A tissue factor (TF)-targeted antibody-drug conjugate (ADC) and a method for preparing the ADC. The ADC is capable of binding to TF antigen with high specificity, and has high affinity, low immunogenicity, high cytotoxicity, and significant anti-tumor activity.

A tissue factor (TF)-targeted antibody-drug conjugate (ADC) and a method for preparing the ADC. The ADC is capable of binding to TF antigen with high specificity, and has high affinity, low immunogenicity, high cytotoxicity, and significant anti-tumor activity.

The present invention relates to pharmaceutical preparations containing as active ingredients 3-N-formylhydroxylaminopropylphosphonic acid derivatives or 3-N-acetylhydroxylaminopropylphosphonic acid derivatives in combination with clindamycin and artesunate for the treatment of malaria, in particular for the acute therapy of cerebral malaria, and to an associated dosage, in particular for the patient group of children.

The present invention relates to pharmaceutical preparations containing as active ingredients 3-N-formylhydroxylaminopropylphosphonic acid derivatives or 3-N-acetylhydroxylaminopropylphosphonic acid derivatives in combination with clindamycin and artesunate for the treatment of malaria, in particular for the acute therapy of cerebral malaria, and to an associated dosage, in particular for the patient group of children.

Disclosed herein are new antiviral compounds, together with pharmaceutical compositions that include one or more antiviral compounds, and methods of synthesizing the same. Also disclosed herein are methods of ameliorating and/or treating a paramyxovirus viral infection with one or more small molecule compounds. Examples of paramyxovirus infection include an infection caused by human respiratory syncytial virus (RSV).

Disclosed herein are new antiviral compounds, together with pharmaceutical compositions that include one or more antiviral compounds, and methods of synthesizing the same. Also disclosed herein are methods of ameliorating and/or treating a paramyxovirus viral infection with one or more small molecule compounds. Examples of paramyxovirus infection include an infection caused by human respiratory syncytial virus (RSV).

The invention relates to methods for treating COVID-19 by targeting the inflammasome/caspase1/pyroptosis axis as a key inflammatory pathway. In particular, the invention relates to treating a patient infected with SARS-CoV-2 with an effective amount of one or more compounds that directly or indirectly inhibit one or more pathways of the inflammasome/caspase1/pyroptosis axis.

The invention relates to methods for treating COVID-19 by targeting the inflammasome/caspase1/pyroptosis axis as a key inflammatory pathway. In particular, the invention relates to treating a patient infected with SARS-CoV-2 with an effective amount of one or more compounds that directly or indirectly inhibit one or more pathways of the inflammasome/caspase1/pyroptosis axis.

The present invention discloses compounds for inhibition of uncontrolled cell proliferation particularly in cancer stem cells. Particularly, the invention relates to compounds of Formula III to XIV for the treatment of cancer, such as breast and prostate cancer.

The present invention discloses compounds for inhibition of uncontrolled cell proliferation particularly in cancer stem cells. Particularly, the invention relates to compounds of Formula III to XIV for the treatment of cancer, such as breast and prostate cancer.