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MRI Compatible Syringe Pump
SKU 70-213X
No Longer Available
Item Listing
MRI Compatible Syringe Pump
Product Details
Remote Operated MRI Compatible Syringe Pump meets the needs of the MRI environment.The MRI Syringe Pump from Harvard Apparatus combines a two syringe pumping mechanism, constructed of nonferromagnetic metal, with a 30 foot cable connected to the pump electronics control box. A Run/Stop switch on the remote actuator allows control of the pump when standing next to the MRI.
• Ideal for drug delivery and tracer studies, MRI imaging.
Full Description
These MRI Compatible Syringe Pumps have a non-ferromagnetic syringe pumping mechanism which holds two syringes, and should be positioned at least five feet from the core of the MRI. The syringe pumping mechanism has its own start and stop control, and is connected to the control box of our standard PHD 2000 Syringe Pump. Cable is 30 foot long.
- ±0.5% precision
- Programmable — advanced capabilities with programming from the keypad
- Built to last — rugged construction for a lifetime of service
- 2 year warranty
- Highest Accuracy and Precision
- Low Flow Rates
A bright, easy to read, two-line fluorescent display can be easily read from across the lab. A target volume key makes it easy to dispense a set volume. An ergonomic ‘Autolock’ release mechanism is easy for even small hands to operate and can never be left unlocked. The numerical keys utilize the familiar ‘telephone’ layout. High Pressure or Small Volumes This Syringe Pump delivers over 200 pounds of force against the syringe plungers. For applications with viscous fluids or requiring high pressure, this is the pump to handle the job.
The Programmable version of the MRI Compatible Syringe Pump provides advanced capabilities directly from the keypad. No external computer is required. The pump can store up to four programs of 10 sequences each. Programs are stored in non-volatile memory. No other pump can provide this level of control and flexibility with the accuracy of all of Harvard Apparatus’ PHD pumps. Built-to-Last This pump uses high quality, industrial grade components that will deliver years of smooth operation.
Two Models Model 70-2130 Infuse/Withdraw MRI Syringe Pump Model 70-2131 Programmable MRI Syringe Pump
Harvard Apparatus Programmable MRI pump has the most advanced programming functions and yet is very easy to use. The pump can store up to four programs of 10 sequences each. Programs are stored in non-volatile memory. No other pump can give you this level of control and flexibility.
Specifications
| Specifications | 70-2130 | 70-2131 |
|---|---|---|
| # of Syringes | 2 | 2 |
| Accuracy | ±0.35% | ±0.35% |
| Average Linear Force | 50 lbs | 50 lbs |
| Cable Length English | 30 ft | 30 ft |
| Cable Length Metric | 9.1 m | 9.1 m |
| Communications | RS-232, TTL | RS-232, TTL |
| Communications Level | 2 | 2 |
| Depth English | 11 in | 11 in |
| Depth Metric | 27.9 cm | 27.9 cm |
| Display | Fluorescent, 2-line, 40 character | Fluorescent, 2-line, 40 character |
| Flow Rate Maximum | 220.82 ml/min | 220.82 ml/min |
| Flow Rate Minimum | 0.0001 µl/hr | 0.0001 µl/hr |
| Height English | 6.3 in | 6.3 in |
| Height Metric | 15.9 cm | 15.9 cm |
| Input Power | 0.5 A, 65 W | 0.5 A, 65 W |
| Motor | 1/2 to 1/32 microstepping, microprocessor controlled, 1.8 | 1/2 to 1/32 microstepping, microprocessor controlled, 1.8 |
| Motor Stepper 1 Revolution of Lead Screw | 800 at 1/2 stepping to 12,800 at 1/32 stepping | 800 at 1/2 stepping to 12,800 at 1/32 stepping |
| Net Weight English | 10 lb | 10 lb |
| Net Weight Metric | 4.5 kg | 4.5 kg |
| Non Volatile Memory | Storage of all settings | Storage of all settings |
| Pressure | Standard | Standard |
| Pump Configuration | Remote | Remote |
| Pump Function | Infusion/Withdrawal | Programmable |
| Pusher Travel Rate Maximum | 190.676 mm/min | 190.676 mm/min |
| Pusher Travel Rate Minimum | 0.18 | 0.18 |
| RS-232 | RJ11-4 Connector | RJ11-4 Connector |
| Step Rate Maximum | 416.7 µsec/step | 416.7 µsec/step |
| Step Rate Minimum | 27.3 sec/step | 27.3 sec/step |
| Step Resolution | 0.082 µm/step | 0.082 µm/step |
| Syringe Rack Type | Standard Rack | Standard Rack |
| Syringe Size Maximum | 140 ml | 140 ml |
| Syringe Size Minimum | 0.5 µl | 0.5 µl |
| TTL | 9-pin connector D-sub. | 9-pin connector D-sub. |
