Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT05480722 |
| Other study ID # |
1808532 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
June 1, 2022 |
| Est. completion date |
January 31, 2025 |
Study information
| Verified date |
December 2023 |
| Source |
University of Delaware |
| Contact |
William B Farquhar, PhD |
| Phone |
302-831-6178 |
| Email |
wbf[@]udel.edu |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The ability of the brain to sense changing sodium levels in the blood is critical in
mediating the neurohumoral responses to hypernatremia, however, the mechanisms underlying
sodium sensing in humans is poorly understood. The purpose of this study is to identify key
sodium-sensing regions of the human brain in older adults and determine if the Na-K-2Cl
co-transporter mediates the neurohumoral response to acute hypernatremia. Completion of this
project will increase our understanding of blood pressure regulation, which has major public
health implications.
Description:
The prevalence of hypertension is very high in older adults, and a major factor in
hypertension is salt sensitivity of blood pressure (BP) and elevated sympathetic nerve
activity (SNA). However, we know very little about how the human brain 'senses' sodium, and
what molecular mechanisms are involved. Rodent studies have identified specialized sodium
chloride (NaCl)-sensing neurons in the circumventricular organs (CVOs), which mediate
NaCl-induced changes in SNA, arginine vasopressin (AVP), and BP. Recent data suggest the
Na-K- 2Cl co-transporter (NKCC2) is not kidney specific but is also expressed in brain
regions that regulate whole body NaCl and water homeostasis. In addition, NKCC2 is accessible
by drugs in the circulation since the CVOs lack a complete blood brain barrier. The objective
of this R21 is to identify key NaCl-sensing regions of the brain in older adults and
determine if NKCC2 mediates the neurohumoral response to acute hypernatremia. We seek to
translate the prior rodent findings to humans by assessing neuronal activation (using blood
oxygen level dependent functional magnetic resonance imaging, BOLD fMRI) as well as thirst,
AVP, SNA and BP during an acute hypernatremic stimulus, with and without an NKCC2 antagonist
(furosemide). This will enable us to assess the role of NKCC2 in NaCl sensing. The overall
hypothesis is that acute hypernatremia will elicit detectable changes in the BOLD fMRI signal
and increase thirst, AVP, SNA, and BP largely through NKCC2 in healthy older adults.
Accordingly, the first specific aim is to identify the areas of the human brain that respond
to acute hypernatremia and determine the role of NKCC2 in central NaCl- sensing. Acute
hypernatremia will be induced with a 30-minute infusion of 3% NaCl delivered intravenously.
Brain activity during the hypertonic saline infusion will be measured in regions such as the
organum vasculosum laminae terminalis, subfornical organ, anterior cingulate cortex,
hypothalamus, and insular cortex. The second specific aim is to determine the effect of acute
hypernatremia on thirst, AVP, SNA, and BP, and determine the role of NKCC2 in mediating these
responses. Salt sensitivity of BP will be individually assessed and comparisons will be made
between those with a salt resistant and salt sensitive phenotype; we anticipate that acute
hypernatremia will elicit changes in the BOLD fMRI signal and SNA & AVP in all subjects, but
the responses will be greater in those who are classified as salt sensitive. This would
represent the first trial in healthy human subjects to identify a putative brain NaCl-sensing
co-transporter, and we think the scope and innovative approaches are ideal for the R21
funding mechanism. Older adults are prone to hypertension, so it is critically important to
understand how normotensive older adults centrally sense sodium, to provide a needed
foundation for exploring the mechanistic underpinning of salt sensitive hypertension.
