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1. Zaretsky L, Sanders I (1992) The three bellies of the canine cricothyroid muscle. Ann Otol Rhinol Laryngol (Suppl) 156:3-16

2. Sanders I, Jacobs I, Wu, Biller HF (1993) The three bellies of the canine posterior cricoarytenoid muscle: implications for understanding laryngeal function. Laryngoscope 103:171-177

3. Sanders I, Bei-Lian W, Liancai M, Biller HF (1994) The innervation of the human posterior cricoarytenoid muscle: evidence for at least two neuromuscular compartments. Laryngoscope 104:880-884

4. Sanders I, Han Y, Surinder R, Biller HF (1998) Human vocalis contains distinct superior and inferior subcompartments: possible candidates for the two masses of vocal fold vibration. Ann Otol Rhinol Laryngol 107:826-833

5. Han Y, Wang J, Fischman DA, Biller HF, Sanders I (1999) Slow tonic muscle fibers in the thyroarytenoid muscles of human vocal folds; a possible specialization for speech. Anat Rec 256:146-157

6. Sanders I, Han Y, Wang J, Biller H (1998) Muscle spindles are concentrated in the superior vocalis subcompartment of the human thyroarytenoid muscle. J Voice 12:7-16

7. Maranillo E, Leon X, Ibanez M, Orus C, Quer M, Sanudo JR (2003) Variability of the nerve supply patterns of the human posterior cricoarytenoid muscle. Laryngoscope 113:602-606

8. Sanders I, Bei-Lian W, Liancai M, Youzhu L, Biller HF (1993) The innervation of the human larynx. Arch Otolaryngol Head Neck Surg 19:934-939

9. Bei-Lian W, Sanders I, Liancai M, Biller HF (1994) The human communicating nerve. Arch Otolaryngol Head Neck Surg 120:1321-1328

10. Zealear DL (1983) The contractile properties and functions of single laryngeal motor units. In: Bless DM, Abbs JH (eds) Vocal fold physiology: temporary research and clinical issues. College-Hill Press, San Diego, pp 96-106

11. Henneman E, Somjen G, Carpenter DO (1965) The functional significance of cell size in spinal motoneurons. J Neurophys 28:560-580

12. Hinrichsen CF, Ryan AT (1981) Localization of laryngeal motoneurons in the rat: morphologic evidence for dual innervation? Exp Neurol 74:341355

13. Dilworth TFM (1921) The nerves of the human larynx. J Anat 56:48-52

14. Siribodhi C, Sundmaker W, Atkins JP, Bonner FJ (1963) Electromyographic studies of laryngeal paralysis and regeneration of laryngeal motor nerves in dogs. Laryngoscope 73:148-164

15. Boles R, Fritzell B (1969) Injury and repair of the recurrent laryngeal nerves in dogs. Laryngoscope 70:1405-1418

16. Murakami Y, Kirchner JA (1971) Vocal cord abduction by regenerated recurrent laryngeal nerve. An experimental study in the dog. Arch Otolaryngol 94:64-68

17. Crumley RL (1989) Laryngeal synkinesis: its significance to the laryngologist. Ann Otol Rhinol Laryngol 98:87-92

18. Crumley RL (2000) Laryngeal synkinesis revisited. Ann Otol Rhinol Laryngol 109:365-371

19. Flint PW, Downs DH, Coltrera MD (1991) Laryngeal synkinesis following reinnervation in the rat. Neuroanatomic and physiologic study using retrograde fluorescent tracers and electromyography. Ann Otol Rhinol Laryngol 100:797-806

20. Davis PJ, Nail BS (1984) On the location and size of laryngeal motoneurons in the cat and rabbit. J Comp Neurol 230:13-32

21. Hisa Y, Sato F, Fukui K, Ibata Y, Mizuokoshi 0 (1984) Nucleus ambiguus motoneurons innervating the canine intrinsic laryngeal muscles by the fluorescent labeling technique. Exp Neurol 84:441-449

22. Yoshida Y, Miyazaki T, Hirano M, Shin T, Ka-naseki T (1982) Arrangement of motoneurons innervating the intrinsic laryngeal muscles of cats as demonstrated by horseradish peroxidase. Acta Otolaryngol (Stockh) 94:329-334

23. Gacek RR, Malmgren LT, Lyon MJ (1977) Localization of adductor and abductor motor nerve fibers to the larynx. Ann Otol Rhinol Laryngol 86:771776

24. Nahm I, Shin T, ChibaT (1990) Regeneration ofthe recurrent laryngeal nerve in the guinea pig. Reorganization of motoneurons after freezing injury. Am J Otolaryngol 11:90-98

25. Dedo H (1970) The paralyzed larynx: an electromyographic study in dogs and humans. Laryngoscope 80:1455-1514

26. Tashiro T (1972) Experimental studies ofthe reinnervation of the larynx after accurate neurorrhaphy. Laryngoscope 82:225-236

27. Dedo HH (1971) Electromyographic and visual evaluation of recurrent laryngeal nerve anastomosis in dogs. Ann Otol Rhinol Laryngol 80:664668

