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Author Index

Abrahamson, E.E., S.M. Poloyac, C.E. Dixon, S.T. Dekosky and M.D. Ikonomovic, Acute and chronic effects of single dose memantine after controlled cortical impact injury in adult rats (3) 245–263

Allendorfer, J.B., see Gaston, T.E. (5) 457–468

Amedi, A., see Cieśla, K. (2) 155–166

Angelov, D.N., see Bendella, H. (2) 181–196

Antal, A. and B. Sabel, Low vision: Rescue, regeneration, restoration and rehabilitation (6) 523–524

Auvray, M., Multisensory and spatial processes in sensory substitution (6) 609–619

Bakalkin, G., see Kononenko, O. (2) 87–96

Bakker, C.D., M. Massa, A. Daffertshofer, J.W. Pasman, A.A. van Kuijk, G. Kwakkel and D.F. Stegeman, The addition of the MEP amplitude of finger extension muscles to clinical predictors of hand function after stroke: A prospective cohort study (5) 445–456

Banerjee, S., see Pitchaimuthu, K. (6) 583–590

Bartolo, M., see Digiacomo, F. (3) 239–244

Beattie, J.F., see Gaston, T.E. (5) 457–468

Beaulieu, L.-D., A.K. Blanchette, C. Mercier, V. Bernard-Larocque and M.-H. Milot, Efficacy, safety, and tolerability of bilateral transcranial direct current stimulation combined to a resistance training program in chronic stroke survivors: A double-blind, randomized, placebo-controlled pilot study (4) 333–346

Bendella, H., S. Rink, M. Manthou, T. Papamitsou, M. Nakamura, D.N. Angelov and L. Sarikcioglu, Effect of surgically guided axonal regrowth into a 3-way-conduit (isogeneic trifurcated aorta) on functional recovery after facial-nerve reconstruction: Experimental study in rats (2) 181–196

Benowitz, L.I., see Yin, Y. (6) 525–544

Bernard-Larocque, V., see Beaulieu, L.-D. (4) 333–346

Bhatt, T., see Dusane, S. (5) 469–482

Blanchette, A.K., see Beaulieu, L.-D. (4) 333–346

Borich, M.R., see Neva, J.L. (3) 273–290

Bottari, D., see Pitchaimuthu, K. (6) 583–590

Bowley, B.G.E., see Moore, T.L. (4) 347–362

Boyd, L.A., see Neva, J.L. (3) 273–290

Brown, K.E., see Neva, J.L. (3) 273–290

Brugnera, A., see Picelli, A. (2) 97–107

Buller, B., see Moore, T.L. (4) 347–362

Calderazzo, S.M., see Moore, T.L. (4) 347–362

Cao, B., see Zhang, L.Y. (1) 11–19

Carratalá-Tejada, M., see Cuesta-Gómez, A. (3) 231–238

Casale, R., see Digiacomo, F. (3) 239–244

Casamento-Moran, A., see Lodha, N. (5) 509–521

Chamoun, M., see Vaucher, E. (6) 553–569

Chang, J., see Edwards, D.J. (2) 167–180

Chemello, E., see Picelli, A. (2) 97–107

Chen, C., see Sun, X. (5) 497–507

Chen, H., J. Zheng and J. Ma, Vanillin ameliorates changes in HIF-1α expression and neuronal apoptosis in a rat model of spinal cord injury (1) 21–29

Chen, J.-L., see Pei, Y.-C. (4) 409–419

Chen, L., see Zhang, L. (2) 131–141

Cheng, X., see Wang, H. (4) 315–331

Cheng, Y.-P., see Pei, Y.-C. (4) 409–419

Choi, T.W., see Noh, J.S. (3) 219–230

Chopp, M., see Moore, T.L. (4) 347–362

Christou, E.A., see Lodha, N. (5) 509–521

Cieśla, K., T. Wolak, A. Lorens, B. Heimler, H. Skarżyński and A. Amedi, Immediate improvement of speech-in-noise perception through multisensory stimulation via an auditory to tactile sensory substitution (2) 155–166

Clausen, F., see Kononenko, O. (2) 87–96

Cortes, M., see Edwards, D.J. (2) 167–180

Cuesta-Gómez, A., M. Carratalá-Tejada, F. Molina-Rueda and J.C. Miangolarra-Page, Functional electrical stimulation improves reaching movement in the shoulder and elbow muscles of stroke patients: A three-dimensional motion analysis (3) 231–238

