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Jens Schouenborgs Publication List

Published original papers, in reversed chronological order

  1. Bit-Encoding Based New Data Structure for Time and Memory Efficient Handling of Spike Times in an Electrophysiological Setup. Neuroinformatics DOI:Ljungquist, B., Petersson, P., Johansson, A.J., Schouenborg, J., Garwicz, M. A, 2018. doi: 10.1016/j.actbio.2017.10.020. Epub 2017 Oct 14, http://dx.doi.org/10.1007/s12021-018-9367-z.
  2. Gelatin promotes rapid restoriation of the blood brain barrier after acute brain injury. Kumosa, LS. Zetterberg, V & Schouenborg, J. Acta Biomaterialia 65, pages 137-149. 2018.
  3. Histological evaluation of flexible neural implants; Flexibility limit for reducing the tissue response? JLee, H.C., Ejserholm, F., Gaire, J., Currlin, S., Schouenborg, J., Wallman, L., Bengtsson, M., Park, K. & Otto, K.J.ournal of neural engineering, 14, 3, 036026, 2017. doi: 10.1088/1741-2552/aa68f0. Epub 2017 May 4.111. 
  4. Synaptic inputs from stroke-injured brain to grafted human stem cell-derived neurons activated by sensory stimuli. Tornero, D., Tsupykov O, Granmo M, Rodriguez C, Grønning-Hansen M, Thelin J, Smozhanik E, Laterza C, Wattananit S, Ge R, Tatarishvili J, Grealish S, Brüstle O, Skibo G, Parmar M, Schouenborg J, Lindvall O, Kokaia Z.Brain. 2017 Mar 1;140(3):692-706. doi: 10.1093/brain/aww347. 
  5. Discrepancies between cortical and behavioural long-term readouts of hyperalgesia in awake freely moving rats. Ljungquist B, Jensen T, Etemadi L, Thelin J, Lind G, Garwicz M, Petersson P, Tsanakalis F, Schouenborg J.Eur J Pain. 2016 Nov;20(10):1689-1699. doi: 10.1002/ejp.892. Epub 2016 May 5.
  6. Impact of degradable nanowires on long-term brain tissue responses. Gällentoft L, Pettersson LME, Danielsen N, Schouenborg J, Prinz CN, Eriksson Linsmeier C. Journal of Nanobiotechnology, 14:64, DOI: 10.1186/s12951-016-0216-7, August 2016.
  7. Embedded Ultrathin Cluster Electrodes for Long-Term Recordings in Deep Brain Centers. L. Etemadi, M Mohammed, P.T. Thorbergsson, J. Ekstrand, A. Friberg, M. Granmo, L.M.E. Pettersson, J. Schouenborg. PLOS ONE. May 9, 2016.
  8. Discrepancies between cortical and behavioural long-term readouts of hyperalgesia in awake freely moving rats. B. Ljungquist, T. Jensen, L. Etemadi, J. Thelin, G. Lind, M. Garwicz, P. Petersson, F. Tsanakalis and J. Schouenborg. Wiley Online Library. DOI: 10.1002/ejp.892, 5 May 2016.
  9. Hydrophobic ion pairing of a minocycline/Ca2+/AOT complex for preparation of drug-loaded PLGA nanoparticles with improved sustained release. Alexander Dontsios Holmkvist, Annika Friberg, Ulf J. Nilsson, Jens Schouenborg. International Journal of Pharmaceutics, Volume 499, Issues 1–2, 29 February 2016, Pages 351–357.
  10. An array of highly flexible electrodes with a tailored configuration locked by gelatin during implantation—initial evaluation in cortex cerebri of awake rats. J Agorelius, FTsanakalis, A Friberg, P T Thorbergsson, L Pettersson and J Schouenborg. Front. Neurosci.,25 September 2015, http://dx.doi.org/10.3389/fnins.2015.00331
  11. Köhler P, Wolff A, Ejserholm F, Wallman L, Schouenborg J, Eriksson Linsmeier C. Influence of Probe Flexibility and Gelatin Embedding on Neuronal Density and Glial Responses to Brain Implants. PLOS ONE March 19, 2015. DOI: 10.1371/journal.pone. 0119340
  12. Size-dependent long-term tissue response to biostable nanowires in the brain. Lina Gällentoft, Lina M.E. Pettersson, Nils Danielsen, Jens Schouenborg, Christelle N. Prinz, Cecilia Eriksson Linsmeier. Biomaterials, Volume 42, pages 172-183, February 2015.
