NEUROTHERAPY
Giselher Schalow

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  1. Schalow, G: Berechnung der Grundzustandskorrelationen in der Random-Phase-Näherung-verallgemeinertes Lipkin-Meshkov-Glick Modell. Diplomarbeit 1970.
  2. Schalow, G. and Yamamura, M.: Investigation of ground state correlation in an extended Lipkin-Meshkov-Glick-Modell. Nuclear Physics A161: 93-104, 1971.
  3. Schalow, G.: Quadrupelung und Paarung im Schalenmodell. Inauguraldissertation Feb. 1973.
  4. Schalow, G. and Schmidt, H.: Effect of temperature and length of nerve stump on development of action potentials in denervated frog slow muscle fibres. Pflügers Arch. 355, Suppl. R57, 1975.
  5. Schmidt, H., Schalow, G. and Stefani, E.: Trophic influence of small motor axons onthe membrane of frog slow muscle fibres. Exp. Brain Res., Suppl. 183, 1975.
  6. Schmidt, H. and Schalow, G.: Local development of action potentials in denervated slow muscle fibres. Pflügers Arch. 359, Suppl. R131, 1975.
  7. Schalow, G. and Schmidt, H.: Action potentials induced in slow muscle fibres by partial denervation. Nature (London) 253: 122-123, 1975.
  8. Schalow, G. and Schmidt, H.: Effect of length and temperature on the induction of action potentials in denervated slow muscle fibres of the frog. Pflügers Arch. 372: 17-22, 1977.
  9. Miledi, R., Parker, I. and Schalow, G.: Calcium entry across the postjunctional membrane during transmitter action. J. Physiol. 268: 32-33, 1977.
  10. Miledi, R., Parker, I. and Schalow, G.: Measurements of changes in intracellular calcium in frog skeletal muscle fibres using arsenanzo III. Proc. R. Soc. Lond. B. 198: 201-210, 1977.
  11. Miledi, R., Parker, I. and Schalow, G.: Calcium transients in frog slow muscle fibres. Nature 268 (No. 5622): 750-752, 1977.
  12. Miledi, R., Parker, I. and Schalow, G.: Measurement of calcium transients in frog muscle by the use of arsenazo III. Proc. R. Soc. Lond. B. 198: 201-210, 1977.
  13. Miledi, R., Parker, I. and Schalow, G.: Transition temperature of excitation-contraction coupling in frog twitch muscle fibres. Nature 280 (No. 5720): 326-328, 1979.
  14. Schalow, G. and Schmidt, H.: Local development of action potentials in slow muscle fibres after complete or partial denervation. Proc. R. Soc. Lond. B. 203: 445-457, 1979.
  15. Miledi, R., Parker, I. and Schalow, G.: Transmitter induced calcium entry across the post-synaptic membrane of frog endplates measured using arsenazo III. J. Physiol. 300: 197-212, 1980.
  16. Miledi, R., Parker, I. and Schalow, G.: Calcium transients in normal and denervated slow muscle fibres of the frog. J. Physiol. 318: 191-206, 1981.
  17. Schmidt, H. and Schalow, G.: Factors affecting the in-vitro incorporation of Na-channels into the membrane of frog slow muscle fibres. Pflügers Arch. 394: R42, 1982.
  18. Schmidt, H. and Schalow, G.: In-vitro and in-vivo Experiments on the Incorporation of Na-Channels into the membrane of frog slow muscle fibres. XXIX. Congress of International Union of Physiological Sciences. Satellite Symposium on Membrane Permeability, Adelaide, 1983.
  19. Schalow, G.: Elektrophysiologische und morphologische Untersuchungen zur Differenzierung der Tonusfasern des Frosches. Inauguraldissertation, Universität des Saarlandes, 1983.
  20. Schmidt, H. and Schalow, G.: In-vitro and In-vivo Experiments on the Incorporation of Na-Channels into the Membrane of Frog Slow Muscle Fibres. In: Membrane Permeability: Experiments and Models (AH Bretaa ed.) Techsearch, Adelaide, 1983.