Dada, R., see Gautam, S. (1) 41–59

Daffertshofer, A., see Bakker, C.D. (5) 445–456

de Erausquin, G.A., see Ortiz, T. (3) 197–206

Dekosky, S.T., see Abrahamson, E.E. (3) 245–263

De Lima, S., see Yin, Y. (6) 525–544

Delorme, M., G. Vergotte, S. Perrey, J. Froger and I. Laffont, Time course of sensorimotor cortex reorganization during upper extremity task accompanying motor recovery early after stroke: An fNIRS study (3) 207–218

Digiacomo, F., S. Tamburin, S. Tebaldi, M. Pezzani, M. Tagliafierro, R. Casale and M. Bartolo, Improvement of motor performance in children with cerebral palsy treated with exoskeleton robotic training: A retrospective explorative analysis (3) 239–244

Dixon, C.E., see Abrahamson, E.E. (3) 245–263

Dohle, C., see Morkisch, N. (5) 421–435

Duan, Q., see Sun, X. (5) 497–507

Duret, C., O. Pila, A.-G. Grosmaire and T. Koeppel, Can robot-based measurements improve prediction of motor performance after robot-assisted upper-limb rehabilitation in patients with moderate-to-severe sub-acute stroke? (2) 119–129

Dusane, S., E. Wang and T. Bhatt, Transfer of reactive balance adaptation from stance-slip perturbation to stance-trip perturbation in chronic stroke survivors (5) 469–482

Edwards, D.J., M. Cortes, A. Rykman-Peltz, J. Chang, J. Elder, G. Thickbroom, J.J. Mariman, L.M. Gerber, C. Oromendia, H.I. Krebs, F. Fregni, B.T. Volpe and A. Pascual-Leone, Clinical improvement with intensive robot-assisted arm training in chronic stroke is unchanged by supplementary tDCS (2) 167–180

Elder, J., see Edwards, D.J. (2) 167–180

Filippetti, M., see Picelli, A. (2) 97–107

Finklestein, S., see Moore, T.L. (4) 347–362

Fong, K.N.K., see Zhang, J.J. (5) 483–495

Fornaro, M., see Jaminet, P. (3) 265–272

Fregni, F., see Edwards, D.J. (2) 167–180

Froger, J., see Delorme, M. (3) 207–218

Gandolfi, M., see Picelli, A. (2) 97–107

Gao, X.M., see Orgah, J.O. (4) 375–395

Gaston, T.E., S. Nair, J.B. Allendorfer, R.C. Martin, J.F. Beattie and J.P. Szaflarski, Memory response and neuroimaging correlates of a novel cognitive rehabilitation program for memory problems in epilepsy: A pilot study (5) 457–468

Gautam, S., M. Tolahunase, U. Kumar and R. Dada, Impact of yoga based mind-body intervention on systemic inflammatory markers and co-morbid depression in active Rheumatoid arthritis patients: A randomized controlled trial (1) 41–59

Gerber, L.M., see Edwards, D.J. (2) 167–180

Geuna, S., see Jaminet, P. (3) 265–272

Gilbert, H.-Y., see Yin, Y. (6) 525–544

Go, V., see Moore, T.L. (4) 347–362

Grabska-Liberek, I., see Terelak-Borys, B. (1) 31–39

Grosmaire, A.-G., see Duret, C. (2) 119–129

Guan, M., see Wang, H. (4) 315–331

Guo, R., see Li, H.-Y. (6) 571–581

Hanovice, N.J., see Yin, Y. (6) 525–544

Harbaugh, A.G., see Moore, T.L. (4) 347–362

Harrell, J., see Lodha, N. (5) 509–521

He, Q., B.-R. Lin, J. Zhao, Y.-Z. Shi, F.-F. Yan and C.-B. Huang, No effects of anodal transcranial direct current stimulation on contrast sensitivity function (2) 109–118

Heimler, B., see Cieśla, K. (2) 155–166

Higgins, M.-C., see Vaucher, E. (6) 553–569

Hong, X., see Li, H.-Y. (6) 571–581

Hu, Y., see Huang, H. (6) 545–552

Huang, C.-B., see He, Q. (2) 109–118

Huang, H., S. Kaur and Y. Hu, Lab review: Molecular dissection of the signal transduction pathways associated with PTEN deletion-induced optic nerve regeneration (6) 545–552

