The present invention provides a wrist-worn blood pressure monitor that is worn around a wrist. The wrist-worn blood pressure monitor according to the present invention includes a wrist cuff including a wrist strap so as to be worn around a wrist, a sensor provided at the wrist cuff in order to measure blood pressure, and a tightener provided at the wrist cuff in order to selectively tighten the wrist cuff so that the wrist cuff compresses the wrist. According to the present invention, a user is able to conveniently measure his/her blood pressure whenever there is a need to measure the blood pressure, and the accuracy of the measured blood pressure is increased since the wrist-worn blood pressure monitor is securely tightened around the wrist.

A blood pressure measuring cuff according to the present invention includes a pressing cuff which is belt-shaped, is wrapped around a part to be measured, and receives supply of a pressurizing fluid to press the part to be measured. An arterial pressure sensor for detecting pressure applied to an artery passing portion of the part to be measured by the pressing cuff is disposed at a portion of an inner peripheral surface of the pressing cuff which should face an artery of the part to be measured, separately from the pressing cuff.

A blood pressure cuff assembly for an ambulatory blood pressure monitor may include a hollow cuff and an elastic liner provided on the reverse side of the cuff. An airbag may be provided in the cuff. A first connection part and a second connection part may be provided on the cuff. A third connection part and a fourth connection part may be correspondingly provided on the liner. The effect of tight inside and loose outside is achieved by the combination of the elastic liner and the cuff. When worn on an upper arm, the elastic liner has an elastic deformation and consequently tightens around the upper arm so as to realize certain slip resistance, and the cuff will not slip down even tied a bit loosely when located on the upper arm. The feeling of constraint from the cuff is reduced significantly and the comfort is improved.

A connection system for a sphygmomanometer including: an inflatable cuff adapted to be placed on a limb of a patient, the cuff includes an inflatable pouch, a flexible tube including a first end and a second end, the first end in fluid communication with the inflatable pouch of the cuff, an inflation bulb formed by an inflator bulb connected to a pressure gauge for measuring blood pressure, a connection member mounted in the inflation bulb to connect the second end of the tube to the inflation bulb, the tube adapted to provide a direct link between the inflation bulb and the cuff, the second end of the tube includes a male end-piece and the connection member includes a female connector for removably receiving the male end-piece, the connection member includes a portion that cooperates with a complementary portion provided on the male end-piece of the tube.

In a biological information measurement device, an internal pressure controller increases or decreases an internal pressure of a compression band wrapped around a part of a living body. A time-series data acquisition unit acquires time-series data of the volume and the internal pressure of the compression band while the internal pressure of the compression band increases or decreases. A relationship deriving unit derives a relationship between the volume and the internal pressure of the compression band based on the time-series data. A determination unit differentiates the relationship between the volume and the internal pressure with respect to the internal pressure to derive a first differential value, differentiates the first differential value with respect to time or the internal pressure to derive a second differential value, and determines the internal pressure at the peak of the second differential value as the blood pressure of the living body.

A releasable connection assembly for connecting tubing sections is disclosed. The assembly includes a dual lumen male bayonet connector and a female latch connector. The dual lumen male bayonet connector includes a first shaft and a second shaft, where each of the first and second shafts includes a distal sealing portion defining a sealing surface, a proximal coupling portion, and an annular channel. The female latch connector includes a proximal end, two sealing members and a distal end. A kit is also disclosed. The kit includes a dual lumen male bayonet connector, a blood pressure cuff, and two sections of medical tubing. The two sections of medical tubing engage each of the proximal coupling portions of the first shaft and the second shaft and the blood pressure cuff.

An electronic blood pressure meter includes a cuff that is to be worn on a measurement area, a piezoelectric pump that adjusts a pressure applied to the cuff, a drive circuit that drives the piezoelectric pump, and a controller that outputs, to the drive circuit, a pulse signal defining a driving timing of the piezoelectric pump. The drive circuit includes a switching circuit for switching a connection relationship between respective voltages applied to both ends of the piezoelectric pump in response to corresponding first and second driving signals, and a signal generation circuit that outputs the first and second driving signals based on the pulse signal outputted from the controller. The signal generation circuit has a signal conditioning circuit that adjusts timings of the first and second driving signals so that the phases of the first and second driving signals do not overlap.

A low volume or narrower blood pressure cuff compared to commercial counterparts with similar medical approval accuracy is introduced. The present invention comprises an occlusion component configured to occlude the artery, and a pulse wave detection component to detect blood pressure oscillations. Blood pressure readings within medical approval accuracy are achieved by controlling and adjusting fluid amount in or fluid flowing into said pulse wave detection component.

Techniques and apparatuses for determining fluid volumes of a patient are described. In one embodiment, for example, an apparatus may include at least one memory, and logic coupled to the at least one memory. The logic may be configured to receive baseline bioimpedance information for at least a portion of a human body at a baseline pressure, receive pressurized bioimpedance information of the portion of the human body at a pressurized pressure, the pressurized pressure greater than the baseline pressure and configured to substantially remove blood volume from the portion at the pressurized pressure, and determine at least one of interstitial fluid volume (V.sub.IT) or peripheral blood volume (BV.sub.P) based on the baseline bioimpedance information and the pressurized bioimpedance information. Other embodiments are described.

Provided are a blood pressure estimation apparatus, a sphygmomanometer, a blood pressure estimation system, and a blood pressure estimation method which allow continuous blood pressure measurement without adding stress to a subject's body. A plurality of sensors and a controller are included. The plurality of sensors each detect a pulse wave of a subject without applying, to the subject, pressure that is greater than predetermined pressure, and the controller calculates an estimated value of subject's blood pressure continuously, based on a measured value of the subject's blood pressure acquired from a sphygmomanometer and on output of the sensors.