The present invention relates to variants of factor IX (F.IX) or activated factor IX (F.IXa), wherein the variant is characterized in that it has clotting activity in absence of its cofactor. The present invention furthermore relates to variants of factor IX (F.IX) or activated factor IX (F.IXa), wherein the variant is characterized in that it has increased F.IX clotting activity compared to wildtype. The present invention furthermore relates to the use of these variants for the treatment and/or prophylaxis of bleeding disorders, in particular hemophilia A and/or hemophilia B or hemophilia caused or complicated by inhibitory antibodies to F.VIII. The present invention also relates to further variants of factor IX (F.IX) which have desired properties and can, thus be tailored for respective specific therapeutic applications.

In various embodiments, disclosed herein are methods of assessing therapeutic efficacy of an anticoagulant. Preferably, the method comprising providing a blood sample; perfusing the blood sample over a surface coated with collagen or immobilized rTF; measuring platelet aggregation and fibrin deposition on the surface coated with collagen or immobilized rTF; and assessing therapeutic efficacy of the anticoagulant based on the volume of platelet aggregates and/or deposited fibrin.

The present invention relates to modified Factor IX polypeptides comprising a mutation at a position corresponding to position 347 of wild type immature (precursor) Factor IX, polynucleotides encoding the polypeptides, and treatments utilising the polypeptides or polynucleotides.

The present invention relates to a nucleic acid molecule encoding human albumin for increasing the levels and/or activity of a protein or polypeptide encoded by a transgene, comprising a sequence defined by SEQ ID NO: 14 or a sequence having at least 80% sequence identity to said sequence, its use in nucleic acid expression cassettes and vectors containing liver-specific regulatory elements and codon-optimized factor IX, factor VIII, factor VII or factor VIIa transgenes, methods employing these expression cassettes and vectors and uses thereof. The present invention is particularly useful for applications using liver-directed gene therapy, in particular for the treatment of hemophilia A, hemophilia B or factor VII deficiency.

The present invention provides, in part, a biodegradable compound of formula I, and sub-formulas thereof: Formula (I) or a pharmaceutically acceptable salt thereof, where each X independently is O or S, each Y independently is O or S, and each R.sup.1 independently is defined herein; and a liposome composition comprising the cationic lipid of formula I or a sub-formula thereof, and methods of delivering agents, such as nucleic acids including mRNA, in vivo, by administering to a subject the liposome comprising the cationic lipid of formula I or a sub-formula thereof, where the agent is encapsulated within the liposome.

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Disclosed herein is a method for manufacturing a recombinant polypeptide of interest modified by a CTP extension in a mammalian cells culture system.

The present disclosure provides methods and compositions for diagnosing and treating subject having a bleeding disorder. The disclosed methods comprise contacting a sample, e.g., a blood or plasma sample obtained from the patient, with an activation mixture comprising an activated coagulation factor and a phospholipid mixture, wherein the activation mixture is dried onto a solid substrate. Also provided is a global hemostasis test based on the integration of clotting time (Ct) and pharmacokinetics data. The methods and compositions presented can be applied to point-of-care diagnostic systems.

The present invention relates to methods for administering autologous and/or allogeneic B cells genetically modified to produce a therapeutic agent, such as a therapeutic protein. Specifically disclosed are methods for administering a single, maximally effective dose of genetically modified B cells and for administering multiple doses of genetically modified B cells. The compositions and methods disclosed herein are useful for the long-term, in vivo delivery of a therapeutic agent.

The present invention relates to a hemophilia B rat and a method of producing the hemophilia B rat. More particularly, the present invention relates to a hemophilia B rat having F9 factor knocked-down or knocked-out and a method of producing the hemophilia B rat.

Sequences of novel adeno-associated virus capsids and vectors and host cells containing these sequences are provided. Also described are methods of using such host cells and vectors in production of rAAV particles. AAV-mediated delivery of therapeutic and immunogenic genes using the vectors of the invention is also provided.