The invention is directed at a medicament comprising a combination of dehydrated or cryopreserved amniotic membrane isolated from human or other mammalian placenta, wherein the amniotic membrane is in a form of a sheet or a sheet composite comprising multiple overlain sheets of amniotic membrane; and umbilical cord blood serum, isolated from umbilical cord blood of a human or other mammal, separately of each other, for combined use in a method of treating a tissue wound in a human or other mammalian subject by applying the amniotic membrane to injured tissue of the wound to contact injured tissue of the wound and contacting the amniotic membrane with the umbilical cord blood serum.

The present invention relates to a pharmaceutical composition, particularly a pharmaceutical composition comprising an IgG:TGFβRII (such as an anti-PD-L1:TGFβ-inhibiting) fusion protein. The present invention also relates inter alia to a method of manufacturing the composition, to a kit including the composition, to a package including the composition, to a method of manufacturing the package, and to methods of treatment using the composition and/or package, especially cancer treatments.

The present invention relates to a method for prognosis the risk of bronchopulmonary dysplasia in premature infant by adjusting a score obtained from lung ultrasound with the gestational age of the infant.

The present invention includes a method of increasing, stimulating, inducing, promoting, enhancing or maintaining the genomic stability of a cell of a subject, the method comprising decreasing, reducing, inhibiting, suppressing, limiting or controlling loss of methylation of heterochromatin in the cell and/or modulating heterochromatin dysfunction in a cell of a subject, the method comprising activating, eliciting, stimulate ng, inducing, promoting, increasing or enhancing expression or activity in the cell of one or more DNA methyltransferase (DNMT).

The present disclosure provides compositions and methods for enhancing immunity (or immune response). The compositions and methods are particularly useful for potentiating immune response of a lymphoid cell. The compositions and methods are also applicable for treating cancer and other diseases.

Disclosed herein are methods of repairing or restoring a sarcoglycan complex or DAPC, stabilizing DAPC, restoring DAPC function, or increasing or enhancing expression of one or more components of a sarcoglycan complex or DAPC in a subject suffering from a muscular dystrophy.

Compositions and formulations comprising peptide conjugate compounds are provided, including native and modified variants of chlorotoxin peptide conjugated to detectable agents or active agents. Methods of detecting and treating vascular lesions, vascular malformations, and vascular abnormalities including cerebral cavernous malformation (CCM) with peptide conjugate compounds are also provided, including methods of imaging and resecting vascular lesions tissues and cells.

The present invention relates to methods of treating or ameliorating seizures relating to disruptions in Ubiquitin Protein Ligase E3A (UBE3A) gene. More particularly, the invention relates to the use of BK channel antagonists for the prophylaxis or treatment of seizures in a subject with Angelman syndrome or related autism spectrum disorder (ASD). In some embodiments, BK channel antagonist is Paxilline, iberiotoxin (IBTX) or GAL-021.

There is provided a mutant KLF protein that can induce reprogramming of a somatic cell at a higher efficiency than a KLF protein having a natural amino acid sequence. There is also provided a method for efficiently producing an iPS cell by using the mutant KLF protein. There is provided a mutant KLF protein having an amino acid substitution, or a peptide fragment thereof containing the amino acid substitution.

The present disclosure provides an anti-tumor polypeptide Bax-BH3, a fluorescent polymeric nanomicelle, a preparation method and use thereof, belonging to the technical field of medicines. The anti-tumor polypeptide Bax-BH3 has an amino acid sequence set forth in SEQ ID No: 1; the fluorescent polymeric nanomicelle includes the anti-tumor polypeptide Bax-BH3 and a polymer carrier; and the polymer carrier is a block copolymer RGD-PHPMA-b-Poly(MMA-alt-(Rhob-MA)). In the present disclosure, the anti-tumor polypeptide Bax-BH3 has desirable biocompatibility and biological activity; and the fluorescent polymeric nanomicelle encapsulates the anti-tumor polypeptide Bax-BH3 by the block copolymer RGD-PHPMA-b-Poly(MMA-alt-(Rhob-MA)), with high encapsulation rate and drug loading, and good release performance.