  13. Palmi Thor Thorbergsson, Martin Garwicz, Jens Schouenborg and Anders J. Johansson. Strategies for High-Performance Resource-Efficient Compression of Neural Spike Recordings. PLOS one April 11, 2014. DOI: 10.1371/journal.pone.0093779
  14. Viktor Andoralov, Magnus Falk, Dmitry Suyatin, Marcus Granmo, Javier Sotres, Roland Ludwig, Vladimir Popov, Jens Schouenborg, Zoltan Blum, and Sergey Shleev. Biofuel cell based on microscale nanostructured electrodes with inductive coupling to rat brain neurons. Nature Scientific Reports, published November 20, 2013 [Paper #SREP-13-02472A].
  15. Lind G, Eriksson Linsmeier C, Schouenborg J. The density difference between tissue and neural probes is a key factor for glial scarring. Scientific ReportsVolume:3,Article number:2942DOI:doi:10.1038/srep02942.
  16. Veronica Johansson, Martin Kanje†, Martin Garwicz, Lena Halldenius and Jens Schouenborg. Thinking Ahead on Deep Brain Stimulation. An Analysis of the Ethical Implications of a Developing Technology. American Journal of Bioethics (AJOB) - Neuroscience. Published online 30 January 2014.
  17. Suyatin DB, Wallman L, Thelin J, Prinz C, Jörntell H, Samuelsson L, Montelius L, Schouenborg J. Nanowire-Based Electrode for Acute In Vivo Neural Recordings in the Brain. PLOSOne 8(2): e56673. Doi: 10.1371/journal.pone.0056673. Epub 2013 Feb 19.
  18. Granmo M, Jensen T, Schouenborg J. Nociceptive transmission to rat primary somatosensory cortex--comparison of sedative and analgesic effects. PLoS One. 2013;8(1):e53966. doi: 10.1371/journal.pone.0053966. Epub 2013 Jan 8. PMID: 23320109.
  19. Multiple Implants Do Not Aggravate the Tissue Reaction in Rat Brain. Lind G, Gällentoft L,  Danielsen N, Schouenborg J, Pettersson LME. PLOS ONE, October 16, 2012.
  20. Computationally efficient simulation of extracellular recordings with multielectrode arrays. Thorbergsson PT, Garwicz M, Schouenborg J, Johansson AJ. Journal of Neuroscience Methods, Volume 211, Issue 1, 15 October 2012, Pages 133-144. doi:10.1016/j.jneumeth.2012.08.011
  21. Thorbergsson,PT, Garwicz M, Schouenborg J, Johansson AJ. Minimizing data transfer with sustained performance in wireless brain-machine interfaces. J neural engineering 9:2012, article nr 036005 DOI 10.1088/1741-2560/9/3/036005 Published: JUN 2012.
  22. Jensen T, Granmo M and Schouenborg J. Altered nociceptive C fibre input to primary somatosensory cortex in an animal model of hyperalgesia. Eur J Pain. 2011 368-75
  23. Johansson V, Garwicz M, Kanje M, Röcklinsberg H, Schouenborg J, Tingström A,Görman U. Beyond Blind Optimism and Unfounded Fears: Deep Brain Stimulation for Treatment Resistant Depression. SpringerLink, June 2011. Neuroethics DOI 10.1007/s12152-011-9112-x.
  24. Johansson V, Garwicz M, Kanje M, Schouenborg J, Tingström A, Görman U. Authenticity, depression, and deep brain stimulation. Front Integr Neurosci. 2011;5:21. Epub 2011 May 23.
  25. Ejserholm E, Köhler P, Bengtsson M, Jörntell H, Schouenborg J, Wallman L. A polymer based electrode array for recordings in the cerebellum.  5th International IEEE/EMBS Conference on Neural Engineering, April 27 2011-May 1, 2011, Cancun, Mexico.
