Active connections
Name | Gender | Age | Linked companies | Collaboration |
---|---|---|---|---|
Ronald Berenson | M | - |
Aequus BioPharma, Inc.
Aequus BioPharma, Inc. Medical/Nursing ServicesHealth Services Aequus BioPharma was formed in May 2007 as a majority-owned subsidiary of Cell Therapeutics, Inc. to discover, develop, and market biotherapeutics based upon the proprietary Genetic Polymer technology platform invented at CTI. Its technology addresses many of the traditional problems encountered during the development and commercialization of protein-based biopharmaceuticals. Aequus and CTI are collaborating on the development of AQB-101, a follow-on protein product or biosimilar based upon granulocyte-colony stimulating factor (G-CSF) coupled to a Genetic Polymer carrier domain. The company believe that AQB-101 provides an elegantly simple solution to the plasma half-life and bioavailability issues that have been observed with the original formulations of G-CSF-based biomedicines and which have been addressed by others using traditional chemical modification approaches in their G-CSF-based biosimilars. | 12 years |
Stewart D. Chipman | M | - |
Aequus BioPharma, Inc.
Aequus BioPharma, Inc. Medical/Nursing ServicesHealth Services Aequus BioPharma was formed in May 2007 as a majority-owned subsidiary of Cell Therapeutics, Inc. to discover, develop, and market biotherapeutics based upon the proprietary Genetic Polymer technology platform invented at CTI. Its technology addresses many of the traditional problems encountered during the development and commercialization of protein-based biopharmaceuticals. Aequus and CTI are collaborating on the development of AQB-101, a follow-on protein product or biosimilar based upon granulocyte-colony stimulating factor (G-CSF) coupled to a Genetic Polymer carrier domain. The company believe that AQB-101 provides an elegantly simple solution to the plasma half-life and bioavailability issues that have been observed with the original formulations of G-CSF-based biomedicines and which have been addressed by others using traditional chemical modification approaches in their G-CSF-based biosimilars. | - |
Frederick Telling | M | 73 |
Aequus BioPharma, Inc.
Aequus BioPharma, Inc. Medical/Nursing ServicesHealth Services Aequus BioPharma was formed in May 2007 as a majority-owned subsidiary of Cell Therapeutics, Inc. to discover, develop, and market biotherapeutics based upon the proprietary Genetic Polymer technology platform invented at CTI. Its technology addresses many of the traditional problems encountered during the development and commercialization of protein-based biopharmaceuticals. Aequus and CTI are collaborating on the development of AQB-101, a follow-on protein product or biosimilar based upon granulocyte-colony stimulating factor (G-CSF) coupled to a Genetic Polymer carrier domain. The company believe that AQB-101 provides an elegantly simple solution to the plasma half-life and bioavailability issues that have been observed with the original formulations of G-CSF-based biomedicines and which have been addressed by others using traditional chemical modification approaches in their G-CSF-based biosimilars. | - |
James A. Bianco | M | 67 |
Aequus BioPharma, Inc.
Aequus BioPharma, Inc. Medical/Nursing ServicesHealth Services Aequus BioPharma was formed in May 2007 as a majority-owned subsidiary of Cell Therapeutics, Inc. to discover, develop, and market biotherapeutics based upon the proprietary Genetic Polymer technology platform invented at CTI. Its technology addresses many of the traditional problems encountered during the development and commercialization of protein-based biopharmaceuticals. Aequus and CTI are collaborating on the development of AQB-101, a follow-on protein product or biosimilar based upon granulocyte-colony stimulating factor (G-CSF) coupled to a Genetic Polymer carrier domain. The company believe that AQB-101 provides an elegantly simple solution to the plasma half-life and bioavailability issues that have been observed with the original formulations of G-CSF-based biomedicines and which have been addressed by others using traditional chemical modification approaches in their G-CSF-based biosimilars. | - |
Jack W. Singer | M | 81 |
Aequus BioPharma, Inc.
Aequus BioPharma, Inc. Medical/Nursing ServicesHealth Services Aequus BioPharma was formed in May 2007 as a majority-owned subsidiary of Cell Therapeutics, Inc. to discover, develop, and market biotherapeutics based upon the proprietary Genetic Polymer technology platform invented at CTI. Its technology addresses many of the traditional problems encountered during the development and commercialization of protein-based biopharmaceuticals. Aequus and CTI are collaborating on the development of AQB-101, a follow-on protein product or biosimilar based upon granulocyte-colony stimulating factor (G-CSF) coupled to a Genetic Polymer carrier domain. The company believe that AQB-101 provides an elegantly simple solution to the plasma half-life and bioavailability issues that have been observed with the original formulations of G-CSF-based biomedicines and which have been addressed by others using traditional chemical modification approaches in their G-CSF-based biosimilars. | - |
David Cosman | M | - |
Aequus BioPharma, Inc.
Aequus BioPharma, Inc. Medical/Nursing ServicesHealth Services Aequus BioPharma was formed in May 2007 as a majority-owned subsidiary of Cell Therapeutics, Inc. to discover, develop, and market biotherapeutics based upon the proprietary Genetic Polymer technology platform invented at CTI. Its technology addresses many of the traditional problems encountered during the development and commercialization of protein-based biopharmaceuticals. Aequus and CTI are collaborating on the development of AQB-101, a follow-on protein product or biosimilar based upon granulocyte-colony stimulating factor (G-CSF) coupled to a Genetic Polymer carrier domain. The company believe that AQB-101 provides an elegantly simple solution to the plasma half-life and bioavailability issues that have been observed with the original formulations of G-CSF-based biomedicines and which have been addressed by others using traditional chemical modification approaches in their G-CSF-based biosimilars. | - |
Connections Chart
Multi-company connection
Statistics
Country | Connections | % of total |
---|---|---|
United States | 6 | 100.00% |
Age of Connections
Active
Past
Male
Female
Members of the board
Executives
Origin of connections
- Stock Market
- Insiders
- Carl J. March
- Personal Network