Global Ingredient Risk Index Metabolic

Chromium Picolinate

Chromium(III) picolinate

Also known as: Chromium(III) picolinate, CrPic, Chromax, CrP, Chromax II

04 მარ 2026

LOW RISK 3.5/10 How?

Evidence Strength: MODERATE

This ingredient is classified as unclassified risk (GIRI score: 3.5/10). The classification is based on mechanistic and clinical evidence: chromium Picolinate enhances the action of insulin by facilitating the uptake of….

Common Adverse Effects

Nausea
diarrhea
headache
dizziness
skin rash

Serious Adverse Effects

Renal impairment
liver dysfunction
hemolysis
rhabdomyolysis

Contraindications

Renal impairment
liver disease
type 1 diabetes
psychiatric disorders
People taking Insulin

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Drug / Nutrient	Interaction Mechanism	Warning
Insulin	enhanced hypoglycemic effect — monitor blood glucose levels. NSAIDs: increased chromium absorption — monitor for toxicity. Antacids: reduced chromium absorption — separate administration by 2 hours.	Monitor

Chromium Picolinate is a chemical compound often used in dietary supplements to improve glucose metabolism and enhance insulin sensitivity. It is derived from the combination of chromium and picolinic acid. This compound is popular in supplements aimed at weight management and blood sugar control, particularly for individuals with type 2 diabetes or metabolic syndrome.

Chemical Class: Coordination compound
Biological Class: Trace element
Natural Source: Endogenous source, trace mineral in foods
Scientific Name: Chromium(III) picolinate
Chemical Formula: C18H12CrN3O6
CAS Number: 14639-25-9

Chromium Picolinate enhances the action of insulin by facilitating the uptake of glucose into cells. It is believed to potentiate insulin signaling pathways, possibly through the activation of insulin receptor kinase and subsequent phosphorylation of insulin receptor substrates. Chromium may also modulate carbohydrate and lipid metabolism by influencing gene expression related to these pathways.

Indication	Evidence Level	Summary
General	Moderate	Clinical studies on Chromium Picolinate have shown mixed results. Some trials suggest modest improvements in glucose control and insulin sensitivity in individuals with type 2 diabetes, while others show minimal or no effects. The quality of evidence varies, with some studies lacking rigorous design or having small sample sizes. Overall, the evidence supports a potential benefit in metabolic health, but further research is needed to confirm these effects.

Evidence levels: Strong Moderate Limited Experimental

Absorption

Chromium Picolinate is absorbed in the small intestine, but its bioavailability is relatively low, estimated at about 0.5-2%. Peak plasma concentrations (Cmax) are typically reached within 1-4 hours after oral administration. The compound has a half-life of approximately 24 hours.

Distribution

Chromium is distributed throughout the body, with higher concentrations in the liver, spleen, soft tissue, and bone. It binds moderately to plasma proteins and does not readily cross the blood-brain barrier.

Metabolism

Chromium Picolinate is not extensively metabolized. It remains largely in its original form in the bloodstream and tissues. The picolinate ligand may undergo some degree of metabolism, but the chromium ion itself is not significantly altered.

Excretion

Chromium is primarily excreted through the kidneys in urine. A small amount may also be eliminated via feces. Urinary excretion is the main route of elimination for absorbed chromium.

Half-Life

24 hours

Condition / Use	Typical Dose
Type 2 Diabetes	200-1000 mcg daily. Metabolic Syndrome: 200-500 mcg daily. Weight Management: 200-400 mcg daily.

Dosage ranges are based on clinical studies and commonly used supplement formulations. Individual requirements may vary.

SETI Score 50/100

Risk Level High risk

Scientific Confidence Low

Evidence Strength Limited

Key Benefit Chromium Picolinate is a chemical compound often used in dietary supplements to improve glucose metabolism and enhance insulin…

Key Safety Concern Chromium Picolinate is generally considered safe at recommended doses, but high doses may lead to serious adverse effects such as renal and liver damage. Pregnant and breastfeeding women should use caution, as safety data in these populations are limited. Individuals with pre-existing kidney or liver conditions should avoid high doses due to potential exacerbation of these conditions.