  26. Thelin J, Jörntell H, Psouni E, Garwicz M, Schouenborg J, Danielsen N, Linsmeier CE. Implant size and fixation mode strongly influence tissue reactions in the CNS. PLoS One. 2011 Jan 26;6(1):e16267.
  27. Thorbergsson PT, Garwicz M, Schouenborg J, Johansson A Statistical modelling of spike libraries for simulation of extracellular recordings in the cerebellum. Conf Proc IEEE Eng Med Biol Soc. 2010;1:4250-3.
  28. J.A. Witteveen, D.B. Suyatin, L. Gällentoft, J. Schouenborg, N. Danielsen, C.N. Prinz: Gelatin/glycerol coating to preserve mechanically compliant nanowire electrodes from damage during brain implantation. J. Vac. Sci. Technol. B, Vol. 28, No. 6, Nov/Dec 2010.
  29. Lind G, Linsmeier CE, Thelin J, Schouenborg J. Gelatine-embedded electrodes--a novel biocompatible vehicle allowing implantation of highly flexible microelectrodes. J Neural Eng. 2010 Aug;7(4):046005. Epub 2010 Jun
  30. Linsmeier, CE; Prinz, CN; Pettersson, LME, Danielsen N, Schouenborg J, et al .Nanowire Biocompatibility in the Brain - Looking for a Needle in a 3D Stack. Nano Lett.  9: 4184-4190  2009
  31. Thorbergsson PT, Jorntell H, Bengtsson F, Garwicz M, Schouenborg J, Johansson A. Spike library based simulator for extracellular single unit neuronal signals.Conf Proc IEEE Eng Med Biol Soc. 2009;2009:6998-7001
  32. Kohler P, Linsmeier CE, Thelin J, Bengtsson M, Jorntell H, Garwicz M, Schouenborg J, Wallman L. (2009) Flexible multi electrode brain-machine interface for recording in the cerebellum. ConfProc IEEE Eng Med Biol Soc. 2009;1:536-8.
  33. Waldenstrom, A; Christensson, M; Schouenborg, J: Spontaneous movements: Effect of denervation and relation to the adaptation of nociceptive withdrawal reflexes in the rat. Physiology & Behaviour.  98, 532-536, 2009 
  34. Johansson F, Wallman L, Danielsson N, Schouenborg J, Kanje M,  Porous silicon a potential electrode material in a nerve repair setting - tissue reactions. Acta Biomaterialia, Volume: 5: 2230-2237, 2009
  35. Thorbergsson P T, Garwicz M, Schouenborg J,  Johansson A J  Implementation of a System for Telemetry of Neurophysiological Signals.  Conf Proc IEEE Eng Med Biol Soc. 2008;1:1254-7.
  36. Eriksson-Linsmeier C, Wallman L, Faxius L,Schoueborg, J, Bjursten L.M., Danielsen, N. Soft tissue reactions by implanted gallium phosphide; a candidate material for neural interfaces. Biomaterials. 2008 Dec;29(35):4598-604. Epub 2008 Sep 17.
  37. Thelin J, Schouenborg J Spatial encoding in spinal sensorimotor circuits differs in different wild type mice strains. BMC Neurosci. 2008 May 21;9:45.
  38. Granmo, M, Petersson P, Schouenborg J Action based body maps in the spinal cord emerge from a transitory floating organization. J Neurosci. 2008 May 21;28(21):5494-5503.
  39. Sebelius F, Axelsson M, Danielsen N, Schouenborg J, Laurell T Real-time Control of a Virtual Hand. Technology and Disability, 17:131-141, 2005
  40. Sebelius F, Eriksson L, Holmberg H, Levinsson A, Lundborg G, Danielsen N, Schouenborg J, Balkenius C, Laurell T, Montelius L. Classification of motor commands using modified self-organizing feature map. Med Eng Phys, 27:403-413: 2005
  41. Petersson, P. Granmo G. and Schouenborg J. Properties of an adult spinal sensorimotor shaped through early postnatal experience. J. Neurophysiol., Jul;92(1):280-8. Epub 2004 Feb 25, 2004.
