Pot, Weed, Grass, or “Mary Jane.” Whatever you call it, what we’re learning.

From The Epoch Times

THC Builds Up in the Body, Influencing Inflammation and Immunity

Unlike alcohol, THC, the primary psychoactive compound found in cannabis, doesn’t clear from the bloodstream in a few hours.

2/25/2026

Unlike alcohol, THC, the primary psychoactive compound found in cannabis, doesn’t clear from the bloodstream in a few hours.

Unlike alcohol or caffeine, tetrahydrocannabinol (THC), the primary psychoactive compound found in cannabis, doesn’t clear from the bloodstream in a few hours; it accumulates in fat and organs, where it can continue influencing inflammation and immunity long after the high fades.

With today’s high-potency products and increasingly frequent recreational use, researchers are discovering that the body’s relationship with cannabis has fundamentally changed—and the long-term effects of accumulation are only beginning to come into focus.

A Different Kind of Substance

THC behaves unlike most substances the body encounters. Many drugs are processed and eliminated within hours, but THC takes a different path. After inhalation or ingestion, THC enters the bloodstream quickly and is distributed to the organs.

“Regular cannabis use leads to accumulation of lipophilic substances in fat stores and highly vascularized organs such as the brain and liver,” Dr. Ella Fedonenko, an internal medicine physician, told The Epoch Times. “These substances are released back into the bloodstream very slowly, even when standard screening tests are negative.”

In other words, standard drug tests measure THC metabolites in blood or urine, not what remains stored in tissues. A negative test doesn’t mean that the substance—or its effects—are gone.

A widely cited review by Marilyn Huestis, who has a doctorate in toxicology and is a former chief of chemistry and drug metabolism at the National Institute on Drug Abuse, found that THC spreads quickly into tissues throughout the body rather than staying in the bloodstream, where it can be detected and measured.

Why Modern Use Is Different

Humans have used cannabis for thousands of years. Historical records from China, India, and the Middle East describe its use for pain, sleep, digestion, and rituals. For much of that history, cannabis was taken in relatively mild forms, often as teas or resins from low-potency flowers that weren’t bred for high THC content.

Even in the latter half of the 20th century, most cannabis products contained lower levels of THC than those commonly available today.

Selective breeding has dramatically increased THC concentration. Modern oils, vape cartridges, edibles, and tinctures often deliver far more THC than earlier forms of cannabis—sometimes 10 to 20 times the potency of products from the 1970s and ’80s.

At the same time, legalization has shifted cannabis from a substance that is used occasionally to a routine wellness or lifestyle product for some users. Daily use is no longer uncommon, particularly among adults using it for sleep, anxiety, or chronic pain.

As a result, many people’s bodies are no longer responding to occasional, low-dose exposure. They are adapting to repeated, high-potency contact with a substance that doesn’t leave the body quickly or easily. The gradual change in dose and frequency requires the body to process cannabis in a way that has been rare historically.

The Immune System Is Paying Attention

The immune system works throughout the entire body. Immune cells are present in fat tissue, line blood vessels, and interact with nearly every organ—including the same tissues where THC accumulates. Compounds in cannabis can influence how immune cells manage inflammation.

With short-term or occasional use, cannabis can have a calming effect on the immune system, which is why its compounds have been studied for pain and related conditions. Inflammation is meant to turn on, do its job, and then turn off.

However, as a result of regular exposure to stored THC, that process may not work as smoothly. When something repeatedly interferes with that process, the immune system can remain partially activated rather than fully resolving.

A study published in Psychological Medicine found that young adults who used cannabis daily had higher levels of suPAR, a marker linked to chronic, low-grade inflammation. Unlike other markers that spike during illness, suPAR reflects ongoing immune activity.

High suPAR levels mean that your immune system is staying on instead of resting between issues. Although it isn’t an immediate emergency, long-term activation of the immune system increases your risk for heart disease and metabolic problems.

Taking a break from cannabis use doesn’t result in an immediate reset. Research suggests that lingering cannabinoids can continue to affect sleep, mood, and immunity for weeks, and sometimes even months, after one stops using cannabis.

Effects at the Tissue Level

Regular cannabis use may influence more than mood or sleep. It can also affect how the skin protects and repairs itself.

“I have observed changes in skin barrier function and increased vascular permeability in patients who use cannabis regularly,” Fedonenko said.

When the skin’s barrier is weakened, it can become more reactive, more inflamed, and slower to bounce back after irritation or injury.

Studies also suggest that cannabis smoke and vapor can create oxidative stress in the lung cells, a type of cellular wear that can weaken normal protective barriers and make it harder for the tissue to repair itself.

“This level of oxidative stress may not cause immediate symptoms,” Fedonenko said. “But over time, it can weaken tissue integrity and slow repair.”

Not All Cannabis Products Act the Same

Cannabis is made up of more than 500 chemical compounds, and they do not all affect the body in the same way. The two most well-known are THC and cannabidiol (CBD).

THC is responsible for the psychoactive high and has a stronger effect on the brain and nervous system. With frequent use, it can sometimes push the immune system toward ongoing low-grade activation rather than calming it.

CBD works differently. It does not produce a high and is more often linked with steadier, balancing effects on the body. CBD may help balance some of THC’s inflammatory effects.

Therefore, what a cannabis product contains matters—two products may look similar on the surface, but different THC-to-CBD ratios can lead the body in very different directions over time.

The Importance of Clean Products

Beyond THC content, product quality plays a critical role in health outcomes.

Real risks can emerge not from cannabis itself but from what can come with it, according to Dr. Dave Rabin, a physician and neuroscientist who studies stress and trauma.

“I think of medical cannabis not as a recreational indulgence but as medicine—and like any medicine, its safety profile is paramount,” he told The Epoch Times. “Ensuring cannabis products are free of mold, toxins, pesticides, heavy metals, and harmful solvents isn’t optional; it’s a clinical imperative.”

Rabin pointed to growing efforts within the medical community to bring cannabis closer to pharmaceutical standards. The Board of Medicine’s Clinical Cannabis Initiative has begun to advocate evidence-based guidelines, training, and certification standards to reduce harm and protect patients.

Rabin said that mold, residual pesticides, solvents, and heavy metals can contribute to neurological, hormonal, and systemic stress over time—effects that compound the inflammatory concerns associated with THC.

“Patients deserve medicines we can all trust,” Rabin said, emphasizing the importance of organic cultivation, full-panel testing, and strict safety standards.

What Users and Doctors Can Do

For people using cannabis regularly, Fedonenko recommends monitoring inflammatory markers as part of routine health care.

“I monitor markers such as C-reactive protein and certain interleukins in chronic users,” she said.

C-reactive protein is a general marker of inflammation in the body, and interleukins are signaling molecules that help regulate immune responses.

“Checking these every six months can help identify early signs of a pro-inflammatory pattern,” Fedonenko said.

She also cautions against stopping suddenly after prolonged, heavy use. Abrupt cessation can disrupt stress hormone levels and immune function, making the transition more difficult for the body. Gradually reducing use, she said, is often easier to tolerate and may allow the body to recalibrate more smoothly.

The clinical approach, she said, should be one of monitoring and adjustment rather than all-or-nothing thinking.

Shifting Understanding

THC lingers and accumulates, and its effects depend on how much is used, how often it is used, and what kind of product is involved.

For occasional users, these factors may not matter much.

However, with daily use, the effects can add up over time, influencing how the body manages stress, sleep, and immune activity.

The question is no longer whether THC lingers. It’s what accumulation means for long-term health, and how users and doctors should respond.