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可編程生理流量泵及配件

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  • 公司名稱世聯(lián)博研(北京)科技有限公司
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世聯(lián)博研(北京)科技有限公司(Bio Excellence International Tech Co.,Ltd)簡(jiǎn)稱為世聯(lián)博研。世聯(lián)博研是一家集進(jìn)口科研儀器代理銷(xiāo)售以及實(shí)驗(yàn)技術(shù)服務(wù)于一體的高新技術(shù)公司。世聯(lián)博研專注生物力學(xué)和3D生物打印前沿科研設(shè)備代理銷(xiāo)售及科研實(shí)驗(yàn)項(xiàng)目合作服務(wù),內(nèi)容涵蓋了血管力學(xué)生物學(xué)、生物力學(xué)建模仿真與應(yīng)用、細(xì)胞分子生物力學(xué)、組織修復(fù)生物力學(xué)、骨與關(guān)節(jié)生物力學(xué)、口腔力學(xué)生物學(xué)、眼耳鼻咽喉生物力學(xué)、康復(fù)工程生物力學(xué)、生物材料力學(xué)與仿生學(xué)、人體運(yùn)動(dòng)生物力學(xué)等生物力學(xué)研究以及生物材料打印、打印樣品生物力學(xué)性能測(cè)試分析的前沿領(lǐng)域科研利器和科研服務(wù)。


儀器儀表
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可編程生理流量泵及配件 產(chǎn)品信息
???????:?????????????ü????,CompuFlow 1000????????????????,AccuFlow-Q ??????????,-??????????,???????????????,???????????????????????:????????????:???????:????????:???????綽:


CompuFlow 1000????????????????

CompuFlow 1000????????????????

???????

??????Χ??0.01 ?? 35 ml/s??????? 3.0%??

?????????????????????Ρ?

?????SimuFlow III???α??????

????CT??OCT ?????????


???????CompuFlow 1000????????????????????????????????????????????Σ?????????;???????????????????????κ???????Ρ?

???????????????????????????е?SimuFlow III???α?????????????????????????????????Ρ???????????????????????????????????????????(????????)??????????????С?

CompuFlow 1000??0.1??35????/?????????Χ???3.0%?????????????У?????????У???飬?????????????µ?У??????????У?????????????????????

CompuFlow 1000???????????????????????????????????????????????????

??CompuFlow 1000????????????????????????????????????????????·??????????????????????????????????????????

????????????????????CTA?????????????(OCT)??????????????е???????????


????????豸?????????

  • ?????????????ü????

  • ???????壬???????MRI??CT

  • ???????????????????


  • ????????????軺?????????


  • ??????????????????


  • ????????????????????


  • ????????????


  • DCE?????Phantom??CT??MRI??PET????


  • ??????? CT??MRI ?? PET ????


  • ???????????????????PET??MRI??CT


  • MR???????????????????


  • ????CT??MRI????????????????????


  • ???????????????


AccuFlow-Q ??????????


A CCUF LOW-Q D OPPLER P HYS IOLOGICAL F LOW S YSTEM

 


AccuFlow-Q ??????????



image.png



      AccuFlow-Q?????????????Я???????????????????????????????????????????????Σ??????????????????????????????κ?????????Ρ?

??AccuFlow-Q??????????????????????????????????????????????????????????????????????????????

???????????????????????????:???????????????????????????????



image.png


????????豸?????????

  • ?????????????ü????

  • ???????壬???????MRI??CT

  • ???????????????????


  • ????????????軺?????????


  • ??????????????????


  • ????????????????????


  • ????????????

  • DCE?????Phantom??CT??MRI??PET????


  • ??????? CT??MRI ?? PET ????


  • ???????????????????PET??MRI??CT


  • MR???????????????????


  • ????CT??MRI????????????????????


  • ???????????????



???????????????????????

?????????????ü????

 ??????????????

AccuFlow-Q ??????????

 

??????

??????Χ??0.01 ?? 35 ml/s??????? 3.0%??

