Author Index Volume 63 (2016)

Aderhold, N., see Rohm, I. 257–265

Alkan, F.A., see Ergun, D.D. 313–324

An, X., H. Zhang, Y. Sun and X. Ma, The microcirculatory failure could not weaken the increase of systematic oxygen extraction rate in septic shock: An observational study in canine models 267–279

Andreas, E., see Pistulli, R. 153–162

Arató, E., see Jancsó, G. 217–234

Arato, E., see Kenyeres, P. 235–243

Arbel, Y., see Perl, M.L. 35–43

Aslan, M., see Cengiz, M. 57–67

Baertschi, M., P. Dayhaw-Barker and J. Flammer, The effect of hypoxia on intra-ocular, mean arterial, retinal venous and ocular perfusion pressures 293–303

Baertschi, M., see Neumann, T. 281–292

Balabani, S., see Kaliviotis, E. 123–148

Ballas, S.K. and P. Connes, The paradox of the serrated sickle erythrocyte: The importance of the red blood cell membrane topography 149–152

Banai, S., see Perl, M.L. 35–43

Barros, M.A., see Lima, C. 423–437

Basralı, F., see Cengiz, M. 57–67

Bauknecht, E., see Kuss, N. 3–14

Bialczak, J.K., see Sloop, G.D. 349–359

Bischof, S., see Brinkmann, C. 173–184

Bizjak, D.A., see Brinkmann, C. 173–184

Bloch, W., see Brinkmann, C. 173–184

Bloch, W., see Grau, M. 185–197

Bloch, W., see Grau, M. 199–215

Brenig, J., see Grau, M. 199–215

Brinkmann, C., D.A. Bizjak, S. Bischof, J. Latsch, K. Brixius, W. Bloch and M. Grau, Endurance training alters enzymatic and rheological properties of red blood cells (RBC) in type 2 diabetic men during in vivo RBC aging 173–184

Brixius, K., see Brinkmann, C. 173–184

Brückmann, A., see Neumann, T. 281–292

Caimi, G., R. Lo Presti, M. Montana, C. Urso, B. Canino and E. Hopps, Lipid peroxidation and nitric oxide metabolites in a group of subjects with obstructive sleep apnea syndrome 163–168

Cakmak, G., see Ergun, D.D. 313–324

Canino, B., see Caimi, G. 163–168

Cengiz, M., P. Ülker, M. Üyüklü, N. Yaraş, N. Özen, M. Aslan, D. Özyurt and F. Basralı, Effect of magnesium supplementation on blood rheology in NOS inhibition-induced hypertension model 57–67

Chen, Q., L. Lang, B. Xiao, H. Lin, A. Yang, H. Li, S. Tang and H. Huang, HTR1B gene variants associate with the susceptibility of Raynauds’ phenomenon in workers exposed hand-arm vibration 335–347

Cho, J.R., C.Y. Lee, J. Lee, H.-H. Seo, E. Choi, N. Chung, S.-M. Kim, K.-C. Hwang and S. Lee, MicroRNA-761 inhibits Angiotensin II-induced vascular smooth muscle cell proliferation and migration by targeting mammalian target of rapamycin 45–56

Choi, E., see Cho, J.R. 45–56

Chung, N., see Cho, J.R. 45–56

Clevert, D.A., see Reimann, R. 77–87

Clevert, D.A., see Rübenthaler, J. 89–97

Clevert, D.A., see Zimmermann, H. 99–111

Connes, P., see Ballas, S.K. 149–152

Cui, D., see Li, H. 411–421

Dai, L., see Li, H. 411–421

Dayhaw-Barker, P., see Baertschi, M. 293–303

de Carvalho, M., see Lima, C. 423–437

Drinda, S., see Neumann, T. 281–292

Dusting, J., see Kaliviotis, E. 123–148

Elbaz, M., see Perl, M.L. 35–43

Ercan, M., see Ergun, D.D. 313–324

Ergun, D.D., D. Karis, F.A. Alkan, G. Cakmak, M. Yenigun and M. Ercan, Effects of cigarette smoking on hemorheologic parameters, plasma osmolality and lung function 313–324

Fazekas, G., see Jancsó, G. 217–234

Felbinger, C., see Kuss, N. 3–14

Feng, J., see Liu, C. 399–410

Figulla, H.-R., see Pistulli, R. 153–162

Figulla, H.R., see Rohm, I. 257–265

Finkelstein, A., see Perl, M.L. 35–43

Flammer, J., see Baertschi, M. 293–303

Franz, M., see Neumann, T. 281–292

Franz, M., see Rohm, I. 257–265

Freitas, T., see Lima, C. 423–437

Gasz, B., see Jancsó, G. 217–234

Gecks, T., see Rohm, I. 257–265

Gehm, J., see Kuss, N. 3–14

Gehm, L., see Kuss, N. 3–14

Goebel, B., see Grau, M. 199–215

Goebel, B., see Rohm, I. 257–265

Grau, M., A. Kollikowski and W. Bloch, Remote ischemia preconditioning increases red blood cell deformability through red blood cell-nitric oxide synthase activation 185–197

