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Abstract
Grant Number: 1R44AR055424-01 Project Title: Development of a cost-effective pmMRI for in vivo structural examination of bone
PI Information: Name Title KLEEREKOPER, MICHAEL mkleerekoper@micromri.com PROFESSOR Abstract: DESCRIPTION (provided by applicant): MicroMRI, Inc. Development of a cost-effective pfMRI for in vivo structural examination of bone Abstract Osteoporosis is a systemic bone disease characterized by low bone mass and abnormal bone quality. The current "gold standard", dual-energy x-ray absorptiometry (DXA), cannot assess bone quality and fails to detect > 50% of persons at greatest risk of fracture. MicroMRI is refining a new approach to non-invasively assess the micro- structural aspects of bone quality, at the wrist and ankle, using high-resolution magnetic resonance imaging (fMRI). Previously, this technology was coined "Virtual Bone Biopsy" by its inventor, Dr. Felix Wehrli. Our preliminary studies using coils that are "add-ons" to standard full-body MRI equipment indicate that bone structure parameters we determine have the necessary properties to monitor and direct appropriate treatment at the individual patient level. Thus, the company believes that fMRI is an important complement to DXA. While DXA remains the tool for diagnosis of osteoporosis for the foreseeable future, fMRI will be the tool of choice to measure disease progression and assess therapy response. The prevalence of osteoporosis requires that its diagnosis and monitoring remain at the physician's office, not hospitals. Appropriately, the majority of DXAs are currently located in out-patient settings. To fully capitalize on the promise of fMRI of bone, this technology should also be at the point-of-care in physicians' offices. In this grant, we are proposing to develop a cost-effective stand-alone MRI system for extremity measurement in the PCP setting. We have termed the proposed new technology pfMRI to remain in line with peripheral devices for studying the skeleton, using methods that expose the patient to ionizing radiation (pDXA, pQCT), . Extremity MRI scanners are already available for purchase but are either low-cost with low-resolution, or very expensive with high-resolution. In Phase I of this proposal, MicroMRI will test the feasibility of developing a technology which can produce high resolution images of similar quality as its existing fMRI system, yet cost-effective enough to be adopted by physician groups and in private clinics. In Phase II, we will develop a prototype of the pfMRI, and perform safety and efficacy tests. We will optimize this prototype, conduct accuracy and reproducibility measurements to establish that the data obtained are identical (within acceptable, pre- specified limits) to our existing fMRI method. Once these activities are completed, MicroMRI will use non-grant funds to complete the commercialization and product launch of the stand-alone scanner.
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Institution: MICROMRI, INC. Suite 1102 PHILADELPHIA, PA 191023205 Fiscal Year: 2007 Department: Project Start: 01-SEP-2007 Project End: 29-FEB-2008 ICD: NATIONAL INSTITUTE OF ARTHRITIS AND MUSCULOSKELETAL AND SKIN DISEASES IRG: ZRG1