Patent application number | Description | Published |
20090306337 | Pegylated, Extended Insulins - PEGylated, extended insulins are insulins which, compared with human insulin, has one or more extensions extended from the A1, B1, A21 and/or B30 position(s), said extension(s) consist(s) of amino acid residue(s) and wherein a PEG moiety, via a linker, is attached to one or more of the amino acid residues in the extension(s). PEG is polyethyleneglycol. Such PEGylated, extended insulins have higher bioavailability and a longer time-action profile than regulär insulin and are in particular suited for pulmonary administration and can, conveniently, be used to treat diabetes. | 12-10-2009 |
20100069605 | PEPTIDE EXTENDED INSULINS - Insulins to which there is connected an amino acid oligomer have satisfactory properties. | 03-18-2010 |
20110009314 | Single-Chain Insulin Analogues and Pharmaceutical Formulations Thereof - The present invention is related to fast acting single-chain insulin comprising a modified B-chain and the A-chain of human insulin or an analogue thereof connected by a connecting peptide wherein one or more of the amino acid residues in position B25, B26 or B27 in the human B-chain are Glu or Asp or are deleted and/or B28 is Glu, Asp, Lys or is deleted, and the amino acid residue in position B10 in the human insulin B-chain is Gln, Ala, Val, Thr or Ser. The invention is also related to pharmaceutical compositions being a mixture of the rapid acting single-chain insulin and the protracted acylated insulin. | 01-13-2011 |
20110021423 | Rapid Acting Insulin Analogues - The invention is related to fast acting insulin analogues which can form soluble mix-tures (pre-mixed or self-mixed) with long acting insulin analogues. The fast action is achieved through monomerizing substitutions/deletions in the C-terminus of the B-chain of human insulin and the mixability with long acting insulin analogues is achieved through a substitution of the Zn-binding His in position B10 of human insulin with a Gln amino acid residue. In one embodiment the invention is related to fast acting insulin analogues in which at least one of the natural amino acid residues in position B22-B30 in the human B-chain has been substituted with another amino acid residue having the effect of promoting formation of the monomeric form of insulin, the His amino acid residue in position 10 in the B-chain is substituted with a Gln and wherein further one or more of the amino acid residues in position B22-B30 optionally have been deleted. | 01-27-2011 |
20110039769 | INSULIN ALBUMIN CONJUGATES - Insulin albumin conjugates consisting of an insulin analogue, a bifunctional linker and albumin can efficiently be used to treat diabetic patients. | 02-17-2011 |
20110092419 | PROTEASE-STABILIZED INSULIN ANALOGUES - The present invention relates to novel insulin analogues comprising mutations at position A14 in the A chain and at positions B27, B28, B29 and B30 in the B chain and exhibiting resistance towards protease; a method for the preparation of such insulin analogues; insulin preparations containing the insulin analogues of the invention; and, a method of treating diabetes mellitus using these insulin analogues. | 04-21-2011 |
20110098439 | INSULINS WITH AN ACYL MOIETY COMPRISING REPEATING UNITS OF ALKYLENE GLYCOL CONTAINING AMINO ACIDS - Acylated insulins wherein an acyl moiety is attached to the parent insulin and wherein said acyl moiety comprises repeating units of alkylene glycol containing amino acids and wherein there is only one lysine residue (K & Lys) in the parent insulin have satisfactory properties when administered pulmonary. | 04-28-2011 |
20110105720 | PROTEASE STABILIZED, ACYLATED INSULIN ANALOGUES - Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H. | 05-05-2011 |
20110294729 | Novel Insulin Analogues - Insulin analogues wherein the B25 amino acid residue is His or Asn with the proviso that if the B25 amino acid residue is His, then the B27 amino acid residue is Asp or Glu and the A14 amino acid residue is different from Glu, have liver preferential actions. | 12-01-2011 |
20110319591 | PEGYLATED, EXTENDED INSULINS - PEGylated, extended insulins are insulins which, compared with human insulin, has one or more extensions extended from the A1, B1, A21 and/or B30 position(s), said extension(s) consist(s) of amino acid residue(s) and wherein a PEG moiety, via a linker, is attached to one or more of the amino acid residues in the extension(s). PEG is polyethyleneglycol. Such PEGylated, extended insulins have higher bioavailability and a longer time-action profile than regular insulin and are in particular suited for pulmonary administration and can, conveniently, be used to treat diabetes. | 12-29-2011 |
20120071402 | Protease Stabilized, Pegylated Insulin Analogues - Novel PEGylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H. The PEGylation is at B29K. | 03-22-2012 |