Grau, M., A. Lauten, S. Hoeppener, B. Goebel, J. Brenig, C. Jung, W. Bloch and F. Suhr, Regulation of red blood cell deformability is independent of red blood cell-nitric oxide synthase under hypoxia 199–215

Grau, M., see Brinkmann, C. 173–184

Halkin, A., see Perl, M.L. 35–43

Han, D., see Li, H. 411–421

Han, D., see Liu, C. 399–410

Hardi, P., see Jancsó, G. 217–234

Havakuk, O., see Perl, M.L. 35–43

Helck, A., see Zimmermann, H. 99–111

Herz, I., see Perl, M.L. 35–43

Hoeppener, S., see Grau, M. 199–215

Hopps, E., see Caimi, G. 163–168

Hristova, P., see Reimann, R. 77–87

Hristova, P., see Rübenthaler, J. 89–97

Hu, K., see Kang, J. 245–255

Huang, B.-J., see Xue, L.-Y. 361–371

Huang, H., see Chen, Q. 335–347

Hwang, K.-C., see Cho, J.R. 45–56

Jancsó, G., E. Arató, P. Hardi, T. Nagy, Ö. Pintér, G. Fazekas, B. Gasz, I. Takacs, G. Menyhei, L. Kollar and L. Sínay, Controlled reperfusion decreased reperfusion induced oxidative stress and evoked inflammatory response in experimental aortic-clamping animal model 217–234

Jancso, G., see Kenyeres, P. 235–243

Janke, M., see Wendl, C.M. 113–121

Jung, C., F. Jung and M. Kelm, The microcirculation in hypoxia: The center of the battlefield for oxygen 169–172

Jung, C., see Grau, M. 199–215

Jung, C., see Neumann, T. 281–292

Jung, C., see Pistulli, R. 153–162

Jung, C., see Rohm, I. 257–265

Jung, E.M., see Wendl, C.M. 113–121

Jung, F., see Jung, C. 169–172

Jung, W., see Wendl, C.M. 113–121

Kaliviotis, E., J. Dusting, J.M. Sherwood and S. Balabani, Quantifying local characteristics of velocity, aggregation and hematocrit of human erythrocytes in a microchannel flow 123–148

Kang, J., Y. Li, K. Hu, W. Lu, X. Zhou, S. Yu and L. Xu, Chronic intermittent hypoxia versus continuous hypoxia: Same effects on hemorheology? 245–255

Karis, D., see Ergun, D.D. 313–324

Kelm, M., see Jung, C. 169–172

Kenyeres, P., L. Sinay, G. Jancso, M. Rabai, A. Toth, K. Toth and E. Arato, Controlled reperfusion reduces hemorheological alterations in a porcine infrarenal aortic-clamping ischemia-reperfusion model 235–243

Keren, G., see Perl, M.L. 35–43

Kim, S.-M., see Cho, J.R. 45–56

Kim, Y.H., see Myung, J. 305–312

Kiss, F., see Nemeth, N. 381–398

Kollar, L., see Jancsó, G. 217–234

Kollikowski, A., see Grau, M. 185–197

Koutsiaris, A.G., Wall shear stress in the human eye microcirculation in vivo, segmental heterogeneity and performance of in vitro cerebrovascular models 15–33

Kretzschmar, D., see Pistulli, R. 153–162

Kuehlmann, B. and L. Prantl, Breast implants and possible association with ALCL: A retrospective study including a histological analysis of 296 explanted breast tissues and current literature 439–449

Kuss, N., E. Bauknecht, C. Felbinger, J. Gehm, L. Gehm, J. Pöschl and P. Ruef, Determination of whole blood and plasma viscosity in term neonates by flow curve analysis with the LS300 viscometer 3–14

Lang, L., see Chen, Q. 335–347

Latsch, J., see Brinkmann, C. 173–184

Lauten, A., see Grau, M. 199–215

Leach, J.K., see Thummala, A.S. 373–379

Lee, C.-H., see Moon, H.-W. 451–460

Lee, C.Y., see Cho, J.R. 45–56

Lee, J., see Cho, J.R. 45–56

Lee, S., see Cho, J.R. 45–56

Li, C.-X., see Xue, L.-Y. 361–371

Li, D., see Liu, C. 399–410

Li, H., C. Yang, K. Lu, L. Zhang, J. Yang, F. Wang, D. Liu, D. Cui, M. Sun, J. Pang, L. Dai, D. Han and F. Liao, A long-distance fluid transport pathway within fibrous connective tissues in patients with ankle edema 411–421