  42. Nilsson H.-J., Psouni E., Carstam R and Schouenborg J. Profound inhibition of chronic itch induced by stimulation of thin cutaneous nerve fibres. Journal of European Dermatology and Venerology, 18: 37-43, 2004.
  43. Waldenström A, Thelin J, Thimansson E, Levinsson A, Schouenborg J. Developmental learning in a pain-related system: evidence for a cross-modality mechanism. J Neurosci. 2003 Aug 20;23(20):7719-25. (“This weeks article“ in same journal)
  44. Petersson P., Waldenström, A. Fåhreaus C., & Schouenborg J. Spontaneous muscle twitches during sleep guide spinal self-organization. Nature. 2003 Jul 3;424(6944):72-5. (Commentary by Sten Grillner, to appear in Trends in Neuroscience).
  45. Kalliomäki, J., Granmo, M., Schouenborg, J. Spinal NMDA-receptor dependent amplification of nociceptive transmission to rat primary somatosensory cortex (SI).  Pain. 2003 Jul;104(1-2):195-200.
  46. Thelin J, Waldenstrom A, Bartsch U, Schachner M, Schouenborg J. Heat nociception is severely reduced in a mutant mouse deficient for the L1 adhesion molecule. Brain Res. 2003 Mar 7;965(1-2):75-82
  47. Nilsson HJ, Psouni E, Schouenborg J. Long term depression of human nociceptive skin senses induced by thin fibre stimulation. Eur J Pain. 2003;7(3):225-33.
  48. Garwicz M, Levinsson A, Schouenborg J. Common principles of sensory encoding in spinal reflex modules and cerebellar climbing fibres. J Physiol. 2002 May 1;540(Pt 3):1061-9.
  49. Levinsson, A., Holmberg, H. Broman, J., Zhang M. and Schouenborg, J. Spinal sensorimotor transformation: Relation between cutaneous somatotopy and a reflex network. J. Neurosci. 22: 8170-8182, 2002.
  50. Petersson, P., Holmer, M., Breslin, T., Granmo, M. & Schouenborg, J. An imaging system for monitoring receptive field dynamics. J. Neurosci. Methods 104:123-131, 2001
  51. Levinsson A., Holmberg H., Schouenborg J., Seiger Å., Aldskogius H. & Kozlova E. N. Functional connections are established in the deafferented rat spinal cord by peripherally transplanted human embryonic sensory neurons. Eur. J. Neurosci 12: 3589-3595, 2000.
  52. Levinsson A., Luo X.-L., Holmberg H. Developmental tuning in a spinal nociceptive system: effects of neonatal spinalization. J. Neurosci. 19: 10397-10403, 1999.
  53. Levinsson, A. Garwicz, M. and Schouenborg, J. Sensorimotor transformation in cat nociceptive withdrawal reflex system. Eur. J. Neurosci. 11: 4327-4332, 1999.
  54. Wallman L., Levinsson A., Schouenborg J., Holmberg H., Montelius L., Danielsen N. & Laurell T. Perforated silicon nerve chips with doped registration electrodes; in vitro performance and in vivo operation. IEEE Transactions on Biomedical Engineering, Vol 46: 1065-1073.
  55. Nilsson H.-J. & Schouenborg, J.  Differential inhibitory effect on human nociceptive skin senses induced by local stimulation of thin cutaneous fibers. Pain, 80: 103-112, 1999.
  56. Kalliomäki J., Luo, X.-L, Yu, Y.-B. & Schouenborg J. Intrathecally applied morphine inhibits nociceptive C fiber input to the primary somatosensory cortex (SI) of the rat. Pain, 77:323-329, 1998.
  57. Weng H.-R., Laird J.M.A., Cervero F. &  Schouenborg, J. GABAA receptor blockade inhibits A beta fibre evoked wind-up in the arthritic rat. NeuroReport, 9: 1065-1069, 1998.
  58. Weng, H.-R. & Schouenborg, J.  On the cutaneous receptors contributing to withdrawal reflex pathways in the decerebrate spinal rat. Exp. Brain Res., 118: 71-77, 1998.