Huang, J.-J., see Pei, Y.-C. (4) 409–419

Huang, M.-X., see Lawton, T. (1) 71–86

Ikonomovic, M.D., see Abrahamson, E.E. (3) 245–263

Jakovcevski, I., see Kleene, R. (4) 291–313

Jaminet, P., M. Schäufele, A. Mager, M. Fornaro, G. Ronchi, S. Geuna, H.-E. Schaller, P. Rosenberger and D. Köhler, Expression patterns and functional evaluation of RGMa during the early phase of peripheral nerve regeneration using the mouse median nerve model (3) 265–272

Jang, S.G., see Noh, J.S. (3) 219–230

Jolicoeur, P., see Vaucher, E. (6) 553–569

Ju, F., see Sun, X. (5) 497–507

Kaur, S., see Huang, H. (6) 545–552

Kekunnaya, R., see Pitchaimuthu, K. (6) 583–590

Kleene, R., G. Loers, I. Jakovcevski, B. Mishra and M. Schachner, Histone H1 improves regeneration after mouse spinal cord injury and changes shape and gene expression of cultured astrocytes (4) 291–313

Koeppel, T., see Duret, C. (2) 119–129

Konieczka, K., see Terelak-Borys, B. (1) 31–39

Kononenko, O., H. Watanabe, L. Stålhandske, A. Zarelius, F. Clausen, T. Yakovleva, G. Bakalkin and N. Marklund, Focal traumatic brain injury induces neuroplastic molecular responses in lumbar spinal cord (2) 87–96

Krebs, H.I., see Edwards, D.J. (2) 167–180

Krishnan, C., Effect of paired-pulse stimulus parameters on the two phases of short interval intracortical inhibition in the quadriceps muscle group (4) 363–374

Kumar, U., see Gautam, S. (1) 41–59

Kwakkel, G., see Bakker, C.D. (5) 445–456

Köhler, D., see Jaminet, P. (3) 265–272

Laffont, I., see Delorme, M. (3) 207–218

Laliberté, G., see Vaucher, E. (6) 553–569

Langner, I., see Pfannmöller, J. (2) 143–153

Lawton, T. and M.-X. Huang, Dynamic cognitive remediation for a Traumatic Brain Injury (TBI) significantly improves attention, working memory, processing speed, and reading fluency (1) 71–86

Lee, O.-N., see Song, C.-S. (1) 61–70

Li, A., see Li, H.-Y. (6) 571–581

Li, H.-Y., S.-S. Rong, X. Hong, R. Guo, F.-Z. Yang, Y.-Y. Liang, A. Li and K.-F. So, Exercise and retinal health (6) 571–581

Li, J., see Zhang, L. (2) 131–141

Li, S., see Zhang, L. (2) 131–141

Liang, Y.-Y., see Li, H.-Y. (6) 571–581

Lim, J.H., see Noh, J.S. (3) 219–230

Lin, B.-R., see He, Q. (2) 109–118

Lin, C.-H., see Pei, Y.-C. (4) 409–419

Linag, Y., see Wang, H. (4) 315–331

Liu, F., see Tao, D. (4) 397–407

Liu, J., see Zhang, L. (2) 131–141

Liu, X., see Orgah, J.O. (4) 375–395

Liu, Y., see Wang, H. (4) 315–331

Lodha, N., P. Patel, J. Harrell, A. Casamento-Moran, V. Zablocki, E.A. Christou and S.N. Poisson, Motor impairments in transient ischemic attack increase the odds of a positive diffusion-weighted imaging: A meta-analysis (5) 509–521

