Department of Surgery, University of Wisconsin-Madison, Madison, Wisconsin, USA.
Laryngoscope. 2011 Nov;121(11):2418-28. doi: 10.1002/lary.22226.
OBJECTIVES/HYPOTHESIS: Personalized, preemptive, and predictive medicine is a central goal of contemporary medical care. The central aim of the present study was to investigate the utility of mechanistic computational modeling of inflammation and healing to address personalized therapy for patients with acute phonotrauma.
Computer simulation.
Previously reported agent-based models (ABMs) of acute phonotrauma were extended with additional inflammatory mediators as well as extracellular matrix components. The models were calibrated with empirical data for a panel of biomarkers--interleukin (IL)-1β, IL-6, IL-8, IL-10, tumor necrosis factor-α and matrix metalloproteinase-8--from individual subjects following experimentally induced phonotrauma and a randomly assigned voice treatment namely voice rest, resonant voice exercise, and spontaneous speech. The models' prediction accuracy for biomarker levels was tested for a 24-hour follow-up time point.
The extended ABMs reproduced and predicted trajectories of biomarkers seen in experimental data. The simulation results also agreed qualitatively with various known aspects of inflammation and healing. Model prediction accuracy was generally better following individual-based calibration as compared to population-based calibration. Simulation results also suggested that the special form of vocal fold oscillation in resonant voice may accelerate acute vocal fold healing.
The calibration of inflammation/healing ABMs with subject-specific data appears to optimize the models' prediction accuracy for individual subjects. This translational application of biosimulation might be used to predict individual healing trajectories, the potential effects of different treatment options, and most importantly, provide new understanding of health and healing in the larynx and possibly in other organs and tissues as well.
目的/假设:个性化、先发制人和预测医学是当代医疗保健的核心目标。本研究的主要目的是研究炎症和愈合的机械计算建模在解决急性声创伤患者的个性化治疗中的应用。
计算机模拟。
先前报道的急性声创伤的基于代理的模型(ABM)被扩展到其他炎症介质和细胞外基质成分。该模型使用个体受试者在实验性声创伤后和随机分配的声音治疗(如声音休息、共鸣声运动和自发语音)的一组生物标志物(白细胞介素[IL]-1β、IL-6、IL-8、IL-10、肿瘤坏死因子-α和基质金属蛋白酶-8)的经验数据进行校准。模型对生物标志物水平的预测准确性在 24 小时的随访时间点进行了测试。
扩展的 ABM 复制并预测了实验数据中生物标志物的轨迹。模拟结果也与炎症和愈合的各种已知方面定性一致。与基于群体的校准相比,基于个体的校准通常可以提高模型的预测准确性。模拟结果还表明,共鸣声中特殊的声带振荡形式可能会加速急性声带愈合。
使用个体特定数据对炎症/愈合 ABM 进行校准似乎可以优化模型对个体患者的预测准确性。这种生物模拟的转化应用可以用于预测个体的愈合轨迹、不同治疗选择的潜在影响,最重要的是,提供对喉和可能对其他器官和组织的健康和愈合的新理解。
