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Publications

Books

Diana Stephanova: Computational Neuroscience Simulated Demyelinating Neuropathies and Neuronopathies. edited by Diana I. Stephanova , Bozhidar Dimitrov, 01/2013; CRC Press, Taylor & Francis Group., ISBN: 978-1-4665-7832-6

Book Chapters

Diana Stephanova: Excitability and potentials of human fibres in amyotrophic lateral sclerosis: model investigations. 01/2005: pages 155-175; ISBN: 1-59454-179-5

Journals

(66). Stephanova DI, Daskalova M. Electrotonic potentials in simulated chronic inflammatory demyelinating polyneuropathy at 20oC−42oC. J. Integr. Neurosci., 14(2):235–252,  2015, IF=1.121, ISSN: 0219–6352

(65). Stephanova DI, Daskalova M. Conducting processes in simulated chronic inflammatory demyelinating polyneuropathy at 20oC−42oC. J. Integr. Neurosci., 14(1):19–30,  2015, IF=1.121, ISSN: 0219–6352

(64). Stephanova DI, Daskalova M. Theoretical predications of the effects of temperature on simulated adaptive processes in human motor nerve axons at 20oC−42oC. J. Integr. Neurosci., 13(3):529–543, 2014, IF=1.121, ISSN: 0219–6352

(63). Stephanova DI, Daskalova M. Effects of temperature on simulated electrotonic potentials and their current kinetics of human motor axons at 20−42oC. J. Integr. Neurosci., 13(3):447–464, 2014, IF=1.121, ISSN: 0219–6352

(62). Andonov V, Stephanova D, Esenturk M, Angelova M, Atanasov K. Generalized net model of telemedicine based on body temperature sensors. Proceedings of the 14th Int. Workshop on generalized Nets, Burgas, 29-30 November, 78-89, 2013, ISSN: 1313-6860

(61). Daskalova M, Krustev SM, Stephanova DI. Temperature effects on simulated human nodal action potentials and their defining current kinetics. Scripta Scientifica Medica, 45(3):42-47, 2013, ISSN: 0582-3250.

(60). Krustev SM, Daskalova M, Stephanova DI. Temperature effects on simulated human internodal action potentials and their defining current kinetics. Scripta Scientifica Medica, 45(4):36-40, 2013, ISSN: 0582-3250.

(59). Stephanova DI, Daskalova M, Krustev SM, Negrev N. Modified multi-layered model of temperature dependent motor nerve axons. Scripta Scientifica Medica, 45(3):36-41, 2013, ISSN: 0582-3250.

(58). Krustev SM, Stephanova DI. Effect of the myelin sheath aqueous layers on the action potentials in simulated hereditary and chronic demyelinating neuropathies. Scripta Scientifica Medica, 44(2):53-57, 2012, ISSN: 0582-3250.

(57). Krustev SM, Stephanova DI. Abnormalities in the recovery cycles in simulated demyelinating neuropathies and neuronopathies. Scripta Scientifica Medica, 44(2):59-63, 2012, ISSN: 0582-3250.

(56). Krustev SM, Stephanova DI. Effect of the myelin sheath aqueous layers on the electrotonic potentials in simulated hereditary and chronic demyelinating neuropathies. Archives of the Balkan Medical Union, 46 (4), Suppl.1:241-245, 2011, ISSN: 1584-9244.

(55). Stephanova DI, Krustev SM, Negrev N. Mechanisms defining the electrotonic potential abnormalities in simulated amyotrophic lateral sclerosis. J. Integr. Neurosci. 11(2):155-167, 2012, IF=1.121, ISSN: 0219–6352

(54). Stephanova DI, Krustev SM, Negrev N. Mechanisms defining the action potential abnormalities in simulated amyotrophic lateral sclerosis. J. Integr. Neurosci., 11(2):137-154, 2012, IF=1.121, ISSN: 0219–6352

(53). Krustev SM, Negrev N, Stephanova DI. The strength-duration properties in simulated demyelinating neuropathies depend on the myelin sheath aqueous layers. Scripta Scientifica Medica, 44(1):117-123, 2012; ISSN: 0582–3250

(52). Stephanova DI, Krustev SM, Negrev N, Daskalova M. The myelin sheath aqueous layers improve the membrane properties of simulated chronic demyelinating neuropathies. J. Integr. Neurosci., 10(1):105-120, 2011, IF=1.121, ISSN: 0219–6352