| Type | Microprocessor multiple syringe, infusion only or infuse/withdraw, some models programmable from keypad | Microprocessor multiple syringe, infusion only or infuse/withdraw, some models programmable from keypad |
| Voltage Range | Selectable, 95 to 130 VAC, 60 Hz or 220 to 260 VAC, 50 Hz | Selectable, 95 to 130 VAC, 60 Hz or 220 to 260 VAC, 50 Hz |
| Width English | 9 in | 9 in |
| Width Metric | 22.8 cm | 22.8 cm |
Journal Articles
Maaya Ikeda, Michelle A. Rensel, Barney A. Schlinger & Luke Remage-Healey (2014 ) In Vivo Detection of Fluctuating Brain Steroid Levels in Zebra Finches Cold Spring Harbor Protocols
Andreas Frutiger, Joseph T. Muth, Daniel M. Vogt, Yiǧit Mengüç, Alexandre Campo, Alexander D. Valentine, Conor J. Walsh & Jennifer A. Lewis (2015 ) Capacitive Soft Strain Sensors via Multicore–Shell Fiber Printing Advanced Materials
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Thibault Donnet, Catherine Ravanat, Anita Eckly, Eric Maurer, Ghina Alame, Catherine Ziessel, Pierre H. Mangin, Monique Freund, Jean-Pierre Cazenave, Christian Gachet & Francine Rendu (2015 ) Dehydration of blood platelets by zeodration: in vitro characterization and hemostatic properties in vivo Transfusion
Donghua Liao, Anne Lund Krarup, Flemming Holbæk Lundager, Asbjørn Mohr Drewes & Hans Gregersen (2014 ) Quantitative Differences Between Primary and Secondary Peristaltic Contractions of the Esophagus Digestive Diseases and Sciences
Keunhwan Park, Wonjung Kimb & Ho-Young Kim (2014 ) Optimal lamellar arrangement in fish gills PNAS (Proceedings of the National Academy of Sciences)
Wu Liu , Niejun Wang , Xuexia Lin , Yuan Ma & Jin-Ming Lin (2014 ) Interfacing Microsampling Droplets and Mass Spectrometry by Paper Spray Ionization for Online Chemical Monitoring of Cell Culture Analytical Chemistry
Shi-hui Chenm Li-zhen Zheng, Xin-hui Xie, Xin-luan Wanga, Yu-xiao Lai, Shu-kui Chen, Ming Zhang, Yi-xiang Wang, James F. Griffith & Ling Qin (2014 ) Comparative study of poly (lactic-co-glycolic acid)/tricalcium phosphate scaffolds incorporated or coated with osteogenic growth factors for enhancement of bone regeneration Journal of Orthopaedic Translation
Elisabeth Ehler & Suwan N. Jayasinghe (2014 ) Cell electrospinning cardiac patches for tissue engineering the heart Analyst
Mateusz Schabikowski, Justyna Tomaszewska, Dariusz Kata, Thomas Graule1 (2014 ) Rotary jet-spinning of hematite fibers Textile Research Journal
Davor Valinger, Ana Vrsalović Presečki, Želimir Kurtanjek, Martina Pohl, Zvjezdana Findrik Blažević & Đurđa Vasić-Račkib (2014 ) Continuous enzymatic carboligation of benzaldehyde and acetaldehyde in an enzyme ultrafiltration membrane reactor and laminar flow microreactors Journal of Molecular Catalysis B: Enzymatic
Nan Li, Miguel F. Diaz & Pamela L. Wenzel Ph.D. (2014 ) Application of Fluid Mechanical Force to Embryonic Sources of Hemogenic Endothelium and Hematopoietic Stem Cells Stem Cell Renewal and Cell-Cell Communication
Israfil Kucuk & Mohan Edirisinghe (2014 ) Microfluidic preparation of polymer nanospheres Journal of Nanoparticle Research
Michael E. Lacey , Z. Jessica Tan , Andrew G. Webb , Jonathan V. Sweedler (2001 ) Union of capillary high-performance liquid chromatography and microcoil nuclear magnetic resonance spectroscopy applied to the separation and identification of terpenoids Journal of Chromatography
Noah E. Robinson and Arthur B. Robinson (2000 ) Molecular Clocks PNAS (Proceedings of the National Academy of Sciences)
Rebecca J. Whelan, Thorsten Wohland, Lars Neumann, Bo Huang, Brian K. Kobilka and Richard N. Zare (2002 ) Analysis of Biomolecular Interactions Using a Miniaturized Surface Plasmon Resonance Sensor Analytical Chemistry
Hideyuki Ando, Yuki Nishio, Katsuki Ito, Akimasa Nakao, Li Wang, Ying Lan Zhao, Kiyoyuki Kitaichi, Kenzo Takagi and Takaaki Hasegawa (2001 ) Effect of Endotoxin on P-Glycoprotein-Mediated Biliary and Renal Excretion of Rhodamine-123 in Rats Antimicrobal Agents and Chemotherapy
Liu, R.H.; Stremler, M.A.; Sharp, K.V.; Olsen, Michael G. (2000 ) Passive mixing in a three-dimensional serpentine microchannel Journal of Micromechanical Systems
Diekamp, B.; Kalt, T.; Ruhm, A.; Koch, M.; Güntürkün, O. (2000) Impairment in a discrimination reversal task after D1 receptor blockade in the pigeon "prefrontal cortex". American Psychological Association
Hanbin Mao, Tinglu Yang, and Paul S. Cremer (2001 ) A Microfluidic Device with a Linear Temperature Gradient for Parallel and Combinatorial Measurements Journal of the American Chemical Society
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