Evidence Reviewed 10 PubMed studies

Scientific Confidence Low

Based on study quality, consistency, and recency

Executive Summary — Ingredient Assessment

SETI Score 50/100

Risk Level High risk

Evidence Strength Limited

Main Benefit Chromium Picolinate is a chemical compound often used in dietary supplements to improve glucose metabolism and enhance insulin…

Main Safety Concern Chromium Picolinate is generally considered safe at recommended doses, but high doses may lead to serious adverse effects such as renal and liver damage. Pregnant and breastfeeding women should use caution, as safety data in these populations are limited. Individuals with pre-existing kidney or liver conditions should avoid high doses due to potential exacerbation of these conditions.

Ingredient Chromium Picolinate

Scientific name Chromium(III) picolinate

Scientific Evidence Overview

10 studies reviewed
0 high-quality studies (meta-analysis or RCT)
Main clinical benefit observed: Chromium Picolinate is a chemical compound often used in dietary supplements to improve glucose metabolism and enhance insulin…
Evidence consistency: High consistency across studies (100%)

Safety Signals

Chromium Picolinate is generally considered safe at recommended doses, but high doses may lead to serious adverse effects such as renal and liver damage. Pregnant and breastfeeding women should use caution, as safety data in these populations are limited. Individuals with pre-existing kidney or liver conditions should avoid high doses due to potential exacerbation of these conditions.

Evidence Strength Limited

Regulatory Status

USA/FDA — Approved

Final Scientific Assessment

The available scientific evidence for Chromium Picolinate indicates notable safety signals that warrant caution. Use should be considered carefully and monitored, particularly in sensitive populations or alongside other medications.

Ingredient Chromium Picolinate

Evidence reviewed 10 peer-reviewed studies (last 10 years)

Scientific name Chromium(III) picolinate

50 /100

Total SETI Score

High risk

Evidence quality	10/40
Evidence consistency	20/20
Safety signals	0/20
Study recency	10/10
Evidence transparency	10/10

Evidence Summary

10 studies reviewed
0 high-quality studies (meta-analysis or systematic review)
0 studies identified benefits or no safety concern (GREEN)
10 studies reported limited or advisory safety evidence (YELLOW)

Evidence Policy

Only peer-reviewed scientific literature indexed in PubMed or comparable databases is included in this evaluation. Commercial websites, blogs, and marketing materials are excluded. All references include direct traceable links to source documents.

Last updated: 06 მარ 2026, 12:00

Evidence Distribution

2 Animal studies

8 Other / unclassified

Observational / other LOW evidence YELLOW
Dietary nanou2011chromium picolinate enhances interferon-gamma expression in heat-stressed broilers vaccinated against Newcastle disease. ↗

PMID 41468791 ↗

Journal Res Vet Sci

Year 2026

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/41468791/

Hajializadeh F et al.. Dietary nanou2011chromium picolinate enhances interferon-gamma expression in heat-stressed broilers vaccinated against Newcastle disease.. Res Vet Sci. 2026. PMID:41468791.
Animal study LOW evidence YELLOW
Impact of Chromium Picolinate on Leydig Cell Steroidogenesis and Antioxidant Balance Using an In Vitro Insulin Resistance Model. ↗

PMID 38247463 ↗

Journal Antioxidants (Basel)

Year 2023

Study type Animal study

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/38247463/

Moreira R et al.. Impact of Chromium Picolinate on Leydig Cell Steroidogenesis and Antioxidant Balance Using an In Vitro Insulin Resistance Model.. Antioxidants (Basel). 2023. PMID:38247463.
Observational / other LOW evidence YELLOW
Dietary Effects of Chromium Picolinate and Chromium Nanoparticles in Wistar Rats Fed with a High-Fat, Low-Fiber Diet: The Role of Fat Normalization. ↗

PMID 36501167 ↗

Journal Nutrients

Year 2022

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/36501167/

Majewski M et al.. Dietary Effects of Chromium Picolinate and Chromium Nanoparticles in Wistar Rats Fed with a High-Fat, Low-Fiber Diet: The Role of Fat Normalization.. Nutrients. 2022. PMID:36501167.
Observational / other LOW evidence YELLOW
Oxidative, epigenetic changes and fermentation processes in the intestine of rats fed high-fat diets supplemented with various chromium forms. ↗

