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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT03878277
Other study ID # 18-1874
Secondary ID
Status Completed
Phase Phase 2
First received
Last updated
Start date July 1, 2019
Est. completion date September 30, 2021

Study information

Verified date January 2022
Source University of Colorado, Denver
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Over 1.25 million Americans have Type 1 Diabetes (T1D), increasing risk for early death from cardiovascular disease (CVD). Despite advances in glycemic and blood pressure control, a child diagnosed with T1D is expected to live up to 17 years less than non-diabetic peers. The strongest risk factor for CVD and mortality in T1D is diabetic kidney disease (DKD). Current treatments, such as control of hyperglycemia and hypertension, are beneficial, but only partially protect against DKD. This limited progress may relate to a narrow focus on clinical manifestations of disease, rather than on the initial metabolic derangements underlying the initiation of DKD. Renal hypoxia, stemming from a potential metabolic mismatch between increased renal energy expenditure and impaired substrate utilization, is increasingly proposed as a unifying early pathway in the development of DKD. T1D is impacted by several mechanisms which increase renal adenosine triphosphate (ATP) consumption and decrease ATP generation. Caffeine, a methylxanthine, is known to alter kidney function by several mechanisms including natriuresis, hemodynamics and renin-angiotensin-aldosterone system. In contrast, to other natriuretic agents, caffeine is thought to fully inhibit the local tubuloglomerular feedback (TGF) response to increased distal sodium delivery. This observation has broad-ranging implications as caffeine can reduce renal oxygen (O2) consumption without impairing effective renal plasma flow (ERPF) and glomerular filtration rate (GFR). There are also data suggesting that chemicals in coffee besides caffeine may provide important cardio-renal protection. Yet, there are no data examining the impact of coffee-induced natriuresis on intrarenal hemodynamic function and renal energetics in youth-onset T1D. Our overarching hypothesis in the proposed pilot and feasibility trial is that coffee drinking improves renal oxygenation by reducing renal O2 consumption without impairing GFR and ERPF. To address these hypotheses, we will measure GFR, ERPF, renal perfusion and oxygenation in response to 7 days of cold brew coffee (one Starbucks® Cold brew 325ml bottle daily [205mg caffeine]) in an open-label pilot and feasibility trial in 10 adolescents with T1D already enrolled in the CASPER Study (PI: Bjornstad).


Recruitment information / eligibility

Status Completed
Enrollment 10
Est. completion date September 30, 2021
Est. primary completion date January 21, 2020
Accepts healthy volunteers No
Gender All
Age group 12 Years to 21 Years
Eligibility Inclusion Criteria: - Youth with T1D (antibody +) with <10 year duration - Age 12-21 years - Weight >57 lbs and <350 lbs - BMI >5th %ile - HbA1c <12% - Previous exposure to caffeine Exclusion Criteria: - Anemia - Allergy to shellfish or iodine - Severe illness, recent diabetic ketoacidosis (DKA) - Tachyarrhythmias, Attention-deficit/hyperactivity disorder (ADHD), tremors, tics, Tourette's, arrythmias, insomnia, overactive bladder - Estimated Glomerular Filtration Rate (eGFR) <60 ml/min/1.73 m2 or creatinine > 1.5 mg/dl or history of albumin-to-creatinine ratio (ACR) >300 mg/g - MRI Scanning contraindications (claustrophobia, implantable metal devices that are non-MRI compatible, >350 lbs) - Pregnancy or nursing - (Angiotensin-converting enzyme) ACE inhibitors, angiotensin receptor blockers (ARBs), diuretics, sodium-glucose co-transport (SGLT) 2 or 1 blockers, daily NSAIDs or aspirin, sulfonamides, thiazolsulfone or probenecid, atypical antipsychotics, steroids

