Take MK-7 (not MK-4), 90–180mcg once daily with a fat-containing meal. If you're on warfarin: skip it entirely — even a fraction of one capsule can destabilise your anticoagulant therapy.
That's the general answer. Your stack is different.
Check your whole stackDoes it route calcium into bones and out of arteries — or is the evidence more complicated than that?
Conditional MODERATE ConvictionThe Takeaway
Take MK-7, 90–180mcg once daily with a fat-containing meal. If you're also on vitamin D3, take them together — they're significantly more effective as a combination.
The Verdict
MK-7 reliably activates bone and vascular proteins — but hard benefits are proven only for high-risk groups, not the general population.
What is it? Vitamin K2 is a fat-soluble vitamin found mainly in fermented foods like natto (fermented soybeans). Most Western diets provide very little of it. People supplement it because it activates two proteins that handle calcium: one that mineralises bone, one that keeps calcium out of arteries.
Think of those two proteins as security guards at calcium's two destinations. Without enough K2, both guards are off duty — calcium drifts where it wants, which can mean deposits in arterial walls and less going into bone. K2 is the paycheck that keeps the guards working. The catch: the guards can only act on calcium that's actively moving — they don't break up deposits that have already hardened.
Postmenopausal women on vitamin D3/calcium. Long-term statin users. Adults with CKD, high coronary artery calcium (CAC) scores, or type 2 diabetes with cardiovascular risk.
You're on warfarin or any vitamin K antagonist — absolute contraindication. Healthy young adults with no cardiovascular or bone risk factors have no supporting evidence base.
| Population | Dose | Timing | Form | With Food? | Source |
|---|---|---|---|---|---|
| General adult (bone/vascular maintenance) | 90–180mcg/day | Once daily | MK-7 | Yes — requires fat | CRN HOI; Knapen 2015 |
| Postmenopausal women (bone support) | 180mcg/day | Once daily | MK-7 | Yes — requires fat | Huang 2022; Zhang 2025 |
| Advanced calcification risk (CKD, CAC >400, diabetic HD) | 360–375mcg/day | Once daily | MK-7 | Yes — requires fat | AVADEC 2022; Naiyarakseree 2023 |
| Long-term statin users | 90–180mcg/day | Once daily | MK-7 | Yes — requires fat | Pharmacological interaction data |
| Form | Half-Life | Typical Dose | Best For | Notes |
|---|---|---|---|---|
| MK-7 (fermented/natto-derived) | ~72 hours | 90–375mcg/day | Consumer supplementation — once-daily coverage | Binds to LDL/VLDL for long circulation. Preferred consumer form. |
| MK-4 (synthetic) | 1–3 hours | 45mg/day (3×15mg) | Clinical pharmacological protocols only | Clears rapidly — needs 3× daily dosing. Not practical for consumers at any dose below 45mg. |
| Dietary MK-7 (natto) | ~72 hours | >150mcg/tablespoon | Regular natto consumers | Equivalent bioavailability to supplement MK-7. Impractical for most Western diets. |
K2 is fat-soluble — absorption depends entirely on bile salt stimulation from dietary fat. Taking it on an empty stomach or with a fat-free meal sharply blunts systemic levels. Take with any fat-containing meal: olive oil, nuts, butter, avocado. If you take vitamin D3, take them at the same meal — D3 drives expression of the proteins K2 activates.
What blocks absorption: Orlistat (fat absorption blocker) and bile acid sequestrants (cholestyramine, colestipol) severely impair K2 uptake. Separate timing by as many hours as possible, or discuss alternatives with a clinician.
Warfarin works by blocking the vitamin K cycle to prevent clotting. MK-7 bypasses this block — even at doses as low as 10–20mcg/day (far below standard retail capsule doses), it causes clinically relevant INR lowering in 40–60% of patients (Theuwissen 2013, N=18).
This is not a dose-adjustment issue. MK-7 supplementation is absolutely contraindicated for anyone on warfarin, coumadin, or acenocoumarol. If K2 correction is medically necessary, it requires daily INR monitoring under specialist supervision — or switching entirely to a DOAC before starting K2.
DOACs inhibit Factor Xa directly, completely bypassing the vitamin K cycle. No clinically significant interaction with K2. Patients on DOACs can take K2 without coagulation monitoring.
D3 increases the expression of MGP and osteocalcin (the proteins K2 activates). K2 carboxylates and activates them. Co-supplementation maximises calcium routing efficacy — this is the evidence-based combination protocol.
Statins inhibit endogenous K2 synthesis, leaving MGP undercarboxylated and arteries more vulnerable to calcification. K2 supplementation (90–180mcg MK-7) is considered a reasonable co-intervention for patients on long-term statin therapy — though large independent RCTs on this specific interaction are still pending.
Combined K2 + bisphosphonate therapy enhances trabecular bone architecture and fracture prevention better than either alone. Co-supplementation is supported.