  21. Schalow, G.: The problem of Cauda equina nerve root identification. Zentralbl. Neurochirur. 46: 322-330, 1985.
  22. Schalow, G. and Lang, G.: Einzelaktionspotentialmessung an dorsalen Nervenwurzeln des Menschen. Neurochirurgia 29: 193-194, 1986.
  23. Schalow, G. and Lang, G.: Recording of single unit potentials in human spinal nerve roots: a new diagnostic tool. Acta Neurochir. (Wien) 86: 25-29, 1987.
  24. Schalow, G., Aho, A. and Lang, G.: Nerve fibre counts for an intercostal nerve to cauda equina nerve root anastomosis. Zentralbl. Chir. 112: 457-461, 1987.
  25. Schalow, G. and Lang, G.: Investigation as a basis for an improved micro nerve anastomosis for the treatment of brachial plexus avulsions and spinal cord or cauda equina lesions, 8th European Congress of Neurosurgery, Barcelona 1987, Abstract M6.13.
  26. Schalow, G.: Single unit potential amplitude in relation to the conduction velocity in frog and human. Zentralbl. Neurochir. 48: 109-113, 1987.
  27. Lang, G. and Schalow, G.: Experiences with the intraoperative single unit potential recording of spinal cord and cauda equina disorders. Advances in Neurosurgery 16: 98-99, 1988.
  28. Schalow, G.: Efferent and afferent fibres in human sacral ventral nerve roots: basic research and clinical implications. Electromyogr. Clin. Neurophysiol. 29: 33-53, 1989.(Download in pdf format)
  29. Schalow, G. and Lang, G.: Electrodiagnosis of human dorsal sacral nerve roots by recording afferent and efferent extracellular action potentials. Neurosurg. Rev. 12: 223-232, 1989.
  30. Schalow, G.: Feeder arteries, longitudinal arterial trunks and arterial anastomoses of the lower human spinal cord. Zentralbl. Neurochir. 51: 181-184, 1990.
  31. Schalow, G: Functional nerve anastomosis in spinal cord injuries. VI International Rehabilitation Medicine Association Congress, IRMA VI, MADRID 90, 1990, Abstract S.35.5.
  32. Schalow, G.: Development of a surgical method to substitute function and supraspinal control to distal parts of the body of paraplegics by a nerve anastomosis from the intercostal nerves to the cauda equina nerve roots. Spinal Cord Society, Minneapolis, USA, Abstract, August 1990.
  33. Schalow, G.: Conduction velocities and nerve fibre diameters of touch, pain, urinary bladder and anal canal afferents and α and γ-motoneurons in human dorsal sacral roots. Electromyogr. Clin. Neurophysiol. 31: 265-296, 1991. (Download in pdf format)
  34. Schalow, G.: Oscillatory firing of single human sphincteric α2 and α3-motoneurons reflexly activated for the continence of urinary bladder and rectum - restoration of urinary bladder function in paraplegia. Electromyogr. Clin. Neurophysiol. 31: 323-355, 1991. (Download in pdf format)
  35. Schalow, G.: Coactivity of secondary spindle afferents and α2, α3, γ1 and γ2-motoneurons innervating anal and urinary bladder sphincters in human. Electromyogr. Clin. Neurophysiol. 31: 223-241, 1991.
  36. Wattig, B., Heydenreich, F., Schalow, G., Radzewitz, B., Warzok, R. and Cervos-Navarro, J.: Nucleotide beschleunigen die Nervengeneration. Z. Klin. Med. 46: 1371-1373, 1991.
  37. Wattig, B., Schalow, G., Maddaus, M., Heydenreich, F., Warzok, J. and Cervos-Navarro, J.: Beschleunigung der Muskelregeneration durch Nucleotidapplikation. Zentralbl. Pathol. 137: 409-413, 1991.
  38. Schalow, G. and Barth, H.: Group conduction velocities and nerve fibre diameters of α and γ-motoneurons from lower sacral nerve roots of the dog and humans. Gen. Physiol. Biophys. 11: 85-99, 1992.
  39. Schalow, G.: Recruitment within the groups of γ1, α2 and α3-motoneurons in dogs and humans following bladder and anal catheter pulling. Gen. Physiol. Biophys. 11: 101-121, 1992.
