Place of Origin: | China |
Brand Name: | BASDA |
Certification: | CE, ISO13485 |
Model Number: | Bstar-150 |
Minimum Order Quantity: | 1 set |
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Price: | Negotiable |
Packaging Details: | 1 unit/wooden box |
Delivery Time: | 30-45 Days |
Payment Terms: | Credit card, Paypal, T/T, Western Union, MoneyGram |
Supply Ability: | 200 Machines per Year |
Type: | Bore | Noise: | Low |
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Magnet Type: | Superconducting | Bore Size: | 60cm |
Table Load: | Up To 200kg | Magnet Material: | Liquid Helium |
High Light: | 1.5 T Superconducting Basda MRI,60cm Bore Basda MRI,60cm Bore 1.5 t mri machine |
Bstar-150 provides comprehensive scan kit and scanning sequence, with rich clinical application of the full body, with a full range of scan plan, assist the customer’s clinical diagnosis. Advanced scanning sequence are provided as well as all routine scan, the system also can take vascular imaging, includes a broad range of capabilities supporting fast, accurate diagnosis of brain conditions and injuries. From anatomical depiction to vascular 3D reconstruction.
By adopting the brand-new phase array coil and scan control software, application of parallel acquisition accelerating technique, improve most sequence scanning speed, on the premise of image quality guarantee, accelerating factor can reach 6 or more as the maximum. Bstar-150 system keeps pace with international design and research, keeps improving the present clinical functions to provide lifetime free software upgrade for its users as well as let the hospital enjoy the most advanced MRI clinical application techniques.
Bstar-150 provides the power, coils and sequences for fast, intuitive, high quality spine imaging, from routine views to advanced stitching studies.
K_Rotat artifact erasing technique, by using stripped K space rotating filling method to complete acquisition, can completely erase the effect of movement artifact on images and greatly improve SNR at the same time to provide guarantee for accurate diagnosis.
Bstar-150 provides a versatile suite of imaging capabilities for body imaging to meet the growing demands of abdominal, pelvic, and breast exams. Including MRU/MRCP/MRM imaging, and other advanced imaging sequences. Rich post-processing software can optimize images in case necessary to help in complex diseases diagnosis, excellent image quality and abundant imaging techniques.
Workflow is critical to the efficient operation of an MRI. It impacts patient satisfaction, image quality and cost effectiveness. Bstar-150 provides full preset of clinical diagnostic scan protocol, based on rich clinical experience, corresponding arrangement and optimization have been made per related clinical application features for the scan procedure and sequence parameters of the preset scan method. With unmatched clinical capability, Bstar-150 provides an unprecedented ability to acquire complete exams with a motion compensated scan technique.
For restless patients and those who can’t cooperate, the preset extremely fast scan sequence can be used, which is very appropriate for fetus, newborns and infants.
High resolution isotropic diffusion imaging, based on powerful gradient system and amplifier system, Bstar-150 realizes faster and more reliable DWI images with high resolution, anatomic structure of head is clear, diffusion image features is obvious, very convenient for lesion location lock and lesion nature diagnosis.
HD susceptibility-weighted imaging, imaging based on the differences of magnetic susceptibility in different tissues, is a contrast enhancement technique which reflects magnetic properties of tissue. It is extremely sensitive to bleeding or deoxidation part in blood, can provide accurate information on bleeding, arteriovenous malformation, iron deposit to realize faster and more accurate diagnosis, even the very small lesion can be quickly diagnosed too.
Fast high-resolution abdomen diffusion imaging, under the support of brand-new parallel acquisition technique, realizes abdomen diffusion imaging with high spatial resolution, high time resolution and high contrast resolution, providing excellent tool of abdomen cancer diagnosis.
Extremely HD 3D TOF blood vessel imaging, optimized K space acquisition and filling method, suppression uniform of obtained images background, no artifact, clear blood vessel trend, can display tertiary vascular or above.
scDWI (optional)
In DWI, acquisition of low-b-value has better tissue SNR, but is not sensitive enough to water proton;
Acquisition of high-b-value has better DW sensitivity of water proton, but reduces the tissue SNR as well as the lesion location function;
By using special computation method, scDWI only needs one single DWI sequence to complete the calculation of multi-b-value within certain range, min. 100s/mm².
Meanwhile, comparing to direct acquisition of DWI images, scDWI technique greatly improved the SNR of high-b-value DW image, avoid distortion of high-b-value images, very good for lesion diagnosis.
