Usability features for respiratory humidification system

What is claimed is: 1. A humidification system comprising: a removable sensor cartridge module comprising: a body; an electrical connector to electrically connect the sensor cartridge module to a humidification apparatus; a mechanical connector configured to removably connect the sensor cartridge module to the humidification apparatus; a first sensor probe extending in a forward direction from the body and toward a humidification chamber of the humidification apparatus, the first sensor probe comprising a first sensor configured to measure a first parameter of gases entering the humidification chamber; and a second sensor probe extending in the forward direction from the body and toward the humidification chamber, the second sensor probe comprising a second sensor configured to measure a second parameter of gases leaving the humidification chamber; the first sensor and the second sensor being laterally spaced apart along a front side the body facing the humidification chamber; the humidification apparatus comprising a heater base, the humidification chamber configured to be positioned on the heater base, the heater base comprising a heater plate and a heater base connector for mechanically and/or electrically connecting the sensor cartridge module to the heater base, and further comprising a spine extending upward relative to the heater plate, the spine comprising a front surface and a rear surface opposite the front surface, the front surface and the rear surface extending upward relative to the heater plate; wherein the heater base connector is provided on the spine such that the sensor cartridge module mechanically and/or electrically connects to the heater base via the front surface of the spine. 2. The humidification system of claim 1 , wherein each of the first and second sensors comprises a temperature sensor. 3. The humidification system of claim 2 , further comprising a third sensor, the third sensor comprising a flow sensor. 4. The humidification system of claim 3 , wherein the third sensor is provided proximate the second sensor. 5. The humidification system of claim 1 , wherein the mechanical connector is at least in part integrated with the electrical connector. 6. The humidification system of claim 1 , wherein the heater base connector provides for transmission of electrical power and data between the first and second sensors and the heater base. 7. The humidification system of claim 1 , further the humidification chamber comprising an inlet port configured to connect to a supply conduit and an outlet port configured to connect to an inspiratory conduit. 8. The humidification system of claim 7 , wherein when the sensor cartridge module connects to the heater base, the first sensor is positioned to be received in a first sensor aperture in the inlet port and the second sensor is positioned to be received in a second sensor aperture in the outlet port. 9. The humidification system of claim 8 , further comprising a first grommet positioned in the first sensor aperture and a second grommet positioned in the second sensor aperture, wherein each of the first and second grommets pneumatically seals the corresponding aperture, each of the first and second grommets being sized and shaped to receive the corresponding sensor, and each of the first and second grommets being configured to protect the corresponding sensor from direct contact with gases passing into and out of the chamber such that the first and second sensors are configured to be reused without cleaning. 10. The humidification system of claim 1 , further comprising an inspiratory conduit, the sensor cartridge module being configured to electrically connect to a heater wire and/or a sensor cable associated with the inspiratory conduit. 11. The humidification system of claim 10 , wherein the sensor cartridge module is configured to provide for power and/or data transfer between the inspiratory conduit and the heater base. 12. The humidification system of claim 10 , wherein the inspiratory conduit comprising a single-use user end temperature sensor. 13. The humidification system of claim 1 , further comprising a display located on the spine above the heater base connector. 14. The humidification system of claim 13 , wherein the display is oriented at an angle relative to a vertical axis. 15. The humidification system of claim 13 , the humidification chamber comprising a first humidification chamber connector for connecting a humidification chamber inlet to a supply conduit and a second humidification connector for connecting a humidification chamber outlet to the inspiratory conduit, wherein the first and second humidification chamber connectors are provided below a plane extending perpendicular to the display from a bottom edge of the display. 16. The humidification system of claim 15 , wherein the humidification chamber connector for connecting to the inspiratory conduit has an elbow shape to prevent the humidification chamber connector from obscuring the display. 17. The humidification system of claim 1 , wherein the spine has a width less than a width of the sensor cartridge module. 18. A humidification system comprising: a sensor cartridge module comprising: an electrical connector to electrically connect the sensor cartridge module to a humidification apparatus; a mechanical connector configured to connect the sensor cartridge module to the humidification apparatus; a first sensor and a second sensor, the first sensor and the second sensor being laterally spaced apart; the humidification apparatus comprising a heater base, the heater base comprising a heater plate, a heater base connector for mechanically and/or electrically connecting the sensor cartridge module to the heater base, and a spine extending upward relative to the heater plate; and a display located on the spine above the heater base connector; wherein the heater base connector is provided on the spine such that the sensor cartridge module mechanically and/or electrically connects to the heater base via said spine. 19. The humidification system of claim 18 , wherein the humidification apparatus comprises a humidification chamber configured to be coupled to the heater base, the humidification chamber comprising an inlet port configured to connect to a supply conduit and an outlet port configured to connect to an inspiratory conduit, wherein when the sensor cartridge module connects to the heater base, the first sensor is positioned to be received in the inlet port and the second sensor is positioned to be received in the outlet port. 20. The humidification system of claim 19 , further comprising a third sensor positioned to be received in the inlet port.