  59. Montelius, L.; Sebelius, F.; Eriksson, L.; Holmberg, H.; Schouenborg, J.; Danielsen, N.; Wallman, L.; Laurell, T.; Balkenius, C. Pattern recognition of nerve signals using an artificial neural network. Engineering in Medicine and Biology Society, 1996. Bridging Disciplines for Biomedicine. Proceedings of the 18th Annual International Conference of the IEEE. 4: 1502-1503, 1997
  60. Holmberg, H., Schouenborg, J., Yu, Y. and Weng, H.-R. Developmental adaptation of rat nociceptive withdrawal reflexes after neonatal tendon transfer. J Neurosci. 17(6): 2071-2078, 1997.
  61. Nilsson, H-J., Levinsson, A. and Schouenborg, J., Cutaneous Field Stimulation (CFS)- a new powerful method to combat itch, Pain, 71 (1997) 49-55.
  62. Holmberg, H. and Schouenborg, J. Developmental adaptation of withdrawal reflexes to early alteration of peripheral innervation in the rat. J. Physiol., 495:399-409, 1996.
  63. Weng, H.-R. and Schouenborg, J. Nociceptive inhibition of withdrawal reflex responses increases over time in spinal rats. NeuroReport 7: 1310-1314, 1996.
  64. Weng, H.-R. and Schouenborg, J. Cutaneous inhibitory receptive fields of withdrawal reflexes in the decerebrate spinal rat. J. Physiol., 493:253-265, 1996.
  65. Holmberg, H. and Schouenborg, J. Postnatal development of the nociceptive withdrawal reflexes in the rat: a behavioural and electromyographic study. J Physiol (Lond) 493:239-252, 1996.
  66. Schouenborg, J., Weng, H., Kalliomäki, J. and Holmberg, H. A survey of spinal dorsal horn neurones encoding the spatial organization of withdrawal reflexes in the rat. Exp. Brain Res., 106:19-27, 1995.
  67. Schouenborg, J. and Weng, H.-R. Sensorimotor transformation in a spinal motor system. Exp. Brain Res., 100: 170-174,1994.
  68. Kalliomäki, J., Weng, H.-R., Nilsson, J. and Schouenborg, J. Multiple spinal pathways mediate cutaneous nociceptive C-fibre input to the primary somatosensory cortex (SI) in the rat. Brain Res., 622: 371-379, 1993.
  69. Kalliomäki, J., Weng, H.-R., Nilsson, J. and Schouenborg, J. Nociceptive C fibre input to the primary somatosensory cortex (SI). A field potential study in the rat. Brain Res., 622: 262-270, 1993
  70. Kalliomäki, J., Schouenborg, J. and Dickenson, A.H. Differential effects of a distant noxious stimulus on hindlimb nociceptive withdrawal reflexes in the rat. Eur. J. Neurosci., 4: 648-652, 1992
  71. Schouenborg, J., Holmberg, H. and Weng, H.-R.: Functional  organization of the nociceptive withdrawal reflexes. II. Changes of excitability and receptive fields after spinalization in the rat. Exp. Brain Res., 90: 469-478,1992.
  72. M. Garwicz, C.-F., Ekerot, J., Schouenborg, J.: Distribution  of cutaneous nociceptive and tactile climbing fibre input to sagittal zones in cat cerebellar anterior lobe. Eur. J. Neurosci., 4: 289-295, 1992.
  73. Ekerot, C.-F., Garwicz, M. and Schouenborg, J.:  The postsynaptic dorsal column pathway mediates nociceptive information to cerebellar climbing fibres. J. Physiol., 441: 275-284, 1991.
  74. Ekerot, C.-F., Garwicz, M. and Schouenborg, J.: Topography and nociceptive receptive fields of climbing fibres projecting to the cerebellar anterior lobe in the cat. J. Physiol., 441, 257-274, 1991.
  75. Schouenborg, J. and Kalliomäki, J.: Functional organization of the nociceptive withdrawal reflexes. I. Activation of hindlimb muscles in the rat. Exp. Brain Res., 83:67-78: 1990.
  76. Schouenborg, J. and Dickenson, A.H. Longlasting neuronal activity in rat dorsal horn evoked by impulses in cutaneous C fibres during noxious mechanical stimulation. Brain Res., 439: 56-63, 1988.