Li, H., see Chen, Q. 335–347

Li, X., see Liu, C. 399–410

Li, Y., see Kang, J. 245–255

Li, Y., see Wu, Q. 325–334

Liao, F., see Li, H. 411–421

Liao, F., see Liu, C. 399–410

Lim, C.H., see Myung, J. 305–312

Lim, J., see Myung, J. 305–312

Lima, C., S. Pinto, P. Napoleão, A.C. Pronto-Laborinho, M.A. Barros, T. Freitas, M. de Carvalho and C. Saldanha, Identification of erythrocyte biomarkers in amyotrophic lateral sclerosis 423–437

Lin, H., see Chen, Q. 335–347

Liu, C., X. Li, J. Feng, F. Liao, D. Li and D. Han, Substrate stiffness modulates mRNA expression profiling in breast cancer cells 399–410

Liu, D., see Li, H. 411–421

Lo Presti, R., see Caimi, G. 163–168

Lu, K., see Li, H. 411–421

Lu, Q., see Xue, L.-Y. 361–371

Lu, W., see Kang, J. 245–255

Ma, X., see An, X. 267–279

Menyhei, G., see Jancsó, G. 217–234

Michalska-Małecka, K., D. Śpiewak, L. Słowińska-Łożyńska and J. Sierocka-Stępień, Influence of hemorheological factors on the development of retinal vein occlusion 69–76

Montana, M., see Caimi, G. 163–168

Moon, H.-W., S.-H. Shin, C.-H. Lee, H.-Y. Park, S. Sunoo and S.-S. Nam, Effects of various acute hypoxic conditions on the hemorheological response during exercise and recovery 451–460

Myung, J., S.J. Park, J. Lim, Y.H. Kim, S. Shin and C.H. Lim, Effects of lipopolysaccharide on changes in red blood cells in a mice endotoxemia model 305–312

Nagy, T., see Jancsó, G. 217–234

Nam, S.-S., see Moon, H.-W. 451–460

Napoleão, P., see Lima, C. 423–437

Nemeth, N., V. Sogor, F. Kiss and P. Ulker, Interspecies diversity of erythrocyte mechanical stability at various combinations in magnitude and duration of shear stress, and osmolality 381–398

Neumann, T., M. Baertschi, W. Vilser, S. Drinda, M. Franz, A. Brückmann, G. Wolf and C. Jung, Retinal vessel regulation at high altitudes 281–292

O’Rear, E.A., see Thummala, A.S. 373–379

Özen, N., see Cengiz, M. 57–67

Özyurt, D., see Cengiz, M. 57–67

Pang, J., see Li, H. 411–421

Park, H.-Y., see Moon, H.-W. 451–460

Park, S.J., see Myung, J. 305–312

Patterson, E., see Thummala, A.S. 373–379

Perl, M.L., O. Havakuk, A. Finkelstein, A. Halkin, M. Revivo, M. Elbaz, I. Herz, G. Keren, S. Banai and Y. Arbel, High red blood cell distribution width is associated with the metabolic syndrome 35–43

Pintér, Ö., see Jancsó, G. 217–234

Pinto, S., see Lima, C. 423–437

Pistulli, R., F. Quitter, E. Andreas, I. Rohm, D. Kretzschmar, H.-R. Figulla, A. Yilmaz and C. Jung, Intravital microscopy – A novel tool in characterizing congestive heart failure in experimental autoimmune myocarditis 153–162

Pistulli, R., see Rohm, I. 257–265

Pöschl, J., see Kuss, N. 3–14

Prantl, L., see Kuehlmann, B. 439–449

Pronto-Laborinho, A.C., see Lima, C. 423–437

Quitter, F., see Pistulli, R. 153–162

Rabai, M., see Kenyeres, P. 235–243

Ratka, J., see Rohm, I. 257–265

Reimann, R., J. Rübenthaler, P. Hristova, M. Staehler, M. Reiser and D.A. Clevert, Characterization of histological subtypes of clear cell renal cell carcinoma using contrast-enhanced ultrasound (CEUS) 77–87