No Tolerable Upper Intake Level (UL) has been established by EFSA or the NIH for any form of vitamin K. The Council for Responsible Nutrition sets a Highest Observed Intake (HOI) of 375mcg/day MK-7 in healthy adults, with no adverse coagulation events observed at this dose in non-anticoagulated individuals.
Conviction Level
Biomarker improvements are reliable. Hard clinical outcomes are population-specific. Retracted Japanese data inflated earlier consensus.
Go Further
Want to stop guessing which supplements are actually worth your money? The Verdict reviews one every week — evidence-scored, jargon-free, free.
Join The Verdict — FreeThe core K2 marketing narrative is elegant: calcium is misguided without K2. You take calcium and vitamin D3 — both proven for bone health — but without K2, the calcium doesn't know where to go. It ends up in your arteries (causing calcification) instead of your bones (causing density). K2 is the traffic cop that routes calcium correctly.
The popular extension of this claim is that K2 doesn't just prevent new arterial calcification — it can reverse existing plaque. The phrase "clean your arteries" appears regularly in wellness content about K2.
A separate market exists around MK-7 superiority: that MK-7 is dramatically more effective than MK-4 due to its longer half-life, requiring only microgram doses once daily versus the 45mg three-times-daily used in older Japanese clinical studies. Statin users are specifically targeted — the claim being that statins deplete your body's K2, accelerating the very arterial calcification statins are meant to fight.
| Claimed Benefit | Evidence | Key Data | Verdict |
|---|---|---|---|
| Bone biomarker improvement | STRONG | ucOC reduced (WMD −1.54, CI −2.44 to −0.64); osteocalcin increased (Zhang 2025, 8 RCTs) | Works — at biomarker level |
| Bone mineral density (combination therapy) | MODERATE | Lumbar BMD improved (MD 1.02, CI 0.30–1.75; Huang 2022, 16 RCTs, N=6,425) — with D3/calcium | Conditional — combination only |
| Fracture risk reduction (monotherapy) | WEAK | Benefit only after removing retracted data; significant heterogeneity remains | Insufficient — needs D3/bisphosphonates |
| Arterial calcification slowing (high-risk) | MODERATE | AVADEC (MK-7 720mcg + D3): significant CAC slowing in CAC >400 subgroup (N=389); Naiyarakseree: cfPWV reduced in diabetic HD patients (N=96) | Conditional — high-risk only |
| Arterial calcification slowing (general CKD) | WEAK | Pooled meta-analysis of 8 CKD studies: no consistent effect on PWV or CAC scores (Szczepańska 2023) | Fails in broad population |
| Reversal of existing arterial plaque | DEBUNKED | No evidence in any population | Does not reverse established calcification |
What would change the cardiovascular conviction rating: a large RCT with hard endpoints (MI, stroke, cardiovascular mortality) in general-population adults — not biomarker proxies in CKD cohorts.
Vitamin K2 is an enzymatic cofactor — it doesn't perform biological actions directly. Instead, it enables gamma-glutamyl carboxylase to activate other proteins by adding a carboxyl group to specific glutamic acid residues (a process called carboxylation). Two proteins depend on this activation:
Osteocalcin (bone): Inactive undercarboxylated osteocalcin (ucOC) cannot bind calcium. Once carboxylated by K2, it integrates circulating calcium into the hydroxyapatite mineral matrix of bone. K2 also drives osteoblast differentiation while suppressing osteoclast activity via the RANKL/NF-κB pathway — a dual mechanism for bone formation.
Matrix Gla Protein or MGP (arteries): Inactive dephosphorylated-uncarboxylated MGP (dp-ucMGP) is biologically inert and is itself a cardiovascular risk marker. Active MGP physically binds calcium crystals within arterial walls, preventing new soft-tissue calcification and preserving arterial elasticity. It doesn't dissolve existing plaque — it prevents new deposition.
Why form matters pharmacokinetically: MK-4 has a 1–3 hour half-life and clears rapidly, requiring 45mg/day in divided doses to maintain tissue levels. MK-7 binds to LDL and VLDL lipoproteins, extending its half-life to ~72 hours — a single 90–180mcg dose maintains round-the-clock carboxylation of both osteocalcin and MGP.
Huang 2022 (before data cleaning)
K2 significantly reduces fracture incidence in postmenopausal women (RR 0.43, p=0.01)
KDIGO 2025 / Mott 2019
K2 supplementation shows little to no significant fracture risk reduction in adults
Why they disagree: Early consensus was built on Japanese menatetrenone (MK-4) trials by Yoshihiro Sato — dozens retracted for data fabrication. Removing them collapses the fracture benefit in most independent analyses. The heterogeneity in the Huang 2022 meta-analysis almost entirely traces back to these retracted studies.
AVADEC Trial (N=389, MK-7 720mcg + D3)
Significant slowing of CAC progression in elderly men with severe baseline calcification (CAC >400)
Szczepańska 2023 meta-analysis (8 CKD studies)
No consistent effect on arterial stiffness or CAC scores across pooled CKD data
Why they disagree: K2's vascular benefit concentrates in active, rapidly-progressing calcification phenotypes (high CAC, diabetics, hemodialysis). In populations where existing plaques are established and mostly static, K2 doesn't show consistent benefit. The disease stage matters as much as the supplement.
