Litteratur

  1. Johnsen E, Parker WD. Electromyography examination. In: Johnson E, ed. Practical electromyography, Williams and Wilkins, 1980:1-15.
  2. Ludin H. Electromyography in practice. Thieme 1980;124 (normal values).
  3. Trojaborg W. Motor unit disorders and myopathies. In: Halliday, Butler, Paul, eds. A textbook of clinical neurophysiology. 1987:417-38.
  4. Ludin HP, ed. Electromyography: Handbook of EEG and clinical neurophysiology (revised), Vol 5, Elsevier, 1995.
  5. Kimura J. Electrodiagnosis in diseases of nerve and muscle: Principles and practice. Fourth edition Oxford, Oxford University Press, 2013.
  6. Buchthal F, Guld C, Rosenfalck P. Innervation zone and propagation velocity in human muscle. Acta Physiol Scand 1955;34:170-90.
  7. Aquilonius S-M, Askmark H, Gillberg PG, Nandedkar S, Olsson Y, Stålberg E. Topographical localization of motor endplates in cryosections of the whole human muscle. Muscle Nerve 1984;7:287-93.
  8. Cöers C, Wolf AL. The innervation of muscle. Oxford: Blackwell, 1959.
  9. Buchthal F, Guld CH, Rosenfalck P. Multielectrode study of the territory of a motor unit. Acta Physiol Scand 1957;39:83-103.
  10. Stålberg E, Antoni L. Electrophysiological cross section of the motor unit.
    J Neurol Neurosurg Psychiatry 1980;43:469-74.
  11. Kugelberg E, Edstrøm L. Differential histochemical effeKTS of muscle contraction on phosphorylase and glycogen in various types of fibres; relation to fatigue. J Neurol Neurosurg Psychiatry 1968;31:415-23.
  12. Brandstater ME, Lambert EH. A histochemical study of spatial arrangements of muscle fibers in single motor unit within rat tibialis anterior muscle. Bull Am Assoc Electromyogr Electrodiagn 1968;39:15-6.
  13. Ekstedt J, Stålberg E. Single fiber electromyography, for the study of the microphysiology of the human muscle. In: Desmedt J, ed. New developments in electromyography and clinical neurophysiology.
    Basel: Karger, 1973;vol 1:84-112.
  14. Feinstein B, Lindegård B, Nyman E, Wohlfart G. Studies on action potentials in normal human muscles. Acta Psychiatr Neurol Scand 1954;29:189-95.
  15. Gath I, Stålberg E. In situ measurements of the innervation ratio of motor units in human muscles. Exp Brain 1981;43:377-482.
  16. Kimura J. Electrodiagnosis in diseases of nerve and muscle: Principles and practice. Philadelfia: F.A. Davis Company, 1989;219.
  17. Stålberg E. Electrodiagnostic assessment and monitoring of motor unit changes in disease. Muscle Nerve 1991;14:293-303.
  18. Stålberg E, Andreassen S, Falck B, Lang H, Rosenfalck A, Trojaborg W. Quantitative analysis of individual motor unit potentials: A proposition for standardized terminology and criteria for measurement. J Clin Neurophysiol 1986;3(4):313-48.
  19. Buchthal F. Electromyography (Part A). In: Remond A, ed. Handbook of electroencephalography and clinical Neurophysiology. Amsterdam: Elsevier, 1973;vol 16.
  20. AAEM Guidelines in Electrodiagnostic Medicine. Muscle Nerve 1992;15:229.
  21. Preston DC, Shapiro BE. Electromyography and Neuromuscular disorders. Third Edition.
  22. Weddell G, Feinstein B, Rattle RE. The electrical activity of voluntary muscle in man under normal and pathological conditions. Brain 1944;67:178-257.
  23. Wiechers DO, Stow R, Johnson EW. Electromyographic insertional activity mechanically provoked in biceps brachii. Arch Phys Med Rehabil 1977;58:573-78.
  24. Daube J. Needle examination in clinical electromyography.
    Muscle Nerve 1991;14:685-700.
  25. Binnie C, Cooper R, Mauguiere F, Osselton J, Prior P, Tedman B. Clinical Neurophysiology Vol. 1, EMG, Nerve conduction and evoked potensials. Second edition.
  26. B. Katirji et al. (eds.), Neuromuscular Disorders in Clinical Practice, Kap.9 Quantitative EMG Analysis, Sanjeev D. Nandedkar and Paul E. Barkhaus
  27. Lang AH, Tuomola H. The time parameters of motor unit potentials recorded with multi-electrodes and the summation technique. Electromyogr Clin Neurophysiol 1974;14:513-25.
