Diffusion Weighted Magnetic Resonance Imaging in Chronic Kidney Disease
July 6, 2018 updated by: DMAhmed, Assiut University
Role of Diffusion Weighted Magnetic Resonance Imaging in Evaluation of Chronic Kidney Disease
Chronic kidney disease (CKD) is a common global public health problem and the average incidence of end-stage renal disease in developing countries is 150 per million population, which is lower than that in the developed world
Study Overview
Status
Status
Unknown
Conditions
Conditions
Intervention / Treatment
Intervention / Treatment
Detailed Description
Since renal parenchymal disease is accompanied by renal dysfunction, monitoring renal function permits assessment of disease progression, and periodic assessment of renal function is necessary for optimal management of a patient with suspected/proven renal disease. Serum creatinine (S Cr), blood urea (BU), and estimated glomerular filtration rate (eGFR) derived from creatinine clearance are useful for monitoring renal function; however, these indirect measures of renal filtration are imperfect and cannot assess single kidney function.
Keeping in view the limitations of serum markers, imaging may play an important role in the evaluation of renal parenchymal disease. Ultrasonography (US) and computed tomographic (CT) scan provide good anatomic images but limited functional information. Although US may show changes in renal echogenicity, it suffers from operator dependency and lacks objectivity. In addition to exposure to ionizing radiation, computed tomography (CT) scan requires use of iodinated contrast material, which is undesirable in patients with renal dysfunction. Magnetic resonance imaging (MRI) has the unique ability to show both structure and function objectively without any radiation exposure to the patient. Functional MRI techniques such as diffusion-weighted imaging (DWI), blood oxygen level-dependent (BOLD) imaging have potential utility in the evaluation of renal function .
Study Type
Study Type
Interventional
Enrollment (Anticipated)
Enrollment
31
Phase
Phase
- Not Applicable
Contacts and Locations
This section provides the contact details for those conducting the study, and information on where this study is being conducted.
Study Contact
Study Contact
- Name: Ahmed Moustafa Hamed, MD
- Phone Number: 01000024182
- Email: moustafamanar@gmail.com
Study Contact Backup
- Name: Nisreen adel abbas mohammed, MD
- Phone Number: 01229199971
- Email: Nisreen10@ymail.com
Participation Criteria
Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.
Eligibility Criteria
Eligibility Criteria
Ages Eligible for Study
- Child
- Adult
- Older Adult
Accepts Healthy Volunteers
No
Genders Eligible for Study
All
Description
Inclusion Criteria:
- Patients in different age and sex groups with CKD detected by clinical and laboratory examination.
Exclusion Criteria:
- Patients with any general contraindication to MRI as presence of any paramagnetic substance as pacemakers or in severely ill patients or those with claustrophobia and arrhythmic patients.
Study Plan
This section provides details of the study plan, including how the study is designed and what the study is measuring.
How is the study designed?
Design Details
- Primary Purpose: Diagnostic
- Allocation: Non-Randomized
- Interventional Model: Parallel Assignment
- Masking: None (Open Label)
Number of Arms
5
Arms and Interventions
Participant Group / ArmParticipant Group / Arm |
Intervention / TreatmentIntervention / Treatment |
|---|---|
|
Experimental: Stage1:eGFR; ≥90 mL/min/1.73 m2 .
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159. .
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
The mean ADC values will be recorded for each patient and the relationship of ADC values with CKD stage will be evaluated.
|
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
|
|
Experimental: Stage 2: eGFR; 60-89 mL/min/1.73 m2 .
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
The mean ADC values will be recorded for each patient and the relationship of ADC values with CKD stage will be evaluated.
|
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
|
|
Experimental: Stage 3:eGFR; 30-59 mL/min/1.73 m2
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
The mean ADC values will be recorded for each patient and the relationship of ADC values with CKD stage will be evaluated.
|
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
|
|
Experimental: Stage 4:eGFR; 15-29 mL/min/1.73 m2 .
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaginggradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
The mean ADC values will be recorded for each patient and the relationship of ADC values with CKD stage will be evaluated.
|
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
|
|
Experimental: Stage 5:eGFR; < 15 mL/min/1.73 m2.
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
The mean ADC values will be recorded for each patient and the relationship of ADC values with CKD stage will be evaluated.
|
All MRI examinations will be performed with a 1.5-T scanner (Acheiva, Philips, and Netherland).
All MRI scans will be obtained with the following parameters: Repetition time (TR); 1580 MS, echo time (TE); 60 MS, slice thickness; 1-5 mm, receiver bandwidth; 1158 kHz/pixel, field of view (FOV); 40 cm, matrix size; 164 × 159.
ADC value of the kidneys will be calculated with Diffusion weighted magnetic resonance imaging gradient b-values of 0 and 1000s/mm2.
In the axial ADC map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
|
What is the study measuring?
Primary Outcome Measures
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
|---|---|---|
|
Evaluation apparent diffusion coefficient(ADC)of the kidneys for 31 patient with chronic kidney disease by diffusion gradient 0_1000s/mm2
Time Frame: up to 24hour
|
In the axial apparent diffusion coefficient(ADC )map, a region of interest (ROI) will be placed for measurement of ADC values on the renal parenchyma of both kidneys, without any preference for cortex or medulla.
Three circular ROIs of size 1 cm2 will be placed-one each at the upper pole, inter-polar region, and lower pole of both kidneys-and 6 total ROIs from bilateral kidneys will be averaged for each patient.
The mean ADC values will be recorded for each patient and the relationship of ADC values of different stages of CKD and its relationship with serum markers of renal function will be evaluated.
|
up to 24hour
|
Collaborators and Investigators
This is where you will find people and organizations involved with this study.
Sponsor
Sponsor
Publications and helpful links
The person responsible for entering information about the study voluntarily provides these publications. These may be about anything related to the study.
General Publications
- Prigent A. Monitoring renal function and limitations of renal function tests. Semin Nucl Med. 2008 Jan;38(1):32-46. doi: 10.1053/j.semnuclmed.2007.09.003.
- Squillaci E, Manenti G, Di Stefano F, Miano R, Strigari L, Simonetti G. Diffusion-weighted MR imaging in the evaluation of renal tumours. J Exp Clin Cancer Res. 2004 Mar;23(1):39-45.
Study record dates
These dates track the progress of study record and summary results submissions to ClinicalTrials.gov. Study records and reported results are reviewed by the National Library of Medicine (NLM) to make sure they meet specific quality control standards before being posted on the public website.
Study Major Dates
Study Start (Anticipated)
Study Start
July 1, 2018
Primary Completion (Anticipated)
Primary Completion
April 1, 2019
Study Completion (Anticipated)
Study Completion
August 1, 2019
Study Registration Dates
First Submitted
First Submitted
May 26, 2017
First Submitted That Met QC Criteria
First Submitted That Met QC Criteria
June 2, 2017
First Posted (Actual)
First Posted
June 5, 2017
Study Record Updates
Last Update Posted (Actual)
Last Update Posted
July 10, 2018
Last Update Submitted That Met QC Criteria
Last Update Submitted That Met QC Criteria
July 6, 2018
Last Verified
Last Verified
July 1, 2018
More Information
Terms related to this study
Additional Relevant MeSH Terms
Other Study ID Numbers
Other Study ID Numbers
- DMR
Drug and device information, study documents
Studies a U.S. FDA-regulated drug product
No
Studies a U.S. FDA-regulated device product
No
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
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