2,3-DIMETHYL-4-(2,6,6-TRIMETHYL-1-CYCLOHEXENYL)-2-BUTENAL

Fragrance Antimicrobial Antioxidant

Science

Mechanism of Action

Functions primarily as a fragrance component with emerging evidence of free radical neutralization through its aldehyde structure. When incorporated within essential oil systems, contributes to antimicrobial efficacy against resistant bacterial strains, though the specific pathways for direct skin interaction require further investigation.

Research

Clinical Evidence

Low confidence

Effective range 0.47–2.63%

Optimal

N/A

Key findings

01 Demonstrated anti-inflammatory, antioxidant, and antibacterial bioactivities as part of Hypericum essential oil composition
02 Contributed to antimicrobial efficacy against multidrug-resistant Staphylococcus pseudintermedius in essential oil testing

Transparency

Dusting Analysis

Not commonly dusted

Primarily utilized as a fragrance component rather than for therapeutic claims, making dusting unlikely in skincare applications

The Formula

Formulation

Solubility

Oil

Optimal pH N/A

0 7 14

Stability

Demonstrates stability in rinse-off products like shampoos and soaps but shows compromised stability in leave-on formulations and acidic environments due to aldehyde oxidation sensitivity

Conflicts

Strong oxidizing agents
Strong acids
Strong bases
Bleach-containing formulations

Safety

Safety Profile

CIR Status

Not reviewed

Max tested

Sensitization risk Moderate

European classification indicates potential skin irritation (R38) at elevated concentrations. IFRA guidelines support usage up to 6% in fragrance applications, though specific dermatological safety data remains limited.

Our Assessment

Verdict

Insufficient Data

Limited evidence for direct skincare benefits beyond fragrance applications, requiring additional research to establish therapeutic efficacy.

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References

Sources

2,3-DIMETHYL-4-(2,6,6-TRIMETHYL-1-CYCLOHEXENYL)-2-BUTENAL.

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