Blood oxygen level-dependent and perfusion magnetic resonance imaging: detecting differences in oxygen bioavailability and blood flow in transplanted kidneys

Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular...

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Published in	Magnetic resonance imaging Vol. 28; no. 1; pp. 56 - 64
Main Authors	Sadowski, Elizabeth A., Djamali, Arjang, Wentland, Andrew L., Muehrer, Rebecca, Becker, Bryan N., Grist, Thomas M., Fain, Sean B.
Format	Journal Article
Language	English
Published	Kidlington Elsevier Inc 01.01.2010 Elsevier
Subjects	Aged Biological and medical sciences Blood flow Blood Flow Velocity BOLD Female Humans Kidney - blood supply Kidney - physiopathology Kidney Transplantation Magnetic Resonance Angiography - methods Medical sciences Middle Aged Oxygen - blood Oxygen bioavailability Perfusion MRI Radiology Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects) Reproducibility of Results Sensitivity and Specificity Technology. Biomaterials. Equipments. Material. Instrumentation Transplanted kidneys Young Adult BOLD Perfusion MRI Oxygen bioavailability Blood flow Transplanted kidneys Nuclear magnetic resonance imaging Biomedical engineering
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ISSN	0730-725X 1873-5894 1873-5894
DOI	10.1016/j.mri.2009.05.044