28. Crumley RL, McCabe BF (1982) Regeneration of the recurrent laryngeal nerve. Otolaryngol Head Neck Surg 90:442-447

29. Zealear DL, Hamdan AL, Rainey CL (1994) The effects of denervation on posterior cricoarytenoid muscle physiology and histochemistry. Ann Otol Rhinol Laryngol 103:780-788

30. Damrose EJ, Huang RY, Blumin JH, Blackwell KE, Sercarz JA, Berke GS (2001) Lack of evoked laryn geal electromyography response in patients with a clinical diagnosis of vocal cord paralysis. Ann Otol Rhinol Laryngol 110:815-819

31. Blitzer A, Jahn AF, Keidar A (1996) Semon's law revisited: an electromyographic analysis of laryngeal synkinesis. Ann Otol Rhinol Laryngol 105:764-769

32. Holinger L, Holinger PC, Holinger PH (1976) Etiology of the bilateral abductor vocal cord paralysis. Ann Otol 85:428-436

33. Zealear DL, Billante CR, Courey MS, Netterville JL, Paniello R, Sanders I, Herzon, CD, Coding CS, Mann W, Ejnell H, Van de Heyning P (2003) Reanimation of the paralyzed human larynx with an implantable stimulation device. Laryngoscope 113:1149-1156

34. Zealear DL, Billante CR, Courey MS, Sant'anna CD, Netterville JL (2002) Electrically stimulated glottal opening combined with adductor muscle botox blockade restores both ventilation and voice in a patient with bilateral laryngeal paralysis. Ann Otol Rhinol Laryngology 111:500-506

35. Billante CR, Zealear DL, Courey MS, Netterville JL (2002) Effect of chronic electrical stimulation of laryngeal muscle on voice. Ann Otol Rhinol Laryngol 111:328-332

36. Horseley JS (1909) Suture of the recurrent laryngeal nerve with report of a case. Trans South Surg Gynecol Assoc 22:161

37. Crumley RL (1979) Mechanisms of synkinesis. Laryngoscope 89:1847-1854

38. Crumley RL (1982) Experiments in reinnervation. Laryngoscope 92:1-27

39. Fex S (1970) Functioning remobilization of vocal colds in cats with permanent recurrent laryngeal nerve paralysis. Acta Otolaryngol 69:294-301

40. Morledge D, Lauvstad WA, Calcaterra T (1973) Delayed reinnervation of the paralyzed larynx. Arch Otol97:291-293

41. Taggart JP (1971) Laryngeal reinnervation by phrenic nerve implantation in dogs. Laryngoscope 81:1330-1336

42. Tucker HM (1978) Human laryngeal reinnervation: long-term experience with the nerve muscle pedicle technique. Laryngoscope 88:598-604

43. Tucker HM (1982) Nerve-muscle pedicle reinnervation of the larynx: avoiding pitfalls and complications. Ann Otol Rhinol Laryngol 91:440-444

44. Tucker HM (1989) Long-term results of nerve-muscle pedicle reinnervation for laryngeal paralysis. Ann Otol Rhinol Laryngol 98:674-676

45. Rice DH, Owens 0, Burstein F, Verity A (1983) The nerve-muscle pedicle: a visual, electromyographic and histochemical study. Arch Otolaryngol 109:233-234

46. Crumley RL, Horn K, Slendenning D (1980) Laryngeal reinnervation using the split-phrenic nerve graft procedure. Otolaryngol Head Neck Surg 88:159

47. Fraser CH (1924) The treatment of paralysis of the recurrent laryngeal nerve by nerve anastomosis. Ann Surg 79:161-166

48. rumley RL (1991) Update: ansa cervicalis to recurrent laryngeal nerve anastomosis for unilateral laryngealparalysis. Laryngoscope 101:384-388

49. Zheng H, Li Z, Zhou S, Cuan Y, Wen W, Lan J (1996) Experimental study on reinnervation of vocal cord adductors with the ansa cervicalis.Laryn-goscope 106:1516-1521

50. Zheng H, Li Z, Zhou S, Cuan Y, Wen W (1996) Update: laryngeal reinnervation for unilateral vocal cord paralysis with the ansa cervicalis. Laryngoscope 106:1522-1527

51. Olson DEL, Coding GS, Michael DD (1998) Acoustic and perceptual evaluation of laryngeal reinnervation by ansa cervicalis transfer. Laryngoscope 108:1767-1772

52. Paniello RC (2000) Laryngeal reinnervation with the hypoglossal nerve. II: Clinical evaluation and early patient experience. Laryngoscope 110:739747

53. Paniello RC, Lee P, Dahm JD (1999) Hypoglossal nerve transfer for laryngeal reinnervation: a preliminary study. Ann Otol Rhinol Laryngol 108:239-244

54. Zealear DL, Rodriguez RJ, Kenny T, Billante MJ, Cho Y, Billante CR, Garren KC (2002) Electrical stimulation of a denervated muscle promotes selective reinnervation by native over foreign motoneurons. J Neurophys 87:2195-2199

55. Zealear DL, Billante CR, Chongkolwatana C, Her-zon GD (2000) The effects of chronic electrical stimulation on laryngeal muscle reinnervation. ORL J Otorhinolaryngol Relat Spec 62:87-95

56. Wigston DJ, Donahue SP (1988) The location of cues promoting selective reinnervation of axolotl muscles. JNeurosci 8:3451-3458

57. Brushart TM, Gerber J, Lessens P, Shen YG, Royall RM (1998) Contributions of pathway and neuron to preferential motor reinnervation. J Neurosci 18:8674-8681

58. Al-Majed A, Neumann CM, Brushart TM, Gordon T. Brief electrical stimulation promotes the speed and accuracy of motor axonal regeneration. J Neurosci 2000; 2o(7):26o2-o8.

