The BASIC devices range from vascular continuous Doppler or photo-plethysmograph to comprehensive systems incorporating all standard physiological measurements to diagnose peripheral arterial disease (PAD).
The following modules are avaiable:
4 MHz and 8 MHz continuous Doppler
Systolic pressure measurement with Doppler
Systolic pressure measurement with Photo-plethysmography (four pressures can be measured simultaneously)
ABI and TBI measurement
Bilateral PVR (Pulse Volume Recording)
Pulse Wave Velocity (PWV)
Venous reflus test
The BASIC is a space saving device but it offers impressive ressources:
Configurable protocols (any test combination)
Can be connected to an external printer (local or on the network)
Product category: Blood pressure equipment, Measuring devices for blood congestion
SYSTOE: Toes/Finger systolic pressure measurement
New perspectives in the measurement of the toe & finger systolic pressure Up until now, the devices available on the market (standard photo plethysmography, laser Doppler, mercury strain gauge, ultrasound Doppler) have not favoured the widespread use of this measurement because they are either unreliable or too expensive.
The SysToe, by virtue of its reliability, ease of use and affordable price, enables toe pressure measurement to be conveniently and readily performed by all health professionals.
The SysToe is a fully automatic device
The Systoe is user independent.
The SysToe is very easy to use.
Once the cuff and the sensor are placed on the toe, the operator has just to press on START key to start the measurement and get the display of the systolic pressure value.
The measurement is fast The value of the toe or finger pressure is displayed within three minutes.
The SysToe is capable of measuring pressures of less than 20 mmHg.
LOOKI: Modern and ergonomic digital transcranial Doppler
An exceptional design for high performance, high mobility and utmost ergonomy.
M-mode display With M-mode digital transcranial Doppler, it is easier to find the acoustic window. It is no longer necessary to guess the depth of the vessel. M-mode display shows where the best signal is.
M-mode transcranial Doppler, it is also: An easier identification of the vessels A reduced training time An additional visualization of emboli A re-perfusion visualization
Recording of the spectrum and sound in the hard disk Off line analysis of the suspected emboli Establishment of a library of normal and pathological transcranial Doppler signals Pedagogical tool
Advanced transcranial Doppler diagnosis module Possibility to work with or without protocol Customized protocols Comparison of the vessel under acquisition with a previously recorded vessel during the transcranial Doppler examination
Interactive transcranial Doppler examination report Automatic generation of the transcranial Doppler examination report Customized report Print out of the relevant spectra
Advanced monitoring module with emboli detection and functional tests Continuous recording of the transcranial Doppler signal and of all the trends Configurable according to the applications Management of the trends Alarm module
Easy to use The main controls of the transcranial Doppler are documented on the display. All the adjustments at the patientâ€™s bedside can be performed with the remote control.
Non-invasive monitoring of cardiac output (option) The Atys transcranial Doppler are the unique transcranial Doppler on the market that can be fitted with a non-invasive cardiac output monitor.
Easy and fast application in intensive care units and operating room Simultaneous information on cerebral hemodynamic and global hemodynamic
Product category: Cardiac output measuring instruments (output per minute or over time/thermodilution)
WAKIe TO: Non-invasive cardiac output monitor
Principle The esophageal Doppler probe measures non-invasively the blood velocity in the descending aorta. Cardiac output is inferred from the measured blood velocity and from the patient data (age, weight and height). The following picture shows a normal blood velocity profile in the descending aorta.
The display of the aortic velocity profile and of the real time calculated indices provides reliable information on the main hemodynamic determinants (preload, afterload and contractility) and permits to guide the therapeutic decisions towards a vascular filling or an inotrop treatment.
The figure schematizes the normal velocity profile and those relative to the main circulatory insufficiencies.
Hypovolemia is characterized by a reduction of the corrected ejection time (Tcej).
Ventricular insufficiency is characterized by a decrease of the maximum blood velocity in the aorta (PV) and by a decrease of the mean systolic acceleration.
An increase of afterload is characterized by the association of the previous abnormalities.
Positioning of the esophageal probe There is a Doppler transducer on the tip of the probe. The probe is easily introduced in the esophagus (like a gastric tube) of anaesthetized patients through the mouse or the nose. It is advanced gently until the tip is located approximately at the mid-thoracic level to allow the insonation of the thoracic aorta. Probe position is optimized to generate a clear signal with the highest possible peak velocity. The measurement takes only few minutes. The probe can stay in the esophagus for several hours and monitor continuously cardiac output.