  28. Thiele B, Bohle A. Number of spike-components contributing to the motor unit potential. Zschz EEG-EMG 1978;9:125-30.
  29. Lang AH, Vaahtoranta K. The baseline, the time characteristics and the slow afterwaves of the motor unit potential. Electroencephalogr Clin Neurophysiol 1973;35:387-94.
  30. Denny-Brown D. Interpretation of the electromyogram. Arch Neurol ­Psychiatry 1949;61:99-128.
  31. Buchtal F, Rosenfalck P. On the structure of motor units. In: Desmedt J, ed. New developments in electromyography and clinical neurophysiology. Basel, Karger, 1973;vol 1:71-85.
  32. Falck B. Automatic analysis of individual motor unit potentials recorded with a special two channel electrode. Academic dissertation, Turku, 1983.
  33. Lang AH, Partanen J. «Satellite potentials» and the duration of potentials in normal, neuropathic and myopathic muscles. J Neurol Sci 1976;27:513-24.
  34. Buchtahl F, Rosenfalck P. Action potential parameters in different human muscles. Acta Psychiatr Scand 1955;30:125-31.
  35. Lang AH, Nurkkanen P, Vaahtoranta KM. Automatic sampling and averaging of electromyographic unit potentials. Electroencephalogr Clin Neurophysiol 1971;31:404-6.
  36. Nandedkar S, Stålberg E. Simulation of single muscle fibre action potentials. Med Biol Eng Comp 1983;21:158-65.
  37. Buchthal F, Guld C, Rosenfalck P. Action potential parameters in normal muscle and their dependence on physical variables. Acta Physiol Scand 1954a;32:200.
  38. Engstrøm JR, Olney RK. Quantitative motor unit analysis: The effect of sample size. Muscle Nerve 1992;15:277-81.
  39. AAEE Glossary of terms in electrodiagnostic medicine. Muscle Nerve 2001;Suppl 10, S1-S50.
  40. Stålberg E, Trontelj JV. Single fibre electromyography. Second edition. Raven Press, 1995.
  41. Stålberg E, Sanders DB m.fl. Reference values for jitter recorded by concentric needle electrodes in healthy controls: A multicenter study. 2016;53(3):351-62.
  42. Stålberg EV, Trontelj JV, Sanders DB. Single fiber EMG. Third Edition.
  43. Stålberg E. Jitter analysis with concentric needle electrodes. Ann. N.Y. Acad. Sci. 2012;1274:77-85.
  44. Kouyoumdjian JA, Stålberg EV. Concentric needle jitter on stimulated Orbicularis Oculi in 50 healthy subjects. Clinical Neurophysiology 2010.
  45. Kouyoumdjian JA, Stålberg E. Stimulated jitter with concentric needle in 42 myasthenia gravis patients. Arq Neuropsiquiatr 2013;71(4):237-43.
  46. Tidswell T, Pitt MC. A new analytical method to diagnose congenital myastenia with stimulated single-fiber electromyography. Muscle Nerve 2007;35:107-10.
  47. Jolly F. Myastenia gravis pseudoparalytica. Berliner Klinishe Wochenschrift 1985;32:33-4.
  48. Lambert EH. Electromyography and electric stimulation of peripheral nerves and muscle. In: Clinical examinations in neurology, eds 4. Departments of neurology, physiology, and biophysics. Mayo clinic and Mayo fundation. Philadelphia, WB Saunders, 1976:298-329.
  49. Oh SJ, Kim DE, Kuruoglu R, Bradley RJ, Dwyer D. Diagnostic sensitivity of the laboratory tests in MG. Muscle Nerve 1992;15:720-4.
  50. Stålberg E, Sanders DB. Electrofysiological tests of neuromuscular trans­mission. In: Stålberg E, Young R, eds. Clinical Neurophysiology (Neurology 1). England: Butterworth, 1981:88-116.
  51. Chiou-Tan FY, Gilchrist JM. Repetitive nerve stimulation and single-fiber electromyography in the evaluation of patients with suspected myastenia gravis or Lambert-Eaton myastenic syndrom: review of recent literature. Muscle Nerve 2015;52:455-62.
  52. Hatanaka Y, Oh SJ. Ten second exercise is superior to 30-second exercise for post-exercise facilitation in diagnosing Lambert-Eaton myastenic syndrom. Muscle Nerve 2008;37:572-5.
  53. Oh SJ, Nagai T, Kizilay F, Kurt S. One-minute exercise is best for evaluation of postexercise exhaustion in myasthenia gravis. Muscle Nerve 2014;50:413-6.
