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Acta Oto-Laryngologica Volume 99, 1985 - Issue sup421
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Original Article

Histochemical, Microchemical (Microprobe) and Organ Culture Approaches to the Study of Auditory Development

Matti Anniko Departments of Otolaryngology and Histology, and the Otologic Research Laboratories, University of Umeå, Umeå, Sweden
Pages 10-18 | Published online: 08 Jul 2009

References

  • Thalmann R. Quantitative histochemistry and cytochemistry of the ear. Handbook of auditory and vestibular research methods, C A Smith, J A Vernon. Charles C Thomas Publisher, Springfield, Illinois 1976; 359–418
  • Feldman A M. Cochlear fluids: physiology, biochemistry and pharmacology. Pharmacology of hearing, R D Brown, E A Daigneault. John Wiley & Sons, New York 1981; 81–97
  • Konishi T. Ion and water control in cochlear endolymph. Am J Otolaryngol 1982; 3: 434–443
  • Kuijpers W, van der Vlenten A C, Bonting S L. Cochlear function and sodium and potassium activated adenosine triphosphatase. Science 1967; 157: 949–950
  • Kuijpers W, Bonting S L. Localization and properties of ATPase in the inner ear of the guinea pig. Biochim Biophys Acta 1969; 173: 477–485
  • Nakai Y, Hilding D A. Adenosine triphosphatase distribution in the organ of Corti. Acta Otolaryngol (Stockh) 1967; 64: 477–491
  • Kuijpers W. Na-K-ATPase activity in the cochlea of the rat during development. Acta Otolaryngol (Stockh) 1974; 78: 341–344
  • Bosher S K, Warren R L. A study of the electrochemistry and osmotic relationships of the cochlear fluids in the neonatal rat at the time of the development of the endocochlear potential. J Physiol (Lond) 1971; 212: 739–761
  • Bosher S K. Neonatal changes in the endolymph and their possible relationship to peri-natal deafness. Acta Otolaryngol (Stockh) 1972; 73: 203–211
  • Kerr T P, Ross M D, Ernst S A. Cellular localization of transport ATPase in the mammalian cochlear duct. Abstr 5th ARO Midwinter Research Meeting. 1982; 99–100
  • Strewler G J, Orloff J. Role of cyclic nucleotides in the transport of water and electrolytes. Adv Cyc Nucl Res 1977; 8: 311–316
  • Kerr T P, Schacht J. Adenylate cyclase in the guinea pig cochlea. J Acoust Soc Am 1975; 58: 61
  • Ahlström T, Thalmann I, Thalmann R, Ise I. Cyclic AMP and adenylate cyclase in the inner ear. Laryngoscope 1975; 85: 1241–1258
  • Bagger-Sjöbäck D, Filipek C S, Schacht J. Characteristics and drug responses of cochlear and vestibular adenylate cyclase. Arch Oto-Rhino-Laryngol 1980; 228: 217–222
  • Paloheimo S, Thalmann R. Influence of “loop” diuretics upon Na+/K+-ATPase and adenylate cyclase of the stria vascularis. Arch Oto-Rhino-Laryngol 1977; 217: 347–359
  • Thalmann R, Miyoshi T, Kusakari J, et al. Normal and abnormal energy metabolism of the inner ear. Otolaryngol Clin North Am 1975; 8: 313–333
  • Prazma J. Ototoxicity of diuretics. Pharmacology of hearing, R D Brown, E A Daigneault. John Wiley & Sons, New York 1981; 197–229
  • Anniko M, Nordemar H, Spångberg M-L, Schacht J. Biochemical studies on the embryonic development of the mammalian inner ear in organ culture. Arch Oto-Rhino-Laryngol 1981; 230: 237–343
  • Anniko M. Embryonic development in vivo and in vitro of the dark cell region of the mammalian crista ampullaris. Acta Otolaryngol (Stockh) 1980a; 90: 106–114
  • Anniko M, Nordemar H. Embryogenesis of the inner ear. IV. Early postnatal maturation of the secretory epithelia of the inner ear in correlation with the elemental composition in the endolymphatic space. Arch Oto-Rhino-Laryngol. 1980; 229: 281–288
  • Anniko M, Bagger-Sjöbäck D. The stria vascularis. Ultrastructural atlas of the inner ear, I Friedmann, J C Ballantyne. Butterworth & Co. Publishers Ltd. 1983; 184–208
  • Anniko M, Wroblewski R. Elemental composition of the mature inner ear. Acta Otolaryngol (Stockh) 1980; 90: 425–430
  • Zajic G, Anniko M, Schacht J. Cellular localization of adenylate cyclase in the developing and mature inner ear of the mouse. Hearing Res 1983; 10: 249–261
  • Duvall A J, Santi P A, Hukee M J. Cochlear fluid balance. A clinical/research overview. Ann Otol Rhinol Laryngol 1980; 89: 335–341
  • Drescher D G. Biochemical characterization of cochlear carbonic anhydrase. Abstr 5th ARO Midwinter Research Meeting, St. Petersburg Beach, FloridaUSA, 1982, 102