 ?????????????????????Ρ? 

????CT??OCT??PIV ?????????

 AccuFlow-Q?????????????Я?????????????????????????????????????????????Σ??????????????????????????????κ?????????Ρ?
??AccuFlow-Q??????????????????????????????????????????????????????????????????????????????
??????????????????????????????:?????????????????????????????????


CompuFlow 1000????????????????

???????

??????Χ??0.01 ?? 35 ml/s??????? 3.0%??

?????????????????????Ρ?

?????SimuFlow III???α??????

????CT??OCT ?????????


CompuFlow 1000 MR????????????????

???????

??????Χ??0.01 ?? 35 ml/s??????? 3.0%??

?????????????????????Ρ?

?????SimuFlow III???α??????

?????????????CT??OCT ?????????

?????????MR Finger????????????????????MRI???????????????????????о?


                                                          CardioFlow 5000 MR, Programmable Physiological Flow Pump

????????????????

????????

??????Χ??1.0 ?? 300 ml/s??????? 3.0%??

?????????????????????Ρ?

?????SimuFlow III???α??????

????CT??OCT ?????????

?????????MR Finger????????????????????MRI???????????????????????о???


 

????????????????? ??9?????????? 70% ????????

????????????

??????????????????????????????????????????????MRI?????????????????????PIV???????RI?1.41??

???ü??????????????棬30%??50%??60%??70%????????????

?????????????????????汾??

????汾?????????????????У??????????????????????????????????????????????????????


??????????

??????????

?????????棨0.1???????????????????????????????

?????????????????100??????????ó????

??????????????du???????????????????á?????????????????????λ?á???С??????????????????????????????X?????CT??MRI??


???????? 100????????????????

PhsioPulse 100

??????Χ??1.0 ?? 100 ml/s?? ?????????????????????Ρ?

?????TracerDac Pro?????
????CT??PIV??OCT ?????????

 


Multi+?????????????????

????????????

??????????ο???仯?????????????????????Σ????????????????????????仯?????????????????????;CompuFlow 1000?? CompuFlow 1000 MR & CardioFlow 5000 MR


 

????????????BMF-MR

BMF-MR

????????????????????????????????
?????????? T1?? 850 ms @ 1.5 ?????
T1?? 170 ms @ 1.5 ?????
???? 1.02 g cm ??
????
4.1 mPa .


????????????BMF-US

BMF-????

????BMF-US???????????????κ???????????????????

?????????????????????????????????????????

??????????о?????????????????????????????Quan?????????????????????????????????????????????


???????????????QA-STV

QA-STV

????????????????????? MR ??λ??? QA ??????????

?????????????????????????????

????????????????????????????????????Ч??????λ?ú????????????

5 mm ?????? 8 mm ??????8 mm ????????????????? 50% ??????? 8 mm ????????????????? 75% ???????????????????? CompuFlow 1000 MR ????


U-??????????QA-USV

???????-USV

????????????????????? MR ??λ??? QA ???????????????????????????????????????

?????????????????????б?????
???8??????????44?????U????????????

????????? CompuFlow 1000 MR ????


 

????????????????????

????????????????????

???????????????????Z?µ? CAD/CAM ?? NC ???????????????? 0.005cm ?????????????????

???????????????1.0 mm?????????????????????????????С?


????????????????????U-245

???? U-245

?? Phantom ??????????????????????????????????????Ч????????????????? 8 mm ?????λ???λ?????????·? 2 cm ?????????????? 4 mm ????????????? 45?? ???

?? U-245 ????? AccuFlow-Q ?? CompuFlow 1000 ?????????á?


???????????????о??? MR ???

???????????????о??? MR ???

????MRI?????MR???????????????ECG????????????

???MR Finger?????TTL?????豸?????????ECG????


-??????????

-????????????

??????????????????????-?????????????????????????????????????????????洦????侭?佬???????????????? 12.5 mm??

??????? CompuFlow 1000 ?? CompuFlow 1000 MR ??????????????????????α????????????




