混合方法会影响高剂量 ALBC 的洗脱和强度:一项初步研究。
Mixing method affects elution and strength of high-dose ALBC: a pilot study.
机构信息
Orthopaedic Residency, Banner Good Samaritan Medical Center, 901 E Willetta St, 2nd Floor, Phoenix, AZ, 85006, USA.
出版信息
Clin Orthop Relat Res. 2012 Oct;470(10):2677-83. doi: 10.1007/s11999-012-2351-2.
BACKGROUND
High-dose antimicrobial-loaded bone cement (ALBC) is used to treat orthopaedic infections. High-dose ALBC is not commercially available and requires surgeon directed formulation, and there are several different methods used to mix high-dose ALBC.
QUESTIONS/PURPOSES: We asked whether the mixing method affected antimicrobial elution and mechanical properties of high-dose ALBC.
METHODS
ALBC was formulated with Simplex P bone cement and 10 g of vancomycin per batch using one of three mixing methods: (1) hand-stirred using a standard bowl and spatula, (2) bowl-mixed using a mechanical mixing bowl, and (3) dough-phase mixing where the vancomycin was left in chunks (1-5 mm) and folded into the cement during the dough phase after adding the monomer. We eluted 45 standardized test cylinders (15 per mixing technique) for 30 days under infinite sink conditions. We tested 135 (45 per mixing method) similarly eluted cylinders in axial compression to failure.
RESULTS
Dough-phase mixing lead to greater antimicrobial delivery, but lower compressive strength than the hand-stirred or bowl-mixed methods. Dough-phase cement released 18,570 lg of vancomycin versus 11,731 for hand-stirred and 7700 μg for bowl mixed. Compressive strength for dough-phase mixing after 30 days of elution was 36 MPa, while both hand-stirred and bowl mixed cements were 56 MPa.
CONCLUSIONS
Performance of high-dose ALBC was affected by mixing method. Dough-phase mixing led to greater antimicrobial delivery, but caused greater loss in compressive strength.
背景
高剂量载抗菌剂骨水泥(ALBC)用于治疗骨科感染。高剂量 ALBC 目前尚未商业化,需要外科医生进行定向配方,并且有几种不同的方法用于混合高剂量 ALBC。
问题/目的:我们想知道混合方法是否会影响高剂量 ALBC 的抗菌洗脱和机械性能。
方法
使用 Simplex P 骨水泥和每批 10g 万古霉素,采用三种混合方法之一来配制 ALBC:(1)使用标准碗和抹刀手动搅拌,(2)使用机械搅拌碗进行碗式混合,(3)面团阶段混合,万古霉素块(1-5mm)留在其中,在加入单体后进入面团阶段时将其折叠到水泥中。我们在无限水槽条件下对 45 个标准化测试筒(每种混合技术 15 个)洗脱 30 天。我们对 135 个(每种混合方法 45 个)类似洗脱的圆柱进行轴向压缩直至失效测试。
结果
面团阶段混合导致更大的抗菌药物释放,但抗压强度低于手动搅拌或碗式混合方法。面团阶段水泥释放 18570 lg 万古霉素,而手动搅拌为 11731 lg,碗式混合为 7700μg。洗脱 30 天后,面团阶段混合的抗压强度为 36MPa,而手动搅拌和碗式混合水泥的抗压强度均为 56MPa。
结论
高剂量 ALBC 的性能受混合方法的影响。面团阶段混合导致更大的抗菌药物释放,但导致抗压强度更大的损失。
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