Naiyarakseree 2023 (MK-7, diabetic HD patients)
Significant reduction in arterial stiffness (cfPWV −10%, p=0.008) in the diabetic subgroup
Valkyrie Trial 2020 (non-diabetic HD patients)
No improvement in pulse wave velocity or vascular calcification markers
Why they disagree: K2's activation of osteocalcin improves insulin sensitivity and pancreatic beta-cell function — a secondary mechanism that benefits arterial elasticity specifically in T2D patients. Non-diabetic patients don't receive this additional pathway.
Lab: Studies carefully control fat co-ingestion. Reality: Most consumers take supplements first thing in the morning with water — zero fat, zero bile stimulation, minimal K2 absorption. MK-7 taken fasted is largely wasted. Direction: more conservative than lab suggests.
Lab: The K2 literature has now formally retracted dozens of Japanese MK-4 trials (Yoshihiro Sato, Jun Iwamoto). Reality: Most blog content, practitioner recommendations, and supplement marketing still cite these studies. Consumer expectations are inflated beyond the corrected evidence base. Direction: fracture evidence much weaker than commonly stated.
Lab: ucOC and dp-ucMGP reliably decrease within 12–24 weeks of MK-7 supplementation. Reality: Whether those biomarker improvements prevent a hip fracture or heart attack over 10 years requires long-term outcome data that current 1–3 year RCTs can't provide. Direction: consumer expectations of definitive protection should be tempered.
Statins inhibit HMG-CoA reductase, blocking a pathway that the body also uses to synthesise endogenous K2. Long-term statin therapy effectively depletes the K2 needed to carboxylate MGP — the protein that prevents arterial calcification. This creates an ironic situation: statins prescribed to reduce cardiovascular risk may simultaneously deplete the nutrient that protects arterial walls from calcification. K2 supplementation restores MGP carboxylation capacity. The mechanistic case is compelling; large independent outcome RCTs specifically in statin-treated populations are still needed.
The calcium routing mechanism is well-established biochemically — reductions in dp-ucMGP and ucOC are universally replicated in humans. But translating "activated MGP" to "actually preventing arterial plaques" requires decades of follow-up that short RCTs can't capture. The mechanism is real; the clinical magnitude for the general population is still being quantified.
| Protocol | Monthly Cost (approx) | Food Alternative |
|---|---|---|
| MK-7 90–180mcg (general) | £8–15/month | ~1 tablespoon natto/day — not realistic for most Western diets |
| MK-7 360–375mcg (high-risk: CKD/CAC) | £15–25/month | No realistic food equivalent |
Zhang et al. (2025)
Vitamin K2 supplementation on bone metabolism markers in postmenopausal osteoporosis. Frontiers in Endocrinology. Meta-analysis 8 RCTs, N=626. Key finding: ucOC reduced (WMD −1.54), osteocalcin increased (MD 1.86).
Huang et al. (2022)
Effects of vitamin K2 supplementation on BMD and fracture incidence. Frontiers in Public Health. 16 RCTs, N=6,425. Key finding: lumbar spine BMD improved (MD 1.02), fracture benefit fragile after removing high-heterogeneity studies.
Diederichsen et al. / AVADEC Trial (2022/2023)
MK-7 + D3 on coronary artery calcification in elderly men. BMJ Open / JACC. RCT N=389. Key finding: CAC progression slowing in severe-baseline subgroup (CAC >400).
Theuwissen et al. (2013)
Low-dose MK-7 supplementation in VKA users. Journal of Thrombosis and Haemostasis. N=18. Key finding: 10–45mcg MK-7 causes clinically relevant INR lowering in 40–60% of patients on anticoagulation.
Naiyarakseree et al. (2023)
MK-7 375mcg on arterial stiffness in hemodialysis patients. Nutrients. RCT N=96. Key finding: cfPWV significantly reduced in diabetic subgroup (−10%, p=0.008); no effect in non-diabetics.
Szczepańska et al. (2023)
Systematic review of K2 supplementation in CKD (8 studies). Key finding: no consistent effect on arterial stiffness or CAC scores across pooled CKD data despite dp-ucMGP reduction.
Knapen et al. (2015)
Three-year MK-7 RCT in postmenopausal women. N=244. Key finding: improved arterial stiffness and bone biomarkers at 180mcg/day.
How strong is the evidence for the claims in this review? Higher = more confidence the claims are supported. This does not measure how large the effect is or how important it is compared with other levers.
Is this worth your time, money, effort, risk, and trust for this goal? Different from Verdict Score (evidence strength) and Leverage Map (relative importance) — Action ROI is the worth-it call once friction is priced in.
Evidence-scored dosing, timing, forms, and who should skip it. One page, no fluff.
Get the protocolConviction-scored verdicts on supplements, nutrition, training, physio, and recovery.