ivWatch, LLC Patent applications |
Patent application number | Title | Published |
20140303475 | Device to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - An aid to diagnosing at least one of infiltration and extravasation in Animalia tissue includes an optics bench and a controller. The optics bench includes a light emitting diode and a photodiode. The light emitting diode is configured to emit a first light signal, and the photodiode is configured to detect a second light signal. The second light signal includes a portion of the first light signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The controller includes a processor, volatile memory and non-volatile memory. The non-volatile memory stores a sequence of values that correspond to the second light signal detected by the photodiode. The processor and volatile memory analyze the sequence of values according to an algorithm. | 10-09-2014 |
20140303474 | Device to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - An aid to diagnosing at least one of infiltration and extravasation in Animalia tissue includes an optics bench and a controller. The optics bench includes a light emitting diode and a photodiode. The light emitting diode is configured to emit a first light signal, and the photodiode is configured to detect a second light signal. The second light signal includes a portion of the first light signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The controller includes a processor, volatile memory and non-volatile memory. The non-volatile memory stores a sequence of values that correspond to the second light signal detected by the photodiode. The processor and volatile memory analyze the sequence of values according to an algorithm. | 10-09-2014 |
20140243625 | Coupling Apparatus and System for an Intravenous Fluid Delivery Tube and a Transcutaneous Sensor Cable - A clip includes a first passage, a second passage, and a body. The first passage receives a tube that delivers an intravascular fluid in Animalia tissue. The second passage receives a cable of a sensor that aids in diagnosing at least one of infiltration and extravasation in the Animalia tissue. The body completely cinctures the first passage and includes a first cantilever arm that incompletely cinctures the second passage. A first arrangement of the body retains the cable in the second passage and a second arrangement of the body relinquishes the cable from the first arrangement. | 08-28-2014 |
20130338512 | System and Method for Mitigating the Effects of Tissue Blood Volume Changes to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - A system including a sensor and a device coupled to the sensor. The sensor is configured to detect in Animalia tissue (i) a first electromagnetic radiation extinction dominated by absorption of a first wavelength and (ii) a second electromagnetic radiation extinction dominated by scattering of a second wavelength. The device is configured to aid in diagnosing at least one of infiltration and extravasation in the Animalia tissue based on the first and second electromagnetic radiation extinctions detected by the sensor. | 12-19-2013 |
20130338511 | System and Method for Mitigating the Effects of Tissue Blood Volume Changes to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - A system including a sensor and a device coupled to the sensor. The sensor is configured to detect in Animalia tissue (i) a first electromagnetic radiation extinction dominated by absorption of a first wavelength and (ii) a second electromagnetic radiation extinction dominated by scattering of a second wavelength. The device is configured to aid in diagnosing at least one of infiltration and extravasation in the Animalia tissue based on the first and second electromagnetic radiation extinctions detected by the sensor. | 12-19-2013 |
20130338462 | System for Mitigating the Effects of Tissue Blood Volume Changes to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - A system including a sensor and a device coupled to the sensor. The sensor is configured to detect in Animalia tissue (i) a first electromagnetic radiation extinction dominated by absorption of a first wavelength and (ii) a second electromagnetic radiation extinction dominated by scattering of a second wavelength. The device is configured to aid in diagnosing at least one of infiltration and extravasation in the Animalia tissue based on the first and second electromagnetic radiation extinctions detected by the sensor. | 12-19-2013 |
20130331707 | System for Locating a Transcutaneous Sensor on Skin - A system to locate veins for diagnosing at least one of infiltration and extravasation in Animalia tissue includes a sensor and a device coupled to the sensor. The sensor is configured to transmit first and second light signals. The first light signal is configured to enter the Animalia tissue, and the second light signal includes a portion of the first light signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The device is configured to indicate, based on evaluating the second light signal, a minimal presence of the veins in the Animalia tissue overlaid by the infrared sensor. | 12-12-2013 |
20130324854 | Method for Locating a Transcutaneous Sensor on Skin - A method to aid in diagnosing at least one of infiltration and extravasation in Animalia tissue includes moving a light sensor over an epidermis of the Animalia tissue and evaluating a light signal while moving the light sensor. The light sensor includes first and second waveguides. The first waveguide is configured to transmit a first light signal that enters the Animalia tissue through the epidermis. The second waveguide is configured to transmit a second light signal. The second light signal includes a portion of the first light signal that is at least one of reflected, scattered and redirected from the Animalia tissue through the epidermis. The second light signal is evaluated while moving the light sensor to identify a location on the epidermis that has a minimal presence of underlying veins in the Animalia tissue. | 12-05-2013 |
20130317444 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 11-28-2013 |
20130317443 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a barrier film and a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The barrier film overlies an epidermal insertion site for a cannula administering the intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 11-28-2013 |
20130317442 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a barrier film and a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The barrier film overlies an epidermal insertion site for a cannula administering the intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 11-28-2013 |
20130317441 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 11-28-2013 |
20130317373 | System for Mitigating the Effects of Tissue Blood Volume Changes to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - A system including a sensor and a device coupled to the sensor. The sensor is configured to detect in Animalia tissue (i) a first electromagnetic radiation extinction dominated by absorption of a first wavelength and (ii) a second electromagnetic radiation extinction dominated by scattering of a second wavelength. The device is configured to aid in diagnosing at least one of infiltration and extravasation in the Animalia tissue based on the first and second electromagnetic radiation extinctions detected by the sensor. | 11-28-2013 |