Loers, G., see Kleene, R. (4) 291–313

Long, H., see Sun, X. (5) 497–507

Lorens, A., see Cieśla, K. (2) 155–166

Lotze, M., see Pfannmöller, J. (2) 143–153

Luo, Y., see Wang, H. (4) 315–331

Ma, J., see Chen, H. (1) 21–29

Mager, A., see Jaminet, P. (3) 265–272

Maheux, M., see Vaucher, E. (6) 553–569

Mang, C.S., see Neva, J.L. (3) 273–290

Manthou, M., see Bendella, H. (2) 181–196

Mariman, J.J., see Edwards, D.J. (2) 167–180

Marklund, N., see Kononenko, O. (2) 87–96

Martin, R.C., see Gaston, T.E. (5) 457–468

Massa, M., see Bakker, C.D. (5) 445–456

Mattiuz, N., see Picelli, A. (2) 97–107

Medalla, M., see Moore, T.L. (4) 347–362

Meehan, S.K., see Neva, J.L. (3) 273–290

Mercier, C., see Beaulieu, L.-D. (4) 333–346

Miangolarra-Page, J.C., see Cuesta-Gómez, A. (3) 231–238

Milot, M.-H., see Beaulieu, L.-D. (4) 333–346

Mishra, B., see Kleene, R. (4) 291–313

Modenese, A., see Picelli, A. (2) 97–107

Molina-Rueda, F., see Cuesta-Gómez, A. (3) 231–238

Moore, T.L., B.G.E. Bowley, M.A. Pessina, S.M. Calderazzo, M. Medalla, V. Go, Z.G. Zhang, M. Chopp, S. Finklestein, A.G. Harbaugh, D.L. Rosene and B. Buller, Mesenchymal derived exosomes enhance recovery of motor function in a monkey model of cortical injury (4) 347–362

Morkisch, N., H. Thieme and C. Dohle, How to perform mirror therapy after stroke? Evidence from a meta-analysis (5) 421–435

Mou, X., see Sun, X. (5) 497–507

Nair, S., see Gaston, T.E. (5) 457–468

Nakamura, M., see Bendella, H. (2) 181–196

Neva, J.L., K.E. Brown, K.P. Wadden, C.S. Mang, M.R. Borich, S.K. Meehan and L.A. Boyd, The effects of five sessions of continuous theta burst stimulation over contralesional sensorimotor cortex paired with paretic skilled motor practice in people with chronic stroke (3) 273–290

Noh, J.S., J.H. Lim, T.W. Choi, S.G. Jang and S.-B. Pyun, Effects and safety of combined rTMS and action observation for recovery of function in the upper extremities in stroke patients: A randomized controlled trial (3) 219–230

Orgah, E.A., see Orgah, J.O. (4) 375–395

Orgah, J.O., J. Ren, X. Liu, E.A. Orgah, X.M. Gao and Y. Zhu, Danhong injection facilitates recovery of post-stroke motion deficit via Parkin-enhanced mitochondrial function (4) 375–395

Oromendia, C., see Edwards, D.J. (2) 167–180

Ortiz, T., L. Ortiz-Teran, A. Turrero, J. Poch-Broto and G.A. de Erausquin, A N400 ERP Study in letter recognition after passive tactile stimulation training in blind children and sighted controls (3) 197–206

Ortiz-Teran, L., see Ortiz, T. (3) 197–206

Ou, R.W., see Zhang, L.Y. (1) 11–19

Papamitsou, T., see Bendella, H. (2) 181–196

Pascual-Leone, A., see Edwards, D.J. (2) 167–180

Pasman, J.W., see Bakker, C.D. (5) 445–456

Patel, P., see Lodha, N. (5) 509–521

Pei, Y.-C., Y.-P. Cheng, J.-L. Chen, C.-H. Lin, C.-J. Wen and J.-J. Huang, Early recovery of neuronal functioning in the sensory cortex after nerve reconstruction surgery (4) 409–419

Perrey, S., see Delorme, M. (3) 207–218

Pessina, M.A., see Moore, T.L. (4) 347–362

Peterson, S.L., see Yin, Y. (6) 525–544

Pezzani, M., see Digiacomo, F. (3) 239–244

Pfannmöller, J., S. Strauss, I. Langner, T. Usichenko and M. Lotze, Investigations on maladaptive plasticity in the sensorimotor cortex of unilateral upper limb CRPS I patients (2) 143–153

Picelli, A., A. Brugnera, M. Filippetti, N. Mattiuz, E. Chemello, A. Modenese, M. Gandolfi, A. Waldner, L. Saltuari and N. Smania, Effects of two different protocols of cerebellar transcranial direct current stimulation combined with transcutaneous spinal direct current stimulation on robot-assisted gait training in patients with chronic supratentorial stroke: A single blind, randomized controlled trial (2) 97–107

Pila, O., see Duret, C. (2) 119–129

Pitchaimuthu, K., S. Sourav, D. Bottari, S. Banerjee, I. Shareef, R. Kekunnaya and B. Röder, Color vision in sight recovery individuals (6) 583–590

