References 1. Felmingham D, Brown DFJ: Instrumentation in antimicrobial susceptibility testing. J Antimicrob Chemother 2001,48(suppl_1):81–85.PubMed 2. CLSI: Methods for Dilution Antimicrobial see more Susceptibility Tests for Bacteria That Grow Aerobically: Approved Standard. 7 Edition 940 West Valley Road, Suite 1400, Wayne, PA, USA: Clinical and Laboratory Standards Institute 2006. 3. Casey JT, O’Cleirigh C, Walsh PK, O’Shea DG: Development of a robust microtiter plate-based assay method for assessment of bioactivity. J Microbiol Methods 2004,58(3):327–334.CrossRefPubMed 4.

Lewis G, Daniels AU: Use of Isothermal Heat-Conduction Microcalorimetry (IHCMC) for the Evaluation of Synthetic Biomaterials. J Biomed Mat Res 2003, 66B:487–501.CrossRef 5. Charlebois SJ, Daniels AU, Smith RA: Metabolic heat production as a measure of macrophage response to particles from orthopedic implant materials. J Biomed Mater Res 2002,59(1):166–175.CrossRefPubMed 6. James AM: Calorimetry Past, Present and Future. click here Thermal and energetic studies of cellular biological systems (Edited by: James AM). Bristol, UK: IOP Publishing Ltd 1987. 7. Ripa KT, Mardh PA, Hovelius B, Ljungholm K: Microcalorimetry as a tool

for evaluation of blood culture media. J Clin Microbiol 1977,5(4):393–396.PubMed 8. Ma J, Qi WT, Yang LN, Yu WT, Xie YB, Wang W, Ma XJ, Xu F, Sun LX: Microcalorimetric

study on the growth and Immune system metabolism of microencapsulated microbial cell culture. J Microbiol Methods 2007,68(1):172–177.CrossRefPubMed 9. Garedew A, Schmolz E, Lamprecht I: Microbiological and calorimetric investigations on the antimicrobial actions of selleck chemicals llc different propolis extracts: an in vitro approach. Thermochim Acta 2004,422(1–2):115–124.CrossRef 10. Xi L, Yi L, Jun W, Huigang L, Songsheng Q: Microcalorimetric study of Staphylococcus aureus growth affected by selenium compounds. Thermochim Acta 2002,387(1):57–61.CrossRef 11. Antoce O-A, Antoce V, Takahashi K, Pomohaci N, Namolosanu I: Calorimetric determination of the inhibitory effect of C1-C4 n-alcohols on growth of some yeast species. Thermochim Acta 1997,297(1–2):33–42.CrossRef 12. Garedew A, Schmolz E, Lamprecht I: Microcalorimetric investigation on the antimicrobial activity of honey of the stingless bee Trigona spp. and comparison of some parameters with those obtained with standard methods. Thermochim Acta 2004,415(1–2):99–106.CrossRef 13. Trampuz A, Salzmann S, Antheaume J, Daniels AU: Microcalorimetry: a novel method for detection of microbial contamination in platelet products. Transfusion 2007,47(9):1643–1650.CrossRefPubMed 14. von Ah U, Wirz D, Daniels AU: Rapid MSSA-MRSA differentiation and MIC determinations by isothermal microcalorimetry. J Clin Microbiol 2008,46(6):2083–2087.CrossRef 15.