Reimann, R., see Rübenthaler, J. 89–97

Reimann, R., see Zimmermann, H. 99–111

Reiser, M., see Reimann, R. 77–87

Reiser, M., see Rübenthaler, J. 89–97

Reiser, M., see Zimmermann, H. 99–111

Revivo, M., see Perl, M.L. 35–43

Rjosk-Dendorfer, D., see Zimmermann, H. 99–111

Rohm, I., N. Aderhold, J. Ratka, B. Goebel, M. Franz, R. Pistulli, T. Gecks, H.R. Figulla, A. Yilmaz and C. Jung, Hypobaric hypoxia in 3000 m altitude leads to a significant decrease in circulating plasmacytoid dendritic cells in humans 257–265

Rohm, I., see Pistulli, R. 153–162

Rübenthaler, J., R. Reimann, P. Hristova, M. Staehler, M. Reiser and D.A. Clevert, Parametric imaging of clear cell and papillary renal cell carcinoma using contrast-enhanced ultrasound (CEUS) 89–97

Rübenthaler, J., see Reimann, R. 77–87

Rübenthaler, J., see Zimmermann, H. 99–111

Ruef, P., see Kuss, N. 3–14

Śpiewak, D., see Michalska-Małecka, K. 69–76

Saldanha C., see Lima, C. 423–437

Seo, H.-H., see Cho, J.R. 45–56

Sherwood, J.M., see Kaliviotis, E. 123–148

Shin, S., see Myung, J. 305–312

Shin, S.-H., see Moon, H.-W. 451–460

Sierocka-Stępień, J., see Michalska-Małecka, K. 69–76

Sínay, L., see Jancsó, G. 217–234

Sinay, L., see Kenyeres, P. 235–243

Sloop, G.D., J.K. Bialczak, J.J. Weidman and J.A. St. Cyr, Uric acid increases erythrocyte aggregation: Implications for cardiovascular disease 349–359

Słowińska-Łożyńska, L., see Michalska-Małecka, K. 69–76

Sogor, V., see Nemeth, N. 381–398

St. Cyr, J.A., see Sloop, G.D. 349–359

Staehler, M., see Reimann, R. 77–87

Staehler, M., see Rübenthaler, J. 89–97

Stroszczysnski, C., see Wendl, C.M. 113–121

Suhr, F., see Grau, M. 199–215

Sun, M., see Li, H. 411–421

Sun, Y., see An, X. 267–279

Sunoo, S., see Moon, H.-W. 451–460

Takacs, I., see Jancsó, G. 217–234

Tang, S., see Chen, Q. 335–347

Thummala, A.S., J.K. Leach, E. Patterson and E.A. O’Rear, Effect of encapsulation on plasminogen activator delivery to the microcirculation and its implications for bleeding 373–379

Toth, A., see Kenyeres, P. 235–243

Toth, K., see Kenyeres, P. 235–243

Ülker, P., see Cengiz, M. 57–67

Ulker, P., see Nemeth, N. 381–398

Urso, C., see Caimi, G. 163–168

Üyüklü, M., see Cengiz, M. 57–67

Vilser, W., see Neumann, T. 281–292

Wang, F., see Li, H. 411–421

Wang, W.-P., see Xue, L.-Y. 361–371

Wang, Y., see Wu, Q. 325–334

Weidman, J.J., see Sloop, G.D. 349–359

Wendl, C.M., M. Janke, W. Jung, C. Stroszczysnski and E.M. Jung, Contrast-enhanced ultrasound with perfusion analysis for the identification of malignant and benign tumours of the thyroid gland 113–121

Wolf, G., see Neumann, T. 281–292

Wu, Q., Y. Li and Y. Wang, Diagnostic value of “absent” pattern in contrast-enhanced ultrasound for the differentiation of thyroid nodules 325–334

Xiao, B., see Chen, Q. 335–347

Xu, L., see Kang, J. 245–255

Xue, L.-Y., Q. Lu, B.-J. Huang, C.-X. Li, L.-X. Yan and W.-P. Wang, Differentiation of subtypes of renal cell carcinoma with contrast-enhanced ultrasonography 361–371

Yan, L.-X., see Xue, L.-Y. 361–371

Yang, A., see Chen, Q. 335–347

Yang, C., see Li, H. 411–421

Yang, J., see Li, H. 411–421

Yaraş, N., see Cengiz, M. 57–67

Yenigun, M., see Ergun, D.D. 313–324

Yilmaz, A., see Pistulli, R. 153–162

Yilmaz, A., see Rohm, I. 257–265

Yu, S., see Kang, J. 245–255

Zhang, H., see An, X. 267–279

Zhang, L., see Li, H. 411–421

Zhou, X., see Kang, J. 245–255

Zimmermann, H., J. Rübenthaler, D. Rjosk-Dendorfer, A. Helck, R. Reimann, M. Reiser and D.A. Clevert, Comparison of portable ultrasound system and high end ultrasound system in detection of endoleaks 99–111