  40. Schalow, G.: Ventral root afferent and dorsal root efferent fibres in dog and human lower sacral nerve roots. Gen. Physiol. Biophys. 11: 123-131, 1992.
  41. Schalow, G., Aho, A. and Lang, G.: Microanatomy and number of nerve fibres of the lower intercostal nerves with respect to a nerve anastomosis. Donor nerve analysis. I (IV). Electromyogr. Clin. Neurophysiol. 32: 171-185, 1992.
  42. Schalow, G.: Number of fibres and fibre diameter distributions of nerves innervating the urinary bladder in humans. Acceptor nerve analysis. II (IV). Electromyogr. Clin. Neurophysiol. 32: 187-196, 1992.
  43. Schalow, G. and Barth, H.: Single fibre action potential recording from the nerve to the musculus obliquus externus abdominis following pin-prick in humans. III (IV). Electromyogr. Clin. Neurophysiol. 32: 197-205, 1992.
  44. Schalow, G.: Impulse pattern, innervation densities and two point discrimination of skin and mucosal afferents in humans. Considerations for a sensory reinnervation of urinary bladder and anal canal in spinal cord lesions. IV (IV). Electromyogr. Clin. Neurophysiol. 32: 259-285, 1992.(Download in pdf format)
  45. Wattig, B., Schalow, G., Heydenreich, F., Warzok, R. and Cervos-Navarro, J.: Enhancement of nerve fibre regeneration by nucleotides after peripheral nerve crush damage. Electrophysiologic and morphometric investigations. Drug Res. 42 (II): 1075-1078, 1992.
  46. Wattig, B., Schalow, G., Madauss, M., Heydenreich, F., Warzok, R. and Cervos-Navarro, J.: Acceleration of nerve and muscle regeneration by administration of nucleotides. Electroneurophysiological and morphometrical investigations. Acta Histochemica Suppl.-Band XLII S: 333-339, 1992.
  47. Schalow, G. & Zäch, G.A.: Control of oscillatory firing sacral sphincteric motoneurons (FR) by secondary muscle spindle afferents in humans. Poster 322.29/P at the XXXIInd International Congress of Physiological Sciences in Glasgow, August 1993.
  48. Schalow, G. and Wattig, B.: Recruitment of α and γ-motoneurons in rats, dogs and humans. Electromyogr. Clin. Neurophysiol. 33: 387-400, 1993.(Download in pdf format)
  49. Schalow, G.: Recruitment of motoneurons in the occasional firing mode in paraplegics. Electromyogr. Clin. Neurophysiol. 33: 401-408, 1993.
  50. Schalow, G.: Spinal oscillators in man under normal and pathologic conditions. Electromyogr. Clin. Neurophysiol. 33: 409-426, 1993. (Download in pdf format)
  51. Schalow, G.: Impulse patterns of single encoding sites of human secondary muscle spindle afferents. Electromyogr. Clin. Neurophysiol. 33: 451-464, 1993.(Download in pdf format)
  52. Schalow, G.: Phase correlated adequate afferent action potentials as a drive of human spinal oscillators. Electromyogr. Clin. Neurophysiol. 33: 465-476, 1993.(Download in pdf format)
  53. Schalow, G.: Action potential patterns of intrafusal γ and parasympathetic motoneurons, secondary muscle spindle afferents and an oscillatory firing α2-motoneuron, and the phase relations among them in humans. Electromyogr. Clin. Neurophysiol. 33: 477-503, 1993.(Download in pdf format)
  54. Schalow, G. and Zäch, G.A.: Nerve compound action potentials analysed with the simultaneously measured single fibre action potentials. Electromyogr. Clin. Neurophysiol. 34: 451-465, 1994.
  55. Schalow, G., Bersch, U., Göcking, K. and Zäch, G.A.: Interspike intervals of secondary muscle spindle and urinary bladder afferents in relation to the oscillation periods of sacral spinal oscillators for continence in man. Physiological Research 43: 7-18, 1994. (Download in pdf format)
  56. Schalow, G., Zäch, G.A. and Warzock, R.: Classification of human peripheral nerve fibre groups by conduction velocity and nerve fibre diameter is preserved following spinal cord lesion. J. Auton. Nerv. Syst. 52: 125-150, 1995.