  77. Ekerot, C.-F., Oscarsson, O. and Schouenborg, J.  Stimulation of cat cutaneous nociceptive C fibres causing tonic and synchronous activity in climbing fibres. J. Physiol., 386: 539-546, 1987.
  78. Ekerot, C.-F., Gustavsson, P., Oscarsson, O. and Schouenborg,  J.  Climbing fibres projecting to cat cerebellar anterior lobe activated by cutaneous A and C fibres.  J.  Physiol., 386: 529-538, 1987.
  79. Schouenborg, J., Kalliomäki, J., Gustavsson, P. and Rosén, I. Field potentials evoked in rat primary somatosensory cortex (SI) by impulses in cutaneous A beta and C fibres.  Brain Res., 397:  86-92, 1986.
  80. Schouenborg, J. and Sjölund, B.H. First order nociceptive synapses in rat dorsal horn are blocked by an amino acid antagonist. Brain Res., 379:394-398, 1986.
  81. Schouenborg, J. and Dickenson, A. The effect of a distant noxious stimulation on A and C fibre evoked flexion reflexes and neuronal activity in dorsal horn of the rat.  Brain Res., 328: 23-32, 1985.
  82. Schouenborg, J. Functional and topographical properties of  field potentials in rat dorsal horn evoked by cutaneous C fibre stimulation. J.  Physiol., 356: 169-192, 1984.
  83. Cervero, F., Schouenborg, J., Sjölund, B.H. and Waddell, P. Cutaneous inputs to dorsal horn in rats treated at birth with capsaicin. Brain Res., 301:47-57, 1984
  84. Schouenborg, J. and Sjölund, B.H.  Activity evoked in A-and C- afferent fibres in rat dorsal horn neurons and its relation to a  flexion reflex. J. Neurophysiol., 50:1108-1121, 1983.
  85. Sjölund, B.H. and Schouenborg, J. Site of action of antinociceptive acupuncturelike nerve stimulation in the spinal  rat as visualized  by the 14C-2-deoxyglucose method.  Pain volume II, S241, 1981.

Review articles and book chapter, in reversed chronological order

  1. Schouenborg J. Biocompatible multichannel electrodes for long-term neurophysiological studies and clinical therapy--novel concepts and design. Prog Brain Res. 2011;194:61-70.
  2. Schouenborg J. Role of spontaneous movements in imprinting an action-based body representation in the spinal cord in the volume edited by Mark S. Blumberg, John H. Freeman, and Scott R. Robinson, Oxford Handbook of Developmental Behavioral Neuroscience, 2009
  3. Schouenborg J. Appropriate/Inappropriate Developed Pain Paths, In Handbook of the Senses, Eds Allan Basbaum and Catherine Bushnell Elsevier, 2008.
  4. Schouenborg J Action-based sensory encoding in spinal sensorimotor circuits. Brain Res Rev. 2008 Jan;57(1):111-7
  5. Schouenborg, J. Learning in sensorimotor circuits. Current Opinion in Neurobiology, Section: Motor and behaviour, December, 14:1-5, 2004.
  6. Schouenborg J. Cutaneous Field Stimulation (CFS) – an effective symptomatic treatment of chronic itch and musculoskeletal pain. Encyclopedic Reference of Pain, Ed by Willis W. and Schmidt R.F. 2005.
  7. Schouenborg, J. Somatosensory imprinting in spinal reflex modules. J. Rehabil Med. Suppl. 41: 73-80, 2003.
  8. Garwicz M, Levinsson A, Schouenborg J. What, indeed, do climbing fibers signal? Some cerebellar microcomplexes appear to monitor the activity in spinal nociceptive withdrawal reflex modules. Ann N Y Acad Sci. 2002 Dec;978:513-4.
  9. Schouenborg, J. Modular organisation and spinal somatosensory imprinting. Brain Res Rev, (edited by Schouenborg et al), 40: 80-91, 2002.
  10. Schouenborg, J. Nociceptive withdrawal reflexes as a model for spinal nociceptive transmission. Pain Forum 6: 116-118, 1997.
