Difference between revisions of "CTSC:BWHresources:MRI"

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=Lee Bell Center for Breast Imaging=
 
=Lee Bell Center for Breast Imaging=
 
*The Lee Bell Center for Breast Imaging is a 6,850 sq. ft. facility within the main building of the Brigham and Women’s Hospital that provides the hospital’s screening mammography. This area provides office and clinical space for the provision of mammography and other clinical/research services and contains a conference room with a white board in one of the radiology reading rooms.
 
*The Lee Bell Center for Breast Imaging is a 6,850 sq. ft. facility within the main building of the Brigham and Women’s Hospital that provides the hospital’s screening mammography. This area provides office and clinical space for the provision of mammography and other clinical/research services and contains a conference room with a white board in one of the radiology reading rooms.
*One 3T Siemens MRI is located in this area, equipped with open breast coils with vacuum-assist biopsy targeting equipment. '''In early 2008, a breast system from Robin Medical with active tracking will be installed.'''
+
*One 3T Siemens MRI is located in this area, equipped with open breast coils with vacuum-assist biopsy targeting equipment.  
 
*The Center has 5 GE digital mammography units, 3 Philips ultrasound units, 1 Hologic stereotactic biopsy unit, 1 Siemens 3T MRI unit, and Hologic CAD (computer aided detection) software. This equipment allows for the provision of the following clinical services: screening and diagnostic digital mammography, breast ultrasound, magnetic resonance (MRI) of the breast, stereotactic percutaneous core biopsy, MRI-guided percutaneous core biopsy, ultrasound-guided percutaneous core biopsy, preoperative lesion localization prior to surgical biopsy, galactography (ductography), and cyst aspiration.
 
*The Center has 5 GE digital mammography units, 3 Philips ultrasound units, 1 Hologic stereotactic biopsy unit, 1 Siemens 3T MRI unit, and Hologic CAD (computer aided detection) software. This equipment allows for the provision of the following clinical services: screening and diagnostic digital mammography, breast ultrasound, magnetic resonance (MRI) of the breast, stereotactic percutaneous core biopsy, MRI-guided percutaneous core biopsy, ultrasound-guided percutaneous core biopsy, preoperative lesion localization prior to surgical biopsy, galactography (ductography), and cyst aspiration.
 
*The Center is equipped with a GE Centricity PACS (picture archiving communication software) system and has several PCs connected to the Hospital’s computer network that includes Internet access.
 
*The Center is equipped with a GE Centricity PACS (picture archiving communication software) system and has several PCs connected to the Hospital’s computer network that includes Internet access.
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=221 Longwood Advanced Imaging Center=
 
=221 Longwood Advanced Imaging Center=
*The LMRC Advanced Imaging Center at 221 Longwood consists of offices for research staff, laboratories and two 3T GE MRI magnets (one long bore and one short bore) and one 1.5 T long bore GE MRI magnet for both clinical and research use. (In 2008, the 3T GE long bore MRI will be replaced by a Siemens 3T MRI system.) The 1.5T scanner is integrated with an MRI-compatible tracking system for probe and catheter tracking. One of the 3T scanners is equipped with a commercialized focused ultrasound system (FUS) system. The hospital also has its own in-house FUS system for animal experiments that can move among the magnets at the 221 Longwood Facility. 
+
*The LMRC Advanced Imaging Center at 221 Longwood consists of offices for research staff, laboratories and two 3T GE MRI magnets (one long bore and one short bore) and one 1.5 T long bore GE MRI magnet for both clinical and research use.  
  
=The Harvard NeuroDiscovery Center=
+
* The 1.5T scanner is integrated with an MRI-compatible tracking system for probe and catheter tracking.
The [http://www.neurodiscovery.harvard.edu/resources/mri.html Harvard NeuroDiscovery Center] is located in the Goldenson Building within the Harvard Medical School quad. The Center can be accessed by members of the Harvard medical community and affiliated hospitals. It houses a 4.7T Bruker Biospec Advanced multinuclear MRI system. The Bruker system comes with a choice of two sizes of shielded gradient sets, one large and one small set. The smaller 12 cm gradient insert delivers up to 25 G/cm, and is useful for studying rats and mice. Gradient switching times of 200 µs for both requested gradient sets enable the use of fast EPI techniques. The RF coils include receive-only surface coils for greater sensitivity over small volumes such as mice, while still providing homogeneous B1 excitation from the surrounding volume coil. Animal handling assemblies include an animal positioning table that attaches to the end of the magnet, with convenient mechanical manipulators to allow vertical and horizontal positioning within the bore. This table slides into the resonator and includes an animal holding assembly containing a stereotactic head holding device with ear and tooth supports, ECG leads, and an optical respiratory gating device. A Hewlett Packard network analyzer is available for tuning and matching coils. At this site, a radiofrequency coil laboratory is also available.
+
 