  57. Schalow, G., Bersch, U., Göcking, K. and Zäch, G.A.: Detrusor-sphincteric dyssynergia in paraplegia compared with the synergia in a brain-dead human by using the single-fibre action potential recording method. J. Auton. Nerv. Syst. 52: 151-180, 1995.
  58. Schalow, G., Bersch, U., Michel, D. and Koch, H.G.: Detrusor-sphincteric dyssynergia in humans with spinal cord lesions may be caused by a loss of stable phase relations between and within oscillatory firing neuronal networks of the sacral micturition centre. J. Auton. Nerv. Syst. 52: 181-202, 1995.
  59. Schalow, G.: Oszillator-Formationstraining - Vom Klassifikationsschema des peripheren Nervensystem des Menschen zur Organisation neuronaler Netzwerke und wie ein inkompletter Tetraplegiker das Rennen lernte. Swiss Med. 6: 27-38, 1995.
  60. Schalow, G., Bersch, U., Zäch, G.A. and Warzock, R.: Classification, oscillatory and alternating oscillatory firing of α1 (FF) and α2-motoneurons (FR) in patients with spinal cord lesion. Gen. Physiol. Biophys. 15, Suppl.1: 5-56, 1996.
  61. Schalow, G. and Zäch, G.A.: Mono- and polysynaptic drive of oscillatory firing α1 (FF) and α2-motoneurons (FR) in a patient with spinal cord lesion. Gen. Physiol. Biophys. 15, Suppl.1: 57-74, 1996.
  62. Schalow, G. and Zäch, G.A.: Reflex stimulation of continuously oscillatory firing α and γ-motoneurons in patients with spinal cord lesion. Gen. Physiol. Biophys. 15, Suppl.1: 75-93, 1996.
  63. Schalow, G. and Zäch, G.A.: External loops of human premotor spinal oscillators identified by simultaneous measurements of interspike intervals and phase relations. Gen. Physiol. Biophys. 15, Suppl.1: 95-119, 1996.
  64. Schalow, G., Blanc, Y., Jeltsch, W. and Zäch, G.A.: Electromyographic identification of spinal oscillator patterns and recouplings in a patient with incomplete spinal cord lesion: oscillator-formation training as a method to improve motor activities. Gen. Physiol. Biophys. 15, Suppl.1: 121-220, 1996.
  65. Schalow, G.: Neurophysiologische Untersuchungen zur motorischen Schmerzreaktion. 9. Enzensberger Tage 1993, m&i-Klinikgruppe Enzensberger Tage 200/5/1997, 11-17.
  66. Schalow, G. and Zäch, G.A.: How to make an incomplete tetraplegic patient run again. J. Neurological Sciences, 150, Suppl., S133, 1997.
  67. Schalow, G. and Zäch, G.A.: Oszillator-Formationstraining I. Physiotherapie 3: 9-20, 1998.
  68. Schalow, G. and Zäch, G.A.: Oszillator-Formationstraining II. Physiotherapie 4: 18-26, 1998.
  69. Schalow, G. and Zäch, G.A.: Koordinationsdynamik-Training I. Physiotherapie 5: 3-14, 1998.
  70. Schalow, G. and Zäch, G.A.: Koordinationsdynamik-Training II. Physiotherapie 6: 3-17, 1998.
  71. Schalow, G. and Zäch, G.A.: Neuronal reorganization through oscillator formation training in patients with CNS lesions. J. Periph. Nerv. Syst., 3: 165-188, 1998.
  72. Schalow, G. and Zäch, G.A.: Koordinationsdynamik-Therapie, Teil 3. Physiotherapie 5: 3-6, 1999.
  73. Schalow, G. and Zäch, G.A.: Koordinationsdynamik-Therapie, Teil 4. Physiotherapie 6: 3-8, 1999.
  74. Schalow, G. and Zäch, G.A.: Neubeginn nach der Bobath-Therapie: Das Ende der Spastik-Drohung. Physiotherapie 7: 5-15, 1999.
