Department of Orthopaedics, The First Affiliated Hospital of Shantou University Medical College, Shantou 515041, PR China.
State Key Laboratory of Molecular Vaccinology and Molecular Diagnosis & Center for Molecular Imaging and Translational Medicine, School of Public Health, Xiamen University, Xiamen 361102, PR China.
Acta Biomater. 2019 Nov;99:363-372. doi: 10.1016/j.actbio.2019.08.043. Epub 2019 Aug 26.
Unsatisfactory diagnosis and therapy of osteomyelitis are still common but challenging issues for clinicians. To overcome these problems, a bacterial inflammation-specific multifunctional agent, denoted bovine serum albumin-manganese dioxide-ubiquicidin-indocyanine green (ICG) -gentamicin (BMUIG), was synthesized for combined high-resolution bimodal imaging and antibiotic/photodynamic therapy for osteomyelitis. BMUIG binding affinity and antibacterial ability were assessed by using Staphylococcus aureus (S. aureus). Photoacoustic/magnetic resonance imaging was performed on a mouse model of acute osteomyelitis after intravenous injection of BMUIG. Then, myelitis-bearing mice were treated with antibiotic/photodynamic combination therapy. BMUIG specifically targeted S. aureus in comparison with non-targeted agents. In the osteomyelitis model, the infection area was identified accurately and quickly through ICG-based photoacoustic imaging and Mn-based T magnetic resonance imaging after injection of BMUIG. Furthermore, the manganese dioxide in BMUIG reacted with the locally produced hydrogen peroxide under acidic inflammatory conditions, continuously generating oxygen for enhanced photodynamic therapy. In combination with low-dose gentamicin, a synergistic antibacterial effect was observed and bone infection was resolved. In summary, a non-invasive accurate diagnosis and effective synergistic therapy for osteomyelitis was successfully developed using a bacterial inflammation-specific versatile agent, which would provide a sound theranostic strategy for common infectious diseases. STATEMENT OF SIGNIFICANCE: Osteomyelitis is one of the most serious consequences in orthopedics. However, its inaccurate diagnosis and low-effective antibiotic treatment are still common but challenging issues for clinicians. To overcome these problems, we uniquely designed a bacterial inflammation-specific multifunctional nanoagent, bovine serum albumin-manganese dioxide-ubiquicidin-indocyanine green-gentamicin (BMUIG), for high-resolution bimodal imaging and antibiotic/photodynamic combined therapy of osteomyelitis. Herein, high-resolution imaging technologies refer to classic magnetic resonance imaging and emerging photoacoustic imaging. Photodynamic therapy is subtly introduced because of its safe and effective killing mechanism, which can synergize the bactericidal effect of antibiotics. As a result, we successfully realize non-invasive accurate diagnosis and effective synergistic therapy for osteomyelitis by virtue of the bacterial inflammation-specific versatile agent, which will serve as a promising candidate for sound theranostics in common infectious diseases.
骨髓炎的诊断和治疗仍不理想,这对临床医生来说仍是一个具有挑战性的问题。为了克服这些问题,我们合成了一种细菌炎症特异性多功能试剂,即牛血清白蛋白-二氧化锰-尿抑胃素-吲哚菁绿(ICG)-庆大霉素(BMUIG),用于骨髓炎的联合高分辨率双模态成像和抗生素/光动力治疗。通过金黄色葡萄球菌(S. aureus)评估 BMUIG 的结合亲和力和抗菌能力。在静脉注射 BMUIG 后的急性骨髓炎小鼠模型上进行了光声/磁共振成像。然后,用抗生素/光动力联合治疗载炎小鼠。与非靶向剂相比,BMUIG 特异性靶向 S. aureus。在骨髓炎模型中,通过注射 BMUIG 后的 ICG 基光声成像和 Mn 基 T 磁共振成像,快速准确地识别感染区域。此外,BMUIG 中的二氧化锰在酸性炎症条件下与局部产生的过氧化氢反应,持续产生氧气以增强光动力治疗。与低剂量庆大霉素联合使用,观察到协同抗菌作用,并且骨感染得到解决。总之,使用细菌炎症特异性多功能试剂成功开发了一种非侵入性准确诊断和有效的协同治疗骨髓炎的方法,为常见传染病提供了一种合理的治疗策略。