 +
* The short-bore 3T MRI instrument is a GE system running Exite v12 and is fully equipped for structural and functional images. A standard quadrature head coil is available, as well as an 8-channel head coil for parallel imaging. Moreover, GE's functional imaging package 'BrainWave' is installed. BOLD sensitized functional imaging data is acquired either using the research pulse sequence 'epibold' with off-line reconstruction, or GE's single- and multi-channel BOLD pulse sequences. Structural images are acquired with the regular imaging pulse sequences. Diffusion weighted data is collected with EPI or the pulse sequence LSDI. For fMRI studies, the scanner is equipped with an MR compatible goggle system by Resonance Technologies and a visual back projection system with an LCD projector (the projection system is compatible with both single- and multi-channel head coils). Auditory stimulus is also possible with the Avotec audio system. Subjects' responses are recorded via a fiber-optic system by Current Designs. All three devices can be connected to study controlling computers, with accurate synchronization via electronic trigger pulses. Noisis v11 (software program developed in Matlab) is available for stimulus presentation and response recording.
 +
 
 +
* One of the 3T scanners is equipped with a commercialized focused ultrasound system (FUS) system. The hospital also has its own in-house FUS system for animal experiments that can move among the magnets at the 221 Longwood Facility.
 +
 
 +
* The facility also offers on site image analysis. There are two NeuroDiscovery computers available — a PC running Linux and a MAC G-5. The main tools for data preprocessing and statistical analysis are the software suites SPM2/5 (matlab-based) and FSL (C-based).
 +
 
 +
=The Harvard NeuroDiscovery Center-MRI Imaging Facility=
 +
The [http://www.neurodiscovery.harvard.edu/resources/mri_2.html Harvard NeuroDiscovery Center] is located in the Goldenson Building within the Harvard Medical School quad. The Center can be accessed by members of the Harvard medical community and affiliated hospitals. It houses a 3T and a 1.5T GE MRI scanners. A 7T GE MRI scanner is coming soon.<br>
 +
Animal scans are performed during evening and/or weekends. Priority given to work related to neurodegeneration and repair and other CNS projects. The allocation of NeuroDiscovery’s instrument time is via a competitive RFA process. Animal positioning system, gas anesthesia, and respiratory and cardiac gating for localized in vivo investigation of small and intermediate sized animals. Tracer development. Additional workstation running Paravision is on hand for data processing and pulse sequence development. Avotec audio system. Fiber-optic system by Current Designs<br>
 +
'''Contact''' For information and to request access and services: Danielle Chamberlain (research coordinator) [mailto:dchamberlain@bwh.harvard.edu] and Patti Goldberger (research administrator) [mailto:PGOLDBERGER@PARTNERS.ORG]
  
 
=The Carl J. and Ruth Shapiro Cardiovascular Center=
 
=The Carl J. and Ruth Shapiro Cardiovascular Center=
[http://www.brighamandwomens.org/shapirocenter/AboutTechnology.aspx?subID=submenu1/ Carl J. and Ruth Shapiro Cardiovascular Center]<br>
 
  
[http://www.brighamandwomens.org/shapirocenter/HybridOR.aspx?subID=submenu1/ Carl J. and Ruth Shapiro Cardiovascular Center]
+
The [http://www.brighamandwomens.org/shapirocenter/AboutTechnology.aspx?subID=submenu1/ Carl J. and Ruth Shapiro Cardiovascular Center] is equipped with the latest, most advanced technology used in heart and vascular care, including state-of-the-art noninvasive cardiovascular imaging. With such superior technology, physicians, specialists, and nurses readily collaborate to implement innovative treatments.
 +
 