  54. Oh SJ. Diverse electrophysiological spectrum of the Eaton-Lambert myastenic syndrome. Muscle Nerve 1989;12:464-9.
  55. Royden Jones H. EMG evaluation of the floppy infant: differential diagnosis and technical aspekts. Muscle Nerve 1990;13:338-47.
  56. Eeg-Olofsson KE. Pediatric clinical neurophysiology 2011.
  57. Russel JW, Afifi AK, Ross MA. Predictive value of electromyography in diagnosis and prognosis of the hypotonic infant. J Child Neurol 1992;7:387-91.
  58. Bischoff C, Stålberg E, Falck B, Eeg Olofsson KE. Reference values of motor unit action potentials obtained with multi-MUAP analysis. Muscle Nerve 1994;17:842-51.
  59. Stålberg E, Fawcett PRW. Macro EMG in healthy subjects of different ages. J Neurol Neurosurg Psychiatry 1982;45:870-8.
  60. Bromberg MB, Scott DM. Single fiber EMG reference values: reformated in tabular form. Muscle Nerve 1994;17:820-1.

5.5. Nyere retningslinjer og oversiktsartikler
American Association of Electrodiagnostic Medicine, So YT. Guidelines in electrodiagnostic medicine. Practice parameter for needle electromyographic evaluation of patients with suspected cervical radiculopathy. Muscle Nerve Suppl. 1999;8:S209-21.
Caruso G, Eisen A, Stålberg E, Kimura J, Mamoli B, Dengler R, Santoro L, Hopf HC. Clinical EMG and glossary of terms most commonly used by clinical electromyographers. The International Federation of Clinical Neurophysiology. Electroencephalogr Clin Neurophysiol Suppl. 1999;52:189-98.
Bischoff C, Fuglsang-Fredriksen A, Vendelbo L, Sumner A. Standards of instrumentation of EMG. The International Federation of Clinical Neurophysiology. Electroencephalogr Clin Neurophysiol Suppl. 1999;52:199-211.
Bolton CF, Benstead TJ, Grand'Maison F, Tardif GS, Weston LE. Minimum standards for electromyography in Canada: a statement of the Canadian Society of Clinical Neurophysiologists. Can J Neurol Sci. 2000;27:288-91.
Kamen G, Caldwell GE. Physiology and interpretation of the electromyogram. J Clin Neurophysiol. 1996;13:366-84.
Stålberg E, Falck B. The role of electromyography in neurology. Electroencephalogr Clin Neurophysiol. 1997 ;103:579-98.
Stålberg E, Falck B, Gilai A, Jabre J, Sonoo M, Todnem K. Standards for quantification of EMG and neurography. The International Federation of Clinical Neurophysiology. Electroencephalogr Clin Neurophysiol Suppl. 1999;52:213-20.

Kvantitative teknikker, overflate-EMG, macro og scanning EMG
American Association of Neuromuscular & Electrodiagnostic Medicine. Needle EMG in certain uncommon clinical contexts. Muscle Nerve. 2005;31:398-9.
American Association of Electrodiagnostic Medicine, Haig AJ, Gelblum JB,Rechtien JJ, Gitter AJ. Guidelines in electrodiagnostic medicine. Technology review: the use of surface EMG in the diagnosis and treatment of nerve and muscle disorders. Muscle Nerve Suppl. 1999;8:S239-42.
Dioszeghy P. Scanning electromyography.Muscle Nerve. 2002;Suppl 11:S66-71.
Stålberg E, Erdem H. Quantitative motor unit potential analysis in routine. Electromyogr Clin Neurophysiol. 2002;42:433-42.
Fawcett PR. Macroelectromyography: a review of the technique and its value in the investigation of neuromuscular disorders. Muscle Nerve. 2002;Suppl 11:S36-45.
Sanders DB, Stålberg EV, Nandedkar SD. Analysis of the electromyographic interference pattern. J Clin Neurophysiol. 1996;13:385-400.
Stålberg E, Nandedkar SD, Sanders DB, Falck B. Quantitative motor unit potential analysis. J Clin Neurophysiol. 1996;13:401-22.

Nevromuskulær transmisjon
AAEM Quality Assurance Committee. American Association of Electrodiagnostic Medicine. Practice parameter for repetitive nerve stimulation and single fiber EMG evaluation of adults with suspected myasthenia gravis or Lambert-Eaton myasthenic syndrome: summary statement. Muscle Nerve. 2001;24:1236-8.
Sanders DB, Stålberg EV. AAEM minimonograph #25: single-fiber electromyography. Muscle Nerve. 1996;19:1069-83.
Stålberg E, Trontelj JV. The study of normal and abnormal neuromuscular transmission with single fibre electromyography. J Neurosci Methods. 1997;74:145-54.