Study Design


Intervention

Drug:
Starbucks® Cold brew - 325ml bottle
Starbucks® Cold brew 325ml bottles daily [205mg caffeine] will be provided to the participants. Participants will be instructed to drink 1 bottle every morning between 6 and 9 am for 6 days prior to the post-intervention visit. The 7th day is the post-intervention visit, and participants will be asked to drink 1 bottle the morning of the study visit

Locations

Country Name City State
United States Children's Hospital Colorado Aurora Colorado

Sponsors (2)

Lead Sponsor Collaborator
University of Colorado, Denver Johns Hopkins University

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Renal Oxygenation Measured by blood oxygen level dependent (BOLD MRI), before and after Lasix injection;Regions of interest (ROI) analysis for BOLD MRI will be performed on a Leonardo Workstation (Siemens Medical Systems, Germany). Typically, 1 to 3 regions in each, cortex and medulla, per kidney per slice will be defined leading to a total of about 10 ROIs per region (cortex and medulla) per subject. The mean and standard deviation of these 10 measurements will be used a R2* measurement for the region, for the subject and for that time point. Additionally, two (delta) R2*s will be calculated as defined below:
(delta) R2*(medulla, furosemide) = R2* (medulla, pre-furosemide) - R2* (medulla, post-furosemide); (delta) R2*(cortex, medulla) = Baseline R2* (medulla) - Baseline R2* (cortex).
1 hour
Primary Renal Perfusion Measured by pseudocontinuous arterial spin labeling (pCASL) MRI; ROI analysis will be used to estimate (delta) M (difference in signal intensity between non-selective and selective inversion images). Using the same ROI, M0 will be estimated from the proton density image. T1 measurements from the same ROI will be obtained by fitting the signal intensity vs. inversion time data as described previously (104) using XLFit (ID Business Solutions Ltd., UK) or T1 maps created using MRI Mapper (Beth Israel Deaconess Medical Center, Boston). Partition coefficient will be assumed to be 0.8 ml/gm (105, 106). These values will then be used to estimate regional blood flow. 1 hour
Secondary Glomerular Filtration Rate Measured by Iohexol clearance; An intravenous (IV) line was placed, and participants were asked to empty their bladders. Spot plasma and urine samples were collected prior to iohexol infusion. Iohexol was administered through bolus IV injection (5 mL of 300 mg/mL; Omnipaque 300, GE Healthcare). An equilibration period of 120 min was used and blood collections for iohexol plasma disappearance were drawn at +120, +150, +180, +210, +240 min (11). Because the Brøchner-Mortensen equation underestimates high values of GFR, the Jødal-Brøchner-Mortensen equation was used to calculate the GFR (12). We report absolute GFR (mL/min) and RPF (mL/min) in the main analyses because the practice of indexing GFR and RPF for body surface underestimates hyperfiltration and hyperperfusion (14), and body surface area (BSA) calculations introduce noise into the clearance measurements. 4 hours
Secondary Effective Renal Plasma Flow Measured by para-aminohippurate (PAH) clearance; An intravenous (IV) line was placed, and participants were asked to empty their bladders. Spot plasma and urine samples were collected prior PAH infusion. PAH (2 g/10 mL, prepared at the University of Minnesota, with a dose of [weight in kg]/75 × 4.2 mL; IND #140129) was given slowly over 5 min followed by a continuous infusion of 8 mL of PAH and 42 mL of normal saline at a rate of 24 mL/h for 2 h. After an equilibration period, blood was drawn at 90 and 120 min, and RPF was calculated as PAH clearance divided by the estimated extraction ratio of PAH, which varies by the level of GFR (13). We report absolute GFR (mL/min) and RPF (mL/min) in the main analyses because the practice of indexing GFR and RPF for body surface underestimates hyperfiltration and hyperperfusion (14), and body surface area (BSA) calculations introduce noise into the clearance measurements. 4 hours
Secondary Tubular Injury Markers Measured by markers of kidney injury in plasma; Cystatin C (mg/L) was measured by immunoturbidimetric method (Kamiya Biomedical) by our Clinical Translational Research Center Core Laboratory. 4 hours
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