Poch-Broto, J., see Ortiz, T. (3) 197–206

Poisson, S.N., see Lodha, N. (5) 509–521

Poloyac, S.M., see Abrahamson, E.E. (3) 245–263

Pyun, S.-B., see Noh, J.S. (3) 219–230

Qin, A., Q. Zhang, J. Wang, I. Sayeed and D.G. Stein, Is a combination of progesterone and chloroquine more effective than either alone in the treatment of cerebral ischemic injury? (1) 1–10

Qu, H., see Tao, D. (4) 397–407

Ramachandran, V.S. and D. Rogers-Ramachandran, Mirror feedback assisted recovery from hemiparesis following stroke. In Reply to Morkisch et al.: How to perform mirror therapy after stroke? Evidence from a meta-analysis (5) 437–443

Ren, J., see Orgah, J.O. (4) 375–395

Rink, S., see Bendella, H. (2) 181–196

Rogers-Ramachandran, D., see Ramachandran, V.S. (5) 437–443

Ronchi, G., see Jaminet, P. (3) 265–272

Rong, S.-S., see Li, H.-Y. (6) 571–581

Rosenberger, P., see Jaminet, P. (3) 265–272

Rosene, D.L., see Moore, T.L. (4) 347–362

Rykman-Peltz, A., see Edwards, D.J. (2) 167–180

Röder, B., see Pitchaimuthu, K. (6) 583–590

Sabel, B., see Antal, A. (6) 523–524

Saltuari, L., see Picelli, A. (2) 97–107

Sand, R.M., see Yin, Y. (6) 525–544

Sarikcioglu, L., see Bendella, H. (2) 181–196

Sayeed, I., see Qin, A. (1) 1–10

Schachner, M., see Kleene, R. (4) 291–313

Schaller, H.-E., see Jaminet, P. (3) 265–272

Schoetzau, A., see Terelak-Borys, B. (1) 31–39

Schäufele, M., see Jaminet, P. (3) 265–272

Sergeeva, E.G., see Yin, Y. (6) 525–544

Shang, H.F., see Zhang, L.Y. (1) 11–19

Shareef, I., see Pitchaimuthu, K. (6) 583–590

Shi, Y.-Z., see He, Q. (2) 109–118

Skarżyński, H., see Cieśla, K. (2) 155–166

Smania, N., see Picelli, A. (2) 97–107

So, K.-F., see Li, H.-Y. (6) 571–581

Song, C.-S., O.-N. Lee and H.-S. Woo, Cognitive strategy on upper extremity function for stroke: A randomized controlled trials (1) 61–70

Sourav, S., see Pitchaimuthu, K. (6) 583–590

Stegeman, D.F., see Bakker, C.D. (5) 445–456

Stein, D.G., see Qin, A. (1) 1–10

Strauss, S., see Pfannmöller, J. (2) 143–153

Stålhandske, L., see Kononenko, O. (2) 87–96

Sun, W., see Sun, X. (5) 497–507

Sun, X., H. Long, C. Zhao, Q. Duan, H. Zhu, C. Chen, W. Sun, F. Ju, X. Sun, Y. Zhao, B. Xue, F. Tian, X. Mou and H. Yuan, Analgesia-enhancing effects of repetitive transcranial magnetic stimulation on neuropathic pain after spinal cord injury: An fNIRS study (5) 497–507

Sun, X., see Sun, X. (5) 497–507

Sun, X., see Tao, D. (4) 397–407

Szaflarski, J.P., see Gaston, T.E. (5) 457–468

Tagliafierro, M., see Digiacomo, F. (3) 239–244

Tamburin, S., see Digiacomo, F. (3) 239–244

Tao, D., F. Liu, X. Sun, H. Qu, S. Zhao, Z. Zhou, T. Xiao, C. Zhao and M. Zhao, Bumetanide: A review of its neuroplasticity and behavioral effects after stroke (4) 397–407

Tebaldi, S., see Digiacomo, F. (3) 239–244

Terelak-Borys, B., I. Grabska-Liberek, A. Schoetzau and K. Konieczka, Transient visual field impairment after cold provocation in glaucoma patients with Flammer syndrome (1) 31–39

