Silicone lubricants facilitate medical device functionality yet excessive levels cause problems - syringes with too much lubricant inject inconsistent doses, pharmaceutical containers shed particles, and biological drugs suffer protein aggregation from silicone interactions. Silicone oil quantification by FTIR following dichloromethane extraction provides specific detection of lubricant residues with characteristic absorption at 1260 cm⁻¹ enabling selective quantification. Essential for syringes where silicone levels affect injection forces and dose accuracy, pharmaceutical containers where excessive silicone causes particle formation, and devices where silicone lubricants facilitate operation but must remain within controlled limits. The pooled sampling approach provides statistically representative results testing multiple units simultaneously while controlling analytical costs, enabling routine quality control without prohibitive expenses. For prefilled syringes and autoinjectors, silicone levels affect injection forces determining patient compliance and dose delivery accuracy through impact on plunger glide, dose accuracy where silicone variability causes inconsistent injection volumes, and biological drug stability where silicone induces protein aggregation compromising therapeutic efficacy. The FTIR methodology specifically detects polydimethylsiloxane lubricants through Si-O-Si stretching vibration, quantifies total silicone content regardless of molecular weight distribution, and accommodates various silicone types from light oils to heavy greases. Manufacturing validation establishes optimal silicone application levels balancing functional benefits against contamination concerns, confirms application processes achieve consistent coverage, and demonstrates levels remain stable during storage without migration or degradation. The testing supports investigation of functional problems including high injection forces or erratic plunger movement potentially caused by inadequate lubrication, particle contamination where excessive silicone sheds droplets, or biological drug instability linked to silicone-protein interactions.