Abstract: A system for non-invasive examination of a user's blood environment parameters that includes having a plurality of user-input sensors operably configured to measure a partial pressure of O2 and CO2 in a user's blood, a temperature of the user, and a hemoglobin content in the user's blood, an external electronic display unit, and a computing unit with a communication interface and communicatively coupled to the external electronic display unit and the least four user-input sensors, the computing unit operably configured to cause a user's blood environment parameters to display on the external electronic display unit through use of a mathematical software application resident thereon and employing a model of the user's internal environment based on a mathematical expression of an equation for hemoglobin buffer and utilizing the data from the user-input sensors.
Abstract: A system for non-invasive examination of a user's blood environment parameters that includes having a plurality of user-input sensors operably configured to measure a partial pressure of O2 and CO2 in a user's blood, a temperature of the user, and a hemoglobin content in the user's blood, an external electronic display unit, and a computing unit with a communication interface and communicatively coupled to the external electronic display unit and the least four user-input sensors, the computing unit operably configured to cause a user's blood environment parameters to display on the external electronic display unit through use of a mathematical software application resident thereon and employing a model of the user's internal environment based on a mathematical expression of an equation for hemoglobin buffer and utilizing the data from the user-input sensors.
Abstract: A system for non-invasive examination of a user's blood environment parameters that includes having at least four user-input sensors (1, 2, 3, 4) operably configured to measure a partial pressure of O2 and CO2 in a user's blood, a temperature of the user, and a hemoglobin content in the user's blood, an external electronic display unit (11), and a computing unit (9) with a communication interface (12) and communicatively coupled to the external electronic display unit (11) and the least four user-input sensors (1, 2, 3, 4), the computing unit (9) operably configured to cause a user's blood environment parameters to display on the external electronic display unit (11) through use of a mathematical software application resident thereon and employing a model of the user's internal environment based on a mathematical expression of an equation for hemoglobin buffer and utilizing the data from the user-input sensors.
Abstract: A system for non-invasive examination of a user's blood environment parameters that includes having at least four user-input sensors (1, 2, 3, 4) operably configured to measure a partial pressure of 02 and CO2 in a user's blood, a temperature of the user, and a hemoglobin content in the user's blood, an external electronic display unit (11), and a computing unit (9) with a communication interface (12) and communicatively coupled to the external electronic display unit (11) and the least four user-input sensors (1, 2, 3, 4), the computing unit (9) operably configured to cause a user's blood environment parameters to display on the external electronic display unit (11) through use of a mathematical software application resident thereon and employing a model of the user's internal environment based on a mathematical expression of an equation for hemoglobin buffer and utilizing the data from the user-input sensors.