  75. Schalow, G. and Zäch, G.A.: Koordinationsdynamik- Therapie als Lernprozess, Teil I. Physiotherapie 8: 4-12, 1999.
  76. Schalow, G. and Zäch, G.A.: Koordinationsdynamik-Therapie als Lernprozess, Teil II. Physiotherapie 9: 5-12, 1999.
  77. Schalow G. and Zäch, G.A.: Effizienzsteigerung der Koordinationsdynamik-Therapie, Teil I. Physiotherapie 12: 12-27, 1999.
  78. Schalow, G. and Zäch, G.A.: Effizienzsteigerung der Koordinationsdynamik-Therapie, Teil II. Physiotherapie 1: 17-25, 2000.
  79. Schalow, G., Nyffeler, T.: Koordinationsdynamik-Therapie: Skoliose. Physiotherapie 4, 2000.
  80. Schalow, G.: Koordinationsdynamik-Therapie beim Wachkoma-Patienten. Schädel-Hirnverletzte und Schlaganfall-Patienten, 2000.
  81. Schalow, G. and Zäch, G.A.: Reorganization of the Human CNS. Neurophysiologic measurements on the coordination dynamics of the lesioned human brain and spinal cord. Theoretical basis for modern neurorehabilitation (31 case reports). Gen. Physiol. Biophys. 19, Suppl. 1: 11-240, 2000.
    (Abstract, Introduction and Summary of the theory) (Download in pdf format: Part 1; Part 2)
  82. Schalow, G., Zäch, G.A.: Koordinationsdynamik-Therapie: Querschnittslähmung. Physiotherapie 2,3: 2001.
  83. Schalow, G.: On-line measurement of human CNS organization. Electromyogr. Clin. Neurophysiol. 41: 225-242, 2001.
  84. Schalow, G.: Time axis calibration in human CNS organization for judging dysfunction. Electromyogr. Clin. Neurophysiol. 41: 485-505, 2001.
  85. Schalow, G.: Stroke recovery induced by coordination dynamic therapy and quantified by the coordination dynamic recording method. Electromyogr. Clin. Neurophysiol. 42: 85-104, 2002. (Download in DOC format)
  86. Schalow, G.: Improvement after traumatic brain injury achieved by coordination dynamic therapy. Electromyogr. Clin. Neurophysiol. 42: 195-203, 2002. (Download in DOC format)
  87. Schalow, G.: Non-drug induced spasticity reduction achieved by coordination dynamic therapy. Electromyogr. Clin. Neurophysiol. 42: 281-293, 2002. (Download in DOC format)
  88. Schalow, G.: Recovery from spinal cord injury achieved by 3 months of coordination dynamic therapy. Electromyogr. Clin. Neurophysiol. 42: 367-376, 2002. (Download in DOC format)
  89. Schalow, G., Pääsuke, M., Ereline, J. and Gapeyeva, H.: Device for movement coordination measurement and training. Acta Kinesiologiae Universitatis Tartuensis 7 (Suppl.): 169-173, 2002.
  90. Schalow, G. and Pääsuke, M.: Low-load coordination dynamics in athletes, physiotherapists, gymnasts, musicians, and patients with spinal cord injury, after stroke, traumatic brain lesion and cebral palsy. Electromyogr. Clin. Neurophysiol. 43: 195-201, 2003. (Download in DOC format)
  91. Schalow, G.: Partial cure of spinal cord injury achieved by 6 to 12 months of coordination dynamic therapy. Electromyogr. Clin. Neurophysiol. 43, 281-292, 2003. (Download in DOC format)
  92. Schalow, G., Pääsuke, M. and Kolts I.: High-load coordination dynamics in athletes, physiotherapists, gymnasts, musicians and patients with CNS injury. Electromyogr. Clin. Neurophysiol. 43: 353-365, 2003. (Download in DOC format)
  93. Schalow, G. and Nyffeler, T.: Koordinationsdynamik-Therapie: Myelomeningozele (Spina bifida). Physiotherapie pp. 5-19, 2003.
