Inflammation has gotten more press over the years because it’s the necessary component of many diseases. For example, you could have rheumatoid arthritis but with little inflammation, the chance of joint damage is very low. With high cholesterol, you need inflammation for the lining of the coronary arteries to be invaded by fatty deposits.

Blood Tests for Acute and Chronic Inflammation

The reason we use the word “systemic inflammation” is because sometimes we can get only local inflammation. For example, an acne spot might be tender and locally inflamed, or it could be systemic inflammation that led to acne, in the first place.

None of these tests are accurate on their own. Meaning, they could be low even though inflammation is present or they could be high without any meaningful inflammation. That’s why it’s important to know why you’re measuring it and how to interpret it among many other markers.

Smoking, obesity, and even exercise can raise inflammatory markers temporarily or chronically. Understanding how and why these molecules go up and down is important to avoid misinterpretations.

C-reactive protein (CRP)

The go-to blood marker for acute and chronic inflammation. High sensitivity assays detect very low levels, which is useful for cardiovascular risk workups. Levels shift within six to eight hours of a trigger and normalize quickly when the cause is treated. High-sensitivity CRP (hsCRP) assays are commonly used in medicine.

Erythrocyte sedimentation rate (ESR)

A classic but nonspecific test. ESR rises more slowly than CRP and stays elevated longer, so it works well for tracking smouldering conditions like rheumatoid arthritis or temporal arteritis.

Procalcitonin (PCT)

The serum procalcitonin is best for separating bacterial infection or sepsis from other causes of systemic inflammation. Emergency departments use it to decide whether to start or stop antibiotics and to monitor treatment response.

White Blood Cell Count (WBC)

Total white blood cell count, neutrophil to lymphocyte ratio, and platelet to lymphocyte ratio offer quick, cheap clues to inflammatory burden. Useful across oncology, cardiology, and critical care.

Fibrinogen

Fibrinogen, an acute phase protein that rises in systemic inflammation and also affects clotting risk. Elevated levels are common in obesity, smoking, and pregnancy, so trends matter more than one reading

Ferritin

Traditional iron store marker that doubles as an acute phase reactant. A high ferritin with normal iron studies often points to chronic inflammation or infection.

Serum amyloid A (SAA)

SAA rises and falls in lockstep with CRP but can spike even higher in severe disease. Helpful when CRP seems only mildly elevated yet clinical suspicion is strong. It can also be used for monitoring disease activity in patients with rheumatoid arthritis and secondary amyloidosis.

Platelet

Platelet counts can spike in chronic inflammation, and ratios like platelet to lymphocyte give another angle without ordering extra tests. This is often included in the standard CBC blood panel.

Cytokine panel

A cytokine panel measures pro- and anti-inflammatory cytokines such as interleukin-6 (IL-6), interleukin-8 (IL-8), interleukin-10 (IL-10), IL-2, and tumor necrosis factor-alpha (TNF-α) can provide detailed information about the inflammatory response, mainly ordered in research or complex immune disorders because results vary between laboratories and cost is high.

GlycA

GlycA (glycoprotein acetylation) reflects the levels and glycosylation states of several abundant acute-phase proteins in your blood. These proteins, like alpha-1-acid glycoprotein and haptoglobin, are released from the liver and increase in concentration during inflammation. It offers a stable read-out of chronic low level inflammation relevant to cardiometabolic risk.

suPAR

Soluble urokinase plasminogen activator receptor (suPAR) reflects long term immune activation. Elevated values predict worse outcomes in chronic kidney disease, sepsis, and cardiovascular events.

Myeloperoxidase (MPO)

Myeloperoxidase is an enzyme released by activated neutrophils that tracks vascular and oxidative stress. High MPO correlates with future cardiac events, though routine use is still evolving.

Oxidized LDL

ox-LDL indicates lipid particles that have undergone oxidative damage, a key step in atherosclerosis. Mostly a research tool, yet growing evidence links it with coronary risk beyond traditional cholesterol numbers.

Blood Tests as Indirect Markers of Inflammation

There are a few other markers to consider that aren’t used for inflammation but indirectly lead to inflammation or oxidative stress.

Uric acid

Uric acid climbs when purine breakdown outpaces excretion. High levels generate crystals that trigger the inflammasome inside immune cells, sparking gout flares and nudging baseline inflammatory signals higher even between attacks. It may also be correlated with hypertension.

Homocysteine

Homocysteine irritates blood vessel linings and promotes oxidative stress. People with elevated homocysteine often show higher C reactive protein and other cytokines. Whether the amino acid itself drives inflammation or simply travels alongside other risk factors like low folate intake is still debated.

Fasting insulin

High fasting insulin tells us insulin resistance is present. Insulin resistant fat tissue releases more IL-6 and TNF-α, so people with chronically high insulin often have higher low grade inflammation as well.

Glucose

Persistent high serum glucose leads to glycation end products that stiffen proteins and generate reactive oxygen species. These in turn activate inflammatory pathways, which is why poorly controlled diabetes is linked to higher C reactive protein and vascular inflammation.

How to Use These Tests

In my practice, we often look for physical signs and symptoms of inflammation before doing any blood tests. Confirming inflammation through blood tests is often unnecessary when someone has fatigue, poor recovery,