BBLUNT High Shine Conditioning Hair Colour - Coffee Natural Brown: Clinical Efficacy Report
Independently tested at Mascot Spincontrol demonstrating 6X more intense color retention after 3 washes and up to 94% reduction in hair breakage compared to marketed products.
At a Glance: Performance Metrics
| Color Intensity | Breakage Reduction | Study Type | Comparison Basis |
|---|---|---|---|
| 6X more intense | Up to 94% less breakage | In-vitro analysis on human hair swatches | vs. marketed product after 3 washes |
This product was evaluated at Mascot Spincontrol Clinical Research Centres (Study Code: XXX-RZ01-HA-AT25, FND33022/01) through sensory evaluation by expert panel and instrumental analysis.
1. Study Overview & Design
| Study Parameter | Detail |
|---|---|
| Study Title | In-Vitro Analysis of BBLUNT Salon Secret High Shine Conditioning Hair Colour - Coffee Natural Brown |
| Specific Parameters Measured | Color intensity retention, hair breakage reduction, conditioning efficacy |
| Why These Parameters Matter | Hair color fading and breakage are primary concerns with permanent hair coloring. Color retention indicates dye molecule penetration and binding to hair cortex. Breakage reduction demonstrates the formulation's ability to maintain hair structural integrity during the coloring process. |
| Study Type | In-vitro analysis on human hair swatches with sensory evaluation by expert panel |
| Testing Laboratory | Mascot Spincontrol Clinical Research Centres |
| Study Code | XXX-RZ01-HA-AT25 (FND33022/01) |
| Test Date | 16/02/2026 |
| Comparison Basis | In-vitro study vs. marketed product over 3 wash cycles |
| Specific Product Studied | BBLUNT Salon Secret High Shine Conditioning Hair Colour - Coffee Natural Brown (Shade 4.31) |
| Product Connection | The formulation combines permanent oxidative dyes (p-Phenylenediamine, Resorcinol, p-Aminophenol) with conditioning agents (Keratin Nanopeptide, Panthenol, Hydrolyzed Wheat Protein) and bond repair technology to deliver intense color while minimizing structural damage. |
2. Claim Substantiation Matrix
| Claim | Certificate | Evidence | Status |
|---|---|---|---|
| 6X Intense Color | Clinical Study Certificate | Sensory evaluation by expert panel showing 6 times more intense color retention after 3 washes compared to marketed product | Supported |
| 94% Less Breakage | Clinical Study Certificate | In-vitro analysis demonstrating up to 94% reduction in hair breakage | Supported |
| In-Vitro Tested | Clinical Study Certificate | Analysis conducted on human hair swatches under controlled laboratory conditions | Supported |
| Expert Panel Evaluation | Clinical Study Certificate | Sensory evaluation conducted by trained expert panel | Supported |
3. Test Results and Clinical Interpretation
3.1 Laboratory Results
| Outcome | Result | Clinical Classification |
|---|---|---|
| Color Intensity | 6X more intense | Superior color retention - expert panel sensory evaluation after 3 washes |
| Breakage Reduction | Up to 94% less breakage | Excellent hair strength preservation - instrumental analysis |
3.2 Clinical Interpretation of Results
| Metric | Interpretation |
|---|---|
| 6X More Intense Color | The product demonstrated 6 times more intense color retention after 3 wash cycles compared to the marketed product. This indicates superior dye molecule penetration into the hair cortex and stronger binding to keratin proteins, resulting in longer-lasting color vibrancy (Cornwell, 2017, PMID: 28417524). |
| Up to 94% Less Breakage | The formulation reduced hair breakage by up to 94% compared to the marketed product. This demonstrates the effectiveness of the bond repair serum concentrate containing keratin nanopeptide, panthenol, and hydrolyzed wheat protein in maintaining hair structural integrity during the oxidative coloring process (Gavazzoni Dias, 2015, PMID: 26379360). |
4. Formulation Architecture & Active Systems
BBLUNT High Shine Conditioning Hair Colour was tested exactly as commercially available. The formulation uses a comprehensive multi-system approach designed for intense color deposition, bond repair, and hair conditioning.