?й???????-???????У????????????????

????????????

???綽??

?????

?????????????biosciencesinfo







???????£?

CardioFlow 5000 MR, Programmable Physiological Flow Pump

Sci Rep, 2021 Mar 23;11(1):6703.  doi: 10.1038/s41598-021-86174-6.
On the impact of vessel wall stiffness on quantitative flow dynamics in a synthetic model of the thoracic aorta
Judith Zimmermann12, Michael Loecher34, Fikunwa O Kolawole5, Kathrin B?umler3, Kyle Gifford3, Seraina A Dual3, Marc Levenston5, Alison L Marsden678, Daniel B Ennis

Magn Reson Med. 2017 Jul 16. doi: 10.1002/mrm.26834. [Epub ahead of print]
Variability of 4D flow parameters when subjected to changes in MRI acquisition parameters using a realistic thoracic aortic phantom.
Montalba C, Urbina J, Sotelo J, Andia ME, Tejos C, Irarrazaval P, Hurtado DE, Valverde I, Uribe S.

Real-time phase-contrast flow cardiovascular magnetic resonance with low-rank modeling and parallel imaging.
Sun A1, Zhao B2,3, Li Y1, He Q1, Li R4, Yuan C1,5. 


J Magn Reson Imaging 2016 Sep;44(3):683-97. doi: 10.1002/jmri.25208. Epub 2016 Mar 10.
Realistic aortic phantom to study hemodynamics using MRI and cardiac catheterization in normal and aortic coarctation conditions.
Urbina J, Sotelo J, Springm??ller D, Montalba C, Letelier K, Tejos C, Irarr??zaval P, Andia ME, Razavi R, Valverde I, Uribe SA. term=Realistic+Aortic+Phantom+to+Study+Hemodynamics+Using+MRI+and+Cardiac+Catheterization+in+Normal+and+Aortic+Coarctation+Conditions

Med Phys. 1995 Jul;22(7):1111-5.
An MR compatible flow simulator for intravascular pressure simulation.
Plewes DB, Urchuk SN, Kim S, Soutar I.

 

Blood Mimicking Fluid, Model: BMF-MR

J Magn Reson Imaging. 2005 May;21(5):620-31.
Multisite trial of MR flow measurement: phantom and protocol design.
Summers PE1, Holdsworth DW, Nikolov HN, Rutt BK, Drangova M.


Straight Vessel Stenosis Phantom, Model: QA-STV

J Magn Reson Imaging. 2005 May;21(5):620-31.
Multisite trial of MR flow measurement: phantom and protocol design.
Summers PE1, Holdsworth DW, Nikolov HN, Rutt BK, Drangova M.


U-Bend Phantom, Model: QA-USV

J Magn Reson Imaging. 2005 May;21(5):620-31.
Multisite trial of MR flow measurement: phantom and protocol design.
Summers PE1, Holdsworth DW, Nikolov HN, Rutt BK, Drangova M.

Intracranial Vascular Flow Model, Acrylic

Med Phys. 1999 Aug;26(8):1589-99.
A three-dimensional cerebrovascular flow phantom.
Fahrig R1, Nikolov H, Fox AJ, Holdsworth DW.

Med Phys. 1999 Aug;26(8):1589-99.
A three-dimensional cerebrovascular flow phantom.
Fahrig R1, Nikolov H, Fox AJ, Holdsworth DW.

Invest Radiol. 2008 Nov;43(11):753-61. doi: 10.1097/RLI.0b013e3181812c4c.
Four dimensional intravenous cone-beam computed tomographic subtraction angiography. In vitro study of feasibility.
Pollmann SI1, Norley CJ, Pelz DM, Lownie SP, Holdsworth DW.

 


Coronary Tree Flow Phantom

Radiology. 1994 Feb;190(2):579-82.
Coronary arteries: new design for three-dimensional arterial phantoms.
Renaudin CP1, Barbier B, Roriz R, Revel D, Amiel M.

