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Ultrasonic device Alpha 7, ALOKA, YAPONIYA buy in Almaty
Buy Ultrasonic device Alpha 7, ALOKA, YAPONIYA
Ultrasonic device Alpha 7, ALOKA, YAPONIYA

Ultrasonic device Alpha 7, ALOKA, YAPONIYA

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Kazakhstan, Almaty
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Alpha 7 - the universal diagnostic ultrasonic unit providing excellent quality of the image is convenient in use and in data management.

The Aloka company implemented the checked advanced technologies and functions. The device is mobile, is easily transported with viewing in an intensive care unit, the operating room or to the patient's bed.

The universal design is very convenient in use. All system and its body are compact and silent in operation that minimizes inconveniences for the patient when using this equipment.

The system is ecologically harmless, made of environmentally friendly materials and consumes not enough electric power.


- standard: B, M, D, 2B, 4B, B + M, B + D, B + M + D 
- with a color doppler: 4B, M, B + B, B + M, B + D
- Doppler: PW (pulse and wave), HPRF (high - frequency), CW (constant and wave) (optionally), color, power, directed power, fabric 
- triplex (B + Color + D)
- CW a doppler on linear, convex and fazirvoanny sensors (optionally)
- 3D/4D in real time (optionally) 
- FreeHand 3D (optionally) 
- The trigger mode with contrast (optionally) 
- Elastografiya (optionally)

Sensors of an expert class (192 elements):

- Electronic convex and microconvex
- Electronic linear
- Compound (matrix) 
- Volume 3D/4D 
- Electronic with the phased lattice 
- Pencil Doppler CW 
- Intraoperative with full immersion in disinfecting solution 
- Video bronchoscopic and video gastroscopic (video endoscope + ultrasonography) 
- Biopsy


- eFlow - expanded color bidirectional Doppler mapping - a highly sensitive method of display of a blood - groove with the improved spatio - temporal permission. Allows to diagnose a low - speed blood stream.

- BbH – the broadband and improved fabric harmonic.
- DSD – the mode with the slowed - down synchronization. Allows to receive the image of moving objects (heart, a blood stream of vessels) in real time on one half the screen, and the slowed - down image on the second.
- DDD - the double dynamic screen - removal on the screen at the same time two moving V - images: one with color Doppler mapping, and the second – without it.
- AIP – adaptive optimization the image. Intellectual suppression speckle noise, improvement of contours of objects.
- SCI – multibeam difficult and compound scanning
- Elastography – a color compression elastografiya in real time with quantification.
- 3D/4D – the mode of volume scanning in real time, multiplanar and multislice reconstruction, pseudo - x - ray reconstruction. Measurement of volumes in 3D (automatically and manual trace).
- Flow 3D – a three - dimensional blood stream.
- Flow Profile – the schedule of a profile of a blood - groove.
- AutoNT – automatic measurement of thickness of collar space of a fruit (NT index) on the chosen median projection.
- AutoIMT – automatic measurement of thickness of a complex of erotic media of a vascular wall.
- STIC - three - dimensional research fruit heart. Also STIC with a color doppler is available.
- 2D Tissue Tracking (2DTT) – not Doppler quantitative a left ventricle of heart.
- TDI - fabric a doppler, display of the movement of fabrics in color. The choice between the "speeds" and "energy" modes. Quantification of a fabric doppler is available 
- eTracking – early diagnostics of atherosclerosis. By means of the radio - frequency analysis of elasticity of a vascular wall such parameters as the module of elasticity (Ep), parameter of rigidity (beta), a pliability of a vascular wall (AC), dot speed of pulse wave (PWV - beta) and an index of an increment (AI) are calculated.

- FMD - a technique a flow - the mediated dilatation - effective neinvaziiny remedy of an assessment of function of an endothelium of vessels for early diagnostics of atherosclerosis. Stress test of vessels.
- EFV - panoramic scanning, allows to broaden the field of research and to simplify statement of the diagnosis. Works both in the V - mode, and with the Doppler color modes. Measurements are available.
- FAM - the anatomic M - mode, a possibility of the manual choice to 3 any projections in the M - mode as in real time, and reconstruction from a film loop. The M - mode is available also color and fabric.
- A stress echo - a stress analysis with the programmed protocols for exercise and pharmacological stress, programming of the user protocols is possible.
- CHE - an operating mode with the ultrasonic contrasting substances (for example, left whist). Improves display of capillaries and small vessels that allows to reveal oncological educations. Quantification is available.
- WI - calculation of intensity of a wave. Heart and arterial system during the work exert mutual impact at each other by means of straight lines and reflected waves. WI - the calculations based on a hemodynamometry and speed of a blood - groove in the chosen point of circulator system is the new indicator of dynamics of a blood - groove which prolagat a way to the analysis of interference of heart and arterial system. The analysis includes the characteristic of compression and dilatation, impact assessment of the waves reflected from the periphery and the index connected with time.
- UZI - videoendoskopiya – the combined operation of the ultrasonic device and a video endoscopic rack of OLYMPUS with special gastrovideoskopichesky and bronkhovideoskopichesky sensors.
- Manual correction of the receiver under the speed of distribution of ultrasound in fabrics (over 25 steps of setup) 
- Preservation and analysis of crude data. Export quantitative given and account in the Excel format on external carriers or the external DAS - RS workstation.
- KI - the kinetic image (optionally) - improvement of display of the movement of walls of a myocardium
- A - SMA - the automatic segment analysis of the movement of a myocardium (optionally) - creation of histograms and calculations for the movement of a myocardium.