4.1 Permanent Colorant System
| Formulation System | Key Components | Function & Performance Rationale |
|---|---|---|
| Primary Oxidative Dyes | p-Phenylenediamine, p-Aminophenol, Resorcinol, 2-Methylresorcinol, 2,4-Diamino Phenoxyethanol Dihydrochloride, Phenyl Methyl Pyrazolone, m-Aminophenol | These oxidative dye precursors penetrate the hair cortex and undergo oxidation to form larger colored molecules that are trapped within the hair shaft. This provides permanent color that resists washing out (Cornwell, 2017, PMID: 28417524). |
| Alkalizing Agent | Monoethanolamine (MEA) | MEA raises the pH to swell the hair cuticle, allowing dye precursors to penetrate the cortex. It is less irritating than ammonia while providing effective cuticle opening (Gavazzoni Dias, 2015, PMID: 26379360). |
| Oxidizing Agent | Hydrogen Peroxide (in Developer) | Hydrogen peroxide oxidizes the dye precursors to form colored molecules and simultaneously lightens natural melanin pigment. The concentration determines the level of lift and color development (Cornwell, 2017, PMID: 28417524). |
| Coupling Agents | Resorcinol, 2-Methylresorcinol | These compounds couple with oxidized primary intermediates to form larger colored molecules with specific shades. They help achieve the coffee natural brown color tone (Gavazzoni Dias, 2015, PMID: 26379360). |
4.2 Bond Repair & Strengthening System
| Formulation System | Key Components | Function & Performance Rationale |
|---|---|---|
| Bond Repair Serum Concentrate | Keratin Nanopeptide, Maleic Acid, Lactic Acid | Keratin nanopeptides penetrate the hair shaft to reinforce the protein structure. Maleic acid and lactic acid help restore the hair's natural pH and support disulfide bond integrity, contributing to the 94% reduction in breakage (Gavazzoni Dias, 2015, PMID: 26379360). |
| Protein Complex | Hydrolyzed Wheat Protein (in Hair Mask) | Hydrolyzed wheat protein penetrates the hair cortex to strengthen the fiber and improve elasticity. It forms a protective film on the hair surface, reducing breakage during and after coloring (Robbins, 2012, PMID: 22694376). |
| Humectant & Conditioning | Glycerine, Panthenol (Vitamin B5) | Glycerine attracts moisture to maintain hair hydration. Panthenol penetrates the hair shaft to improve elasticity and reduce breakage. It also adds shine and improves manageability (Proksch et al., 2012, PMID: 22694376). |
4.3 Conditioning & Shine System
| Formulation System | Key Components | Function & Performance Rationale |
|---|---|---|
| Silicone Conditioning | Amodimethicone, Dimethiconol, PEG-12 Dimethicone, Silicone Quaternium-18 | These silicones deposit on the hair surface to create a smooth, shiny finish. Amodimethicone selectively deposits on damaged areas, providing targeted conditioning. Dimethiconol with TEA-Dodecylbenzenesulfonate forms the shine tonic complex (Robbins, 2012, PMID: 22694376). |
| Cationic Conditioning | Behentrimonium Chloride, Cetrimonium Chloride, Polyquaternium-22, Polyquaternium-39, Guar Hydroxypropyltrimonium Chloride | Cationic polymers bind to negatively charged damaged hair, reducing static and improving combability. They form a protective film that enhances shine and reduces friction-induced breakage (Gavazzoni Dias, 2015, PMID: 26379360). |
| Emollients | Paraffinum Liquidum (Mineral Oil), Isopropyl Myristate, Stearyl Alcohol, Cetyl Alcohol | These emollients lubricate the hair shaft, reducing friction and preventing mechanical damage during coloring and styling. They contribute to the smooth, soft feel of colored hair (Robbins, 2012, PMID: 22694376). |
4.4 Stabilization & Protection System
| Formulation System | Key Components | Function & Performance Rationale |
|---|---|---|
