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PEPC3: Uric Acid, Klotho and Salt Sensitivity in Young Adults Born Preterm

Sponsor
Wake Forest University Health Sciences (Other)
Overall Status
Recruiting
CT.gov ID
NCT04026776
Collaborator
National Heart, Lung, and Blood Institute (NHLBI) (NIH)
165
Enrollment
1
Location
2
Arms
56.9
Anticipated Duration (Months)
2.9
Patients Per Site Per Month

Study Details

Study Description

Brief Summary

The purpose of this research is to learn about how salt in the diet influences blood pressure in young adults who were born prematurely.

Condition or Disease Intervention/Treatment Phase
Early Phase 1

Detailed Description

Premature birth is an emerging and important risk factor for hypertension and cardiovascular disease, as both preterm birth rates and infant survival increase worldwide. Hypertension and cardiovascular disease begin in early adulthood in individuals born prematurely, but the reasons especially in regard to the role of preterm birth are unknown. An improved understanding of why hypertension and cardiovascular disease occur in early adulthood in individuals born preterm will enable the development of prevention and treatment strategies to mitigate the burden of cardiovascular disease. Investigators propose to investigate these relationships mechanistically in a clinical trial of subjects born preterm to establish the SSBP (salt sensitivity of blood pressure) phenotype and study its relationship to CVD (cardiovascular disease) compared to a control group of healthy term- born peers. Investigators will then propose to determine if blocking UA (uric acid) formation improves SSBP and cardiovascular function in subjects born preterm.

Study Design

Study Type:
Interventional
Anticipated Enrollment :
165 participants
Allocation:
Non-Randomized
Intervention Model:
Parallel Assignment
Masking:
None (Open Label)
Primary Purpose:
Diagnostic
Official Title:
Uric Acid, Klotho and Salt Sensitivity in Young Adults Born Preterm
Actual Study Start Date :
Sep 2, 2020
Anticipated Primary Completion Date :
Jun 1, 2025
Anticipated Study Completion Date :
Jun 1, 2025

Arms and Interventions

Arm Intervention/Treatment
Experimental: Preterm Group

Subjects with very low birth weight (<37 completed weeks' gestation and birth weight <1500 g) will receive a dietary intervention (high/low salt diet) and FDA approved drug, Allopurinol

Drug: Allopurinol
Study Part 2- Preterm group only: After Visit 5 preterm born participants will start allopurinol 200 mg daily PO for 6 weeks. The 1 week high and low salt diets and assessments will be repeated while on allopurinol.
Other Names:
  • Zyloprim

    • Other: Dietary Intervention
    High-Na+ (250 mmol/d) and low-Na+ (50 mmol/d) standard isocaloric K+ diets (75 mmol/1000 kcal/d) for 1 week each as 3 meals and 1 snack a day provided by the Clinical Research Unit Metabolic Kitchen. Part 2 preterm only- the diets will be repeated while the participant is taking allopurinol.
    Active Comparator: Term-born control group

    Subjects with birth weight ≥2500 g will receive a dietary intervention (high/low salt diet)

    Other: Dietary Intervention
    High-Na+ (250 mmol/d) and low-Na+ (50 mmol/d) standard isocaloric K+ diets (75 mmol/1000 kcal/d) for 1 week each as 3 meals and 1 snack a day provided by the Clinical Research Unit Metabolic Kitchen. Part 2 preterm only- the diets will be repeated while the participant is taking allopurinol.

    Outcome Measures

    Primary Outcome Measures

    1. Proportion with salt sensitivity of blood pressure at baseline via ABPM [Day 7 to 14]

      Defined as a ≥8 mmHg decrease in mean arterial blood pressure when moving from the high-Na+ to the low-Na+ phase, as measured on 24-hour ambulatory blood pressure monitoring (ABPM).

    2. Proportion with salt sensitivity of blood pressure after allopurinol via ABPM [Day 49 to 56]

      A ≥8 mmHg decrease in mean arterial blood pressure when moving from the high-Na+ to the low-Na+ phase while taking allopurinol, as measured on 24-hour ambulatory blood pressure monitoring (ABPM).

    3. Salt sensitivity index at baseline [Day 7 to 14]

      The ratio between the change in 24-hour mean arterial pressure, as measured on 24-hour ambulatory blood pressure monitoring, and the change in 24-hour urine Na+ concentration when moving from the high-Na+ phase to the low-Na+ phase.

