To provide a human body model for training resuscitation techniques which enables users to check whether emergency resuscitation operations are correct or not.
This human body model for training the resuscitation techniques has a neck section 5, a head section 10, a respiratory duct back section 36 and a lower jaw section 20 having a lingual radix section 24. The head section 10 is turnable relative to the neck section 5 and the respiratory duct back section 36 is turnably supported at the head section 10 (38) and is slidably supported at the neck section 5 (39 and 9). The lower jaw section 20 is connected to the head section 10 movably in a direction parting from the respiratory duct back section 36 (26 and 14). The human model is provided with spacing reporting means which have a pressure sensor 103 between the lingual radix section 24 and the respiratory duct back section 36 and report whether the spacing between the lower jaw section 20 and the respiratory duct back section 36 is above the respective spacing or not. This human body model enables the users to make training while checking whether the respiratory duct is assured by recurvation of the head section to backwardly tilt the head section 10 or jerking up of the jaw tip to pull up the lower jaw section 20 or not.