 +
The Center is the first in the region or the world to bring some of these most advanced technologies to our patients. Among our advanced diagnostic technology are:
 +
* A computed tomography (CT) system that can take an image of the heart within one heartbeat, providing a more detailed image of the heart than ever before. Our 320-slice CT system is the first in New England and is one of two available nationwide.
 +
*A scanner that combines imaging with data that enables physicians to better assess the degree of atherosclerosis in a patient. Our hybrid 64-detector PET/CT scanner was one of the first available in the country.
 +
* Imaging technology that enables physicians to scan the entire body in only a few seconds. Our dual-source 64-slice CT uses two X-ray tubes and two detectors rotating around the patient three times a second reducing radiation exposure by half and enabling physicians to make faster, more precise decisions.
 +
* A state-of-the-art scanner that allows physicians to see finer details and a better view of arteries, abnormalities and scarring. Our 3 Tesla Magnetic Resonance Imaging (MRI) scanner is the premier cardiovascular MRI unit in the world.
 +
* Imaging technology that is eight times faster than the traditional single proton emission computed tomography (SPECT) and enables patients to remain in an upright and more comfortable position. Our new SPECT/CT imaging system provides faster results and added comfort patients.
 +
 
 +
[http://www.brighamandwomens.org/shapirocenter/HybridOR.aspx?subID=submenu1/ Carl J. and Ruth Shapiro Cardiovascular Center Operating Rooms]

Latest revision as of 20:37, 1 March 2011

Home < CTSC:BWHresources:MRI

Back to BWH Imaging Resources

Overview

An MRI scanner at 221 Longwood

The MR Division has several facilities within the hospital campus:

  1. The L1 level of the main hospital building;
  2. The main “Pike”;
  3. The Lee Bell Center for Breast Imaging;
  4. The LMRC Building (Longwood Medical Research Center at 221 Longwood Avenue); and
  5. The Carl J. and Ruth Shapiro Cardiovascular Center.

All MR systems are fully supported with inpatient and outpatient facilities, nursing and technologist staff. A full-time clinical PhD MR Physicist provides clinical MRI protocol development, and QA and implementation support. Imaging results are interpreted at electronic reading stations over a clinical PACS with interconnectivity with advanced Radiology and Hospital Information Systems.

More on the MR facilities, by location, follows:

BWH Lower Level

One 3T GE MRI, one 3T Siemens MRI, and one 1.5T GE MRI resides in this area for radiology research and clinical use. This area will be the site of liver/kidney cryotherapy and prostate biopsies until the AMIGO facility becomes available.

Lee Bell Center for Breast Imaging

  • The Lee Bell Center for Breast Imaging is a 6,850 sq. ft. facility within the main building of the Brigham and Women’s Hospital that provides the hospital’s screening mammography. This area provides office and clinical space for the provision of mammography and other clinical/research services and contains a conference room with a white board in one of the radiology reading rooms.
  • One 3T Siemens MRI is located in this area, equipped with open breast coils with vacuum-assist biopsy targeting equipment.
  • The Center has 5 GE digital mammography units, 3 Philips ultrasound units, 1 Hologic stereotactic biopsy unit, 1 Siemens 3T MRI unit, and Hologic CAD (computer aided detection) software. This equipment allows for the provision of the following clinical services: screening and diagnostic digital mammography, breast ultrasound, magnetic resonance (MRI) of the breast, stereotactic percutaneous core biopsy, MRI-guided percutaneous core biopsy, ultrasound-guided percutaneous core biopsy, preoperative lesion localization prior to surgical biopsy, galactography (ductography), and cyst aspiration.
  • The Center is equipped with a GE Centricity PACS (picture archiving communication software) system and has several PCs connected to the Hospital’s computer network that includes Internet access.

Hospital Main Pike

  • Two 1.5T GE MRIs reside in this area for radiology research and clinical use. The systems are connected to the Ethernet, enabling transfer of images and raw data locally and over computer network systems. This center is the alternate area for breast biopsy for patients with contraindications for 3T MR imaging.