    4. Salt sensitivity index after allopurinol [Day 49 to 56]

      The ratio between the change in 24-hour mean arterial pressure, as measured on 24-hour ambulatory blood pressure monitoring, and the change in 24-hour urine Na+ concentration when moving from the high-Na+ phase to the low-Na+ phase while taking allopurinol

    5. Proportion with salt sensitivity of blood pressure at baseline via casual blood pressure [Day 7 to 14]

      A >=5 mmHg decrease in mean arterial blood pressure measured in clinic when moving from the high-Na+ phase to the low-Na+ phase. Casual blood pressure measured 3 consecutive times via auscultation with the average of the 3 mean arterial blood pressure measurements recorded.

    6. Proportion with salt sensitivity of blood pressure after allopurinol via casual blood pressure [Day 49 to 56]

      A >=5 mmHg decrease in mean arterial blood pressure measured in clinic when moving from the high-Na+ phase to the low-Na+ phase while taking allopurinol. Casual blood pressure measured 3 consecutive times via auscultation with the average of the 3 mean arterial blood pressure measurements recorded.

    7. High blood pressure at baseline via ABPM [Day 0]

      Proportion with 24-hour mean systolic or diastolic blood pressure ≥115/75 mmHg, awake mean systolic or diastolic blood pressure ≥120/80 mmHg, or asleep mean systolic or diastolic blood pressure ≥100/65 mmHg, measured with ambulatory blood pressure monitoring (ABPM).

    8. Hypertension at baseline via ABPM [Day 7]

      Proportion with 24-hour mean systolic or diastolic blood pressure ≥125/75 mmHg, awake mean systolic or diastolic blood pressure ≥130/80 mmHg, or asleep mean systolic or diastolic blood pressure ≥110/65 mmHg, measured with ambulatory blood pressure monitoring (ABPM).

    9. High blood pressure at baseline via casual blood pressure [First 3 study visits]

      Proportion with mean systolic or diastolic blood pressure ≥120/80 mmHg, measured via 3 consecutive auscultated measurements (averaged) at each of 3 separate study visits.

    10. Hypertension at baseline via casual blood pressure [First 3 study visits]

      Proportion with mean systolic or diastolic blood pressure ≥130/80 mmHg, measured via 3 consecutive auscultated measurements (averaged) at each of 3 separate study visits

    11. Serum uric acid at baseline [Day 0]

      Serum uric acid concentration at baseline

    12. Change in serum uric acid with dietary Na+ intervention [Day 7 to 14]

      The change in serum uric acid levels when moving from high-Na+ phase to the low-Na+ phase

    13. Change in serum uric acid with dietary Na+ intervention on allopurinol [Day 42 to 56]

      The change in serum uric acid levels when moving from high-Na+ phase to the low-Na+ phase while on allopurinol

    14. Pulse wave velocity at baseline [Day 0]

      Carotid femoral pulse wave velocity will be measured at baseline with the SphygmoCor XCEL device

    15. Augmentation index at baseline [Day 0]

      Augmentation index will be measured at baseline with the SphygmoCor XCEL device

    16. Heart rate variability at baseline [Day 0]

      Heart rate variability will be measured at baseline using continuous heart rate recording using the CNAP™ Monitor 500i

    17. Baroreflex sensitivity at baseline [Day 0]

      Baroreflex sensitivity will be measured at baseline using continuous blood pressure and heart rate using the CNAP™ Monitor 500i

    18. Angiotensin-(1-7) at baseline [Day 0]

      Plasma angiotensin-(1-7) concentration and urine angiotensin-(1-7)/creatinine at baseline

    19. Angiotensin II at baseline [Day 0]

      Plasma angiotensin II concentration and urine angiotensin II/creatinine at baseline

    20. Klotho at baseline [Day 0]

      Plasma klotho concentration and urine klotho/creatinine at baseline.

    21. Creatinine at baseline [Day 0]

      Serum creatinine concentration at baseline

    22. Cystatin C at baseline [Day 0]

      Serum cystatin C concentration at baseline

    23. eGFR at baseline [Day 0]

      Estimated glomerular filtration rate (eGFR) at baseline.We will calculate the eGFR by the CKD-EPI Creatinine-Cystatin C 2012 equation and by 24 hour creatinine

    Secondary Outcome Measures

    1. Ambulatory systolic blood pressure 24-hour mean at baseline [Day 0]

      Average systolic blood pressure over 24 hours, measured with ambulatory blood pressure monitors

    2. Ambulatory diastolic blood pressure 24-hour mean at baseline [Day 0]

      Average diastolic blood pressure over 24 hours, measured with ambulatory blood pressure monitors