  94. Schalow, G., Pääsuke, M., Ereline, J. and Gapeyeva, H.: Coordination dynamics in Parkinson's disease patients and healthy subjects quantified by the coordination dynamics recording method and sEMG. Electromyogr. Clin. Neurophysiol. 43: 473-485, 2003. (Download in DOC format)
  95. Schalow, G., Pääsuke, M., Ereline, J. and Gapeyeva, H.: Improvement in Parkinson's disease patients achieved by coordination dynamics therapy. Electromyogr. Clin. Neurophysiol. 44: 67-73, 2004. (Download in DOC format)
  96. Jaigma, P., Schalow, G. and Pääsuke, M.: The effect of 3-month Schalow coordination dynamic therapy on movement coordination characteristics of the limbs in subjects with cerebral palsy. Acta Kinesiologiae Universitatis Tartuensis 9: 66-78, 2004.
  97. Schalow, G.: Phase and frequency coordination between neuron firing as an integrative mechanism of human CNS self-organization. Electromyogr. Clin. Neurophysiol. 45: 369-383, 2005.
  98. Schalow, G.: Tremor in Parkinson’s disease patients can be induced by uncontrolled activation and uninhibited synchronization of α2-motoneuron firing to which α1-motoneuron firing synchronizes. Electromyogr. Clin. Neurophysiol. 45: 393-406, 2005.
  99. Schalow, G., Pääsuke, M., Jaigma, P.: Integrative re-organization mechanism for reducing tremor in Parkinson’s disease patients. Electromyogr. Clin. Neurophysiol. 45: 407-415, 2005.
  100. Schalow, G., Jaigma, P.: Cerebral palsy improvement achieved by coordination dynamics therapy. Electromyogr. Clin. Neurophysiol. 45: 433-445, 2005.
  101. Schalow, G.: Tapering of human nerve fibres. Gen. Physiol. Biophys. 24: 427-448, 2005. (Download in pdf format)
  102. Schalow, G.: Functional development of the CNS in pupils aged 7 to 19 years. Electromyogr. Clin. Neurophysiol. 46: 159-169, 2006.
  103. Schalow, G.: Hypoxic brain injury improvement induced by coordination dynamics therapy; a comparison with normal CNS development. Electromyogr. Clin. Neurophysiol. 46: 171-183, 2006.
  104. Schalow, G., Jaigma, P.: Improvement after severe traumatic brain injury induced by coordination dynamics therapy: comparison with physiologic CNS development. Clin. Neurophysiol. 46: 195-209, 2006.
  105. Schalow, G.: Surface EMG- and coordination dynamics measurements-assisted cerebellar diagnosis in a patient with cerebellar injury. Clin. Neurophysiol. 46: 371-384, 2006. (Download in pdf format)
  106. Schalow, G.: Symmetry diagnosis and treatment in coordination dynamics therapy. Electromyogr. Clin. Neurophysiol. 46: 421-431, 2006. (Download in pdf format)
  107. Schalow, G.: Improvement after cerebellar injury achieved by coordination dynamics therapy. Electromyogr. Clin. Neurophysiol. 46: 433-439, 2006. (Download in pdf format)
  108. Schalow, G., Vaher, I., Jaigma, P.: Overreaching in coordination dynamics therapy in an athlete with a spinal cord injury. Electromyogr. Clin. Neurophysiol. 48: 83-95, 2008. (Download in pdf format)
  109. Schalow, G.: Stem cell therapy and coordination dynamics therapy to improve spinal cord injury. Electromyogr. Clin. Neurophysiol. 48: 233-253, 2008. (Download in pdf format)
  110. Schalow, G., Jaigma, P., Belle, V.K.: Near-total functional recovery achieved in partial spinal cord injury (50% injury) after 3 years of coordination dynamics therapy. Electromyogr. Clin. Neurophysiol. 49: 67-91, 2009. (Download in pdf format)
  111. Schalow, G.: Partial cure achieved in a patient with near-complete cervical spinal cord injury (95% injury) after 3 years of coordination dynamics therapy. Electromyogr. Clin. Neurophysiol. 49: 199-221, 2009. (Download in pdf format)
  112. Schalow, G.: The classification and identification of human somatic and parasympathetic nerve fibres including urinary bladder afferents and efferents is preserved following spinal cord injury. Electromyogr. Clin. Neurophysiol. 49: 263-286, 2009. (Download in pdf format)
  113. Schalow, G.: Coordination impairment between the somatic and parasympathetic nervous system divisions in the human sacral micturition centre following spinal cord injury. Electromyogr. Clin. Neurophysiol. 49: 337-367, 2009. (Download in pdf format)
  114. Schalow, G.: Building of New Motoneurons in the Human Spinal Cord upon Coordination Dynamics Therapy to Improve Finger Functions in Motoric Complete Cervical Spinal Cord Injury. In: Berkovsky, T.C. (Ed.), Handbook of Spinal Cord Injuries, Chapter 4, pp. 231-264, Nova Science Publishers, 2009.
