Abstract: A universal array for multiplexed quantification of variable hemagglutinin such as subcomponents of multivalent annual influenza vaccines that is robust to variations in proteins such as mutations and is capable of quantifying degradation of proteins. Universal capture array (100) comprises one or more substrates (102) and a low-density microarray (104) of sub-arrays (108) comprising spots (106a-c). The microarray (104) is contacted with one or more targets (202) at one or more unknown concentrations, and bound complexes (203) are formed and subsequently quantified with a suitable method. Quantified signals are compared to calibration curves to obtain one or more unknown concentrations and/or quantify degradation of the one or more targets (202). Other embodiments are described and shown.

Abstract: Provided herein are systems and methods to determine vaccine potency and toxin concentration. The provided systems and methods may be multiplexed to determine potency and toxin concentration simultaneously. The systems and methods may be microarray based, providing accurate results while reducing the amount of testing time required compared to current potency and toxin concentration tests which often require the use of animal subjects or expensive test materials. Further, the provided systems and methods may detect desired antigens, endotoxins and exotoxins.

Abstract: A universal array for multiplexed quantification of variable hemagglutinin such as subcomponents of multivalent annual influenza vaccines that is robust to variations in proteins such as mutations and is capable of quantifying degradation of proteins. Universal capture array (100) comprises one or more substrates (102) and a low-density microarray (104) of sub-arrays (108) comprising spots (106a-c). The microarray (104) is contacted with one or more targets (202) at one or more unknown concentrations, and bound complexes (203) are formed and subsequently quantified with a suitable method. Quantified signals are compared to calibration curves to obtain one or more un-known concentrations and/or quantify degradation of the one or more targets (202). Other embodiments are described and shown.

Abstract: The invention provides methods to detect molecular recognition events. The invention also provides methods to detect the presence of or identify a target species based on its interaction with one or more probe species. The methods of the invention are based on amplification of the signal due to each molecular recognition event. The amplification is achieved through photopolymerization, with the polymer formed being associated with the molecular recognition event. In one aspect, a fluorescent polymer, a magnetic polymer, a radioactive polymer or an electrically conducting polymer can form the basis of detection and amplification. In another aspect, a polymer gel swollen with a fluorescent solution, a magnetic solution, a radioactive solution or an electrically conducting solution can form the basis of detection and amplification. In another aspect, detectable particles can be included in the polymer formed. In another aspect, sufficient polymer forms to be detectable by visual inspection.

Abstract: The present invention relates to methods that enable improved accuracy for quantitative particle counting in a flowing liquid stream. The methods of the present invention utilize the real-time measurement of flow rates and flow rate control through feedback mechanisms to improve quantification, and this improved quantification translates to more accurate particle counting. In certain embodiments, particles being counted are biological particles in a liquid sample, such as viruses.

Abstract: The invention provides methods to detect molecular recognition events. The invention also provides methods to detect the presence of or identify a target species based on its interaction with one or more probe species. The methods of the invention are based on amplification of the signal due to each molecular recognition event. The amplification is achieved through photopolymerization, with the polymer formed being associated with the molecular recognition event. In one aspect, a fluorescent polymer, a magnetic polymer, a radioactive polymer or an electrically conducting polymer can form the basis of detection and amplification. In another aspect, a polymer gel swollen with a fluorescent solution, a magnetic solution, a radioactive solution or an electrically conducting solution can form the basis of detection and amplification. In another aspect, detectable particles can be included in the polymer formed. In another aspect, sufficient polymer forms to be detectable by visual inspection.

Abstract: The invention provides methods to detect molecular recognition events. The invention also provides methods to detect the presence of or identify a target species based on its interaction with one or more probe species. The methods of the invention are based on amplification of the signal due to each molecular recognition event. The amplification is achieved through photopolymerization, with the polymer formed being associated with the molecular recognition event. In one aspect, a fluorescent polymer, a magnetic polymer, a radioactive polymer or an electrically conducting polymer can form the basis of detection and amplification. In another aspect, a polymer gel swollen with a fluorescent solution, a magnetic solution, a radioactive solution or an electrically conducting solution can form the basis of detection and amplification. In another aspect, detectable particles can be included in the polymer formed. In another aspect, sufficient polymer forms to be detectable by visual inspection.

Abstract: The invention provides methods to detect molecular recognition events. The invention also provides methods to detect the presence of or identify a target species based on its interaction with one or more probe species. The methods of the invention are based on amplification of the signal due to each molecular recognition event. The amplification is achieved through photopolymerization, with the polymer formed being associated with the molecular recognition event. In an embodiment, a fluorescent polymer, a magnetic polymer, a radioactive polymer or an electrically conducting polymer can form the basis of detection and amplification. In another embodiment, a polymer gel swollen with a fluorescent solution, a magnetic solution, a radioactive solution or an electrically conducting solution can form the basis of detection and amplification. In another embodiment, sufficient polymer forms to be detectable by visual inspection.