59. Politis MJ. Specificity in mammalian peripheral nerve regeneration at the level of the nerve trunk. Brain Res i985;328:27i.

60. Thompson W. Synapse elimination in neonatal rat muscle is sensitive to pattern of muscle use. Nature 1983;302:614-6.

61. Bennett MR, Robinson J (1989) Growth and elimination of nerve terminals at synaptic sites during polyneuronal innervation of muscle cells: a trophic hypothesis. Proc R Soc Lond B 235:299-320

62. Gordon T, Bambrick L, Orozco R (1988) Comparison of injury and development in the neuromuscular system. Ciba Found Symp 138:210-226

63. Lomo T, Waerhaug 0 (1985) Motor endplates in fast and slow muscles of the rat: What determines their difference? J Physiol (Paris) 80:290-297

64. Kallo JR, Steinhardt FA (1983) The regulation of extrajunctional acetylcholine receptors in the denervated rat diaphragm muscle in culture. J Physiol (Lond) 344:433-453

65. Buller AJ, Eccles JC, Eccles RM (i960) Differentiation of fast and slow muscles in the cat hind limb. J Physiol 150:399-416

66. Buller AJ, Eccles JC, Eccles RM (i960) Interactions between motoneurons and muscles in respect of the characteristic speeds of their muscle responses. J Physiol 150:417-439

67. Salmons S, Sreter FA (1976) Significance of impulse activity in the transformation of skeletal muscle type. Nature 263:30

68. Lomo T, Westgaard RH, Dahl HA (1974) Contractile properties of muscle: control by pattern of muscle activity in the rat. Proc Royal Soc Lond (B) 187:99

69. Windisch A, Gundersen K, Szabolcs H, Gruber H, Lomo T (1998) Fast to slowtransformation of denervated and electrically stimulated rat muscle. J Physiol 510:623-632

70. Shiotani A, Nakagawa H, Flint PW (2001) Modulation of myosin heavy chains in rat laryngeal muscle. Laryngoscope 111:472-477

71. Shiotani A, Flint PW (1998) Myosin heavy chain composition in rat laryngeal muscles after denervation. Laryngoscope 108:1225-1229

72. Zealear DL, Billante CL, Chongkolwatana C, Rho YS, Hamdan AL, Herzon GD (2000) The effects of chronic electrical stimulation on laryngeal muscle physiology and histochemistry. ORL J Otorhinolaryngol Relat Spec 62:81-86

73. Vrbova G, Pette D (1999) What does chronic electrical stimulation teach us about muscle plasticity? Muscle Nerve 22(6):666-677

74. Gundersen K (1998) Determination of muscle contractile properties: the importance of the nerve. Acta Physiol Scand 162:333-341

75. Murgia M, Serrano AL, Calabria E, Pallafacchina G, Lomo T, Schiaffino S (2000) Ras is involved in nerve-activity-dependent regulation of muscle genes. Nat Cell Biol 2:142-147

76. Wittwer M, Fluck M, Hoppeler H, Muller S, Desplanches D, Billeter R (2002) Prolonged unloading of rat soleus muscle causes distinct adaptations of the gene profile. FASEB J 16:884-886

77. Flint PW, Nakagawa H, Shiotani A, Coleman ME, O'Malley BW Jr (2004) Effects of insulin-like growth factor-i gene transfer on myosin heavy chains in denervated rat laryngeal muscle. Laryngoscope 114:368-371

78. Shiotani A, O'Malley BW Jr, Coleman ME, Flint PW (1999) Human insulinlike growth factor 1 gene transfer into paralyzed rat larynx: single vs multiple injection. Arch Otolaryngol Head Neck Surg 125:555-560

79. Flint PW, Shiotani A, O'Malley BW Jr (1999) IGF-i gene transfer into denervated rat laryngeal muscle. Arch Otolaryngol Head Neck Surg 125:274-279

80. Shiotani A, O'Malley BW Jr, Coleman ME, Alila HW, Flint PW (1998) Reinnervation of motor endplates and increased muscle fiber size after human insulin-like growth factor I gene transfer into the paralyzed larynx. Hum Gene Ther 20:2039-2047

81. Sanders I, Jacobs I, Wu BL, Biller HF (1993) The three bellies of the canine posterior cricoarytenoid muscle: implications for understanding laryn-gealfunction. Laryngoscope 103:171-177

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