Mark Wefers Bettink

Interim analysis; Feasibility study of measurement of mitochondrial function in patients with sepsis 7 143 17. Sperl W, Skladal D, Gnaiger E, et al.: High resolution respirometry of permeabilized skeletal muscle fibers in the diagnosis of neuromuscular disorders. Molecular and Cellular Biochemistry 1997; 174:71–78 18. Puskarich MA, Kline JA, Watts JA, et al.: Early alterations in platelet mitochondrial function are associated with survival and organ failure in patients with septic shock. J Crit Care 2016; 31:63– 67 19. Sjövall F, Morota S, Hansson MJ, et al.: Temporal increase of platelet mitochondrial respiration is negatively associated with clinical outcome in patients with sepsis. Critical Care 2010; 14:1 20. Harms FA, Bodmer SIA, Raat NJH, et al.: Cutaneous mitochondrial respirometry: non-invasive monitoring of mitochondrial function. Journal of clinical monitoring and computing 2015; 29:509– 519 21. Harms FA, Voorbeijtel WJ, Bodmer SIA, et al.: Cutaneous respirometry by dynamic measurement of mitochondrial oxygen tension for monitoring mitochondrial function in vivo. Mitochondrion 2013; 13:507–514 22. Harms FA, Mik EG: In Vivo Assessment of Mitochondrial Oxygen Consumption. Springer New York; 2015. p. 219–229. 23. Ubbink R, Bettink MAW, Janse R, et al.: A monitor for Cellular Oxygen METabolism (COMET): monitoring tissue oxygenation at the mitochondrial level. Journal of clinical monitoring and computing 2016; 1–8 24. Petrus A, Ratiu C, Noveanu L, et al.: Assessment of Mitochondrial Respiration in Human Platelets. Rev Chim-bucharest 2017; 68:768–771 25. Caro VD, Walko TD, Bola RA, et al.: Plasma Mitochondrial DNA-a Novel DAMP in Pediatric Sepsis. Shock (Augusta, Ga) 2016; 45:506–511 26. Sjövall F, Ehinger JKH, Marelsson SE, et al.: Mitochondrial respiration in human viable platelets— Methodology and influence of gender, age and storage. Mitochondrion 2013; 13:7–14