PMID 35701510 ↗

Journal Sci Rep

Year 2022

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/35701510/

Dworzau0144ski W et al.. Oxidative, epigenetic changes and fermentation processes in the intestine of rats fed high-fat diets supplemented with various chromium forms.. Sci Rep. 2022. PMID:35701510.
Observational / other LOW evidence YELLOW
Determination of chromium(III) picolinate in dietary supplements by flow injection - electrospray ionization - tandem mass spectrometry, using cobalt(II) picolinate as internal… ↗

PMID 34953383 ↗

Journal Talanta

Year 2022

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/34953383/

Arroyo Negrete MA et al.. Determination of chromium(III) picolinate in dietary supplements by flow injection - electrospray ionization - tandem mass spectrometry, using cobalt(II) picolinate as internal standard.. Talanta. 2022. PMID:34953383.
Observational / other LOW evidence YELLOW
Effect of a high-fat diet and chromium on hormones level and Cr retention in rats. ↗

PMID 34550535 ↗

Journal J Endocrinol Invest

Year 2022

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/34550535/

Stu0119pniowska A et al.. Effect of a high-fat diet and chromium on hormones level and Cr retention in rats.. J Endocrinol Invest. 2022. PMID:34550535.
Observational / other LOW evidence YELLOW
Effects of Supplemental Chromium Nanoparticles on IFN-u03b3 expression of Heat Stress Broilers. ↗

PMID 33598892 ↗

Journal Biol Trace Elem Res

Year 2022

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/33598892/

Hamidi O et al.. Effects of Supplemental Chromium Nanoparticles on IFN-u03b3 expression of Heat Stress Broilers.. Biol Trace Elem Res. 2022. PMID:33598892.
Observational / other LOW evidence YELLOW
Effects of Different Chromium Compounds on Hematology and Inflammatory Cytokines in Rats Fed High-Fat Diet. ↗

PMID 33717096 ↗

Journal Front Immunol

Year 2021

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/33717096/

Dworzau0144ski W et al.. Effects of Different Chromium Compounds on Hematology and Inflammatory Cytokines in Rats Fed High-Fat Diet.. Front Immunol. 2021. PMID:33717096.
Animal study LOW evidence YELLOW
Assessment of DNA Methylation and Oxidative Changes in the Heart and Brain of Rats Receiving a High-Fat Diet Supplemented with Various Forms… ↗

PMID 32825649 ↗

Journal Animals (Basel)

Year 2020

Study type Animal study

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/32825649/

Dworzau0144ski W et al.. Assessment of DNA Methylation and Oxidative Changes in the Heart and Brain of Rats Receiving a High-Fat Diet Supplemented with Various Forms of Chromium.. Animals (Basel). 2020. PMID:32825649.
Observational / other LOW evidence YELLOW
Chromium(III) Glycinate Complex Supplementation Improves the Blood Glucose Level and Attenuates the Tissular Copper to Zinc Ratio in Rats with Mild Hyperglycaemia. ↗

PMID 30826908 ↗

Journal Biol Trace Elem Res

Year 2020

Study type Observational / other

Evidence strength LOW evidence

PubMed link https://pubmed.ncbi.nlm.nih.gov/30826908/

Kru00f3l E et al.. Chromium(III) Glycinate Complex Supplementation Improves the Blood Glucose Level and Attenuates the Tissular Copper to Zinc Ratio in Rats with Mild Hyperglycaemia.. Biol Trace Elem Res. 2020. PMID:30826908.

Q × L × D × S × 10 = 3.5 / 10

The GIRI Score is the product of four independently computed evidence components, each normalised to 0–1, then scaled to 0–10. Every component is derived exclusively from peer-reviewed references and regulatory data — no editorial judgement is applied.

0 of 10 approved references (score saturates at 10). More peer-reviewed studies = stronger evidence base.