  • Lim D J, Karabinas C. Localization of carbonic anhydrase in the inner ear. Abstr. 5th ARO Midwinter Research Meeting, St. Petersburg Beach, FloridaUSA, 1982, 102–103
  • Sokoloff L. Relation between physiological function and energy metabolism in the central nervous system. J Neurochem 1977; 29: 13–26
  • Canlon B, Schacht J. The effect of noise on deoxyglucose uptake into inner ear tissues of the mouse. Arch Oto-Rhino-Laryngol 1981; 230: 171–176
  • Ryan A F, Goodwin P, Woolf N K, Sharp F R. Auditory stimulation alters the pattern of 2-deoxy-glucose uptake in the inner ear. Brain Res 1982; 234: 213–225
  • Anniko M, Canlon B, Unpublished observations
  • Schmidt R S, Fernandez C. Development of mammalian endocochlear potential. J Exp Zool 1963; 153: 227–236
  • Mikaelian D, Ruben R J. Development of hearing the normal CBA-J mouse. Correlation of physiological observations with behavioural responses and with cochlear anatomy. Acta Otolaryngol (Stockh) 1965; 59: 451–461
  • Romand R. Development of the cochlea. Development of auditory and vestibular systems, R Romand. Academic press. 1983; 47–88
  • Stockhurst E, Schacht J. Radioactive labeling of phospholipids and proteins by cochlear perfusion in the guinea pig and the effect of neomycin. Acta Otolaryngol (Stockh) 1977; 83: 401–409
  • Lodhi S, Weiner N D, Mechigian I, Schacht J. Ototoxicity of aminoglycosides correlated with their action on monomolecular films of polyphosphoinositides. Biochem Pharmacol 1980; 28: 597–601
  • Kilian P L, Schacht J. Sound stimulates labeling of polyphosphoinositides in the auditory organ of the noctuid moth. J Neurochem 1980; 34: 709–712
  • Anniko M, Schacht J. Phosphoinositides in the developing inner ear with references to brain, kidney and liver of the mouse. Int J Biochem 1981; 13: 951–953
  • Anniko M, Wrœblewski R. X-ray microanalysis of developing and mature inner ear. Scanning Electron Microscopy II. SEM Inc AMP F'Hare, Chicago 1983; 757–768
  • Anniko M, Wróblewski R. Elemental composition of the developing inner ear. Ann Otol Rhinol Laryngol 1981; 90: 25–32
  • Anniko M, Sobin A, Wróblewski R. X-ray microanalysis of inner ear fluids in the embryonic and newborn guinea pig. Arch Oto-Rhino-Laryngol 1982; 234: 125–130
  • Pujol R, Hilding D. Anatomy and physiology of the onset of auditory function. Acta Otolaryngol (Stockh) 1973; 76: 1–10
  • Ross M D. The tectorial membrane of the rat. Am J Anat 1975; 139: 449–482
  • Anniko M. Elemental analysis of the early post natal tectorial membrane. Hearing Research 1981; 3: 1–9
  • Anniko M, Lim D J, Wróblewski R. Elemental composition of individual cells and tissues in the cochlea. Acta Otolargyngol (Stockh) 1985, in press
  • Van de Water T R. Embryogenesis of the inner ear: In vitro studies. Development of auditory and vestibular systems, R Romand. Academic Press. 1983; 337–374
  • Anniko M. Organ culture of the postnatal mammalian inner ear. Acta Otolaryngol (Stockh) 1979; 88: 211–219
  • Anniko M. Embryogenesis of the mammalian inner ear. III. Formation of the tectorial membrane of the CBA/CBA mouse in vivo and in vitro. Anat Embryol 1980b; 160: 301–313
  • Anniko M, Spångberg M L, Schacht J. Adenylate cyclase activity in the fetal and the early postnatal inner ear of the mouse. Hearing Research 1981; 4: 11–22
  • Van de Water T R. Effects of removal of the statoacoustic ganglion complex upon the growing otocyst. Ann Otol Rhinol Laryngol 1976; 85(Suppl. 33)1–32
  • Li C W, McPhee J. Influences on the coiling of the cochlea. Ann Otol Rhinol Laryngol 1979; 88: 280–287
  • Anniko M, Nordemar H. Ototoxicity or teratogenicity. An analysis of drug-induced effects of the early development of the mammalian otocyst. Arch Oto-Rhino-Laryngol 1981; 232: 43–55
  • Nordemar H, Anniko M. Organ culture of the late embryonic inner ear as a model for ototoxicity studies. Acta Otolaryngol (Stockh) 1983; 96: 457–466
  • Sobkowicz H M, Bereman B, Rose J E. Organotypic development of the organ of Corti in culture. J Neurocytol 1975; 4: 543–572
  • Rose J E, Sobkowicz H M, Bereman B. Growth in culture of the peripheral axons of the spiral neurons in response to displacement of the receptors. J Neurocytol 1977; 6: 49–70
  • Sobkowicz H M, Rose J E, Scott G L, Slapnick S M. Ribbon synapsis in the developing intact and cultured organ of Corti in the mouse. J Neurosci 1982; 2: 942–957
  • Sterkers, personal communication

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