Key Benefits

• Check sodium and potassium that drive fluid balance and blood pressure control.
• Spot hidden secondary hypertension, including primary aldosteronism, when potassium is unexpectedly low.
• Guide safe use of diuretics, ACE inhibitors, or ARBs by monitoring electrolytes.
• Protect heart rhythm and muscles by catching dangerous high or low potassium early.
• Explain fatigue, cramps, weakness, palpitations, or dizziness linked to electrolyte shifts.
• Track kidney-related sodium and potassium handling that influences blood pressure and medications.
• Tailor salt intake and potassium-rich foods based on results and blood pressure.
• Best interpreted with kidney function, renin–aldosterone testing, medications, and home BP logs.

What are Hypertension biomarkers?

Hypertension biomarkers are blood-borne signals that mirror the body’s pressure-control systems and the strain high pressure puts on organs. They come from the kidneys, blood vessels, heart, and nervous system, and together they trace why blood pressure is elevated and how it is affecting tissues. Key signals of salt and water regulation (renin, angiotensin II, aldosterone) reveal the activity of the renin–angiotensin–aldosterone system, while heart-stretch proteins (BNP, NT‑proBNP) reflect cardiac wall stress. Markers of vessel health and inflammation (endothelin‑1, nitric oxide pathway surrogates, C‑reactive protein) point to endothelial dysfunction, and measures of kidney filtration reserve (creatinine, cystatin C) show renal involvement. Signals of sympathetic drive (plasma metanephrines) can uncover adrenal or nerve-mediated pressure surges. Testing these biomarkers helps differentiate primary from secondary causes, estimates target-organ impact, and supports more precise treatment choices by aligning therapy with the dominant pathway driving an individual’s hypertension.

Why is blood testing for Hypertension important?

Blood testing in hypertension reveals how the kidneys, adrenal hormones, and blood vessels are managing volume and vascular tone. Sodium and potassium are the frontline signals of the renin–angiotensin–aldosterone system, the same network that drives long-term blood pressure and impacts heart, brain, and kidney health.Sodium is typically 135–145, and the healthiest physiology tends to keep it in the middle of that range. Importantly, serum sodium reflects water balance rather than “saltiness” of the diet. Potassium is usually 3.5–5.0, with cardiovascular benefits often seen when it sits in the mid-to-upper normal range because potassium relaxes vessels and counterbalances aldosterone-driven sodium retention. High sodium in blood often means relative dehydration; high potassium can appear with kidney impairment or medications that suppress aldosterone, and can disturb heart rhythm.When values drop, they tell a specific story. Low sodium usually reflects excess water relative to sodium from diuretics, heart or kidney dysfunction, or hormone disorders; in people with hypertension it can signal over-diuresis or advanced cardiac/renal disease, with headache, nausea, confusion, or seizures when severe—older adults and women on thiazides are especially susceptible. Low potassium suggests renal losses or aldosterone excess; in hypertension it raises suspicion for primary aldosteronism, and it can worsen blood pressure by tightening vessels and promoting sodium retention, causing weakness, cramps, palpitations, or arrhythmias. Teens on stimulants and pregnant patients with vomiting may also trend low.Big picture: electrolytes knit together vascular tone, kidney filtration, and adrenal signaling. Tracking them helps identify secondary causes of hypertension, monitor medication effects, and anticipate long-term risks like stroke, arrhythmia, and chronic kidney disease.

What insights will I get?

Hypertension blood testing provides a window into how your body manages blood pressure, a key factor in the health of your heart, blood vessels, brain, kidneys, and other organs. High blood pressure can silently strain these systems, affecting everything from energy and metabolism to cognition and immune function. At Superpower, we focus on two essential electrolytes—sodium and potassium—because they play central roles in blood pressure regulation and overall cardiovascular stability.Sodium is a mineral that helps control fluid balance and nerve signaling. When sodium levels are too high, the body tends to retain water, which can increase blood volume and raise blood pressure. Potassium, on the other hand, helps relax blood vessel walls and supports the excretion of excess sodium through the kidneys. The balance between sodium and potassium is crucial: too much sodium or too little potassium can tip the system toward hypertension.Healthy sodium and potassium levels support stable blood pressure, protect blood vessel integrity, and help maintain the delicate balance of fluids inside and outside your cells. This balance is vital for the heart’s ability to pump efficiently and for the kidneys to filter blood properly, both of which are essential for long-term cardiovascular health.Interpretation of sodium and potassium results can be influenced by factors such as age, pregnancy, acute or chronic illness, certain medications (like diuretics or steroids), and laboratory assay differences. These factors should be considered when evaluating your results.