Patents Assigned to Q21
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Publication number: 20170106082Abstract: A method for the creation of a personalized vaccine. Multiple and varied antigens in conjunction with heat shock proteins (and other protein chaperones) are generated by ionized gas lysing coupled with the separation, concentration, and purification of these chaperone protein-antigen complexes (CPAC) using insulator-dielectrophorsis (i-DEP)-based devices. The ionized gas uniquely forms more and varied chaperone proteins and chaperone protein-antigen complexes (CPAC) than prior art mechanical, chemical, electric or other lysing techniques. These CPAC generated by the ionized gas lysis and separated by i-DEP are electrospray-encapsulated by a biodegradeable polymer at the nano particle level to further enhance these personalized vaccines for accelerated immune system uptake. For the first time, sterile eradication of infectious pathogens and cancer (known or unknown to exist in the host) can be accomplished with multiple personalized vaccine treatments.Type: ApplicationFiled: October 15, 2015Publication date: April 20, 2017Applicant: Q21Inventor: Joseph Gerard Birmingham
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Publication number: 20170107505Abstract: A method for the creation of a personalized vaccine. Multiple and varied antigens in conjunction with heat shock proteins (and other protein chaperones) are generated by ionized gas lysing coupled with the separation, concentration, and purification of these chaperone protein-antigen complexes (CPAC) using insulator-dielectrophoresis (i-DEP)-based devices. The ionized gas uniquely forms more and varied chaperone proteins and chaperone protein-antigen complexes (CPAC) than prior art mechanical, chemical, electric or other lysing techniques. These CPAC generated by the ionized gas lysis and separated by i-DEP are electrospray-encapsulated by a biodegradable polymer at the nano particle level to further enhance these personalized vaccines for accelerated immune system uptake. For the first time, sterile eradication of infectious pathogens and cancer (known or unknown to exist in the host) can be accomplished with multiple personalized vaccine treatments.Type: ApplicationFiled: October 15, 2015Publication date: April 20, 2017Applicant: Q21Inventor: Joseph Gerard Birmingham
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Publication number: 20170106061Abstract: A method for the creation of a personalized vaccine. Multiple and varied antigens in conjunction with heat shock proteins (and other protein chaperones) are generated by ionized gas lysing coupled with the separation, concentration, and purification of these chaperone protein-antigen complexes (CPAC) using insulator-dielectrophorsis (i-DEP)-based devices. The ionized gas uniquely forms more and varied chaperone proteins and chaperone protein-antigen complexes (CPAC) than prior art mechanical, chemical, electric or other lysing techniques. These CPAC generated by the ionized gas lysis and separated by i-DEP are electrospray-encapsulated by a biodegradeable polymer at the nano particle level to further enhance these personalized vaccines for accelerated immune system uptake. For the first time, sterile eradication of infectious pathogens and cancer (known or unknown to exist in the host) can be accomplished with multiple personalized vaccine treatments.Type: ApplicationFiled: October 15, 2015Publication date: April 20, 2017Applicant: Q21Inventor: Joseph Gerard Birmingham
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Publication number: 20170106083Abstract: A method for the creation of a personalized vaccine. Multiple and varied antigens in conjunction with heat shock proteins (and other protein chaperones) are generated by ionized gas lysing coupled with the separation, concentration, and purification of these chaperone protein-antigen complexes (CPAC) using insulator-dielectrophorsis (i-DEP)-based devices. The ionized gas uniquely forms more and varied chaperone proteins and chaperone protein-antigen complexes (CPAC) than prior art mechanical, chemical, electric or other lysing techniques. These CPAC generated by the ionized gas lysis and separated by i-DEP are electrospray-encapsulated by a biodegradeable polymer at the nano particle level to further enhance these personalized vaccines for accelerated immune system uptake. For the first time, sterile eradication of infectious pathogens and cancer (known or unknown to exist in the host) can be accomplished with multiple personalized vaccine treatments.Type: ApplicationFiled: October 15, 2015Publication date: April 20, 2017Applicant: Q21Inventor: Joseph Gerard Birmingham