ConcenTrace Trace Mineral Drops
Trace Minerals Research's ConcenTrace Trace Mineral Drops is a mineral supplement with 7 total ingredients, designed to provide essential trace elements. It holds an N+ Score of 52, earning an 'F' grade, positioning it in the below-average tier for quality. This product delivers Magnesium at 250mg and Chloride at 650mg, both of which are present at clinically studied dosages, and demonstrates 100% label transparency. However, Potassium (3mg) is significantly underdosed, which may limit its effectiveness for comprehensive electrolyte balance. This supplement may be suitable for individuals looking to increase their intake of specific, clinically dosed minerals like magnesium and chloride, though it lacks broader mineral completeness.
About This Product
ConcenTrace Trace Mineral Drops by Trace Minerals Research is a vitamins & minerals supplement containing 7 active ingredients. It has earned an N+ Score of 52/100 (Grade F).
Notable clinical-dose ingredients include Magnesium, Chloride.
N+ Score Breakdown
Are key ingredients present at clinically effective doses based on research?
Does the product include all expected ingredients for its supplement category?
Are individual ingredient amounts clearly disclosed without proprietary blends?
Does the formula include a breadth of beneficial compounds from multiple pathways?
Strengths
- +Fully transparent label with individual ingredient amounts disclosed
- +Broad ingredient diversity exceeding category norms
- +2 ingredient(s) at clinical dose levels
Weaknesses
- −Missing several expected ingredients for its category
Ingredient Analysis (7 ingredients)
| Ingredient | Amount | Dose Adequacy |
|---|---|---|
| Magnesium | 250.000 mg | Optimal |
| Boron | 1.000 mg | N/A |
| Sodium | 5.000 mg | N/A |
| Potassium | 3.000 mg | Under |
| Lithium | 1.500 mg | N/A |
| Chloride | 650.000 mg | Adequate |
| Sulfate | 40.000 mg | N/A |
Clinical ranges based on NIH ODS Fact Sheets and peer-reviewed research. Status indicates whether the amount meets evidence-based thresholds.