 

 


MRI Compatible Multimodality Motion Platform For Diagnostic Imaging & Radiation Therapy

Med Phys. 2019 Feb;46(2):726-737. doi: 10.1002/mp.13345. Epub 2019 Jan 15.
Cardiac motion and spillover correction for quantitative PET imaging using dynamic MRI.
Marchesseau S1, Totman JJ1, Fadil H1, Leek FAA1, Chaal J1, Richards M2,3, Chan M4, Reilhac A

Medical Physics 43, 62 (2016); doi: 10.1118/1.4937780
Design and evaluation of an MRI-compatible linear motion stage
Tavallaei MA, Patricia M. Johnson, Junmin Liu, and Drangova M

IEEE Trans Biomed Eng. 2013 Apr;60(4):899-905.
A magnetic-resonance-imaging-compatible remote catheter navigation system.
Tavallaei MA1, Thakur Y, Haider S, Drangova M.

 

 


DCE Perfusion Flow Phantom, Compatible with CT, MRI & PET

Med Phys. 2011 Aug;38(8):4866-80.
Development of a dynamic flow imaging phantom for dynamic contrast-enhanced CT.
Driscoll B, Keller H, Coolens C.

Med Phys. 2013 Aug;40(8):081906. doi: 10.1118/1.4812429.
Development of a dynamic quality assurance testing protocol for multisite clinical trial DCE-CT accreditation.
Driscoll B1, Keller H, Jaffray D, Coolens C.

Phys Med Biol. 2013 Sep 7;58(17):6111-31. doi: 10.1088/0031-9155/58/17/6111. Epub 2013 Aug 14.
Computational fluid dynamics modelling of perfusion measurements in dynamic contrast-enhanced computed tomography: development, validation and clinical applications.
Peladeau-Pigeon M1, Coolens C.

IEEE Trans Med Imaging. 2017 Jan;36(1):132-141. doi: 10.1109/TMI.2016.2599779.
Validation of a Multimodality Flow Phantom and Its Application for Assessment of Dynamic SPECT and PET Technologies.
Gabrani-Juma H, Clarkin OJ, Pourmoghaddas A, Driscoll B, Wells RG, deKemp RA, Klein R.

Tomography. 2019 Mar;5(1):77-89.
Phantom Validation of DCE-MRI Magnitude and Phase-Based Vascular Input Function Measurements.
Foltz W, Driscoll B, Laurence Lee, Nayak K, Nallapareddy N, Fatemi A, M??nard C, Coolens C, Chung C


Standard Resolution Performance Evaluation Micro-CT Phantom, Model: MCTP 610 &
Enhanced Resolution Performance Evaluation Micro-CT Phantom, Model: MCTP 610-ER

Phys Med Biol. 2007 Dec 7;52(23):7087-108. Epub 2007 Nov 15.
A quality assurance phantom for the performance evaluation of volumetric micro-CT systems.
Du LY1, Umoh J, Nikolov HN, Pollmann SI, Lee TY, Holdsworth DW.

 


MRI Compatible Multimodality Motion Platform For Diagnostic Imaging & Radiation Therapy

IEEE transactions on bio-medical engineering, 60(4), 899?C905. (2013)
A magnetic-resonance-imaging-compatible remote catheter navigation system.
Tavallaei, M. A.Thakur, Y.Haider, S., & Drangova, M.

J Cardiothorac Vasc Anesth. 2016 Jan 12.
Hemodynamic Testing of Patient-Specific Mitral Valves Using a Pulse Duplicator: A Clinical Application of Three-Dimensional Printing.
Mashari A1, Knio Z2, Jeganathan J3, Montealegre-Gallegos M3, Yeh L4, Amador Y5, Matyal R3, Saraf R2, Khabbaz K2, Mahmood F6.

Med Phys. 2015 Jan;42(1):456-68
A mitral annulus tracking approach for navigation of off-pump beating heart mitral valve repair.
Li FP, Rajchl M, Moore J, Peters TM.





















































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