Reusable probe The probe is reusable and designed to last, so It can be fitted with a better quality Doppler sensor than if it were one use probe. The operation cost of the WAKIe TO is reduced. Protective jackets are available.
WAKIe TO features 15'' touch screen Embedded PC 4 USB ports Network connection Analog input/output (option) Possible connection to an external printer Integrated basket for accessories Digital technology
Velocity spectrum and trend display M-mode display The M-mode display makes easier the positioning of the esophageal probe and the identification of the different Doppler signals.
Recording of the spectrum and Doppler sound in the hard disk Off-line analysis of the recordings Establishment of a library of normal and pathologic recordings Pedagogical tool
Print out of the display hard copy Print out of the significant recordings to be added to the patient file.
Easy to use The main controls are documented on the display. The touch screen is the only user interface.
DERMCUP: High resolution ultrasound scanner for skin imaging
Ultrasound scanner dedicated to dermis
Dermcup allows the acquisition in real time and in-vivo of high resolution skin vertical cross sections: 16 mm x 12 mm
Dermis is echogenic. The echoes come from the network of collagen fibers and elastic fibers. The lesions (tumors, cysts, angiomasâ€¦) have a hypoechoic appearance.
High resolution echography for dermatology
Thank to its high frequency, Dermcup offers a high resolution: Axial: 30 10-3mm Lateral: 120 10-3 mm In dermatology, it is necessary to visualize infracentimeter lesions. This cannot be done with traditional ultrasound scanner fitted with 7 to 13 MHz probes. DERMCUP is well adjusted for visualization of lesions in dermis.
Image acquisition in real time
The acquisition frequency is 10 images per second.
During the examination, the probe is easily moved on the skin. It is very comfortable to handle.
Breakthrough for TCD signal recording in all conditions even the most difficult.
Actually, the TCD-X is like a transcranial Doppler Holter. It can record transcranial Doppler signal even on moving patients. The patients can be involved in routine activities during the recording.
The TCD-X makes long time recording of TCD signal easier:
The system that holds the probe on the patient's head is comfortable and can be withstand during several hours
The patient can move. So the patient withstand longer recording duration.
The probe is robotized. When the signal becomes weaker, the probe orientation is readjusted automatically to retrieve a good quality signal. This feature ensures a good quality of the recording during its whole duration.
One of the applications of the TCD-X is the recording of transcranial Doppler signal of patients with an asymptomatic carotid stenosis. The Doppler signal is then analysed for emboli detection with a dedicated software. A comprehensive report with pictures of emboli can be printed out.
Atys Medical is the French leader of: Transcranial Doppler devices Peripheral Doppler devices Toe/finger systolic pressure measurement devices Peripheral vascular assesment devices Non invasive cardiac output monitors High resolution ultrasound scanner for dermatology.
This year Atys is proud to present its new product, the NEW BASIC. Fitted with a Doppler module, a photoplethysmography module and a systolic pressure measurement module, the BASIC is the ideal equipment for assessement of limb vessels. It measures automatically ABI and TBI. The BASIC is small, easy to move and affordable. it offers all the diagnosis functions for day-to-day practice. With the BASIC, you spend money only for functions you are going to use in routine. You do not waste money in useless functionnalities.
Beside the BASIC, Atys will present the TCD-X, the unique transcranial Holter. The TCD-X records the blood velocity in the intracranial arteries as the patients have no longer to stay sill near a stationary transcranial Doppler. The patients can move and be involved in activities. The TCD-X is a real innovation in the field of transcranial Doppler. It makes easier the recordings and open new opportunities for emboli detection and physiological tests.
The Doppler devices are used in a lot of branches of medicine to measure blood flow conditions in the vessels and evaluate haemodynamics. These branches of medicine include: angiology, phlebology, radiology, cardio-vascular surgery, neurology, anesthesiology, intensive cares.
For anesthesiology and intensive cares, and more particularly for vascular access, Atys has developped a dedicated Doppler device, the VASCUTRACE. Its use decreases the complication rate and the overall cost related to vascular access.
High frequency ultrasound is another Atys' area of excellence. The high resolution ultrasound scanner for dermis imaging is dedicated to dermatological marketplace (dermatology and cosmetics).