(51) Stephanova DI, Krustev SM, Daskalova M. The aqueous layers within the myelin sheath modulate the membrane properties of simulated hereditary demyelinating neuropathies. J. Integr. Neurosci., 10(1):89-103, 2010, IF=1.121, ISSN: 0219–6352

(50) Krustev S, Daskalova M, Stephanova D. Myelin sheath aqueous layers do not modulate membrane fibre properties of simulated cases of paranodal internodal systematic demyelinations. CR. Acad Bulg. Sci, 63(12):1845-1852, 2010, IF=0.204, ISSN: 1310–1331

(49). Stephanova DI. Comparison of membrane property abnormalities in simulated demyelinating neuropathies and neuronopathies. CR Acad Bulg. Sci., 63(3):435-442, 2010, IF=0.204, ISSN: 1310–1331

(48). Stephanova DI, Daskalova M. Homogeneity or heterogeneity membrane polarization in simulated cases of demyelinating neuropathies without or with conduction block. CR Acad Bulg Sci, 62(8):1015-1022, 2009, IF=0.204, ISSN: 1310–1331

(47). Stephanova D, Daskalova M. Differences between the channels, currents and mechanisms of conduction slowing/block and accommodative processes in simulated cases of focal demyelinating neuropathies. Eur Biophys J, 37(6):829-842, 2008, IF=2.765, ISSN: 0175-7571

(46). Stephanova D, Daskalova M. Membrane property abnormalities in simulated cases of mild systematic and severe focal demyelinating neuropathies. Eur Biophys J

37(2):183-195, 2008, IF=2.765, ISSN: 0175-7571

(45). Stephanova DI, Daskalova M, Alexandrov AS. Channels, currents and mechanisms of accommodative processes in simulated cases of systematic demyelinating neuropathies. Brain Research, 1171:138-151, 2007, IF=2.341, ISSN: 0006-8993

(44). Christova L, Stephanova D, Kossev A. Branched EMG-electrodes for stable and selective recordings of single motor unit potentials in human. Biomed Tech, 52:117-121, 2007, IF=0.889, ISSN: 1862-278X

(43). Stephanova DI, Alexandrov AS, Kossev A, Christova L. Simulating focal demyelinating neuropathies: membrane property abnormalities. Biol Cybern, 96:195-208, 2007, IF=1.474, ISSN: 0340-1200

(42). Stephanova DI, Alexandrov AS. Simulating mild systematic and focal demyelinating neuropathies: membrane property abnormalities. Journal of Integrative Neuroscience 5:595-623, 2006, ISSN: 0219–6352

(41). Stephanova DI, Daskalova M, Alexandrov AS. Differences in membrane properties in simulated cases of demyelinating neuropathies. Internodal focal demyelination with conduction block. Journal of Biological Physics. 32:129-144, 2006   IF=0.623, ISSN: 0092-0606

(40). Stephanova DI, Daskalova M, Alexandrov AS. Differences in membrane properties in simulated cases of demyelinating neuropathies. Internodal focal demyelination without conduction block. Journal of Biological Physics. 32:61-71, 2006   IF=0.623, ISSN: 0092-0606

(39). Christova L, Grosskreutz J, Angelova P, Kurchatova A, Stephanova D. Erfassung das Muskelfunktionszustandes durch Bestimmung der Muskelfaserleitgeschwindigkeit. (Muscle Functional State Assessment by Estimation of Muscle Fibre Conduction Velocity), Klin. Neurophysiol, 37:138-145, 2006, IF=0.217, ISSN: 1434-0275

(38). Stephanova DI, Daskalova M. Differences in potentials and excitability properties in simulated cases of demyelinating neuropathies. Part III. Paranodal internodal demyelination. Clin Neurophysiol, 116:2334-2341, 2005, IF=2.640, ISSN: 1388-2457

(37). Stephanova DI, Daskalova M. Differences in potentials and excitability properties in simulated cases of demyelinating neuropathies. Part II. Paranodal demyelination. Clin Neurophysiol, 116:1159-1166, 2005, IF=2.640, ISSN: 1388-2457

 