Interactive environment
1. Motor-driven patient table, 200kg weight capacity.
2. Built-in-magnet high resolution 8 inch screen, the operation is convenient.
3. Have emergency stop function, protect the patients.
4. High positioning accuracy.
5. Support operation on both sides of the magnet, convenient and quick.
Water chiller set
E-alarm technology
At the same time, Bstar-150 has a special monitoring system which simple and easy to operate. It can real-time monitor the magnet internal pressure, temperature and liquid helium level. If the magnet condition is abnormal, the monitoring system can automatically send alarm information to the user's phone which can greatly reduce the risk of magnet quenches.
Bstar-150 Specification
No. | Item | Specification |
1 | Magnet System | |
1.1 | Magnet Type | Superconducting |
1.2 | Field Strength | 1.5T |
1.3 | Shielding Method | Active |
1.4 | Shimming Method and Type | Active + Passive + Dynamic |
1.5 | Magnet stability | ≤0.1ppm/h |
1.6 | Homogeneity (DSV, VRMS) | |
1.6.1 | 45cm | ≤0.832ppm |
1.6.2 | 40cm | ≤0.323ppm |
1.6.3 | 30cm | ≤0.107ppm |
1.6.4 | 20cm | ≤0.041ppm |
1.6.5 | 10cm | ≤0.01ppm |
1.7 | Length of magnet(exclude cover) | 157cm |
1.8 | Inner diameter of magnet | 600mm |
1.9 | 5 Gauss fringe field(X,Y,Z axis) | ≤2.5m x 2.5m x 4.0m |
1.10 | Total capacity of liquid helium (100% liquid helium full filled) | 800L |
1.11 | Filling liquid helium period | ≥4 Years |
1.12 | Liquid helium “zero”consumption technology | Yes |
2 | Gradient System | |
2.1 | Maximum gradient field (single axis, invalid) | 41mT/m |
2.2 | Maximum gradient slew rate(single axis, invalid) | 187mT/m/ms |
2.3 | Minimum gradient rise time | 0.22ms |
2.4 | Maximum gradient field and slew rate reached at the same time | Yes |
2.5 | Gradient cooling system | Water cooling |
2.6 | Full digital real-time transmit and receiving gradient control system | Yes |
3 | RF System | |
3.1 | Max RF amplifier power | 18kW |
3.2 | Center frequency | 63.87MHz |
3.3 | Real-time digital RF energy monitoring | Yes |
3.4 | Real-time digital RF short-term accumulation monitoring | Yes |
3.5 | Real-time digital RF long-term accumulation monitoring | Yes |
3.6 | Parallel working RF receiver channels | 8/16 |
3.7 | Parallel working RF A/D converters | 8/16 |
3.8 | Each coil unit has corresponding pre-amplifier | Yes |
3.9 | Parallel acquisition technology platform | Yes |
3.10 | Maximum bandwidth of each parallel acquisition receive channels | ≥1.0MHz |
3.11 | Transmission bandwidth | 550kHz |
3.12 | Maximum receiver signal resolution | ≥16bit |
3.13 | Fully digital RF system | Yes |
3.14 | RF receiving amplifier noise level | ≤0.45dB |
3.15 | Multi-channel phased array receiver coil | |
3.15.1 | Head coil | Available |
3.15.2 | Neck coil | Available |
3.15.3 | Body coil | Available |
3.15.4 | Knee coil | Available |
3.15.5 | Shoulder coil | Available |
3.15.6 | Ankle coil | Available |
3.15.7 | Wrist coil | Available |
3.15.8 | Breast coil | Available |
Remark: The coil configuration is subject to the final contract | ||
4 | Scan environment | |
4.1 | Patient table driven mode | Motor-driven |
4.2 | Position accuracy | ≤0.5mm |
4.3 | Table length | 2400mm |
4.4 | Horizontal movement range | 2055mm |
4.5 | Horizontal motion maximum speed | ≥200mm/s |
4.6 | Patient table lowest height | 675mm |
4.7 | Maximum patient weight | 200kg |
4.8 | Feet-first entry mode | Yes |