    3. Ambulatory mean arterial pressure 24-hour mean at baseline [Day 0]

      Average mean arterial pressure over 24 hours, measured with ambulatory blood pressure monitors

    4. Ambulatory systolic blood pressure awake mean at baseline [Day 0]

      Average systolic blood pressure while awake, measured with ambulatory blood pressure monitors

    5. Ambulatory diastolic blood pressure awake mean at baseline [Day 0]

      Average diastolic blood pressure while awake, measured with ambulatory blood pressure monitors

    6. Ambulatory mean arterial pressure awake mean at baseline [Day 0]

      Average mean arterial pressure while awake, measured with ambulatory blood pressure monitors

    7. Ambulatory systolic blood pressure asleep mean at baseline [Day 0]

      Average systolic blood pressure while asleep, measured with ambulatory blood pressure monitors

    8. Ambulatory diastolic blood pressure asleep mean at baseline [Day 0]

      Average diastolic blood pressure while asleep, measured with ambulatory blood pressure monitors

    9. Ambulatory mean arterial pressure asleep mean at baseline [Day 0]

      Average mean arterial pressure while asleep, measured with ambulatory blood pressure monitors

    10. Ambulatory systolic blood pressure 24-hour load at baseline [Day 0]

      Proportion of mean 24-hour systolic blood pressures ≥125 mmHg, measured with ambulatory blood pressure monitors

    11. Ambulatory diastolic blood pressure 24-hour load at baseline [Day 0]

      Proportion of mean 24-hour diastolic blood pressures ≥75 mmHg, measured with ambulatory blood pressure monitors.

    12. Ambulatory systolic blood pressure awake load at baseline [Day 0]

      Proportion of mean awake systolic blood pressures ≥130 mmHg, measured with ambulatory blood pressure monitors

    13. Ambulatory diastolic blood pressure awake load at baseline [Day 0]

      Proportion of mean awake diastolic blood pressures ≥80 mmHg, measured with ambulatory blood pressure monitors

    14. Ambulatory systolic blood pressure asleep load at baseline [Day 0]

      Proportion of mean asleep systolic blood pressures ≥110 mmHg, measured with ambulatory blood pressure monitors

    15. Ambulatory diastolic blood pressure asleep load at baseline [Day 0]

      Proportion of mean asleep diastolic blood pressures ≥65 mmHg, measured with ambulatory blood pressure monitors

    16. Ambulatory systolic blood pressure nocturnal dipping at baseline [Day 0]

      Percent change in mean awake to mean asleep systolic blood pressure, measured with ambulatory blood pressure monitors

    17. Ambulatory diastolic blood pressure nocturnal dipping at baseline [Day 0]

      Percent change in mean awake to mean asleep diastolic blood pressure, measured with ambulatory blood pressure monitors

    18. Casual systolic blood pressure at baseline [Day 0]

      Measured 3 consecutive times via auscultation with the average of the 3 systolic blood pressure measurements recorded

    19. Casual diastolic blood pressure at baseline [Day 0]

      Measured 3 consecutive times via auscultation with the average of the 3 diastolic blood pressure measurements recorded

    20. Change in pulse wave velocity with dietary Na+ intervention [Day 7 to 14]

      The change in carotid femoral pulse wave velocity will be measured with the SphygmoCor XCEL device when moving from high-Na+ phase to the low-Na+ phase

    21. Change in augmentation index with dietary Na+ intervention [Day 7 to 14]

      The change in augmentation index will be measured with the SphygmoCor XCEL device when moving from high-Na+ phase to the low-Na+ phase

    22. Change in pulse wave velocity with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in carotid femoral pulse wave velocity will be measured with the SphygmoCor XCEL device when moving from high-Na+ phase to the low-Na+ phase while on allopurinol.