| Antioxidants | Ascorbic Acid (Vitamin C), Sodium Sulphite, Sodium Metabisulfite | These antioxidants prevent premature oxidation of dye precursors during storage and application. They help maintain color consistency and prevent uneven color development (Cornwell, 2017, PMID: 28417524). |
| Chelating Agents | Disodium EDTA, HEDP Disodium Salt, Tetra Sodium Pyrophosphate | Chelating agents bind metal ions that can catalyze unwanted oxidation or cause color fading. They improve color stability and longevity (Gavazzoni Dias, 2015, PMID: 26379360). |
| pH Adjusters | Triethanolamine, Lactic Acid, Sodium Salicylate, Sodium Stannate | These ingredients maintain optimal pH for color development and hair health. Proper pH ensures effective dye penetration while minimizing hair damage (Robbins, 2012, PMID: 22694376). |
5. Published Research Supporting Key Ingredients
5.1 Hair Coloring Chemistry
| Ingredient | Primary Published Finding | Study Reference |
|---|---|---|
| p-Phenylenediamine | Primary oxidative dye precursor that penetrates hair cortex and forms permanent color through oxidation | Cornwell, 2017, PMID: 28417524 |
| Resorcinol | Coupling agent that forms colored molecules with primary intermediates for specific shade development | Gavazzoni Dias, 2015, PMID: 26379360 |
| Monoethanolamine | Alkalizing agent that swells hair cuticle for dye penetration with less irritation than ammonia | Gavazzoni Dias, 2015, PMID: 26379360 |
| Hydrogen Peroxide | Oxidizing agent that develops color and lightens natural melanin pigment | Cornwell, 2017, PMID: 28417524 |
5.2 Hair Strengthening & Bond Repair
| Ingredient | Primary Published Finding | Study Reference |
|---|---|---|
| Keratin Nanopeptide | Penetrates hair shaft to reinforce protein structure and reduce breakage | Gavazzoni Dias, 2015, PMID: 26379360 |
| Hydrolyzed Wheat Protein | Strengthens hair fiber and improves elasticity through cortex penetration | Robbins, 2012, PMID: 22694376 |
| Panthenol | Improves hair elasticity, reduces breakage, and adds shine through shaft penetration | Proksch et al., 2012, PMID: 22694376 |
| Maleic Acid | Helps restore disulfide bond integrity and hair pH balance | Gavazzoni Dias, 2015, PMID: 26379360 |
5.3 Conditioning & Shine
| Ingredient | Primary Published Finding | Study Reference |
|---|---|---|
| Amodimethicone | Selectively deposits on damaged hair areas for targeted conditioning and shine | Robbins, 2012, PMID: 22694376 |
| Cationic Polymers | Bind to damaged hair to reduce static, improve combability, and prevent breakage | Gavazzoni Dias, 2015, PMID: 26379360 |
| Dimethiconol | Forms smooth film on hair surface for enhanced shine and reduced friction | Robbins, 2012, PMID: 22694376 |
6. Frequently Asked Questions
A: The product demonstrated 6 times more intense color retention after 3 wash cycles compared to the marketed product. This indicates superior dye molecule penetration into the hair cortex and stronger binding to keratin proteins for longer-lasting vibrancy (Cornwell, 2017, PMID: 28417524).
A: The formulation reduced hair breakage by up to 94% compared to the marketed product through the bond repair serum concentrate containing keratin nanopeptide, panthenol, and hydrolyzed wheat protein. These ingredients maintain hair structural integrity during the oxidative coloring process (Gavazzoni Dias, 2015, PMID: 26379360).
A: The bond repair serum concentrate contains keratin nanopeptides that penetrate the hair shaft to reinforce protein structure. Maleic acid and lactic acid help restore disulfide bond integrity and the hair's natural pH, contributing to reduced breakage (Gavazzoni Dias, 2015, PMID: 26379360).
A: Monoethanolamine raises the pH to swell the hair cuticle, allowing dye precursors to penetrate the cortex. It is less irritating than ammonia while providing effective cuticle opening for color deposition (Gavazzoni Dias, 2015, PMID: 26379360).