  115. Schalow, G.: Relative Coordination between Neuron Firing and Generation of a Motor Program in the Human CNS. In: Berkovsky, T.C. (Ed.), Handbook of Spinal Cord Injuries, Chapter 5, pp. 265-295, Nova Science Publishers, 2009.
  116. Schalow, G.: Impaired Coordination between Oscillatory Firing FF and FR-Type Motor Units in Parkinson’s Disease and Patients with Spinal Cord Injury. In: Berkovsky, T.C. (Ed.), Handbook of Spinal Cord Injuries, Chapter 15, pp. 501-517, Nova Science Publishers, 2009.
  117. Schalow, G.: Phase relation changes between the firings of α and γ-motoneurons and muscle spindle afferents in the sacral micturition centre during continence functions in brain-dead human and patients with spinal cord injury. Electromyogr. Clin. Neurophysiol. 50: 3-27, 2010. (Download in pdf format)
  118. Schalow, G.: Cure of urinary bladder functions in severe (95%) motoric complete cervical spinal cord injury in human. Electromyogr. Clin. Neurophysiol. 50: 155-179, 2010. (Download in pdf format)
  119. Schalow, G.: Scientific basis for learning transfer from movements to urinary bladder functions for bladder repair in patients with spinal cord injury. Electromyogr. Clin. Neurophysiol. 50: 229-395, 2010. (Download in pdf format)
  120. Schalow, G.: Human Neurophysiology: Development and Repair of the Human Central Nervous System. Nova Science Publishers, Inc, Hauppauge NY, USA, 734 pp., 2013.
  121. Schalow, G.: Repair of the Human Brain and Spinal Cord. Nova Science Publishers, Inc, Hauppauge NY, USA, 532 pp., 2015.
  122. Schalow, G.: Neural network learning in humans. Nova Science Publishers, Inc, Hauppauge NY, USA, 337 pp., 2015.
  123. Schalow, G.: Human Neurophysiology and Movement-Based Learning for Repairing the Human Brain. In: Horizons in Neuroscience Research. Volume 22 (Editors: Andres Costa and Eugenio Villalba), Chapter 2, Nova Science Publishers, Inc, Hauppauge NY, USA, 2015.
  124. Schalow, G.: Coma Recovery Achieved after 4 Years of Coordination Dynamics Therapy of a Patient Who Lost 50% of His Brain Tissue in a Car Accident. In: Horizons in Neuroscience Research. Volume 32 (Editors: Andres Costa and Eugenio Villalba), Chapter 1, pp. 1-78, Nova Science Publishers, Inc, Hauppauge NY, USA, 2017.
  125. Schalow, G.: Breast Cancer Growth Inhibition via Coordination Dynamics Therapy. In: Horizons in Cancer Research. Volume 68 (Editor: Hiroto S. Watanabe), Chapter 5, pp. 125-151, Nova Science Publishers, Inc, Hauppauge NY, USA, 2017.
