Abstract: The present invention provides apparatuses and methods for determining zinc ion concentration in a fluid sample. Some apparatuses of the invention include (i) a light source designed to emit an excitatory light at a first known wavelength that activates a fluorescent emission having a second and different wavelength by at least one selected fluorescent reporter probe that generates a different fluorescent response when bound to zinc ion; (ii) at least one sample-holding component adapted to hold a liquid sample in a pathway of the excitatory light; (iii) a photodetector for measuring fluorescent emission intensity generated by fluorescent reporter probe bound to zinc ion within the liquid sample; and (iv) electronic means for creating a data signal that correlates with fluorescent emission intensity generated by fluorescent reporter probe bound to zinc ion in the liquid sample to the free zinc ion concentration.

Abstract: The present invention provides methods of inhibiting release of zinc from neurons and of preventing zinc-mediated brain injury. Also provided are methods of improving cerebral blood flow while preventing zinc-mediated brain injury. Inhibitors of or activators of nitric oxide synthases modulate nitric oxide synthesis to reduce nitric oxide-induced release of neurotoxic amounts of zinc, thereby reducing zinc-mediated neuronal injury after brain trauma.

Abstract: A system and method for sorting of objects that includes a pathway network that has a plurality of pathways and one or more branch points. A fluid composition including one or more objects can be transported through the pathway network, where one or more of the objects are analyzed and sorted at one or more branch points based on the analysis of the objects.

Abstract: A system and method for sorting of objects that includes a pathway network that has a plurality of pathways and one or more branch points. A fluid composition including one or more objects can be transported through the pathway network, where one or more of the objects are analyzed and sorted at one or more branch points based on the analysis of the objects.

Abstract: The present invention provides methods of inhibiting release of zinc from neurons and of preventing zinc-mediated brain injury. Also provided are methods of improving cerebral blood flow while preventing zinc-mediated brain injury. Inhibitors of or activators of nitric oxide synthases modulate nitric oxide synthesis to reduce nitric oxide-induced release of neurotoxic amounts of zinc, thereby reducing zinc-mediated neuronal injury after brain trauma.

Abstract: The present invention provides a method of determining if an individual is at risk for prostate cancer. The method measures and compares zinc levels in a semen sample in the potential at risk individual with normal levels. A decrease in zinc level is indicative of a risk for prostate cancer. Further provided is a zinc-based diagnostic kit for prostate cancer.

Abstract: A method and apparatus is disclosed which employs a pulse-controlled microdroplet fluid delivery system for precisely dispensing fragrances and other odor producing vapors. The pulse-controlled fluid delivery device is capable of ejecting microdroplets of fluid with a diameter less than 350 micrometers at a controlled ejection rate based upon inkjet printing technology. The pulse-controlled fluid delivery system includes mechanisms for vaporizing the fluids and delivery of the vapors to the nose, which is controlled by a programmable system controller capable of real time data-driven dispensing with a multi-fluid capability. Synthesis of custom fragrances is made possible by a multijet programmed control system which adjusts dispensing rates of components. Calibration of a prior art “electronic nose” is disclosed. A precise calibration gas is produced in real-time to counteract the effect of drifting.

Abstract: A system and method for sorting of objects that includes a pathway network that has a plurality of pathways and one or more branch points. A fluid composition including one or more objects can be transported through the pathway network, where one or more of the objects are analyzed and sorted at one or more branch points based on the analysis of the objects.

Abstract: A method and apparatus is disclosed which employs a pulse-controlled microdroplet fluid delivery system for precisely dispensing fragrances and other odor producing vapors. The pulse-controlled fluid delivery device is capable of ejecting microdroplets of fluid with a diameter less than 350 micrometers at a controlled ejection rate based upon ink-jet printing technology. The pulse-controlled fluid delivery system includes mechanisms for vaporizing the fluids and delivery of the vapors to the nose, which is controlled by a programmable system controller capable of real time data-driven dispensing with a multi-fluid capability. Synthesis of custom fragrances is made possible by a multijet programmed control system which adjusts dispensing rates of components. Calibration of a prior art “electronic nose” is disclosed. A precise calibration gas is produced in real-time to counteract the effect of drifting.

Abstract: A method and apparatus for dispensing pheromones, semiochemicals, and other materials that can control the behavior or physiology of insects and other pests are described. The dispensers (AgJets) use electronic dispensing technology such as that used in ink jet printing. The units have a self-containing reservoir for the to-be-dispensed chemical, and they are capable of being activated to dispense by an electromagnetic signal from a broadcasting controller unit. Picoliter volumes of pheromones and semiochemicals can be dispensed in drop-on-demand mode. The units for dispensing shall be powered by battery and/or solar energy for hands-off operation in remote sites. The units may also have weather monitoring devices (thermometer, anemometer, humidity measurement), and such climactic information can be transmitted to central receiving stations and/or used locally in the AgJet device to control chemical dispensing.

Abstract: Miniaturized, self-contained apparatus for conducting bio-chemical reactions and analyses is formed in a compact structure comprising a substrate which includes a plurality of reaction chambers and a plurality of analysis chambers which are in fluid communication with the reaction chambers. Independently controllable heaters and coolers are positioned in thermal contact with the reaction chambers to permit parallel processing of biological samples at different temperature cycles. The apparatus is especially useful for performing and analyzing the results of a polymerase chain reaction.

Abstract: An ink-jet dispenser for the micro-dispensation of airborne materials into an individual's airspace for inhalation or sniffing. The ink-jet dispenser will allow the study of temporal integration times, inter-nostril summation, backwards and forwards masking, and other olfactory phenomena.

Abstract: Miniaturized, self-contained apparatus for conducting bio-chemical reactions and analyses is formed in a compact structure made from a substrate which includes a plurality of reaction chambers and a plurality of analysis chambers which are in fluid communication with the reaction chambers. Independently controllable heaters and coolers are positioned in thermal contact with the reaction chambers to permit parallel processing of biological samples at different temperature cycles. The apparatus is especially useful for performing and analyzing the results of a polymerase chain reaction.

Abstract: Thermo-cycling for biological material is provided by a channel such as a capillary tube extending through a series of temperature control elements. Each temperature control element maintains the adjacent portion of the channel at a desired temperature. Fluid to be processed is introduced into the tube through the inlet and flows, preferably through capillary action, to the outlet. The temperature of the fluid changes as it passes each temperature control element and is thus thermo-cycled through a predetermined sequence of temperatures.

Abstract: Biological material is cycled through a sequence of temperatures by containing the material in a vessel positioned in a chamber maintained at a temperature which is no higher than the lowest temperature in a predetermined temperature sequence. The vessel is then irradiated with varying levels of electromagnetic radiation to heat the material and cycle it through a sequence of predetermined temperatures.

Abstract: Arrays of electro-mechanical dispensers are used to form extremely small drops of fluid and locate them precisely on substrate surfaces in miniature arrays. The printed arrays may consist of DNA, immunoassay reagents or the like. A positioning support such as an X-Y table moves the dispensing devices and substrate surfaces relative to each other to locate the drops on the substrates in predetermined patterns. Arrays of probes as dense as one thousand per square centimeter with center-to-center spacing as small as twenty-five micrometers are formed.