Mark Wefers Bettink
Chapter 5 102 References 1. Baumbach, P., Neu, C., Derlien, S., Bauer, M., Nisser, M., Buder, A., Coldewey, S.M., 2018. A pilot study of exercise-induced changes in mitochondrial oxygen metabolismmeasured by a cellular oxygen metabolism monitor (PICOMET). Biochim Biophys Acta Mol Basis Dis. doi:10.1016/j. bbadis.2018.12.003 2. Choumar, A., Tarhuni, A., Lettéron, P., Reyl-Desmars, F., Dauhoo, N., Damasse, J., Vadrot, N., Nahon, P., Moreau, R., Pessayre, D., Mansouri, A., 2011. Lipopolysaccharide-Induced Mitochondrial DNA Depletion. http://dx.doi.org/10.1089/ars.2010.3713 15, 2837–2854. doi:10.1089/ars.2010.3713 3. Estabrook, R.W., 1967. Mitochondrial respiratory control and the polarographic measurement of ADP : O ratios, in: Oxidation and Phosphorylation, Methods in Enzymology. Elsevier, pp. 41– 47. doi:10.1016/0076-6879(67)10010-4 4. Fink, M.P., 2002. Bench-to-bedside review: Cytopathic hypoxia. Critical Care 2002 14:6 6, 491– 499. 5. Fosslien, E., 2001. Mitochondrial medicine--molecular pathology of defective oxidative phosphorylation. Ann. Clin. Lab. Sci. 31, 25–67. 6. Gnaiger, E., Steinlechner-Maran, R., Méndez, G., Eberl, T., Margreiter, R., 1995. Control of mitochondrial and cellular respiration by oxygen. J Bioenerg Biomembr 27, 583–596. doi:10.1007/BF02111656 7. Gottrup, F., Firmin, R., Hunt, T.K., Mathes, S.J., 1984. The dynamic properties of tissue oxygen in healing flaps. Surgery 95, 527–536. 8. Harms, F.A., Bodmer, S.I.A., Raat, N.J.H., Mik, E.G., 2015a. Non-invasive monitoring of mitochondrial oxygenation and respiration in critical illness using a novel technique. Crit Care 19, 343. doi:10.1186/s13054-015-1056-9 9. Harms, F.A., Bodmer, S.I.A., Raat, N.J.H., Mik, E.G., 2015b. Cutaneous mitochondrial respirometry: non-invasive monitoring of mitochondrial function. J Clin Monit Comput 29, 509– 519. doi:10.1007/s10877-014-9628-9 10. Harms, F.A., Bodmer, S.I.A., Raat, N.J.H., Stolker, R.J., Mik, E.G., 2012. Validation of the protoporphyrin IX–triplet state lifetime technique for mitochondrial oxygen measurements in the skin. Opt. Lett., OL 37, 2625–2627. doi:10.1364/OL.37.002625 11. Harms, F.A., de Boon, W.M.I., Balestra, G.M., Bodmer, S.I.A., Johannes, T., Stolker, R.J., Mik, E.G., 2011. Oxygen-dependent delayed fluorescence measured in skin after topical application of 5-aminolevulinic acid. Journal of Biophotonics 4, 731–739. doi:10.1002/jbio.201100040 12. Harms, F.A., Stolker, R.J., Mik, E., 2016. Cutaneous Respirometry as Novel Technique to Monitor Mitochondrial Function: A Feasibility Study in Healthy Volunteers. PLoS ONE 11, e0159544. doi:10.1371/journal.pone.0159544 13. Harms, F.A., Voorbeijtel, W.J., Bodmer, S.I.A., Raat, N.J.H., Mik, E.G., 2013. Cutaneous respirometry by dynamic measurement of mitochondrial oxygen tension for monitoring mitochondrial function in vivo. Mitochondrion 13, 507–514. doi:10.1016/j.mito.2012.10.005 14. Jeger, V., Djafarzadeh, S., Jakob, S.M., Takala, J., 2013. Mitochondrial function in sepsis. Eur. J. Clin. Invest. 43, 532–542. doi:10.1111/eci.12069 15. Kawaguchi, H., Hizuta, A., Tanaka, N., Orita, K., 1995. Role of endotoxin in wound healing impairment. Res. Commun. Mol. Pathol. Pharmacol. 89, 317–327.
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