4.9 | Table can be controlled by machine cover in case of emergency | Yes |
4.10 | Table control system on both side of rack | Yes |
4.11 | Lighting, ventilation, call system | Be able to adjust |
5 | Computer system | |
5.1 | MRI software | BASDA |
5.2 | System software | WINDOWS 7 |
5.3 | CPU | ≥3.1GHz |
5.4 | Main memory | ≥4GB |
5.5 | Hard disk | ≥500GB |
5.6 | Color LCD monitor | 24” |
5.7 | Monitor resolution | 1920×1200 |
5.8 | External storage | DVD/USB |
5.9 | DICOM3.0 | Yes |
6 | Scanning parameter | |
6.1 | Spin-echo sequence | Yes |
6.1.1 | SE 2D/3D | Yes |
6.1.2 | FSE 2D/3D | Yes |
6.1.3 | FSE sharing | Yes |
6.1.4 | Single shot FSE | Yes |
6.1.5 | Spin echo fat-suppression imaging | Yes |
6.1.6 | Spin echo frequency fat suppression imaging | Yes |
6.1.7 | Spin echo water suppression imaging | Yes |
6.2 | GRE 2D/3D | Yes |
6.3 | DWI | Yes |
6.3.1 | Max. b value | 10000 |
6.4 | IR sequence | Yes |
6.4.1 | IR | Yes |
6.4.2 | FIR(water / fat suppression) | Yes |
6.4.3 | FLAIR | Yes |
6.4.4 | STIR | Yes |
6.4.5 | Water-fat Separation | Yes |
6.5.1 | Pre-saturation | Yes |
6.6 | Gating | Yes |
6.7 | Accelerated sequence | Yes |
6.8 | Anti-movement scanning technology | Yes |
6.9 | Min. 2D thickness | 0.1mm |
6.10 | Min. 3D thickness | 0.05mm |
6.11 | Max. FOV | 50cm |
6.12 | Min. FOV | 1cm |
7 | Advanced imaging technology | |
7.1 | Body Imaging | Yes |
7.1.1 | Ultra-fast imaging technology | Yes |
7.1.2 | Phase / de-phase imaging technology | Yes |
7.1.3 | MR cholangiopan-creatography (MRCP) | Yes |
7.1.4 | MR urography (MRU) | Yes |
7.1.5 | MR Myelography (MRM) | Yes |
7.2 | Neuro imaging | Yes |
7.3 | Diffusion weighted imaging set | Yes |
7.3.1 | Isotropic acquisition | Yes |
7.3.2 | ADC measurement | Yes |
7.4 | MR angiography(MRA) | Yes |
7.4.1 | 2D/3D TOF technology | Yes |
7.4.2 | Continuous multi-layer 3D TOF technology | Yes |
7.4.3 | Contrast enhanced MRA | Yes |
7.4.4 | Magnetization transfer (MTC) | Yes |
7.4.5 | Maximum intensity projection | Yes |
7.5 | Susceptibility weighted imaging (SWI) | Yes |
7.6 | Parallel acquisition technology | Yes |
7.6.1 | Algorithm based on image | Yes |
7.6.2 | Algorithm based on K-space | Yes |
7.6.3 | Max. parallel acquisition acceleration factor | 4 |
7.6.4 | Automatic calibration technology | Yes |
7.6.5 | Applied direction of parallel acquisition factor | X,Y,Z |
7.7 | Artifact correction technology | Yes |
7.7.1 | Fluid compensation | Yes |
7.7.2 | Respiratory compensation | Yes |
7.7.3 | Head motion artifact correction | Yes |
7.7.4 | Elimination of magnetic sensitive artifact | Yes |
7.7.5 | Eddy current adaptive correction | Yes |
7.7.6 | Gradient linearity correction | Yes |
7.7.7 | Multi-echo phase correction | Yes |
7.8 | Rapid automatic correction technology | Yes |
7.9 | Automatic frequency tracking technology | Yes |
7.10 | Automatic coil recognition technology | Yes |
7.11 | Automatic phase correction technology | Yes |
7.12 | Echo navigation technology | Yes |
7.13 | RF balance drive technology | Yes |
7.14 | RF de-phase technology | Yes |
7.15 | Gradient de-phase technology | Yes |
7.16 | Section scanning technology | Yes |
Contact Person: Peng
Tel: +86-13632708845
Address: Floor 19, Block 1A, Basda Building, No. 28 Nantong Road, Longgang District, Shenzhen, Guangdong Province, P.R.C.
Factory Address:Block 1B, Basda Building, No. 28 Nantong Road, Longgang District, Shenzhen, Guangdong Province, P.R.C.