(36). Stephanova DI, Daskalova M, Alexandrov AS. Differences in potentials and excitability properties in simulated cases of demyelinating neuropathies. Part I. Clin Neurophysiol, 116:1153-1158, 2005, IF=2.640, ISSN: 1388-2457

 

(35). Stephanova DI, Daskalova M. Excitability properties of normal and demyelinated human motor nerve axons. Electromyogr clin Neurophysiol, 44:147-152, 2004, ISSN: 0301-150X

 

(34). Stephanova DI, Daskalova M. Nodal and internodal strength-duration time constants and rheobase currents for human myelinated motor and sensory nerve axons Comptes rendus de I’Academie bulgare des Sciences, 56(10):113-118, 2003, ISSN: 1310–1331

 

(33). Stephanova DI, Daskalova M. Abnormalities in the excitability and potentials of demyelinated human motor fibres. Comptes rendus de I’Academie bulgare des Sciences, 56(9):113-118, 2003, ISSN: 1310–1331

 

(32). Стефанова ДИ. Математично моделиране на електрогенезата на миелинови нервни влакна. Автореферат за придобиване на научната степен доктор на биофизичните науки”, 2003

 

(31). Stephanova DI, Daskalova M. Extracellular potentials of myelinated and demyelinated nerve fibres. Electromyogr clin Neurophysiol, 43:497-501, 2003, ISSN: 0301-150X

 

(30). Stephanova DI, Daskalova M. Extracellular potentials of human motor myelinated nerve fibres in normal case and in amyotrophic lateral sclerosis. Electromyogr clin Neurophysiol, 42:443-448, 2002, ISSN: 0301-150X

 

(29). Stephanova DI, Daskalova M, Kristev I. Excitability changes during the recovery cycle of human myelinated motor and sensory axons in normal case and in amyotrophic lateral sclerosis. Acta Physiol & Pharmacol Bulgarica, 26:41-44, 2001, ISSN: 0323-9950

 

(28). Daskalova M, Stephanova DI. Strength-duration properties of human myelinated motor and sensory axons in normal case and in amyotrophic lateral sclerosis. Acta Physiol & Pharmacol Bulgarica, 26:11-14, 2001, ISSN: 0323-9950

 

(27). Stephanova DI. Myelin as longitudinal conductor: a multi-layered model of the myelinated human motor nerve fibre. Biol Cybern, 84:301-308, 2001, IF=1.473, ISSN: 0340-1200

 

(26). Stephanova DI and Mileva K. Different effects of blocked potassium channels on action potentials, accommodation, adaptation and anode break excitation in human motor and sensory myelinated nerve fibres: computer simulations. Biol Cybern, 83:161-167, 2000, IF=1.185, ISSN: 0340-1200

 

(25). Stephanova DI., Kossev A. Action potentials and ionic currents through internodally demyelinated human motor nerve fibres: computer simulations. Comptes rendus de I’Academie bulgare des Sciences 50(3):107-110, 1997, ISSN: 1310–1331

 

(24). Stephanova DI and Chobanova M. Action potentials and ionic currents through paranodally demyelinated human motor nerve fibres: computer simulations, Biol Cybern, 76:311-314, 1997,   IF=1.169, ISSN: 0340-1200

 

(23). Stephanova DI and Bostock H. A distributed parameter model of the myelinated human motor nerve fibre: temporal and spatial distributions of electrotonic potentials and ionic currents. Biol Cybern, 74(6):543-547, 1996, IF=1.269, ISSN: 0340-1200

 

(22). Stephanova DI and Bostock H. A distributed parameter model of the myelinated human motor nerve fibre: temporal and spatial distributions of action potentials and ionic currents. Biol Cybern, 73 (3):275-280, 1995,   IF=1.269, ISSN: 0340-1200

 

(21). Stephanova DI. Conduction along myelinated and demyelinated nerve fibres with a reorganized axonal membrane during the recovery cycle: model investigations. Biol Cybern, 64:129-134, 1990   IF=1.269, ISSN: 0340-1200

 

(20). Stephanova DI. Model investigation of the mechanisms of conductance along excitable fibres in the recovery cycle. Acta Physiol & Pharmacol Bulg, 16:14-17, 1990, ISSN: 0323-9950

 

(19). Gydikov A, Kossev A, Trayanova N, Stephanova DI. Electrotonic potentials of myelinated nerve fibres. Electromyogr clin Neurophysiol, 30:47-51, 1990, ISSN: 0301-150X

