100% Bio-Active Cookies N' Cream
iSatori's 100% Bio-Active Cookies N' Cream is an 'Other Combinations' supplement, likely a protein blend, providing 25.000 Grams of protein and 500.000mg of Bio-Gro Bio Active Peptides per 35 Gram serving. It also includes 171.000mg of Calcium. This product contains a total of 8 ingredients, but its N+ Score of 46 and F grade classify it as below-average. The Calcium content is identified as underdosed, suggesting it may not provide significant bone support. While protein and peptides are commonly used for muscle support, the overall score reflects limitations in other areas. This product may appeal to those looking for a protein supplement with added peptides, but mineral intake should be considered from other sources.
About This Product
100% Bio-Active Cookies N' Cream by iSatori is a joint & bone supplement containing 8 active ingredients. It has earned an N+ Score of 46/100 (Grade F).
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
Weaknesses
- −Several ingredients below clinically effective doses
- −Missing several expected ingredients for its category
Ingredient Analysis (8 ingredients)
| Ingredient | Amount | Dose Adequacy |
|---|---|---|
| Calories | 140.000 Calorie(s) | N/A |
| Total Fat | 3.500 Gram(s) | N/A |
| Calcium | 171.000 mg | Under |
| Total Carbohydrates | 3.000 Gram(s) | N/A |
| Sodium | 110.000 mg | N/A |
| Cholesterol | 95.000 mg | N/A |
| Protein | 25.000 Gram(s) | N/A |
| Bio-Gro Bio Active Peptides | 500.000 mg | N/A |
Clinical ranges based on NIH ODS Fact Sheets and peer-reviewed research. Status indicates whether the amount meets evidence-based thresholds.