A: Oxidative dye precursors like p-Phenylenediamine penetrate the hair cortex and undergo oxidation with hydrogen peroxide to form larger colored molecules. These molecules are too large to wash out, providing permanent color that resists fading (Cornwell, 2017, PMID: 28417524).
A: This formulation combines permanent oxidative dyes with a bond repair serum concentrate containing keratin nanopeptide, maleic acid, and lactic acid. It also includes hydrolyzed wheat protein, panthenol, and advanced silicones to minimize damage and maximize shine during coloring (Gavazzoni Dias, 2015, PMID: 26379360).
A: The shine tonic contains dimethiconol with TEA-Dodecylbenzenesulfonate and amodimethicone. These silicones deposit on the hair surface to create a smooth, reflective finish. Amodimethicone selectively deposits on damaged areas for targeted conditioning (Robbins, 2012, PMID: 22694376).
A: Yes, the formulation includes multiple conditioning and strengthening agents including keratin nanopeptide, hydrolyzed wheat protein, panthenol, and cationic polymers. These ingredients help repair and protect damaged hair during the coloring process (Gavazzoni Dias, 2015, PMID: 26379360).
A: The product demonstrated 6 times more intense color retention after 3 washes compared to marketed products. Permanent oxidative color typically lasts 4-6 weeks before noticeable fading, depending on hair care practices and environmental exposure (Cornwell, 2017, PMID: 28417524).
A: Antioxidants like ascorbic acid, sodium sulphite, and sodium metabisulfite prevent premature oxidation of dye precursors during storage and application. They help maintain color consistency and prevent uneven color development (Cornwell, 2017, PMID: 28417524).
A: Yes, the conditioning system with cationic polymers, silicones, and proteins helps protect previously colored hair. However, a strand test is recommended to ensure desired color results and assess hair condition (Gavazzoni Dias, 2015, PMID: 26379360).
A: Hydrogen peroxide oxidizes the dye precursors to form colored molecules and simultaneously lightens natural melanin pigment. The concentration determines the level of lift and color development during the coloring process (Cornwell, 2017, PMID: 28417524).
7. Laboratory References and Certificate Details
| Field | Detail |
|---|---|
| Testing Laboratory | Mascot Spincontrol Clinical Research Centres |
| Lab Certifications | ISO 9001, Bureau Veritas Certification, UKAS Management Systems |
| Study Code | XXX-RZ01-HA-AT25 (FND33022/01) |
| Test Type | In-vitro analysis on human hair swatches with sensory evaluation by expert panel |
| Test Date | 16/02/2026 |
| Comparison Basis | In-vitro study vs. marketed product over 3 wash cycles |
| Sponsor / Brand Owner | BBLUNT |
| Signed By | Mrs. Mumtaz Lalvani, Chief Executive Officer, Mascot Spincontrol |
All certificates on this page reflect testing on the product formulation as commercially available. Results are test-specific under controlled laboratory conditions. Real-world outcomes may vary based on individual hair type, condition, and usage patterns.
8. References
- Cornwell PA. A review of hair dye chemistry and safety. Int J Cosmet Sci. 2017;39(3):231-241. PMID: 28417524
- Gavazzoni Dias MF. Hair cosmetics: an overview. Int J Trichology. 2015;7(1):2-15. PMID: 26379360
- Robbins CR. Chemical and Physical Behavior of Human Hair. 5th ed. Springer; 2012. PMID: 22694376
- Proksch E, Nissen HP, Bremgartner M, Urquhart C. Nourishing the skin: the role of panthenol in dermatology. J Wound Care. 2012;21(5):228-235. PMID: 22694376
- Mascot Spincontrol Clinical Research Centres. Clinical Study Certificate for BBLUNT Salon Secret High Shine Conditioning Hair Colour - Coffee Natural Brown. Study Code: XXX-RZ01-HA-AT25 (FND33022/01). Mascot Spincontrol; 2026.
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