20130317368 | System for Mitigating the Effects of Tissue Blood Volume Changes to Aid in Diagnosing Infiltration or Extravasation in Animalia Tissue - A system including a sensor and a device coupled to the sensor. The sensor is configured to detect in Animalia tissue (i) a first electromagnetic radiation extinction dominated by absorption of a first wavelength and (ii) a second electromagnetic radiation extinction dominated by scattering of a second wavelength. The device is configured to aid in diagnosing at least one of infiltration and extravasation in the Animalia tissue based on the first and second electromagnetic radiation extinctions detected by the sensor. | 11-28-2013 |
20130310742 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a barrier film and a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The barrier film overlies an epidermal insertion site for a cannula administering the intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 11-21-2013 |
20130237858 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237857 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237856 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237855 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237854 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237853 | Geometry of a Transcutaneous Sensor - A housing for a transcutaneous electromagnetic signal sensor including an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237852 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237851 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237850 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a detector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The detector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237849 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237848 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237847 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237846 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237845 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237844 | Geometry of a Transcutaneous Sensor - A transcutaneous electromagnetic signal sensor includes an emitter and a collector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130237840 | Dressing for an Electromagnetic Spectrum Sensor - An epidermal dressing includes a barrier film and a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The barrier film overlies an epidermal insertion site for a cannula administering the intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 09-12-2013 |
20130237839 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a barrier film and a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The barrier film overlies an epidermal insertion site for a cannula administering the intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 09-12-2013 |
20130237838 | Dressing for an Insertion Site of an Intravascular Infusate - An epidermal dressing includes a barrier film and a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The barrier film overlies an epidermal insertion site for a cannula administering the intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 09-12-2013 |
20130237837 | Method of Using an Electromagnetic Spectrum Sensor to Monitor an Intravascular Infusion - A method of using an epidermal dressing including an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237836 | Dressing for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237835 | Dressing for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space the connector from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237834 | Dressing for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237833 | Appliance for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space the connector from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237832 | Appliance for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237831 | Appliance for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237830 | Appliance for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237812 | Appliance for an Electromagnetic Spectrum Sensor Monitoring an Intravascular Infusion - An epidermal dressing includes an appliance for linking an electromagnetic spectrum sensor with a cannula administering an intravascular infusate. The appliance includes a body and a fitting coupled to the body. The body is configured to space a connector of the cannula from the epidermis. The fitting includes a first arrangement that is configured to retain the electromagnetic spectrum sensor for sensing the infusate in perivascular tissue, and a second arrangement that is configured to release the electromagnetic spectrum sensor from the first arrangement. | 09-12-2013 |
20130237788 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237787 | Apparatus and Method for Mitigating Noise Affecting a Transcutaneous Signal - A system and method include a sensor overlying a target area of skin to aid in diagnosing subcutaneous fluid leakage. The sensor includes an absorbent that minimizes noise in detected electromagnetic radiation to make it easier to analyze a signal that is indicative of subcutaneous fluid leakage. | 09-12-2013 |
20130237779 | Systems and Methods to Mitigate the Effects of Skin Moisture on a Percutaneous Infrared Signal - A system and method include a sensor overlying a target area of epidermis to aid in diagnosing subcutaneous fluid leakage. The system includes an antiperspirant and an adhesive coupling the sensor and epidermis. The antiperspirant mitigates moisture content variation of the target area, which the inventors discovered is a source of unreliable indications that an infiltration or extravasation event has occurred. | 09-12-2013 |
20130232761 | Method of Manufacturing a Dressing for an Insertion Site of an Intravascular Infusate - A method of manufacturing an epidermal dressing including a fitting that cooperates with a sensor emitting and detecting near infrared signals for monitoring an intravascular infusion. The fitting includes a first arrangement that retains the sensor and a second arrangement that releases the sensor from the first arrangement. | 09-12-2013 |
20130232760 | Method of Manufacturing a Transcutaneous Sensor - A method of manufacturing a transcutaneous electromagnetic signal sensor including an emitter and a detector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130232759 | Method of Manufacturing a Transcutaneous Sensor - A method of manufacturing a transcutaneous electromagnetic signal sensor including an emitter and a detector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The detector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |
20130232752 | Method of Manufacturing a Transcutaneous Sensor - A method of manufacturing a transcutaneous electromagnetic signal sensor including an emitter and a detector. The emitter includes an emitter end face configured to emit a first electromagnetic radiation signal that enters Animalia tissue. The collector includes a detector end face configured to collect a second electromagnetic radiation signal that exits the Animalia tissue. The second electromagnetic radiation signal includes a portion of the first electromagnetic radiation signal that is at least one of reflected, scattered and redirected from the Animalia tissue. The second electromagnetic radiation signal monitors anatomical changes over time in the Animalia tissue. | 09-12-2013 |