  11. Garwicz M., Ekerot C.-F., Jörntell H., Schouenborg J. Functional organization of the intermediate cerebellum. In Alpha and Gamma Motor Systems, A Taylor, MH Gladden and R Durbaba eds., Plenum Press, 399-402, 1995
  12. Schouenborg, J., Weng, H.-R., Holmberg, H. Modular organization of spinal nociceptive reflexes. News in Physiological Sciences. 9: 261-265, 1994.
  13. Schouenborg, J.: Summary and conclusions. On the spinal and supraspinal outputs from the superficial dorsal horn. In: Processing of sensory information in the superficial dorsal horn of the spinal cord.  F.  Cervero, Bennett, G.J. and Headley, (eds.), Nato ASI Series, Plenum Press, pp. 239-243, 1989.
  14. Andersson, G., Ekerot, C.-F., Oscarsson, O. and Schouenborg, J. Convergence of afferent paths to olivo cerebellar complexes. In Cerebellum and Neuronal Plasticity.  Glickstein, M. et al, (Eds.), Plenum Publishing Corporation, pp. 165-173, 1988.

 

PhD dissertations (Schouenborg main supervisor) in reversed chronological order

  1. Ljungquist B. Bitcoding the brain. Integration and organization of massive parallel neuronal data. Thesis, Lund University, 2018.
  2. Lind G. Merging electronics and the brain, towards a fully biocompatible neural interface, Thesis, Lund University, 2013
  3. Jensen T Spotting Pain in the Brain, Thesis, Lund University, 2011
  4. Granmo, M. Self-Organizing Body Maps in the Spinal Cord. Thesis, Lund University 2008.
  5. Thelin, J. Plasticity in mice nociceptive circuits – role of cell adhesion molecules. Thesis, Lund University, 2005.
  6. Waldenström, A. No pain, still gain – cross modality developmental learning guided by spinal spontaneous activity. Thesis, Lund University, 2004.
  7. Petersson, P. Spontaneous Movements during Sleep Guide Spinal Self-organization: Formation and Expression of a Memory Trace. Thesis, Lund University, 2003.
  8. Levinsson, A. Spinal cord processing of Sensory information. Spatial organization and adaptive mechanisms. Thesis, Lund University, 2000.
  9. Nilsson, J. Itch and pain inhibitory mechanisms in humans. Evidence for a differential control of nociceptive senses. Thesis, Lund University, Feb. 1999.
  10. Weng, H.-R. Functional organization of spinal nociceptive pathways: Evidence for a modular organization of spinal nociceptive reflex systems. Thesis, Lund University, 1996.
  11. Holmberg, H. Postnatal development of spinal nociceptive pathways: Evidence for involvement of experience dependent mechanisms. Thesis, Lund University, 1996.
  12. Kalliomäki, J. Parallel processing of nociceptive information. Evidence for multiple reflex and ascending nociceptive pathways. Thesis, Lund University, 1992.

 

Patent and patent applications in reversed chronological order

  1. Carroll, William J.; Aune, Erling Jensen; Johnson, Timothy J.; Schouenborg, Jens Olaf Roe. System and method for stimulating sensory nerves US 08116879 Published: FEB 2012
  2. Schouenborg, Clementz, Lind and Hirst, displacement resistant microelectrode, microelectrode bundle and microelectrode array PCT WO/2012/025596 published march 2012
  3. Danielsen, N, Ek,F. Ericsson-Linsmeier C, Petersson P, Schouenborg J. Medical microelectrode, microelectrode bundle and microelectrode array. WO2010144016 (A1), 2010
  4. Schouenborg J Medical electrode, electrode bundle and electrode bundle array. WO2009075625 (A1)
  5. Schouenborg J Electrode array. US2008177363 (A1).
  6. Schouenborg J, Petersson P Method and system for compensating a self –caused displacement of tissue. WO2007075137, 2007 (approved first in Euroasia)
  7. Schouenborg J. Electrode bundle. US2007088417, 2007 (approved first in China)
  8. Schouenborg, J Method for electrical stimulation of cutaneous sensory receptors. US2010280573 (A1), 2010 (continuation in part of US2006085056)
  9. Schouenborg J. Method and means for electrical stimulation of cutaneous sensory receptors. US2006085056, 2006
  10. Schouenborg J Method and apparatus for the electric stimulation of skin receptors. US5449378, 1995

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