 

(18). Stephanova D. Conduction along myelinated and demyelinated nerve fibres during the recovery cycle: model investigations, Biol Cybern, 62:83-87, 1989, IF=1.269, ISSN: 0340-1200

 

(17). Stephanova DI, Trayanova N, Gydikov A, Kossev A: Extracellular potentials of a single myelinated nerve fiber in an unbounded volume conductor. Biol Cybern, 61:205-210, 1989, IF=1.269, ISSN: 0340-1200

 

(16). Stephanova DI. Model investigations of the temperature dependence of demyelinated and reorganized axonal membrane. Biol Cybern, 60,439-443, 1989   IF=1.269, ISSN: 0340-1200

 

(15). Stephanova DI. Systematic paranodal demyelination of nerve fibers: computer simulations. Elecromyogr Clin Neurophysiol, 28:107-110, 1988, ISSN: 0301-150X

 

(14). Stephanova DI. Reorganization of the axonal membrane in a demyelinated nerve fiber: computer simulations. Electromyogr Clin Neurophysiol, 28:101-105, 1988, ISSN: 0301-150X

 

(13). Stephanova DI. The effect of temperature on a simulated systematically paranodally demyelinated nerve fiber. Biol Cybern, 60:73-77, 1988, IF=1.369, ISSN: 0340-1200

 

(12). Stephanova DI. Mathematical analysis of the changes in the parameters of the action potentials, membrane and ionic currents of frog muscle fibre during the recovery cycle. Biol Cybern, 57:207-211, 1987, IF=1.269, ISSN: 0340-1200

 

(11). Stephanova DI, Gydikov A. Mathematical modelling of the changes in the parameters of the action potential of frog muscle fibre at different temperatures, Electromyogr clin Neurophysiol, 25:223-232, 1985, ISSN: 0301-150X

 

(10). Dimitrov D, Stoicheva N, Stefanova DI. A simple interpolation formula for the rate of approach of particles or cells with tension-controlled shapes at arbitrary separations. J Coll Int Sci, 98:269-271, 1984, IF=1.420, ISSN: 0021-9797

 

(9). Stephanova DI. Mathematical analysis of the changes in the action potential and ionic currents of frog muscle fibres at different temperatures. Electromyogr clin Neurophysiol, 24:599-610, 1984, ISSN: 0301-150X

 

(8). Stephanova DI. Mathematical analysis of the changes in the intracellular potentials, generated by a human skeletal muscle in the recovery cycle at the different temperatures. Electromyogr Clin Neurophysiol, 24:107-115, 1984, ISSN: 0301-150X

 

(7). Stephanova DI. Mathematical analysis of the changes in the action potentials, generated by a frog skeletal muscle fibre under the effect of temperature. Electromyogr Clin Neurophysiol, 24:369-376, 1984, ISSN: 0301-150X

 

(6). Stephanova DI, Dimitrov G. Mathematical analysis of the changes in the intracellular potentials, generated by human skeletal muscle fibre under the effect of temperature. Electromyogr clin Neurophysiol, 24:377-386, 1984, ISSN: 0301-150X

 

(5). Stephanova DI, Dimitrov G. Mathematical analysis of the mechanisms of conductance along excitable fibres in the recovery cycle. Electomyogr Clin Neurophysiol, 23:35-47, 1983, ISSN: 0301-150X

 

(4). Стефанова ДИ. Математично моделиране на процесите протичащи в клетъчните мембрани на скелетни мускулни влакна, Автореферат за придобиване на научната степен “кандидат на биологичните науки”, 1983

 

(3). Stephanova DI, Dimitrov G. Mathematical modelling of ionic processes in human skeletal muscle fibres. Electromyogr Clin Neurophysiol, 22:329-347, 1982, ISSN: 0301-150X

 

(2). Burgudjiev Z, Lyochkova M, Stefanova DI, Koleva I. Use of characteristic of modern photographic materials in spectral determination of trace elements, Mikrochimica Acta, I: 441-449, 1976, IF=0.796, ISSN: 0026-3672

 

(1). Петракиев А, Колева И, Стефанова Д. Влияние на магнитното поле, създадено от перманентен магнит, върху плазмата на импулсен високоволтов  разряд, Годишник на Физически Факултет, 66: 221-228, 1976

 

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