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Abstract	Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2⁎ values in the group with acute rejection (R2⁎=16.2/s) compared to allografts with ATN (R2⁎=19.8/s; P=.047) and normal-functioning allografts (R2⁎=24.3/s;P=.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4±41.1 ml/100 g per minute) compared to those in patients with ATN (246.9±123.5 ml/100 g per minute; P=.02) and normal-functioning allografts (220.8±95.8 ml/100 g per minute; P=.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2⁎ (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow.
AbstractList	Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2 values in the group with acute rejection (R2=16.2/s) compared to allografts with ATN (R2=19.8/s; P=.047) and normal-functioning allografts (R2=24.3/s;P=.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4+/-41.1 ml/100 g per minute) compared to those in patients with ATN (246.9+/-123.5 ml/100 g per minute; P=.02) and normal-functioning allografts (220.8+/-95.8 ml/100 g per minute; P=.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2 (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow.Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2 values in the group with acute rejection (R2=16.2/s) compared to allografts with ATN (R2=19.8/s; P=.047) and normal-functioning allografts (R2=24.3/s;P=.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4+/-41.1 ml/100 g per minute) compared to those in patients with ATN (246.9+/-123.5 ml/100 g per minute; P=.02) and normal-functioning allografts (220.8+/-95.8 ml/100 g per minute; P=.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2 (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow. Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2[low asterisk] values in the group with acute rejection (R2[low asterisk]=16.2/s) compared to allografts with ATN (R2[low asterisk]=19.8/s; P=.047) and normal-functioning allografts (R2[low asterisk]=24.3/s; P=.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4+/-41.1 ml/100 g per minute) compared to those in patients with ATN (246.9+/-123.5 ml/100 g per minute; P=.02) and normal-functioning allografts (220.8+/-95.8 ml/100 g per minute; P=.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2[low asterisk] (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow. Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2⁎ values in the group with acute rejection (R2⁎=16.2/s) compared to allografts with ATN (R2⁎=19.8/s; P=.047) and normal-functioning allografts (R2⁎=24.3/s;P=.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4±41.1 ml/100 g per minute) compared to those in patients with ATN (246.9±123.5 ml/100 g per minute; P=.02) and normal-functioning allografts (220.8±95.8 ml/100 g per minute; P=.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2⁎ (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow. Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2 values in the group with acute rejection (R2=16.2/s) compared to allografts with ATN (R2=19.8/s; P=.047) and normal-functioning allografts (R2=24.3/s;P=.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4+/-41.1 ml/100 g per minute) compared to those in patients with ATN (246.9+/-123.5 ml/100 g per minute; P=.02) and normal-functioning allografts (220.8+/-95.8 ml/100 g per minute; P=.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2 (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow. Abstract Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have used contrast enhanced perfusion and blood oxygen level-dependent (BOLD) MRI to assess kidney transplants with normal function, acute tubular necrosis (ATN) and acute rejection. BOLD and MR-perfusion imaging were performed on 17 subjects with recently transplanted kidneys. There was a significant difference between medullary R2⁎ values in the group with acute rejection (R2⁎=16.2/s) compared to allografts with ATN (R2⁎=19.8/s; P =.047) and normal-functioning allografts (R2⁎=24.3/s; P =.0003). There was a significant difference between medullary perfusion measurements in the group with acute rejection (124.4±41.1 ml/100 g per minute) compared to those in patients with ATN (246.9±123.5 ml/100 g per minute; P =.02) and normal-functioning allografts (220.8±95.8 ml/100 g per minute; P =.02). This study highlights the utility of combining perfusion and BOLD MRI to assess renal function. We have demonstrated a decrease in medullary R2⁎ (decrease deoxyhemoglobin) on BOLD MRI and a decrease in medullary blood flow by MR perfusion imaging in those allografts with acute rejection, which indicates an increase in medullary oxygen bioavailability in allografts with rejection, despite a decrease in blood flow.
Author	Wentland, Andrew L. Muehrer, Rebecca Becker, Bryan N. Sadowski, Elizabeth A. Djamali, Arjang Fain, Sean B. Grist, Thomas M.
Author_xml	– sequence: 1 givenname: Elizabeth A. surname: Sadowski fullname: Sadowski, Elizabeth A. email: esadowski@uwhealth.org organization: Department of Radiology, University of Wisconsin, Madison, WI 53792, USA – sequence: 2 givenname: Arjang surname: Djamali fullname: Djamali, Arjang organization: Section of Nephrology, Department of Medicine, University of Wisconsin, Madison, WI 53792, USA – sequence: 3 givenname: Andrew L. surname: Wentland fullname: Wentland, Andrew L. organization: Department of Radiology, University of Wisconsin, Madison, WI 53792, USA – sequence: 4 givenname: Rebecca surname: Muehrer fullname: Muehrer, Rebecca organization: Section of Nephrology, Department of Medicine, University of Wisconsin, Madison, WI 53792, USA – sequence: 5 givenname: Bryan N. surname: Becker fullname: Becker, Bryan N. organization: Section of Nephrology, Department of Medicine, University of Wisconsin, Madison, WI 53792, USA – sequence: 6 givenname: Thomas M. surname: Grist fullname: Grist, Thomas M. organization: Department of Radiology, University of Wisconsin, Madison, WI 53792, USA – sequence: 7 givenname: Sean B. surname: Fain fullname: Fain, Sean B. organization: Department of Radiology, University of Wisconsin, Madison, WI 53792, USA
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Keywords	BOLD Perfusion MRI Oxygen bioavailability Blood flow Transplanted kidneys Nuclear magnetic resonance imaging Biomedical engineering
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Snippet	Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability. We have... Abstract Functional magnetic resonance imaging (fMRI) is a powerful tool for examining kidney function, including organ blood flow and oxygen bioavailability....
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SubjectTerms	Aged Biological and medical sciences Blood flow Blood Flow Velocity BOLD Female Humans Kidney - blood supply Kidney - physiopathology Kidney Transplantation Magnetic Resonance Angiography - methods Medical sciences Middle Aged Oxygen - blood Oxygen bioavailability Perfusion MRI Radiology Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects) Reproducibility of Results Sensitivity and Specificity Technology. Biomaterials. Equipments. Material. Instrumentation Transplanted kidneys Young Adult
Title	Blood oxygen level-dependent and perfusion magnetic resonance imaging: detecting differences in oxygen bioavailability and blood flow in transplanted kidneys
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