Abstract: The novel insulin derivates delivers, after administration to humans, insulin as a function of the glucose concentration in the tissue.

Abstract: The novel insulin derivates delivers, after administration to humans, insulin as a function of the glucose concentration in the tissue.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: The novel insulin derivates delivers, after administration to humans, insulin as a function of the glucose concentration in the tissue.

Abstract: Novel acylated insulin analoges exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analoges contain B25H and A14E or A14H.

Abstract: The novel insulin derivates delivers, after administration to humans, insulin as a function of the glucose concentration in the tissue.

Abstract: An acylated insulin analogue wherein the insulin analogue comprises a lysine residue connected C-terminally to the A21 amino acid residue or a peptide residue of up to 4 amino acid residues comprising a lysine residue which peptide residue is connected C-terminally to the A21 amino acid residue, characterized in that an acyl moiety comprising an alkylene glycol moiety is attached to the lysine residue in the A22 position or attached to a lysine residue present in the peptide residue that is attached to the C terminal end of the A21 amino acid residue and wherein there is only one lysine (K, Lys) in the insulin analogue, can conveniently be administered pulmonary.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: The present invention relates to novel human insulin derivatives which are soluble at physiological pH values and have a prolonged profile of action. The invention also relates to methods of providing such derivatives, to pharmaceutical compositions containing them, to methods of treating diabetes and hyperglycaemia using the insulin derivatives of the invention and to the use of such insulin derivatives in the treatment of diabetes and hyperglycaemia.

Abstract: The present invention is related to insulin derivatives having a side chain attached either to the ?-amino group of the N-terminal amino acid residue of B chain or to an ?-amino group of a Lys residue present in the B chain of the parent insulin molecule via an amide bond which side chain comprises one or more residues of ethyleneglycol, propyleneglycol and/or butyleneglycol containing independently at each termini a group selected from —NH2 and —COOH; a fatty diacid moiety with 4 to 22 carbon atoms, at least one free carboxylic acid group or a group which is negatively charged at neutral pH; and possible linkers which link the individual components in the side chain together via amide or ether bonds, said linkers optionally comprising a free carboxylic acid group.

Abstract: 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.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: The present invention is related to insulin derivatives having a side chain attached either to the ?-amino group of the N-terminal amino acid residue of B chain or to an ?-amino group of a Lys residue present in the B chain of the parent insulin molecule via an amide bond which side chain comprises one or more residues of ethyleneglycol, propyleneglycol and/or butyleneglycol containing independently at each termini a group selected from —NH2 and —COOH; a fatty diacid moiety with 4 to 22 carbon atoms, at least one free carboxylic acid group or a group which is negatively charged at neutral pH; and possible linkers which link the individual components in the side chain together via amide or ether bonds, said linkers optionally comprising a free carboxylic acid group.

Abstract: The novel insulin derivates delivers, after administration to humans, insulin as a function of the glucose concentration in the tissue.

Abstract: Novel acylated insulin analogues exhibiting resistance towards proteases can, effectively, be administered pulmonary or orally. The insulin analogues contain B25H and A14E or A14H.

Abstract: The present invention relates to novel ligands for the HisB10 Zn2+ sites of the R-state insulin hexamer having the formula A-B-C-D-X (III), wherein: A is a chemical group which reversibly binds to a HisB10 Zn2+ sites of an insulin hexamer; B is a linker; C is a fragment consisting of 0 to 5 neutral amino acids; D is a fragment comprising 1 to 20 positively charged groups independently selected from amino or guanidino groups; and X is —OH, —NH2 or a diamino group. The present invention also relates to R-state insulin hexamers comprising such ligands, and aqueous insulin preparations comprising such R-state insulin hexamers.