The objectives of this research project are: (i) development of experimental rat kidney and rat heart transplantation models; (ii) development and application of non-invasive MRI techniques to monitor organ functions in these rat models during transplant rejection; (iii) comparison of MRI results with conventional invasive techniques. Renal function in transplanted organs was assessed by the MRI measurement of renal cortical perfusion using arterial spin tagging. Quantitative measurement of renal cortical perfusion detects changes in renal function associated with surgical stress as well as acute rejection. At 3 days post-transplantation, perfusion of the transplanted kidney's cortex was similarly reduced in both syngeneic and allogeneic transplant groups. At 7 days after transplantation, cortical perfusion was at the level of background noise in the allogeneic transplant group, and was significantly lower than the non-transplanted group or the syngeneic group at the same time point, indicating that quantitative MRI can easily detect severe rejection. Cardiac function after transplantation is investigated in three models: (i) ex-vivo isolated rat heart model assessed by Langendorff perfusion; (ii) in-situ isovolumic working heart model with implanted intraventricular balloon catheter; (iii) working left heart model assesed by MRI imaging. The heterotopic rat heart transplant system is used to characterize early changes in diastolic cardiac function indicative of diminished ventricular compliance in these studies. The sensitivity of the diastolic function indices, particularly the time constant of isovolumic relaxation, t, also permits a detailed evaluation of novel immunomodulatory strategies aimed at rapid reversal of the early rejection process. Using the in-situ balloon model, left ventricular pressure-volume relationships are determined. The potential drawback of this model is the possibility for thrombus formation in the left ventricular cavity, fibrosis of endocardium, and the loss of cardiac distensibility. The working left heart model solves these problems and MRI allows non-invasive, quantitation of ventricular function. :

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
2P41RR003631-11
Application #
6121735
Study Section
Project Start
1998-09-15
Project End
1999-08-14
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
11
Fiscal Year
1998
Total Cost
Indirect Cost
Name
Carnegie-Mellon University
Department
Type
DUNS #
052184116
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213
Ramachandran, Suchitra; Meyer, Travis; Olson, Carl R (2016) Prediction suppression in monkey inferotemporal cortex depends on the conditional probability between images. J Neurophysiol 115:355-62
Meyer, Travis; Walker, Christopher; Cho, Raymond Y et al. (2014) Image familiarization sharpens response dynamics of neurons in inferotemporal cortex. Nat Neurosci 17:1388-94
Hall, Nathan; Colby, Carol (2014) S-cone visual stimuli activate superior colliculus neurons in old world monkeys: implications for understanding blindsight. J Cogn Neurosci 26:1234-56
Subramanian, Janani; Colby, Carol L (2014) Shape selectivity and remapping in dorsal stream visual area LIP. J Neurophysiol 111:613-27
Berdyyeva, Tamara K; Olson, Carl R (2014) Intracortical microstimulation of supplementary eye field impairs ability of monkeys to make serially ordered saccades. J Neurophysiol 111:1529-40
Meyer, Travis; Ramachandran, Suchitra; Olson, Carl R (2014) Statistical learning of serial visual transitions by neurons in monkey inferotemporal cortex. J Neurosci 34:9332-7
Hall, Nathan; Colby, Carol (2013) Psychophysical definition of S-cone stimuli in the macaque. J Vis 13:
Leathers, Marvin L; Olson, Carl R (2012) In monkeys making value-based decisions, LIP neurons encode cue salience and not action value. Science 338:132-5
Meyer, Travis; Olson, Carl R (2011) Statistical learning of visual transitions in monkey inferotemporal cortex. Proc Natl Acad Sci U S A 108:19401-6
Berdyyeva, Tamara K; Olson, Carl R (2011) Relation of ordinal position signals to the expectation of reward and passage of time in four areas of the macaque frontal cortex. J Neurophysiol 105:2547-59

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