Method: Q = number of approved references ÷ 10 (capped at 1.0)

50%

Limited — mostly case reports or animal studies

Method: L = mean study-level weight across approved references. Level 1 (meta-analysis / systematic review) = 1.0; Level 2 (RCT) = 0.8; Level 3 (cohort/case-control) = 0.6; Level 4 (case report) = 0.4; Level 5 (animal / in-vitro) = 0.2.

Benefit

Risk

50%

Mixed or neutral — roughly equal benefit and risk signals

Method: D = (sum of risk-scored references − sum of benefit-scored references) ÷ total evidence score, then scaled from [−1, 1] to [0, 1]. 0.0 = pure benefit; 0.5 = neutral; 1.0 = pure risk.

50%

One or more monitoring-level safety signals active

Method: S = 0.5 (neutral baseline) + sum of active signal severity deltas ÷ 10. Severity deltas: Critical = +2.0, High = +1.5, Moderate = +1.0, Low = +0.5. Capped at 1.0.

0Q × 5L × 5D × 5S = 3.5 / 10

Final GIRI Score for Chromium Picolinate. Risk level thresholds: Low 0–3.0 · Moderate 3.0–5.5 · High 5.5–7.5 · Critical 7.5–10.

Full methodology & data sources

The GIRI Score is computed entirely from structured data — no editorial scoring or subjective weighting is applied at any step.

References: Only approved references are counted. Each reference is assigned an evidence level (L1–L5) and a direction (risk / neutral / benefit) by the reference manager or AI classifier.
Safety Signals: Sourced from regulatory agencies (FDA, EMA, Health Canada, TGA, and others) and pharmacovigilance databases. Only active signals count toward the score.
Formula version: GIRI Score v3.7.0 — Q × L × D × S × 10.
Limitations: The score reflects published evidence and recorded signals as of the last update date. It is not a clinical risk assessment and should not replace advice from a qualified healthcare professional.

LOW RISK 3.5/10

Based on available regulatory signals and scientific evidence, this ingredient presents a low safety concern under normal conditions of use.

LOW
0–3.0

MODERATE
3.0–5.5

HIGH
5.5–7.5

CRITICAL
7.5–10

3.5

The score pin shows exactly where this ingredient falls on the fixed risk scale.

What drove the Low classification for Chromium Picolinate

A score of 3.5 places this ingredient in the Low band. Thresholds: Low 0–3.0 · Moderate 3.0–5.5 · High 5.5–7.5 · Critical 7.5–10.

0 approved references.

Limited — mostly case reports or animal studies (Level 4–5).

Neutral or mixed — benefit and risk signals roughly balanced.

No active signals — S component is at neutral baseline (0.5), contributing no extra risk weight.

1 jurisdiction has active restrictions or advisories. Regulatory signals are recorded as Safety Signals and raise the S component.

How are the Low / Moderate / High / Critical thresholds defined?

The four risk levels are fixed score bands. A score is assigned to exactly one level based on where it falls:

Level	Score	Meaning
LOW	0.0 – 2.9	Sparse or predominantly beneficial evidence. No active safety alerts.
MODERATE	3.0 – 5.4	Mixed signals — some risk alongside benefit. Caution at high doses or in sensitive groups.
HIGH	5.5 – 7.4	Multiple studies or regulatory alerts documenting adverse effects. Professional oversight recommended.
CRITICAL	7.5 – 10	Regulatory restrictions in one or more major jurisdictions. Serious documented harm. Avoid without specialist supervision.

Thresholds are fixed constants (GIRI_Score_Utils::LEVEL_THRESHOLDS). They do not change per ingredient and are never subject to editorial adjustment.

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Chromium Picolinate

Safety Profile

Common Adverse Effects

Serious Adverse Effects

Contraindications

Interactions

Evidence and Scientific Findings

Ingredient Overview

Biological and Chemical Classification

Mechanism of Action

Clinical Evidence of Effectiveness

Pharmacokinetics

Recommended Dosage

SETI — Scientific Evidence Transparency Index

Executive Summary — Ingredient Assessment

Evidence Summary

Evidence Policy

Evidence Distribution

Score Transparency

Risk Level Classification

What drove the Low classification for Chromium Picolinate

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