  126. Schalow, G.: Coma and spinal cord injury recovery achieved via coordination dynamics therapy. Clin. Case Rep. Rev. 4: 1-7, 2018. (Download in pdf format)
  127. Schalow, G.: Paediatric acquired brain injury repair in 5 patients through Coordination Dynamics Therapy. Clin. Med. Rep. 1(4): 1-19, 2018. (Download in pdf format)
  128. Schalow, G.: Permanent coma patient re-learned to speak via Coordination Dynamics Therapy. Arch. Clin. Med. Case Rep. 3(2): 33-50, 2019. (Download in pdf format)
  129. Schalow, G.: Brain repair and general health improvement through human neurophysiology and repair physiology (Review of Coordination Dynamics Therapy (CDT)). Clin. Med. Rep. 2(2): 1-68, 2019. (Download in pdf format)
  130. Schalow, G.: Regeneration of the human spinal cord via coordination dynamics therapy. Peertechz Publications, 97 pp., 2019. (Download in pdf format)
  131. Schalow, G.: Potential organ donor recovered from severe brain injury spontaneously and CNS functions improved through coordination dynamics therapy. Int. J. Med. Clin. Imaging 6(1): 95-109, 2020. (Download in pdf format)
  132. Schalow, G.: To live longer with a better quality of life through coordination dynamics therapy especially in patients with severe brain injury and brain-cancer. Int. J. Med. Clin. Imaging 5(2): 118-155, 2020. (Download in pdf format)
  133. Schalow, G.: Covid-19 infection improvement through the movement-based learning therapy ‘Coordination Dynamics Therapy’. Int. J. Med. Clin. Imaging 5(2): 157-164, 2020. (Download in pdf format)
  134. Schalow, G.: Anaplastic oligodendroglioma WHO III brain cancer-patient recovered following operation, radiation and chemotherapy through Coordination Dynamics Therapy, which is also a Covid-19 treatment without ventilator. Int. J. Med. Clin. Imaging 5(2): 165-210, 2020. (Download in pdf format)
  135. Schalow, G.: From brain repair to Covid-19 treatment via Coordination Dynamics Therapy. (Videofilm contains therapy movements of the patients of the publications 127, 130 and 132 onwards). August 19, 2020. (Download video)
  136. Schalow, G.: Classification and Identification of Human Peripheral Nerve Fibers by Conduction Velocity, Nerve Fiber Diameter and Natural Firing Patterns with Consequences for CNS Repair and Covid-19 Infection Treatment. Int. J. Med. Clin. Imaging 5(3): 231-314, 2020. (Download in pdf format)
  137. Schalow, G.: CNS Repair in a Girl with a Spinal Cord Injury. Adv. Pub. Health Com. Trop. Med.: APCTM-121 (Page no. 201-226), 2021. (Download in pdf format)
  138. Schalow, G.: Phase and Frequency Coordination Improvement Among Neuron Firing for Improved CNS Self-Organization and Neural Repair in Parkinson and Spinal Cord Injury. Int. J. Med. Clin. Imaging 6(1): 350-425, 2021. (Download in pdf format)
  139. Schalow, G.: Cure-Like Brain-Repair in a Girl with Atrophied Cerebellum and Pons through Coordination Dynamics Therapy. Adv. Pub. Health Com. Trop. Med.: APCTM-123 2021(1): 1-47, 2021. (Download in pdf format)
  140. Schalow, G.: Euthanasia in Organ Donation Can Be Avoided through Coordination Dynamics Therapy. Adv. Pub. Health Com. Trop. Med.: APCTM-132 2021(3): 1-34, 2021. (Download in pdf format)
  141. Schalow, G.: Human Repair-Neurophysiology. Book Publisher International, 229 pp., 2022. (Download in pdf format)
  142. Schalow, G.: Spinal Muscular Atrophy Repair through Coordination Dynamics Therapy and Translation of Frog Neuromuscular Innervation Pattern Changes Caused By Neurotrophins to Human. Adv. Ortho. and Sprts. Med.: AOASM-160 2022(2): 1-81, 2022. (Download in pdf format)
  143. Schalow, G.: Continence Repair Through Coordination Dynamics Therapy. Adv. Pub. Health Com. Trop. Med.: APCTM-163 2022(5): 1-97, 2022. (Download in pdf format)
  144. Schalow, G.: Continence Repair through Neural Network Learning. Int. J. Med. Clin. Imaging 8(1): 433-476, 2023. (Download in pdf format)
  145. Schalow, G.: Basal ganglia, Cortex and Pyramidal tract repair through 2 years of Coordination Dynamics Therapy 12 years after hypoxia during birth. Adv. Ortho. and Sprts. Med.: AOASM-191 2023(2): 1-52, 2023.
  146. Schalow, G.: Multiple sclerosis repair through 2 years of coordination dynamics therapy. Int J Med Clin Imaging 8(1): 612-638, 2023.
  147. Schalow, G.: Genetic disease repair (5p-) through Coordination Dynamics Therapy. Int J Med Clin Imaging 9(1): 477-611, 2023.