In the field of anesthetics, an injectable anesthetic solution having a reduced bitterness including: an anesthetic agent; optionally, a vasoconstrictor; a pharmaceutically acceptable solvent; and a bitterness suppressant including or being a mixture of at least two among sodium saccharin, sorbitol and an amino acid, wherein the amino acid is selected from: serine, threonine and their mixtures. Also, a method for providing the injectable anesthetic solution and its uses in dentistry, oral surgery and/or maxillofacial surgery.

The present invention relates to pharmaceutical dosage forms, for example to a tamper resistant dosage form including an opioid analgesic, and processes of manufacture, uses, and methods of treatment thereof.

The present disclosure encompasses novel anti-NGF antibodies, antigen binding proteins and polynucleotides encoding the same. The disclosure further provides use of the novel antibodies, antigen binding proteins and/or nucleotide of the invention for the treatment of NGF related disorders, particularly in for the management of pain.

The present disclosure encompasses novel anti-NGF antibodies, antigen binding proteins and polynucleotides encoding the same. The disclosure further provides use of the novel antibodies, antigen binding proteins and/or nucleotide of the invention for the treatment of NGF related disorders, particularly in for the management of pain.

The present disclosure encompasses novel anti-NGF antibodies, antigen binding proteins and polynucleotides encoding the same. The disclosure further provides use of the novel antibodies, antigen binding proteins and/or nucleotide of the invention for the treatment of NGF related disorders, particularly in for the management of pain.

The present disclosure encompasses novel anti-NGF antibodies, antigen binding proteins and polynucleotides encoding the same. The disclosure further provides use of the novel antibodies, antigen binding proteins and/or nucleotide of the invention for the treatment of NGF related disorders, particularly in for the management of pain.

The present disclosure encompasses novel anti-NGF antibodies, antigen binding proteins and polynucleotides encoding the same. The disclosure further provides use of the novel antibodies, antigen binding proteins and/or nucleotide of the invention for the treatment of NGF related disorders, particularly in for the management of pain.

The present disclosure encompasses novel anti-NGF antibodies, antigen binding proteins and polynucleotides encoding the same. The disclosure further provides use of the novel antibodies, antigen binding proteins and/or nucleotide of the invention for the treatment of NGF related disorders, particularly in for the management of pain.

Compounds comprising peptides capable of binding C3 protein and inhibiting complement activation are disclosed. The compounds comprise compstatin analogs in which the N-terminus contains an added or substituted component that improves (1) the peptide's binding affinity to C3 or its fragments, (2) the peptide's solubility in aqueous liquids, (3) the peptide's plasma stability, (4) the peptide's in vivo retention and/or (5) the peptide's bioavailability, as compared with an unmodified compstatin peptide under equivalent conditions. Pharmaceutical compositions and methods of using the compounds are also disclosed.

The disclosure is directed to medroxyprogesterone compositions suitable for subcutaneous injection comprising about 360 mg/ml to 440 mg/ml medroxyprogesterone acetate, 1.35 mg/ml to 1.65 mg/ml docusate sodium, polyethylene glycol, and water. Methods of using these compositions are also described.