The present disclosure is directed to fatty-acid glycerol ester derivative compounds containing a targeting bisphosphonate group. The disclosure further includes pharmaceutical or biomedical compositions comprising these compounds, and methods of using these compounds and compositions forming microbubbles. The microbubbles have affinity for metal-containing, especially calcium-containing, bodies and/or biological targets. In certain embodiments, these compositions are useful for providing targeted placement of microbubbles capable of cavitation on application of high frequency energy.

The present disclosure is directed to fatty-acid glycerol ester derivative compounds containing a targeting bisphosphonate group. The disclosure further includes pharmaceutical or biomedical compositions comprising these compounds, and methods of using these compounds and compositions forming microbubbles. The microbubbles have affinity for metal-containing, especially calcium-containing, bodies and/or biological targets. In certain embodiments, these compositions are useful for providing targeted placement of microbubbles capable of cavitation on application of high frequency energy.

The present invention relates to a composition for preventing or treating chronic allograft dysfunction, comprising bisphosphonate which is used as a therapeutic agent for osteoporosis. The composition for preventing or treating chronic allograft dysfunction, comprising bisphosphonate, according to the present invention has an excellent prophylactic and/or therapeutic effect on chronic allograft dysfunction caused by a gradual decrease in the function of a transplanted tissue or organ which occurs after tissue or organ transplantation surgery, and thus is expected to be able to remarkably increase a long-term survival after transplantation surgery.

The present invention relates to a composition for preventing or treating chronic allograft dysfunction, comprising bisphosphonate which is used as a therapeutic agent for osteoporosis. The composition for preventing or treating chronic allograft dysfunction, comprising bisphosphonate, according to the present invention has an excellent prophylactic and/or therapeutic effect on chronic allograft dysfunction caused by a gradual decrease in the function of a transplanted tissue or organ which occurs after tissue or organ transplantation surgery, and thus is expected to be able to remarkably increase a long-term survival after transplantation surgery.

The present invention relates the field of CMV and CMV related diseases. Using a powerful rat model of CMV infection of the embryonic brain, the inventors have looked for the existence of postnatal neurological and neurosensory manifestations, and have tested whether the early pharmacological targeting of microglia during pregnancy impacts on postnatal phenotypes. Particularly, the inventors tested the clodronate and the doxycycline and showed that these compounds improve the postnatal outcome of the baby. Thus, the invention relates to a compound which modifies the microglia for use in the treatment of CMV related diseases in a subject in need thereof.

The present invention relates the field of CMV and CMV related diseases. Using a powerful rat model of CMV infection of the embryonic brain, the inventors have looked for the existence of postnatal neurological and neurosensory manifestations, and have tested whether the early pharmacological targeting of microglia during pregnancy impacts on postnatal phenotypes. Particularly, the inventors tested the clodronate and the doxycycline and showed that these compounds improve the postnatal outcome of the baby. Thus, the invention relates to a compound which modifies the microglia for use in the treatment of CMV related diseases in a subject in need thereof.

The present disclosure relates to expansion and activation of T cells. In an aspect, the present disclosure relates to expansion and activation of γδ T cells that may be used for transgene expression. In another aspect, the disclosure relates to expansion and activation of γδ T cells while depleting α- and/or β-TCR positive cells. T cell populations comprising expanded γδ T cell and depleted or reduced α- and/or β-TCR positive cells are also provided for by the instant disclosure. The disclosure further provides for methods of using the disclosed T cell populations.

The present disclosure relates to expansion and activation of T cells. In an aspect, the present disclosure relates to expansion and activation of γδ T cells that may be used for transgene expression. In another aspect, the disclosure relates to expansion and activation of γδ T cells while depleting α- and/or β-TCR positive cells. T cell populations comprising expanded γδ T cell and depleted or reduced α- and/or β-TCR positive cells are also provided for by the instant disclosure. The disclosure further provides for methods of using the disclosed T cell populations.

The invention relates to methods for treatment of bone fractures and defects, in particular to method that accelerate fracture healing, and to compositions, injectable in situ depot forming formulations and patches comprising at least one biodegradable polymer, an androgen receptor agonist and a bisphosphonate or pharmaceutically acceptable salt thereof for use in such methods.

The invention relates to methods for treatment of bone fractures and defects, in particular to method that accelerate fracture healing, and to compositions, injectable in situ depot forming formulations and patches comprising at least one biodegradable polymer, an androgen receptor agonist and a bisphosphonate or pharmaceutically acceptable salt thereof for use in such methods.