221 Longwood Advanced Imaging Center

  • The LMRC Advanced Imaging Center at 221 Longwood consists of offices for research staff, laboratories and two 3T GE MRI magnets (one long bore and one short bore) and one 1.5 T long bore GE MRI magnet for both clinical and research use.
  • The 1.5T scanner is integrated with an MRI-compatible tracking system for probe and catheter tracking.
  • The short-bore 3T MRI instrument is a GE system running Exite v12 and is fully equipped for structural and functional images. A standard quadrature head coil is available, as well as an 8-channel head coil for parallel imaging. Moreover, GE's functional imaging package 'BrainWave' is installed. BOLD sensitized functional imaging data is acquired either using the research pulse sequence 'epibold' with off-line reconstruction, or GE's single- and multi-channel BOLD pulse sequences. Structural images are acquired with the regular imaging pulse sequences. Diffusion weighted data is collected with EPI or the pulse sequence LSDI. For fMRI studies, the scanner is equipped with an MR compatible goggle system by Resonance Technologies and a visual back projection system with an LCD projector (the projection system is compatible with both single- and multi-channel head coils). Auditory stimulus is also possible with the Avotec audio system. Subjects' responses are recorded via a fiber-optic system by Current Designs. All three devices can be connected to study controlling computers, with accurate synchronization via electronic trigger pulses. Noisis v11 (software program developed in Matlab) is available for stimulus presentation and response recording.
  • One of the 3T scanners is equipped with a commercialized focused ultrasound system (FUS) system. The hospital also has its own in-house FUS system for animal experiments that can move among the magnets at the 221 Longwood Facility.
  • The facility also offers on site image analysis. There are two NeuroDiscovery computers available — a PC running Linux and a MAC G-5. The main tools for data preprocessing and statistical analysis are the software suites SPM2/5 (matlab-based) and FSL (C-based).

The Harvard NeuroDiscovery Center-MRI Imaging Facility

The Harvard NeuroDiscovery Center is located in the Goldenson Building within the Harvard Medical School quad. The Center can be accessed by members of the Harvard medical community and affiliated hospitals. It houses a 3T and a 1.5T GE MRI scanners. A 7T GE MRI scanner is coming soon.
Animal scans are performed during evening and/or weekends. Priority given to work related to neurodegeneration and repair and other CNS projects. The allocation of NeuroDiscovery’s instrument time is via a competitive RFA process. Animal positioning system, gas anesthesia, and respiratory and cardiac gating for localized in vivo investigation of small and intermediate sized animals. Tracer development. Additional workstation running Paravision is on hand for data processing and pulse sequence development. Avotec audio system. Fiber-optic system by Current Designs
Contact For information and to request access and services: Danielle Chamberlain (research coordinator) [1] and Patti Goldberger (research administrator) [2]

The Carl J. and Ruth Shapiro Cardiovascular Center

The Carl J. and Ruth Shapiro Cardiovascular Center is equipped with the latest, most advanced technology used in heart and vascular care, including state-of-the-art noninvasive cardiovascular imaging. With such superior technology, physicians, specialists, and nurses readily collaborate to implement innovative treatments.

The Center is the first in the region or the world to bring some of these most advanced technologies to our patients. Among our advanced diagnostic technology are:

  • A computed tomography (CT) system that can take an image of the heart within one heartbeat, providing a more detailed image of the heart than ever before. Our 320-slice CT system is the first in New England and is one of two available nationwide.
  • A scanner that combines imaging with data that enables physicians to better assess the degree of atherosclerosis in a patient. Our hybrid 64-detector PET/CT scanner was one of the first available in the country.
  • Imaging technology that enables physicians to scan the entire body in only a few seconds. Our dual-source 64-slice CT uses two X-ray tubes and two detectors rotating around the patient three times a second reducing radiation exposure by half and enabling physicians to make faster, more precise decisions.
  • A state-of-the-art scanner that allows physicians to see finer details and a better view of arteries, abnormalities and scarring. Our 3 Tesla Magnetic Resonance Imaging (MRI) scanner is the premier cardiovascular MRI unit in the world.
  • Imaging technology that is eight times faster than the traditional single proton emission computed tomography (SPECT) and enables patients to remain in an upright and more comfortable position. Our new SPECT/CT imaging system provides faster results and added comfort patients.

Carl J. and Ruth Shapiro Cardiovascular Center Operating Rooms