10 MHz probe is an ultrasonic transducer that generates acoustic signals and als
10 MHz probe is an ultrasonic transducer that generates acoustic signals and also detects returned signals, intended to be used in combination with the Falcon system for noninvasive peripheral vascular measurements.
10 MHz probe is an ultrasonic transducer which generate acoustic signals and als
10 MHz probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the FALCON system for noninvasive measurements of blood flow velocities in arteries and veins
2 MHz monitoring probe is an ultrasonic transducer which generate acoustic signa
2 MHz monitoring probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the Dolphin system for noninvasive measurements of blood flow velocities in arteries and veins
The Dolphin/XF robot accessory, when used with the Dolphin system, is a device w
The Dolphin/XF robot accessory, when used with the Dolphin system, is a device which assists the user in the acquisition of cerebral blood flow velocity
The disk PPG sensor is round shaped and attaches to the skin with an adhesive st
The disk PPG sensor is round shaped and attaches to the skin with an adhesive sticker. It measures the photoplethysmograph signals as a reference of blood flow for evaluation of segmental blood pressures, venous reflux testing, or other peripheral vascular diagnosis tests.
2 MHz monitoring probe is an ultrasonic transducer which generate acoustic signa
2 MHz monitoring probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the Dolphin system for noninvasive measurements of blood flow velocities in arteries and veins
The Fingerclip PPG sensor is similar in enclosure to a standard pulse oximeter.
The Fingerclip PPG sensor is similar in enclosure to a standard pulse oximeter. It is designed primarily to fit comfortably to the fingers. It measures the photoplethysmograph signals as a reference of blood flow for evaluation of segmental blood pressures or other peripheral vascular diagnosis tests
The LiteWalk is Intended for home and hospital use for temporary increase in loc
The LiteWalk is Intended for home and hospital use for temporary increase in local blood circulation in the lower extremities and temporary relief of minor muscle aches and pains where applied. The system is based on a pneumatic unit that includes a pump, valves, pressure sensor and tubing, and is fed by an external power supply of 12V DC. The LiteWalk doesn't contains a software user interface. The 2 sandals (right/left) are inflated together at the same time with the same pump. The inflation cycle is sequential, as follows: inflate heel, inflate arch, deflate heel, inflate metatarsals, deflate arch, inflate toes, deflate metatarsals, deflate toes
1.6 MHz probe is an ultrasonic transducer which generate acoustic signals and al
1.6 MHz probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the Dolphin system for noninvasive measurements of blood flow velocities in arteries and veins
4 MHz probe is an ultrasonic transducer that generates acoustic signals and also
4 MHz probe is an ultrasonic transducer that generates acoustic signals and also detects returned signals, intended to be used in combination with the Falcon system for noninvasive peripheral vascular measurements.
4 MHz probe is an ultrasonic transducer which generate acoustic signals and also
4 MHz probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the Dolphin system for noninvasive measurements of blood flow velocities in arteries and veins
2 MHz probe is an ultrasonic transducer which generate acoustic signals and also
2 MHz probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the Dolphin system for noninvasive measurements of blood flow velocities in arteries and veins
The LiteWalk pneumatic sandals [left/right] include 4 inflatable chambers that a
The LiteWalk pneumatic sandals [left/right] include 4 inflatable chambers that are located in the general regions of the heel, arch, metatarsals and toes. These chambers inflate sequentially to mimic the sequence of walking. The Small size is in : US 3-5, EU 35-38. The sandals are made of Colored Fabric Material. The sandals are supplied not sterile and for a reusable single patient use.
The LiteWalk pneumatic sandals [left/right] include 4 inflatable chambers that a
The LiteWalk pneumatic sandals [left/right] include 4 inflatable chambers that are located in the general regions of the heel, arch, metatarsals and toes. These chambers inflate sequentially to mimic the sequence of walking. The Medium size is in : US 6-8, EU 39-42. The sandals are made of Colored Fabric Material. The sandals are supplied not sterile and for a reusable single patient use.
The Toe Clip PPG sensor is designed in shape as a clothespin, primarily to fit c
The Toe Clip PPG sensor is designed in shape as a clothespin, primarily to fit comfortably to the toes. It measures the photoplethysmograph signals as a reference of blood flow for evaluation of segmental blood pressures or other peripheral vascular diagnosis tests
intended for use in the noninvasive evaluation of peripheral vascular pathology
intended for use in the noninvasive evaluation of peripheral vascular pathology in patients
intended for use in the noninvasive evaluation of peripheral vascular pathology
intended for use in the noninvasive evaluation of peripheral vascular pathology in patients
intended for use in the noninvasive evaluation of peripheral vascular pathology
intended for use in the noninvasive evaluation of peripheral vascular pathology in patients
8 MHz probe is an ultrasonic transducer that generates acoustic signals and also
8 MHz probe is an ultrasonic transducer that generates acoustic signals and also detects returned signals, intended to be used in combination with the Falcon system for noninvasive peripheral vascular measurements.
The Dolphin/IQ is a medical Doppler device intended for noninvasive measurements
The Dolphin/IQ is a medical Doppler device intended for noninvasive measurements of blood flow velocities in arteries and veins in adults and Pediatric. TheDolphin/IQ system can be used in hospitals, clinics and physician offices
The Dolphin/4D is a medical Doppler device intended for noninvasive measurements
The Dolphin/4D is a medical Doppler device intended for noninvasive measurements of blood flow velocities in arteries and veins in adults and Pediatric. TheDolphin/4D system can be used in hospitals, clinics and physician offices
The Dolphin/MAX is a medical Doppler device intended for noninvasive measurement
The Dolphin/MAX is a medical Doppler device intended for noninvasive measurements of blood flow velocities in arteries and veins in adults and Pediatric. TheDolphin/MAX system can be used in hospitals, clinics and physician offices
8 MHz probe is an ultrasonic transducer which generate acoustic signals and also
8 MHz probe is an ultrasonic transducer which generate acoustic signals and also detect returned signals that intended to be used in combination with the Dolphin system for noninvasive measurements of blood flow velocities in arteries and veins
The Dolphin/IQ is a medical Doppler device intended for noninvasive measurements
The Dolphin/IQ is a medical Doppler device intended for noninvasive measurements of blood flow velocities in arteries and veins in adults and Pediatric. TheDolphin/IQ system can be used in hospitals, clinics and physician offices
The Dolphin/4D is a medical Doppler device intended for noninvasive measurements
The Dolphin/4D is a medical Doppler device intended for noninvasive measurements of blood flow velocities in arteries and veins in adults and Pediatric. TheDolphin/4D system can be used in hospitals, clinics and physician offices