    23. Change in augmentation index with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in augmentation index will be measured with the SphygmoCor XCEL device when moving from high-Na+ phase to the low-Na+ phase while on allopurinol

    24. Change in heart rate variability with dietary Na+ intervention [Day 7 to 14]

      The change in heart rate variability will be measured using the Continuous noninvasive arterial pressure (CNAP™) Monitor 500i when moving from high-Na+ phase to the low-Na+ phase

    25. Change in baroreflex sensitivity with dietary Na+ intervention [Day 7 to 14]

      The change in baroreflex sensitivity will be measured using the CNAP™ Monitor 500i when moving from high-Na+ phase to the low-Na+ phase

    26. Change in heart rate variability with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in heart rate variability will be measured using the CNAP™ Monitor 500i when moving from high-Na+ phase to the low-Na+ phase while on allopurinol

    27. Change in baroreflex sensitivity with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in baroreflex sensitivity will be measured using the CNAP™ Monitor 500i when moving from high-Na+ phase to the low-Na+ phase while on allopurinol

    28. Change in angiotensin-(1-7) with dietary Na+ intervention [Day 7 to 14]

      The change in plasma angiotensin-(1-7) concentration and urine angiotensin-(1-7)/creatinine when moving from the high-Na+ phase to the low-Na+ phase

    29. Change in angiotensin II with dietary Na+ intervention [Day 7 to 14]

      The change in plasma angiotensin II concentration and urine angiotensin II/creatinine when moving from the high-Na+ phase to the low-Na+ phase

    30. Change in klotho with dietary Na+ intervention [Day 7 to 14]

      The change in plasma klotho concentration and urine klotho/creatinine when moving from the high-Na+ phase to the low-Na+ phase

    31. Change in angiotensin-(1-7) with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in plasma angiotensin-(1-7) concentration and urine angiotensin-(1-7)/creatinine when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    32. Change in angiotensin II with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in plasma angiotensin II concentration and urine angiotensin II/creatinine when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    33. Change in klotho with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in plasma klotho concentration and urine klotho/creatinine when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    34. ACE2 at baseline [Day 0]

      Serum ACE2 concentration and activity and urine ACE2/creatinine and activity at baseline

    35. ACE at baseline [Day 0]

      Serum ACE concentration and activity and urine ACE/creatinine and activity at baseline

    36. FGF23 at baseline [Day 0]

      Plasma fibroblast growth factor 23 (FGF23) concentration and urine FGF23/creatinine at baseline

    37. Change in ACE2 with dietary Na+ intervention [Day 7 to 14]

      The change in serum ACE2 concentration and activity and urine ACE2/creatinine and activity when moving from the high-Na+ phase to the low-Na+ phase

    38. Change in ACE2 with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in serum ACE2 concentration and activity and urine ACE2/creatinine and activity when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    39. Change in ACE with dietary Na+ intervention [Day 7 to 14]

      The change in serum ACE concentration and activity and urine ACE2/creatinine and activity when moving from the high-Na+ phase to the low-Na+ phase

    40. Change in ACE with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in serum ACE concentration and activity and urine ACE2/creatinine and activity when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    41. Change in FGF23 with dietary Na+ intervention [Day 7 to 14]

      The change in serum fibroblast growth factor 23 (FGF23) concentration and urine FGF23/creatinine when moving from the high-Na+ phase to the low-Na+ phase

    42. Change in FGF23 with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in serum fibroblast growth factor 23 (FGF23) concentration and urine FGF23/creatinine when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    43. Neprilysin level at baseline [Day 0]

      Serum neprilysin concentration and activity and urine neprilysin/creatinine and activity at baseline

    44. Change in neprilysin with dietary Na+ intervention [Day 7 to 14]

      The change in serum neprilysin concentration and activity and urine neprilysin/creatinine and activity when moving from the high-Na+ phase to the low-Na+ phase

    45. Change in neprilysin with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in serum neprilysin concentration and activity and urine neprilysin/creatinine and activity when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    46. Urine albumin at baseline [Day 0]

      Urine albumin/creatinine at baseline on first-morning urine sample

    47. Proportion with albuminuria [Day 0]

      Albuminuria at baseline, defined as urine albumin/creatinine >30 mg/g on first-morning urine sample

    48. Urine protein at baseline [Day 0]

      Urine protein/creatinine at baseline on first-morning urine sample

    49. Proportion with proteinuria [Day 0]

      Proteinuria at baseline, defined as urine protein/creatinine >0.2 mg/mg on first-morning urine sample

    50. Angiotensinogen at baseline [Day 0]

      Serum angiotensinogen concentration and urine angiotensinogen/creatinine at baseline

    51. Change in angiotensinogen with dietary Na+ intervention [Day 7 to 14]

      The change in serum angiotensinogen concentration and urine angiotensinogen/creatinine when moving from the high-Na+ phase to the low-Na+ phase

    52. Change in angiotensinogen with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in serum angiotensinogen concentration and urine angiotensinogen/creatinine when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    53. 24-hour sodium excretion at baseline [Day 0]

