Abstract: Tissue-integrating biosensors, systems comprising these sensors and methods of using these sensors and systems for the detection of one or more analytes are provided.

Abstract: An optical device is used to monitor an implant embedded in the tissue of a mammal (e.g., under the skin). The implant receives excitation light from the optical device and emits light that is detected by the optical device, including an analyte-dependent optical signal. Scatter and absorption properties of tissue change over time due to changes in hydration, blood perfusion and oxygenation. The optical device has an arrangement of light sources, filters and detectors to transmit excitation light within excitation wavelength ranges and to measure emitted light within detection wavelengths. Changes in scattering and absorption of light in the tissue, such as diffuse reflectance, are monitored. The light sources, filters and detectors may also be used to monitor autofluorescence in the tissue to correct autofluorescence background.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: Tissue-integrating electronic apparatuses, systems comprising such apparatuses and methods of using these apparatuses and systems for the detection of one or more signals are provided.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: Tissue-integrating biosensors, systems comprising these sensors and methods of using these sensors and systems for the detection of one or more analytes are provided.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: The invention provides methods for directing a localized biological response of a mammalian body to an implant disposed within the body. In one embodiment, a delivery system is positioned outside the body and adjacent to the implant within the body. The delivery system comprises a first tissue response modifier effective for directing a localized biological response of the body to the implant. The tissue response modifier is nonsurgically delivered from the delivery system into the body in a quantity effective to direct the localized biological response of the body to the implant. The invention also provides an implant system for long-term use comprising an implant and nonsurgical means for delivering a tissue response modifier through the epidermis of the body, the tissue response modifier effective for directing a localized biological response of the body to the implant.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: The invention provides methods for directing a localized biological response of a mammalian body to an implant disposed within the body. In one embodiment, a delivery system is positioned outside the body and adjacent to the implant within the body. The delivery system comprises a first tissue response modifier effective for directing a localized biological response of the body to the implant. The tissue response modifier is nonsurgically delivered from the delivery system into the body in a quantity effective to direct the localized biological response of the body to the implant. The invention also provides an implant system for long-term use comprising an implant and nonsurgical means for delivering a tissue response modifier through the epidermis of the body, the tissue response modifier effective for directing a localized biological response of the body to the implant.

Abstract: Tissue-integrating biosensors, systems comprising these sensors and methods of using these sensors and systems for the detection of one or more analytes are provided.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: Some embodiments described herein relate to an apparatus including a light source configured to transmit an excitation optical signal to an implanted sensor and a detector configured to detect an analyte-dependent optical signal emitted from an implanted sensor. The apparatus can include a lens configured to focus at least a portion of the analyte-dependent optical signal onto the detector.

Abstract: Tissue-integrating electronic apparatuses, systems comprising such apparatuses and methods of using these apparatuses and systems for the detection of one or more signals are provided.

Abstract: Oxygen sensing luminescent dyes, polymers and sensors comprising these sensors and methods of using these sensors and systems are provided.

Abstract: An optical device is used to monitor an implant embedded in the tissue of a mammal (e.g., under the skin). The implant receives excitation light from the optical device and emits light that is detected by the optical device, including an analyte-dependent optical signal. Scatter and absorption properties of tissue change over time due to changes in hydration, blood perfusion and oxygenation. The optical device has an arrangement of light sources, filters and detectors to transmit excitation light within excitation wavelength ranges and to measure emitted light within detection wavelengths. Changes in scattering and absorption of light in the tissue, such as diffuse reflectance, are monitored. The light sources, filters and detectors may also be used to monitor autofluorescence in the tissue to correct autofluorescence background.

Abstract: Tissue-integrating biosensors, systems comprising these sensors and methods of using these sensors and systems for the detection of one or more analytes are provided.

Abstract: The invention provides methods for directing a localized biological response of a mammalian body to an implant disposed within the body. In one embodiment, a delivery system is positioned outside the body and adjacent to the implant within the body. The delivery system comprises a first tissue response modifier effective for directing a localized biological response of the body to the implant. The tissue response modifier is nonsurgically delivered from the delivery system into the body in a quantity effective to direct the localized biological response of the body to the implant. The invention also provides an implant system for long-term use comprising an implant and nonsurgical means for delivering a tissue response modifier through the epidermis of the body, the tissue response modifier effective for directing a localized biological response of the body to the implant.