Provided is a blood pressure state measurement device (3), comprising: a first photoelectric pulse wave sensor (10), further comprising a light-emitting element (101) which outputs near-infrared light, said sensor acquiring a carotid artery photoelectric pulse wave signal; a second photoelectric pulse wave sensor (20), further comprising a light-emitting element (201) which outputs light from blue through yellow-green, said sensor acquiring a photoelectric pulse wave signal of an arteriole or a capillary which is in proximity to the carotid artery; a pulse wave propagation time acquisition unit (330) which, on the basis of the carotid artery photoelectric pulse wave signal and the photoelectric pulse wave signal of the arteriole or the capillary which is in proximity to the carotid artery, acquires a pulse wave propagation time; a pulse wave propagation time change acquisition unit (341) which acquires a time change of the pulse wave propagation time after commencing measurement; and a blood pressure state measurement unit (342) which, on the basis of the time change of the pulse wave propagation time after commencing measurement, measures a circulation dynamic which includes a blood pressure state.L'invention porte sur un dispositif de mesure d'état de pression artérielle (3) qui comporte : un premier capteur d'onde de pouls photoélectrique (10), qui comporte en outre un élément émetteur de lumière (101) qui émet une lumière proche infrarouge, ledit capteur acquérant un signal d'onde de pouls photoélectrique d'artère carotide ; un second capteur d'onde de pouls photoélectrique (20), qui comporte en outre un élément émetteur de lumière (201) qui émet de la lumière du bleu au jaune-vert, ledit capteur acquérant un signal d'onde de pouls photoélectrique d'une artériole ou d'un capillaire qui est à proximité de l'artère carotide ; une unité d'acquisition de temps de propagation d'onde de pouls (330) qui, sur la base du signal d'onde de pouls photoélectrique de l'artère
