Parametrically adjustable airway training mannequin with instrumented parameter assessment

What is claimed is: 1. A training mannequin for simulation of airway management of a human being, comprising: (a) a skull having an upper surface and a bottom surface, wherein the skull comprises an adjustable face mounted to the upper surface of the skull, adjustable upper teeth removably attached to the adjustable face, and adjustable lower teeth removably attached to a jaw, wherein the jaw is hingedly attached to the skull; (b) a spine comprising a plurality of vertebrae, each connected to each other and having at least one tensioning hole disposed therein, wherein each vertebra comprises: (i) a pair of vertebra sides surrounding a vertebra connector; (ii) one or more pins rotatably attached to pivot holes disposed in opposing sides of the vertebra connector; and (iii) a compressible material disposed on a top surface of each vertebra side; (c) a first tensioning cable disposed through each tensioning hole of each vertebra; (d) a larynx assembly comprising a pharynx, a larynx having an upper surface and a lower surface, and a trachea, wherein the pharynx is attached to the jaw and is in contact with the spine, and the larynx is coupled to the pharynx and the trachea; and (e) a laryngeal position sensor fixedly mounted to the upper surface of the larynx, and an occipital position sensor mounted to the bottom surface of the skull, wherein a distal end of the spine is attached to the skull and a proximal end of the spine is configured for attachment to a spine mount. 2. The mannequin of claim 1 , further comprising a spine mount attached to the proximal end of the spine. 3. The mannequin of claim 2 , further comprising a first tensioning spool attached to the first tensioning cable, wherein rotation of the first tensioning spool adjusts tension in the first tensioning cable. 4. The mannequin of claim 3 , further comprising a first worm gearbox disposed on a rear surface of the spine mount, and attached to the first tensioning spool, wherein the first worm gearbox is configured to rotate the first tensioning spool. 5. The mannequin of claim 2 , further comprising a first pivot disposed in the skull, wherein the first tensioning cable is disposed in a double-loop format and is routed around the first pivot. 6. The mannequin of claim 2 , wherein the spine has seven vertebrae, and further comprises: (i) a second tensioning cable disposed through the tensioning holes of each of the three vertebrae at the proximal end of the spine; (ii) a second pivot disposed in fourth vertebra from the proximal end of the spine, wherein the second tensioning cable is disposed in a double-loop format and is routed around the second pivot; (iii) a second tensioning spool attached to the second tensioning cable, wherein rotation of the second tensioning spool adjusts tension in the second tensioning cable; and (iv) a second worm gearbox disposed on the rear surface of the spine mount, and attached to the second tensioning spool, wherein the second worm gearbox is configured to rotate the second tensioning spool. 7. The mannequin of claim 5 , further comprising: (i) a plurality of tabs disposed on top and bottom surfaces of each of the vertebrae; and (ii) a plurality of springs connecting pairs of tabs disposed on adjacent vertebrae. 8. The mannequin of claim 2 , further comprising a backboard configured to accept attachment of the spine mount, wherein the trachea extends through an opening in the backboard. 9. The mannequin of claim 8 , further comprising a baseboard fixedly attached to the backboard. 10. The mannequin of claim 9 , further comprising an adjustable platform disposed on the baseboard and positioned in alignment with the bottom surface of the skull, wherein the platform is configured to adjust the vertical position of the skull. 11. The mannequin of claim 9 , further comprising an elastic band disposed over a portion of the trachea and attached to the baseboard, wherein the elastic band is configured to apply pressure to the portion of the trachea. 12. The mannequin of claim 11 , wherein the elastic band is attached to the baseboard with one or more springs. 13. The mannequin of claim 1 , wherein the laryngeal position sensor and the occipital position sensor are magnetic position sensors and are configured to monitor position and rotation of the mannequin. 14. The mannequin of claim 1 , further comprising one or more resistance elements attached to the jaw and the skull, wherein the elements are configured to adjust tension of the jaw. 15. The mannequin of claim 13 , further comprising a data acquisition means in wireless or electrical communication with each of the sensors and configured to obtain data from one or more of the laryngeal position sensor and the occipital position sensor. 16. The mannequin of claim 15 , wherein the data acquisition means is further configured to obtain data from one or more sensors mounted to a device for manipulating the airway of a human. 17. The mannequin of claim 16 , wherein the device is a laryngoscope having one or more of a laryngoscope position sensor and a force sensor mounted thereto. 18. The mannequin of claim 15 , wherein the data acquisition means comprises one or more of a position sensor input box and a force sensor input box. 19. The mannequin of claim 15 , further comprising a display in electrical communication with the data acquisition means and configured to display real-time data to a user. 20. A training mannequin for simulation of airway management of a human being, comprising: (a) a skull having an upper surface and a bottom surface, wherein the skull comprises an adjustable face mounted to the upper surface of the skull, adjustable upper teeth removably attached to the adjustable face, and adjustable lower teeth removably attached to a jaw, wherein the jaw is hingedly attached to the skull; (b) a spine comprising seven vertebrae, each vertebra being connected to each other and having at least two tensioning holes disposed therein, wherein each vertebra comprises: (i) a pair of vertebra sides surrounding a vertebra connector; (ii) one or more pins rotatably attached to pivot holes disposed in opposing sides of the vertebra connector; and (iii) a compressible material disposed on a top surface of each vertebra side; (c) a first tensioning cable disposed through a first tensioning hole of each vertebra; (d) a second tensioning cable disposed through a second tensioning hole of each vertebra; (d) a larynx assembly comprising a pharynx, a larynx having an upper surface and a lower surface, and a trachea, wherein the pharynx is attached to the jaw and is in contact with the spine, and the larynx is coupled to the pharynx and the trachea; and (e) a laryngeal position sensor fixedly mounted to the upper surface of the larynx, and an occipital position sensor mounted to the bottom surface of the skull, wherein a distal end of the spine is attached to the skull and a proximal end of the spine is configured for attachment to a spine mount. 21. The mannequin of claim 20 , further comprising a spine mount attached to the proximal end of the spine. 22. The mannequin of claim 21 , further comprising a first tensioning spool attached to the first tensioning cable, and a second tensioning spool attached to the second tensioning cable, wherein rotation of the first tensioning spool adjusts tension in the first tensioning cable and rotation of the second tensioning spool adjusts tension in the second tensioning cable.