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| Main Authors: | , , , |
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| Format: | Artículo científico |
| Language: | en |
| Published: |
Sensors (Basel, Switzerland)
2025
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/40969014/ |
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Table of Contents:
- Optimization of Dye and Plasticizer Concentrations in Halochromic Sensor Films for Rapid pH Response Using Bird-Inspired Metaheuristic Algorithms. Kim, Daeuk Concepcion, Ronnie S Sta Agueda, Joseph Rey H Marquez, Jubert C Hydrogen-Ion Concentration Algorithms Polyvinyl Alcohol Polyethylene Glycols Plasticizers Animals Coloring Agents Birds Bromthymol Blue Principal Component Analysis Biosensing Techniques Color The pH level of a wound environment is a crucial biomarker for monitoring wound healing, particularly in chronic wounds, where alkalinity (pH > 7) is linked to bacterial colonization and infection. This study developed and optimized a halochromic sensor film composed of polyvinyl alcohol (PVA), polyethylene glycol (PEG), and bromothymol blue (BTB) to enable rapid and reliable pH-responsive color transitions. Feature selection using Principal Component Analysis (PCA) and the ReliefF algorithm identified Hue, Saturation, and a as key features influencing pH responsivity. Optimization of BTB (0.01-0.05%) and PEG (6-10%) concentrations was conducted using bird-inspired metaheuristic algorithms, including the Parrot Optimizer (PO), Pelican Optimization Algorithm (POA), and Secretary Bird Optimization Algorithm (SBOA). While final fitness values showed negligible variation (188.595647 for GP-PO, 188.595634 for GP-POA, and 188.595634 for GP-SBOA), GP-PO demonstrated superior convergence and stability, efficiently identifying the optimal formulation (0.02% BTB, 6% PEG). The optimized film achieved a complete color transition within 3-5 min, a 23.15% reduction compared to the non-optimized formulation. Statistical analysis revealed that BTB concentration significantly affected response time ( = 0.01), while PEG concentration had no significant effect ( > 0.05). These findings highlight the potential of halochromic films for real-time, non-invasive pH monitoring in chronic wounds.