. continuous ultrafiltration at 5 kDa.

Abstract: The present invention relates to a biological method for the dosage of peptidoglycans in a sample, especially a sample of glucose polymers.

Abstract: The present invention relates to a biological method for assaying peptidoglycans (PGN) in a sample, particularly a sample of glucose polymers. The PGN assay includes: a) treating the glucose polymer sample by sonication, heating, and/or alkalizing; b) placing the treated sample or a dilution thereof in contact with a recombinant cell expressing an exogenous TLR2 (toll-like receptor 2) and a reporter gene directly dependent on the signaling pathway associated with the TLR2. The reporter gene codes for a colored or fluorescent protein or for a protein the activity of which is measurable with or without a substrate; c) measuring the reporter gene signal; and d) determining the amount of PUN in the sample using a standard curve of the correlation between the amount of PGN and the strength of the reporter gene signal.

Abstract: The present invention concerns a method for decontaminating the starches used as a raw material for the preparation of glucose polymers intended for peritoneal dialysis, the method comprising the following steps: —preparing a Waxy corn starch, —placing the Waxy starch in suspension at a concentration of between 20 and 40% dry matter in a process water at a pH of between approximately 5 and approximately 6, in particular approximately 5.5, —treating the starch suspension with a peracetic acid solution at a concentration equal to or between 100 and 500 ppm, preferably 300 ppm, —dewatering the starch, then dissolving in demineralised water adjusted to a pH of between approximately 5 and approximately 6, in particular approximately 5.5 and at a concentration of between 20 and 40% dry matter, —increasing the temperature to 107° C.

Abstract: The present invention relates to a biological method for assaying peptidoglycans (PGN) in a sample, particularly a sample of glucose polymers. The PGN assay includes: a) treating the glucose polymer sample by sonication, heating, and/or alkalizing; b) placing the treated sample or a dilution thereof in contact with a recombinant cell expressing an exogenous TLR2 (toll-like receptor 2) and a reporter gene directly dependent on the signaling pathway associated with the TLR2. The reporter gene codes for a colored or fluorescent protein or for a protein the activity of which is measurable with or without a substrate; c) measuring the reporter gene signal; and d) determining the amount of PGN in the sample using a standard curve of the correlation between the amount or PGN and the strength of the reporter gene signal.

Abstract: The present invention relates to a method for decontaminating glucose polymers or the hydrolysates of the pro-inflammatory molecules thereof. Said method includes a) providing glucose polymers or the hydrolysates thereof, b) optionally, detecting or assaying the pro-inflammatory molecules in the glucose polymers or the hydrolysates thereof provided in Step a), and c) carrying out the following purifying steps: i. treatment using an enzymatic preparation having detergent properties and clarification properties; ii. treatment using a pharmaceutical-grade activated carbon with very high adsorption properties and “micropore” porosity; iii. optionally, treatment using a second activated carbon with “mesopore” porosity; iv. passing them over a macroporous adsorbent polymer resin having porosity greater than 100 Angstroms; and v. continuous ultrafiltration at 5 kDa.

Abstract: The present invention relates to a biological method for the dosage of peptidoglycans in a sample, especially a sample of glucose polymers.

Abstract: The invention relates to a method for detecting contaminants of glucose polymers, said contaminants being capable of acting in synergy with one another so as to trigger an inflammatory reaction, characterized in that it comprises an in vitro inflammatory response test using modified cell lines.

Abstract: The invention relates to a method for detecting contaminants of glucose polymers, said contaminants being capable of acting in synergy with one another so as to trigger an inflammatory reaction, characterized in that it comprises an in vitro inflammatory response test using modified cell lines.

Abstract: The present invention relates to a biological method for assaying peptidoglycans (PGN) in a sample, particularly a sample of glucose polymers. The PGN assay includes: a) treating the glucose polymer sample by sonication, heating, and/or alkalizing; b) placing the treated sample or a dilution thereof in contact with a recombinant cell expressing an exogenous TLR2 (toll-like receptor 2) and a reporter gene directly dependent on the signaling pathway associated with the TLR2. The reporter gene codes for a colored or fluorescent protein or for a protein the activity of which is measurable with or without a substrate; c) measuring the reporter gene signal; and d) determining the amount of PGN in the sample using a standard curve of the correlation between the amount or PGN and the strength of the reporter gene signal.

Abstract: The present invention concerns a method for determining the impact of a production step or a purification step on the presence or nature of pro-inflammatory contaminating molecules in glucose polymers or the hydrolysates of same by using an in vitro test of inflammatory response using cell lines. It further concerns an optimised method of producing or purifying glucose polymers or the hydrolysates of same comprising an analysis of the pro-inflammatory contaminating molecules in glucose polymers or the hydrolysates of same and the selection of production or purification steps optimised with respect to the presence and nature of the pro-inflammatory contaminating molecules.

Abstract: The invention relates to a method for detecting contaminants of glucose polymers, said contaminants being capable of acting in synergy with one another so as to trigger an inflammatory reaction, characterized in that it comprises an in vitro inflammatory response test using modified cell lines.