Abstract: System for regulating a charging temperature (T) of a vehicle battery (2) of a vehicle, wherein the vehicle battery (2) is cooled by means of a fluid (F) which circulates in a cooling circuit (21) of the vehicle, which is controlled by a controller (18) such that, upon reaching a charging station, the temperature of the vehicle battery (2) is pre-controlled to a desired charging start temperature (T0) which is suitable for an electrical charging procedure for speedily charging the vehicle battery (2) by means of the charging station.

Abstract: A method for delivering drugs into cystic fluid, the method comprising injecting a drug delivery system (DDS) into a cystic fluid space at an injection site, the DDS comprising at least one therapeutic agent encapsulated in biodegradable polymers, applying ultrasonic energy proximal to the injection site, and controlling the at least one of buoyancy, delivery location, mixing, and dispersion of the DDS to a targeted area using the ultrasonic energy.

Abstract: System for regulating a charging temperature (T) of a vehicle battery (2) of a vehicle, wherein the vehicle battery (2) is cooled by means of a fluid (F) which circulates in a cooling circuit (21) of the vehicle, which is controlled by a controller (18) such that, upon reaching a charging station, the temperature of the vehicle battery (2) is pre-controlled to a desired charging start temperature (T0) which is suitable for an electrical charging procedure for speedily charging the vehicle battery (2) by means of the charging station.

Abstract: Systems and method for optical imaging of an animal include a body conforming animal mold, which is shaped and sized to hold an animal in an immobilized and geometrically defined position and a gantry, which can include multiple optical mirrors to provide for simultaneous imaging of multiple different views of an animal within a body conforming animal mold.

Abstract: Exemplary systems, methods and computer accessible mediums which can determine quantitative information of a tissue(s) can be provided, which can include receiving optical information regarding the tissue(s), and determining the quantitative information of the tissue(s), in real time and during the receipt of the optical information, using an atlas. The tissue(s) can be part of a mouse, and the quantitative information can be an in-vivo count of cells or bacteria in the tissue(s). The quantitative information can be determined by co-registering the in-vivo count to the atlas. The optical information can be generated using a mirror gantry(s) so as to simultaneously image at least two opposing views of the tissue(s).

Abstract: A method for delivering drugs into cystic fluid, the method comprising injecting a drug delivery system (DDS) into a cystic fluid space at an injection site, the DDS comprising at least one therapeutic agent encapsulated in biodegradable polymers, applying ultrasonic energy proximal to the injection site, and controlling the at least one of buoyancy, delivery location, mixing, and dispersion of the DDS to a targeted area using the ultrasonic energy.

Abstract: Systems and method for optical imaging of an animal include a body conforming animal mold, which is shaped and sized to hold an animal in an immobilized and geometrically defined position and a gantry, which can include multiple optical mirrors to provide for simultaneous imaging of multiple different views of an animal within a body conforming animal mold.

Abstract: A method for delivering drugs into cystic fluid, the method comprising injecting a drug delivery system (DDS) into a cystic fluid space at an injection site, the DDS comprising at least one therapeutic agent encapsulated in biodegradable polymers, applying ultrasonic energy proximal to the injection site, and controlling the at least one of buoyancy, delivery location, mixing, and dispersion of the DDS to a targeted area using the ultrasonic energy.

Abstract: Systems and method for optical imaging of an animal include a body conforming animal mold, which is shaped and sized to hold an animal in an immobilized and geometrically defined position and a gantry, which can include multiple optical mirrors to provide for simultaneous imaging of multiple different views of an animal within a body conforming animal mold.

Abstract: A method for delivering drugs into cystic fluid, the method comprising injecting a drug delivery system (DDS) into a cystic fluid space at an injection site, the DDS comprising at least one therapeutic agent encapsulated in biodegradable polymers, applying ultrasonic energy proximal to the injection site, and controlling the at least one of buoyancy, delivery location, mixing, and dispersion of the DDS to a targeted area using the ultrasonic energy.

Abstract: The present disclosure can provide apparatus, system, methods, and computer-accessible medium for generating particular information which is at least one of three-dimensional information or intensity information of a tissue portion which can include at least one of a tissue surface or a tissue volume. For example, the exemplary method can include determining a light intensity distribution of light provided on the tissue portion, using the light intensity distribution, determining one or more attenuation maps of the tissue portion, obtaining one or more multispectral measurements of the light intensity distribution on the tissue portion taken from one or more views, and generating the particular information using an image reconstruction procedure in conjunction with data from the one or more tissue attenuation maps and the multispectral measurements.

Abstract: Exemplary systems, methods and computer accessible mediums which can determine quantitative information of a tissue(s) can be provided, which can include receiving optical information regarding the tissue(s), and determining the quantitative information of the tissue(s), in real time and during the receipt of the optical information, using an atlas. The tissue(s) can be part of a mouse, and the quantitative information can be an in-vivo count of cells or bacteria in the tissue(s). The quantitative information can be determined by co-registering the in-vivo count to the atlas. The optical information can be generated using a mirror gantry(s) so as to simultaneously image at least two opposing views of the tissue(s).

Abstract: The present disclosure can provide apparatus, system, methods, and computer-accessible medium for generating particular information which is at least one of three-dimensional information or intensity information of a tissue portion which can include at least one of a tissue surface or a tissue volume. For example, the exemplary method can include determining a light intensity distribution of light provided on the tissue portion, using the light intensity distribution, determining one or more attenuation maps of the tissue portion, obtaining one or more multispectral measurements of the light intensity distribution on the tissue portion taken from one or more views, and generating the particular information using an image reconstruction procedure in conjunction with data from the one or more tissue attenuation maps and the multispectral measurements.

Abstract: An exemplary method, system, and computer-accessible medium can be provided for generating three-dimensional image information associated with a fluorescence-exhibiting arrangement within a sample. For example, it is possible to generate a first electro-magnetic radiation, to be received in the sample, at one or more wavelengths that are associated with one or more wavelengths of emission of the fluorescence-exhibiting arrangement. In addition, it is possible to generate a second electro-magnetic radiation from the sample which is caused by the fluorescence-exhibiting arrangement in response to the first electro-magnetic radiation, and generate data associated with the second electro-magnetic radiation. Then, it is possible to receive the data, and generate three-dimensional information based on the data.

Abstract: Exemplary embodiments of a computer-accessible medium, method and system for providing information are provided. A first detection arrangement can be provided which can be configured to detect electro-magnetic radiations from a fluorescent particle(s) in a portion of a structure, and generate information associated with the portion of the structure. A second arrangement can be configured to generate a two-dimensional image and/or a three-dimensional image of the at least one portion of the structure as a function of the information. The electro-magnetic radiations can have different wavelengths.

Abstract: A system and method for improved image reconstruction of the internal properties of a scattering medium is provided. The reconstruction technique employs a model-based iterative image reconstruction scheme. The reconstruction algorithm comprises a forward and inverse model. The forward model of the present method and system is based on the equation of radiative transfer. The forward model predicts the transport of energy through a medium for a given set of internal properties, source positions, source strengths, and boundary conditions, for a medium to be imaged. The inverse model relates the predicted transport of energy to the actual measured energy transport through the medium to determine the actual properties of the medium.