Halicin remains active against Staphylococcus aureus in biofilms grown on orthopaedically relevant substrates.

IF 4.7 2区 医学 Q2 CELL & TISSUE ENGINEERING Bone & Joint Research Pub Date : 2024-03-04 DOI:10.1302/2046-3758.133.BJR-2023-0038.R2
Shota Higashihira, Stefanie J Simpson, Akira Morita, Joash R Suryavanshi, Christopher J Arnold, Roman M Natoli, Edward M Greenfield
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Abstract

Aims: Biofilm infections are among the most challenging complications in orthopaedics, as bacteria within the biofilms are protected from the host immune system and many antibiotics. Halicin exhibits broad-spectrum activity against many planktonic bacteria, and previous studies have demonstrated that halicin is also effective against Staphylococcus aureus biofilms grown on polystyrene or polypropylene substrates. However, the effectiveness of many antibiotics can be substantially altered depending on which orthopaedically relevant substrates the biofilms grow. This study, therefore, evaluated the activity of halicin against less mature and more mature S. aureus biofilms grown on titanium alloy, cobalt-chrome, ultra-high molecular weight polyethylene (UHMWPE), devitalized muscle, or devitalized bone.

Methods: S. aureus-Xen36 biofilms were grown on the various substrates for 24 hours or seven days. Biofilms were incubated with various concentrations of halicin or vancomycin and then allowed to recover without antibiotics. Minimal biofilm eradication concentrations (MBECs) were defined by CFU counting and resazurin reduction assays, and were compared with the planktonic minimal inhibitory concentrations (MICs).

Results: Halicin continued to exert significantly (p < 0.01) more antibacterial activity against biofilms grown on all tested orthopaedically relevant substrates than vancomycin, an antibiotic known to be affected by biofilm maturity. For example, halicin MBECs against both less mature and more mature biofilms were ten-fold to 40-fold higher than its MIC. In contrast, vancomycin MBECs against the less mature biofilms were 50-fold to 200-fold higher than its MIC, and 100-fold to 400-fold higher against the more mature biofilms.

Conclusion: Halicin is a promising antibiotic that should be tested in animal models of orthopaedic infection.

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在骨科相关基质上生长的生物膜中,卤素对金黄色葡萄球菌仍有活性。
目的:生物膜感染是矫形外科最具挑战性的并发症之一,因为生物膜内的细菌不受宿主免疫系统和许多抗生素的影响。卤素对许多浮游细菌具有广谱活性,之前的研究表明,卤素对生长在聚苯乙烯或聚丙烯基质上的金黄色葡萄球菌生物膜也有效。然而,许多抗生素的效力会因生物膜生长的骨科相关基质不同而发生重大变化。因此,本研究评估了卤素对生长在钛合金、钴铬合金、超高分子量聚乙烯(UHMWPE)、脱落肌肉或脱落骨骼上的成熟度较低和成熟度较高的金黄色葡萄球菌生物膜的活性:方法:金黄色葡萄球菌-Xen36 生物膜在不同基质上生长 24 小时或 7 天。用不同浓度的卤化霉素或万古霉素培养生物膜,然后让其在不使用抗生素的情况下恢复。最小生物膜根除浓度(MBECs)是通过CFU计数和利马唑啉还原试验确定的,并与浮游生物最小抑制浓度(MICs)进行了比较:结果:与万古霉素(一种已知会受生物膜成熟度影响的抗生素)相比,卤素对生长在所有测试的骨科相关基质上的生物膜的抗菌活性仍然明显更高(p < 0.01)。例如,哈里霉素对成熟度较低和成熟度较高的生物膜的 MBECs 都比其 MIC 高 10 倍到 40 倍。相比之下,万古霉素对成熟度较低的生物膜的MBECs是其MIC的50倍至200倍,对成熟度较高的生物膜的MBECs是其MIC的100倍至400倍:结论:卤霉素是一种很有前途的抗生素,应在骨科感染的动物模型中进行试验。
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来源期刊
Bone & Joint Research
Bone & Joint Research CELL & TISSUE ENGINEERING-ORTHOPEDICS
CiteScore
7.40
自引率
23.90%
发文量
156
审稿时长
12 weeks
期刊介绍: The gold open access journal for the musculoskeletal sciences. Included in PubMed and available in PubMed Central.
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