Archiving and storage of images:

- film memory in In, M, D, Flow, 3D, 4D the modes 
- high - speed transfer of film memory on the hard drive 
- hard drive
- data storage in the JPEG, DICOM, AVI, TIFF, BMP formats 
- network 10 BASE/T and 100 BASE/TX
- storage of images on USB a flash cards 
- storage of images on CD - R/DVD - RAM (optionally) 
- connection in DICOM network (optionally)

Removal of physiological signals (option):

- the 3rd channel an ECG with synchronization 
- FKG (phonocardiography) 
- removal of pulse wave 
- display of a respiratory rhythm

Reports and measurements:

- The general: length, area, volume, histogram, corner, B index.
- Doppler: M and D indexes, speed, time, acceleration, a pressure gradient, an okonturivaniye of a Doppler range (on the recorded image), a cordial rhythm, resistance, a stenotic flow, the return flow, a blood - groove profile (optionally), etc.
- Obstetrics: the fruit weight, Doppler parameters, fruit heart parameters, an index of amniotic waters (AFI), length of a neck of uterus, the analysis of growth on the basis of the previous measurements, compatibility with polycarpous pregnancy, gestational age.
- Gynecology: measurement of parameters of a uterus, neck, ovaries, follicle, bladder, uterine and ovarian arteries.
- Cardiology: the volume of a left ventricle, Simpson, Bullet, the indexes AVA, MVA, LA/Ao, RVD, LVMass (AL), IVC, a flow through the taking - out path of a right ventricle, a transmitral flow, regurgitantny flows, etc.
- Peripheral vessels: the general carotid artery, an internal carotid artery, an outside carotid artery, bifurcation of a carotid artery, a vertebral artery, % of the area of a stenosis, % of stenosed diameter, the erotic - mediya relation, a blood stream on arteries of the lower extremities, a blood stream on arteries of upper extremities, thickness of erotic media, etc.
- Urology: prostate volume, bladder volume, seed bubble, small egg volume, kidney volume, thickness of a bast layer, adrenal gland volume.
- Abdominal cavity: a gall bladder, the general bilious channel, a pancreas, a kidney, a spleen, volume education, diameter of a ventral aorta, diameter of a portal vein, a blood stream on a renal artery, a belly blood stream, a blood stream on the shunt, blood - groove volume.
- Small bodies: the NT index, volume of a thyroid gland, measurement for milk and thyroid glands.

Other modes:

- 3D/4D mode of reconstruction in real time (option) 
- Multiplanned scanning in three projections (option) 
- Multislice scanning (Ultrasonography tomography) (option) 
- Three - dimensional reconstruction of a blood - groove (color doppler) (option) 
- Automatic measurement of volumes (option) 
- the kompauding mode - a beam deviation concerning the plane of linear and convex sensors
- trapezoid scanning on linear sensors (virtual konveks)
- a grid on the display in the brachytherapy mode (demands the UST - 678 sensor) 
- a stiring on linear sensors + / - 30 degrees with a step to 5 degrees.

Technical characteristics:

- LCD monitor 15", 17" or 19" 
- touch ZhK the display on the control panel 10.4"
- 3 active connectors for sensors
- 1 connector for pencil CW sensors (optionally) 
- 5 USB ports 
- foot pedal of distance steering (optionally)
- infrared remote control (optionally) 
- full russification (optionally)

FreeHand 3D - simple three - dimensional reconstruction by means of ordinary sensors.

The doctor uses the ordinary (not three - dimensional) sensor, establishes it on an interest zone (ROI - Region of interest), starts procedure of data collection. During this time the doctor conducts the sensor along an interest zone (in the direction perpendicular to the sensor axis plane). After that the device makes three - dimensional reconstruction. The image 3D, and also three orthogonal projections is output.

Plus method:  low cost, availability.
Minus method:  strong dependence on the speed of the movement of the sensor by the doctor that often leads to distortions; impossibility of carrying out three - dimensional research in real time; low speed of work.

Real Time 3D - three - dimensional scanning in real time (4D) 

Three - dimensional scanning in real time is carried out by means of special volume (three - dimensional) sensors with the mechanical drive. Unlike the FreeHand 3D method the movement along area of interest is carried out not manually, and automatically by a radiator inclination in the volume sensor. High speed of turn of a radiator allows to carry out not only fast data collection in the 3D mode, but also three - dimensional scanning in real time. Thus it is possible to see the movements of a fruit. For removal of unnecessary zones the virtual scalpel is used. Different algorithms of processing 3D - images are also available: gradient reconstruction, inversion, pseudo - x - ray representation, superficial reconstruction, etc. For final setup of the image such parameters as transparency degree, color, smoothness of lines, etc. are regulated.