Thickbroom, G., see Edwards, D.J. (2) 167–180

Thieme, H., see Morkisch, N. (5) 421–435

Tian, F., see Sun, X. (5) 497–507

Tolahunase, M., see Gautam, S. (1) 41–59

Turrero, A., see Ortiz, T. (3) 197–206

Usichenko, T., see Pfannmöller, J. (2) 143–153

van Kuijk, A.A., see Bakker, C.D. (5) 445–456

Vaucher, E., G. Laliberté, M.-C. Higgins, M. Maheux, P. Jolicoeur and M. Chamoun, Cholinergic potentiation of visual perception and vision restoration in rodents and humans (6) 553–569

Vergotte, G., see Delorme, M. (3) 207–218

Volpe, B.T., see Edwards, D.J. (2) 167–180

Wadden, K.P., see Neva, J.L. (3) 273–290

Waldner, A., see Picelli, A. (2) 97–107

Wang, E., see Dusane, S. (5) 469–482

Wang, H., X. Cheng, H. Yu, X. Zhang, M. Guan, L. Zhao, Y. Liu, Y. Linag, Y. Luo and C. Zhao, Activation of GABAA receptors enhances the behavioral recovery but not axonal sprouting in ischemic rats (4) 315–331

Wang, J., see Qin, A. (1) 1–10

Wang, X., see Zhang, L. (2) 131–141

Watanabe, H., see Kononenko, O. (2) 87–96

Wei, Q.-Q., see Zhang, L.Y. (1) 11–19

Wen, C.-J., see Pei, Y.-C. (4) 409–419

Werth, R., What causes dyslexia? Identifying the causes and effective compensatory therapy (6) 591–608

Wolak, T., see Cieśla, K. (2) 155–166

Wong, K.A., see Yin, Y. (6) 525–544

Woo, H.-S., see Song, C.-S. (1) 61–70

Wu, Y., see Zhang, L.Y. (1) 11–19

Xiao, T., see Tao, D. (4) 397–407

Xie, L., see Yin, Y. (6) 525–544

Xue, B., see Sun, X. (5) 497–507

Yakovleva, T., see Kononenko, O. (2) 87–96

Yan, F.-F., see He, Q. (2) 109–118

Yang, F.-Z., see Li, H.-Y. (6) 571–581

Yang, J., see Zhang, L.Y. (1) 11–19

Yang, Y., see Zhang, L. (2) 131–141

Yin, Y., S. De Lima, H.-Y. Gilbert, N.J. Hanovice, S.L. Peterson, R.M. Sand, E.G. Sergeeva, K.A. Wong, L. Xie and L.I. Benowitz, Optic nerve regeneration: A long view (6) 525–544

Yu, H., see Wang, H. (4) 315–331

Yuan, H., see Sun, X. (5) 497–507

Zablocki, V., see Lodha, N. (5) 509–521

Zarelius, A., see Kononenko, O. (2) 87–96

Zhang, J.J. and K.N.K. Fong, Enhancing mirror visual feedback with intermittent theta burst stimulation in healthy adults (5) 483–495

Zhang, L., S. Li, L. Chen, J. Li, Z. Zhang, Y. Yang, X. Wang and J. Liu, Cerebellar fastigial nucleus electrical stimulation protects against cerebral ischemic damage by upregulating telomerase activity (2) 131–141

Zhang, L.Y., B. Cao, Y. Zou, Q.-Q. Wei, R.W. Ou, B. Zhao, J. Yang, Y. Wu and H.F. Shang, Frontal lobe function, behavioral changes and quality of life in patients with multiple system atrophy (1) 11–19

Zhang, Q., see Qin, A. (1) 1–10

Zhang, X., see Wang, H. (4) 315–331

Zhang, Z., see Zhang, L. (2) 131–141

Zhang, Z.G., see Moore, T.L. (4) 347–362

Zhao, B. , see Zhang, L.Y. (1) 11–19

Zhao, C., see Sun, X. (5) 497–507

Zhao, C., see Tao, D. (4) 397–407

Zhao, C., see Wang, H. (4) 315–331

Zhao, J., see He, Q. (2) 109–118

Zhao, L., see Wang, H. (4) 315–331

Zhao, M., see Tao, D. (4) 397–407

Zhao, S., see Tao, D. (4) 397–407

Zhao, Y., see Sun, X. (5) 497–507

Zheng, J., see Chen, H. (1) 21–29

Zhou, Z., see Tao, D. (4) 397–407

Zhu, H., see Sun, X. (5) 497–507

Zhu, Y., see Orgah, J.O. (4) 375–395

Zou, Y., see Zhang, L.Y. (1) 11–19