Abstract
BACKGROUND: Accurate quantification of skin color is essential for dermatologic research and clinical practice. Conventional methods rely on specialized equipment, trained operators, and high costs. Smartphone-based technologies provide a promising alternative for accessible skin color assessment. OBJECTIVE: To evaluate the reliability and validity of the smartphone-based skin colorimeter application, You Look Good Today (YLGTD), for facial skin color assessment compared with two validated devices, VISIA and DermaLab Combo. METHODS: A total of 105 Chinese participants with healthy facial skin were enrolled. Cheek skin color measurements were obtained using YLGTD (user self-assessment and physician measurement modes), VISIA, and DermaLab Combo. Inter-rater reliability between YLGTD measurement modes was assessed using intraclass correlation coefficients (ICC) and Bland-Altman analysis. Criterion validity was evaluated using Pearson's correlation coefficients between YLGTD measurements and the reference devices. RESULTS: YLGTD demonstrated excellent inter-rater reliability across all parameters (ICC: 0.85-0.95). Bland-Altman analysis showed small biases between the two measurement modes for the L, a, and b (-0.05, 0.18, and -0.99, respectively). For criterion validity, YLGTD in user mode showed strong correlations with DermaLab Combo for L* (r = 0.71), individual typology angle (ITA°, r = -0.81), and chroma (C*, r = 0.78), and moderate correlations for b* (r = 0.59) and hue (h°, r = 0.57). Correlations were consistently stronger in physician mode (L*: r = 0.77; b*: r = 0.75; C*: r = 0.84; ITA°: r = -0.87). VISIA showed a stronger correlation for a* (r = 0.55) but weaker correlations for L* (r = 0.56) and ITA° (r = -0.68) compared with YLGTD. CONCLUSION: The smartphone-based application YLGTD demonstrated excellent reliability and acceptable validity for facial skin color assessment, particularly for pigmentation-related parameters. Its standardized measurement workflow and integrated algorithms enable consistent skin color evaluation across devices and real-world conditions, providing a convenient and cost-effective approach for objective skin color assessment.