For early durations of gestation the three - dimensional transvaginal sensor (ASU - 1012 model), is used to late terms - transabdominal ASU - 1010. For research of mammary glands and small bodies the three - dimensional linear ASU - 1013 sensor is used. At many producers the difficult mechanism of three - dimensional sensors does them big and heavy that does not allow to use them often (the hand at the doctor is tired). Three - dimensional ALOKA sensors easy and conveniently lay down in a hand (an aperture of the transabdominal sensor of 40 mm, and transvaginal - 10 mm).


Photographic 3D - the mode 4Dshading

The mode photographic 3D uses for visualization of the volume image of a fruit virtual "lighting" from dot sources, allowing to create thereby bright areas and shadows as they are usually seen by an eye of the person. The user can independently establish a dot source of "light" (a virtual small lamp) and to direct "illumination" under the necessary corner for creation of photographic quality of a fruit.

Unlike the competing offices of other producers the Hitachi ALOKA company uses this mode in high - class devices that makes it available to most of users of the private medical centers.

Multi - planned scanning (MPR) 

The three - dimensional image and three orthogonal (perpendicular) projections is displayed.

Multi - planned free scanning (FMPR) 

Unlike the above - considered standard multi - planned scanning (MPR), free scanning allows to receive not only orthogonal (perpendicular) projections, but also projections at any angle and with any extent of shift of projections relatively each other.

Multi - slice scanning (multislaysing, MSI) 

Several parallel cuts are displayed. Distance between them are established by the doctor.

Volume cuts (VSI) 

Unlike the standard multi - slice scanning considered above volume cuts integrate information on fabrics on the cut having the volume established by the user. Adjusting then types of visualization (gradient reconstruction, pseudo - x - ray, etc. ). You can receive more contrast and accurate visualization of the interesting object. This technology is applicable not only for a fruit, but also in oncology

The example of difference of MSI (multi - slice scanning) from VSI (volume cuts) is given below on the example of the fruit head: at the left above MSI cut (thickness of 0 mm), on the right below VSI cut (thickness of 5 mm). Improvement of contrast and the general perception of the image on VSI is noticeable.

Automatic measurement of volumes 

In the mode of multiplanar scanning the doctor can make calculation of volumes of formations of irregular shape. For this purpose on each projection it is made automatic (AVM) or manual (TVM) okonturivany educations. In the automatic mode (AVM) it is only enough to you "to outline" an approximate contour for the analysis of education, and in the manual mode (TVM) you can carry out trace of education on three projections. After that the device automatically measures and visualizes education volume.

Measurement and reconstruction multiple follicle (MFV) 

It is possible to visualize and measure in the mode of measurement of volumes not only single, but multiple educations, such as follicles. The device makes identification of each follicle, measures their volume, then outputs the summary data table on follicles plus color volume reconstruction.

Three - dimensional blood stream - Flow 3D 

The three - dimensional sensor can work in the mode of color Doppler mapping, displaying a blood - groove tree. This mode does not work in real time. The modes of display allow to cut fabric from vessels.

STIC (Spatio - temporal image correlation) 

The technology of research of heart of a fruit in the three - dimensional mode considering spatio - temporal correlation of images. At first the doctor performs measurement of ChSS of a fruit and then 4D scanning (record of a film loop) of fruit heart. Choosing then necessary projections the doctor investigates fruit cardiac performance. This mode can work also in combination with a color doppler (Color STIC).

AutoNT - automatic measurement of the NT index 

Index Nuchal Translucency (NT) - thickness of collar space at a fruit. The collar space is located behind a neck of a fruit and filled with liquid. In 65 - 85% cases of a thickening of collar space later the trisomy of chromosomes is diagnosed for children (a trisomy on the 21st chromosome - a Down syndrome).

The Down syndrome is diagnosed by an amniotsentez by means of a fence of a sample of genetic material of a fruit. This invasive procedure bears in itself 1% risk of an abortion. Therefore the direction on amniotsentez has to be made with use of a reliable and exact source. Measurement of the NT index on the 12th weeks of pregnancy is such source.

Technically measurement of the NT index is carried out as follows: by means of the convex transabdominal sensor the doctor removes a median sagittal projection of a fruit and measures by a two - point contact method the maximum thickness of space in collar area. The received result is compared to average data then it is possible to draw this or that conclusion on probability of development of a trisomy. At such manual measurement there are errors connected with complexity of exact removal of a median sagittal projection, definition of a zone of the maximum thickness and accurate placement of markers of measurement on borders of collar space. Mistakes in definition of the NT index bears in itself serious effects, beginning from the psychological shocks of mother connected with in a false manner positive take and finishing with problems with in a false manner negative take.

Therefore now to the aid of doctors producers of scanners create programs of automatic measurement of the NT index. The doctor finds a median and sagittal projection and approximately accommodates a measurement frame over a collar zone. The device automatically makes the maximum, minimum and average NT value in an okolovorotnikovy zone.

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Ultrasonic device Alpha 7, ALOKA, YAPONIYA
Ultrasonic device Alpha 7, ALOKA, YAPONIYA
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