Abstract:
The present invention discloses methods for the detection and monitoring of a condition in a subject using highly sensitive detection of molecules. The invention provides a method for detecting or monitoring a condition in a subject, comprising detecting a first marker in a first sample from the subject and detecting a second marker, wherein the first marker comprises a biomarker, e.g., Cardiac Troponin-I (cTnl) or Vascular Endothelial Growth Factor (VEGF), and wherein the limit of detection of the first marker is less than about 10 pg/ml. The second marker can be a biomarker, physiological marker, a molecular marker or a genetic marker.
Abstract:
A hand dryer (1) includes a fan (4), and a housing defining a fan chamber (16) arranged to receive blown air from the fan (4). The fan chamber (16) comprises an outlet (44) defining the air outlet of the dryer (1) through which air is blown directly to the outside atmosphere. The fan chamber (16) is configured such that it tapers towards the outlet (44) to accelerate air flow therethrough. The outlet (44) comprises an elongate slot and the fan chamber (16) tapers to the elongate slot to optimise drying airflow for hand drying with the letterbox configuration providing an airflow which effectively spans a user's hands during drying.
Abstract:
The present invention discloses methods for the detection and monitoring of a condition in a subject using highly sensitive detection of molecules. The invention provides a method for detecting or monitoring a condition in a subject, comprising detecting a first marker in a first sample from the subject and detecting a second marker, wherein the first marker comprises a biomarker, e.g., Cardiac Troponin-I (cTnl) or Vascular Endothelial Growth Factor (VEGF), and wherein the limit of detection of the first marker is less than about 10 pg/ml. The second marker can be a biomarker, physiological marker, a molecular marker or a genetic marker.
Abstract:
Disclosed are methods, kits, and compositions for the highly sensitive detection of molecules. The methods, kits, and compositions are useful in determining concentrations of molecules in samples to levels of 1 femtomolar, 1 attomolar, or lower. The methods, kits, and compositions also allow the determination of concentration over a wide range, e.g., 7-log range, without need for sample dilution.
Abstract:
Disclosed are methods, kits, and compositions for fluorescent detection of single biomolecules, e.g. proteins, using highly sensitive fluorescent dyes and a flow cell with one interrogation space for irradiation by focused laser beam. The methods, kits, and compositions are useful in determining concentrations of molecules in samples to levels of 1 femtomolar, 1 attomolar, or lower. The methods, kits, and compositions also allow the determination of concentration over a wide range, e.g., 7-log range, without need for sample dilution.
Abstract:
The invention provides methods, compositions, kits, and systems for the sensitive detection of cardiac troponin, Such methods, compositions, kits, and systems are useful in diagnosis, prognosis, and determination of methods of treatment in conditions that involve release of cardiac troponin.