      Sodium excretion in the urine over 24 hours at baseline

    54. 24-hour potassium excretion at baseline [Day 0]

      Potassium excretion in the urine over 24 hours at baseline

    55. 24-hour uric acid excretion at baseline [Day 0]

      Uric acid excretion in the urine over 24 hours at baseline

    56. Pulse wave velocity (CF) at baseline [Day 0]

      Carotid-femoral (CF) pulse wave velocity will be measured at baseline with the SphygmoCor XCEL device

    57. Change in pulse wave velocity (CF) with dietary Na+ intervention [Day 7 to 14]

      The change in carotid-femoral (CF) pulse wave velocity will be measured with the SphygmoCor XCEL device when moving from high-Na+ phase to the low-Na+ phase

    58. Change in pulse wave velocity (CF) with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in carotid-femoral (CF) pulse wave velocity will be measured with the SphygmoCor XCEL device when moving from high-Na+ phase to the low-Na+ phase while on allopurinol

    59. Angiotensin II:angiotensin-(1-7) at baseline [Day 0]

      Plasma and urine angiotensin II:angiotensin-(1-7) at baseline

    60. Change in angiotensin II:angiotensin-(1-7) with dietary Na+ intervention [Day 7 to 14]

      The change in plasma angiotensin II:angiotensin-(1-7) when moving from the high-Na+ phase to the low-Na+ phase

    61. Change in angiotensin II:angiotensin-(1-7) with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in plasma angiotensin II:angiotensin-(1-7) when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    62. ACE:ACE2 at baseline [Day 0]

      Serum and urine ACE:ACE2 at baseline

    63. Change in ACE:ACE2 with dietary Na+ intervention [Day 7 to 14]

      The change in serum and urine ACE:ACE2 when moving from the high-Na+ phase to the low-Na+ phase

    64. Change in ACE:ACE2 with dietary Na+ intervention while on allopurinol [Day 49 to 56]

      The change in serum and urine ACE:ACE2 when moving from the high-Na+ phase to the low-Na+ phase while on allopurinol

    65. Body mass index at baseline [Day 0]

      Body mass index at baseline

    66. Proportion with overweight/obesity [Day 0]

      Overweight/obesity at baseline, defined as a body mass index >=25 kg/m2

    67. Proportion with obesity [Day 0]

      Obesity at baseline, defined as a body mass index >=30 kg/m2

    Eligibility Criteria

    Criteria

    Ages Eligible for Study:
    24 Years to 32 Years
    Sexes Eligible for Study:
    All
    Accepts Healthy Volunteers:
    Yes
    Inclusion Criteria:

    • Born 1990-1998

    • Singleton birth

    • Born at less than 34 weeks gestational age (preterm cohort)

    • Born at greater than 36 weeks gestational age (term cohort)

    Exclusion Criteria:

    • Twin birth

    • Congenital anomalies or genetic syndromes

    • Currently pregnant or breast feeding

    • Subject-reported history of hypertension

    • Current use of antihypertensive medications

    • Active cancer

    • Chronic kidney disease

    • Heart failure

    • Liver failure

    Contacts and Locations

    Locations

    Site City State Country Postal Code
    1 Wake Forest University Health Sciences Winston-Salem North Carolina United States 27157

    Sponsors and Collaborators

    • Wake Forest University Health Sciences
    • National Heart, Lung, and Blood Institute (NHLBI)

    Investigators

    • Principal Investigator: Hossam Shaltout, PhD, Wake Forest University Health Sciences

    Study Documents (Full-Text)

    None provided.

    More Information

    Publications

    None provided.
    Responsible Party:
    Wake Forest University Health Sciences
    ClinicalTrials.gov Identifier:
    NCT04026776
    Other Study ID Numbers:
    • IRB00057527
    • 1R01HL146818-01A1
    First Posted:
    Jul 19, 2019
    Last Update Posted:
    Jul 25, 2022
    Last Verified:
    Jun 1, 2022
    Individual Participant Data (IPD) Sharing Statement:
    Yes
    Plan to Share IPD:
    Yes
    Studies a U.S. FDA-regulated Drug Product:
    Yes
    Studies a U.S. FDA-regulated Device Product:
    No
    Product Manufactured in and Exported from the U.S.:
    No
    Keywords provided by Wake Forest University Health Sciences
    Uric Acid sensitivity
    Salt sensitivity
    Blood Pressure Influences
    Additional relevant MeSH terms:
    Hypersensitivity
    Allopurinol

    Study Results

    No Results Posted as of Jul 25, 2022