Blood is a conveyor belt
Your marrow makes roughly 2 million red blood cells per second. In a single day you create and recycle more RBCs than there are people on Earth.
No — your body does not completely replace itself every 7 years. Some cells renew in days, some in months or years, and some cells, such as many neurons and eye lens cells, can last for most or all of your life. This calculator estimates how much different tissues may have renewed over any time period.
| Cell/tissue type | Approximate turnover | Replaced in 7 years? |
|---|---|---|
| Gut lining | 3-5 days | Mostly yes, many times |
| Skin epidermis | ~40-56 days | Mostly yes |
| Red blood cells | ~120 days | Mostly yes |
| Liver cells | A few years average | Much of it |
| Fat cells | ~10% per year | Partly |
| Bone tissue | Around a decade | Partly |
| Heart muscle | Very slow | Mostly no |
| Many neurons | Little/no turnover | No |
| Eye lens core | Lifelong | No |
v1.1 (May 20, 2026)
People often say “you’re a new person every 7 years.” That’s a catchy myth, but biology is more interesting! Some tissues renew super fast (like gut and skin), some fairly slow (like fat, bone, and liver), and others hardly at all (many neurons and the eye lens).
We model turnover with a simple “steady trickle” (exponential) process. If a tissue replaces about r% each year, the fraction replaced over time t years is 1 − e−(r/100)·t. If we have an average cell lifespan L, we set r ≈ 100 / L. That keeps the math simple and kid-friendly.
This is a learning tool, not medical advice. Real rates vary with age, health, and which exact cells you look at.
The catchy line “you’re a whole new person every seven years” is a myth. It mixes some true ideas with a lot of oversimplification. In reality, different tissues renew on very different schedules. Some refresh so quickly that you make vast numbers of new cells every week, while others change only slowly in adulthood.
For example, red blood cells (RBCs) circulate for about 120 days on average before being cleared by macrophages in the spleen and liver; your bone marrow continuously makes more to keep levels steady (Thiagarajan 2021, open access; overview: Corrons 2021). At your body’s surface, the epidermis is a conveyor belt of keratinocytes that move upward and flake away; careful measurements place human epidermal turnover around 40–56 days (Koster & Roop 2007 review; classic data: Halprin 1972). Inside the gut, the intestinal epithelium is one of the fastest-renewing tissues in the body, typically replacing itself in about 3–5 days (Kaunitz & Akiba 2019; see also Arike 2020).
Other organs pace themselves. Human liver cells (hepatocytes) renew continuously across the lifespan; radiocarbon “birth-dating” shows the liver stays relatively young on average (<3 years), with renewal depending on ploidy (Heinke et al., 2022; plain-language summary: TU Dresden press release). In fat tissue, roughly 10% of adipocytes are replaced each year in adults—steady, but far from “all at once” (Spalding et al., Nature 2008). The skeleton remodels continuously; taken as a whole, most of the adult skeleton is replaced on the order of a decade (U.S. Surgeon General’s Bone Health report; public explainer: AAOS).
Some cell populations change slowly. Adult heart muscle cells (cardiomyocytes) renew at roughly ~1% per year at age 25, falling to ~0.45% by age 75—so many of the heart cells you were born with are still with you later in life (Bergmann et al., Science 2009; open access summary: Bergmann 2009 (PMC)).
These are population-average estimates; real biology varies with age, health, and which specific cells you look at. This tool is for learning, not medical advice.
No. The 7-year idea is an oversimplification. Gut lining and blood cells renew quickly, while many neurons and eye lens cells can last for life.
Cells in the gut lining are among the fastest-renewing, often turning over in just a few days.
Many brain neurons and the core cells of the eye lens have little or no turnover after early development.
The outer skin epidermis is often estimated to turn over in about 40 to 56 days, though rates vary by body site, age and health.
Red blood cells live about 120 days on average before being removed and replaced by new cells made in bone marrow.
The intestinal lining is among the fastest-renewing tissues, often replacing itself in roughly 3 to 5 days.
Cell renewal does not reset all damage. DNA changes, protein damage, stem-cell aging, inflammation and tissue-level changes can still accumulate over time.
Some limited adult neurogenesis may occur in specific regions, but many brain neurons, especially cortical neurons, have little or no replacement and can last for life.
Tattoo pigment sits deeper than the outer skin layer and is held by immune cells in the dermis, so normal surface skin renewal does not simply erase it.
Your marrow makes roughly 2 million red blood cells per second. In a single day you create and recycle more RBCs than there are people on Earth.
The skin you see is a layer of flattened, dead keratinocytes that finished their journey only a few weeks ago. You shed around 0.5 kg of skin cells a year.
Intestinal lining cells divide in crypts, ride up the villi, then drop off into your food stream roughly every 3–5 days—one of the fastest renewal systems in your body.
Adipocytes themselves last years, but the fat inside them churns constantly. You replace about half your stored triglycerides every few days, even if the cell casing stays put.
The innermost fibers of your eye lens and many neurons were born before you met daylight. They stick around for life, carrying a literal history of your development.