Hostname: page-component-78c5997874-mlc7c Total loading time: 0 Render date: 2024-11-06T09:06:24.408Z Has data issue: false hasContentIssue false

The Defences of the Air Passages

Published online by Cambridge University Press:  29 June 2007

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Research Article
Copyright
Copyright © JLO (1984) Limited 1936

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1Acta Oto-Laryngologica (to be published).Google Scholar
2Annals of Otol., 12, 1927, xxxvi., 4, 978–90.Google Scholar
3Ann. de l'Inst. Pasteur, 1888, 4.Google Scholar
4Archivio Ital. di Otolog., xiii., 1.Google Scholar
5Boroditch, H.P., “Force of Ciliary Motion,” Boston Med. and Surg. Journ., xcv., 1876, 159.CrossRefGoogle Scholar
6Briscoe, , Charlton, J., “The Phagocytic Action of the Alveolar Cells of the Lung,” The Jour. of Path. and Bact., xii., 1908, 66.CrossRefGoogle Scholar
7British Med. Journal, 1868, 07 18th.Google Scholar
8Buhrmester, C., Ann. of Otolaryng., xliii., 1933, 10, 1041.Google Scholar
9Bull, C.G. and McKee, C. M., Amer. Journ. Hyg., 1928, 8, 477 and 723.Google Scholar
10Coates, , George, M. and Ersner, M. S., “Regeneration of the Mucous Membrane of the Frontal Sinus after Surgical Removal (in the dog),” Arch. of Otolaryng., xii., 11, 1930, 642.CrossRefGoogle Scholar
Gorham, C. B. and Bacher, J. A., “Regeneration of the Human Maxillary Antral Lining,” Arch. of Otolaryng., xi., 1930, 06, 763.CrossRefGoogle Scholar
Knowlton, , Charles, D. and Mcgregor, G. W., “How and When the Mucous Membrane of the Maxillary Sinus Regenerates,” Arch. of Otolaryng., viii., 1928, 646.Google Scholar
Mcgregor, , Gregor, , “Further Proof of the Regeneration of Mucous Membrane in the Human Antrum,” Arch. of Otolaryng., xiv., 1931, 09, 309.CrossRefGoogle Scholar
11Cruickshank, , John, and Robert, , “Bacterial Flora of the Upper Respiratory Tract,” A System of Bacteriology, Medical Research Council, 1931. 343.Google Scholar
12Daniels, A. L., Armstrong, M. E. and Hutton, M. K., “Nasal Sinusitis Produced by Diets deficient in Fat Soluble A Vitamin,” Journ. Amer. Med. Assoc., 81, 828, 1923.CrossRefGoogle Scholar
13Davis, D. J., “Hæmolytic streptococci with special reference to their rô1e in Acute Respiratory Infections,” Journ. Amer. Med. Assoc., 72, 319, 02 1st, 1919.CrossRefGoogle Scholar
14De phenomeno motus vibratorii, 4to, Wratisl., 1835.Google Scholar
15Diseases of the Nose and Throat by Sir Thomson, StClair, London, 1926, 3rd edition, 8.Google Scholar
16Ed. Med. Journ., 1911.Google Scholar
Journ. of Laryng., 1926–7–8.Google Scholar
“Intracranial Pyogenic Diseases,” Edinburgh: Oliver & Boyd, 1931.Google Scholar
17Ellis, M. P. and Livingstone, A. E., “A Method of Directly Recording Changes in the Calibre of the Bronchi,” Journ. of Physiol. 1935, 84, 3, 223.CrossRefGoogle ScholarPubMed
18 “Experimentelle Untersuchungen über des cindringen pathogener Mikroorganismen, etc.,” Beiträge zur path Anat. u. Physiol., Ziegler und Nauwerck, 11, 1888, 421.Google Scholar
19Fenton, , Ralph, A., The Journ. of the Indiana State Med. Assoc., 28, 1935, 1, 1218.Google Scholar
20Fleming, , Alexander, , Proc. Roy. SOC. Med., xxvi., Part I, 1932, 10, 71.CrossRefGoogle Scholar
21Gosselin, , Comptes Rend. Soc. de Biol., 1851, iii., 57.Google Scholar
22Gray, J., “Ciliary Movement,” Cambridge University Press, 1928.Google Scholar
23Gray, J., M.A., “The Effect of Ions upon Ciliary Movement,” Quart. Journ. of Micros. Sci., lxiv., 1920.Google Scholar
24Guy's Hosp. Repts., 80, 443, 1930.Google Scholar
25Haywood, , Charlotte, , “The Relative importance of pH and Carbon Dioxide Tension in Determining the Cessation of Ciliary Movement in Acidified Sea Water,” Journ. of Gen. Physiology, 7, 1925, 693.CrossRefGoogle ScholarPubMed
26Hilding, , Anderson, , “The Physiology of Drainage of Nasal Mucus,” Archives of Otolaryng., xv., 1932, 01, 92. (This article gives a rich bibliography of the contributions to this subject in recent times.)CrossRefGoogle Scholar
27Hill, , Leonard, , Special Report, No. 32, Medical Research Council, London, 1919.Google Scholar
28Hill, , Leonard, , “The Ciliarv Movement of the Trachea, studied in Vitro,” Lancet, 1928, 10, 802.CrossRefGoogle Scholar
29Journ. of Laryng., 1919, 325.Google Scholar
30Journ. of Laryng., xxxix., 1924. 10, 554.Google Scholar
31Kelly, , Brown, A., Journ. of Laryng., 1913, 28, 513.Google Scholar
32Kettle, E. H., “The Relation of Dust to Infection,” Proc. Roy. Soc. Med., 24, Part I, 1930, 78.Google ScholarPubMed
33Kreewinsch, P., “Die Milchsaure im Blute bei experimenteller und Pathologischer Mundatmung,” Acta Oto-Laryngologica, xvii., 1932, 1.Google Scholar
34Lancet, 1896, 01 11th.Google Scholar
35Lierle, D.M. and Moore, P.M., Arch. of Otolaryng., 19, 1934, i., 55.CrossRefGoogle Scholar
36Lierle, D. M. and Moore, P. M., “Further Study of the Effects of Drugs on Ciliary Activity,” Amer. Laryngol. Assoc., 1vii., 1935.Google Scholar
37Lillie, R. S., “The Relation of Ions to Contractile Processes,” Amer. Journ. of Physiology, 17, 1906–7.Google Scholar
38Linton, C. S., “Resistance of the Upper Respiratory Tract,” Ann. of Otol., xlii., 1933, 1, 54.Google Scholar
39Linton, C. S., The Larynx, xliii., 1933, 4, 242.CrossRefGoogle Scholar
40Lüscher, E., “Die Alkalireserve des Blutes bei behinderter Nasenatmung und bei Tonsillenhyperplasie,” Acta Oto-Laryngologica, xiv., 1930, 12.Google Scholar
41Medico-Chir. Transacs., London, 1895, 78.Google Scholar
42Mittermaier, , Richard, , Arch. f. Ohren-Nasen u. Kehl., 127, I., 1930.Google Scholar
43Naugeri, S., Das Schicksal der auf die oberen Luftwege gelangten, Bakterien. Arch. f. Hyg., 1934, cxi., 271–7.Google Scholar
44Negus, V. E., Journ. of Laryng., xlix., 1934, 9, 571.Google Scholar
45Negus, V. E., The Mechanism of the Larynx, London, 1929, 121 (Function of Movements at the Glottis).Google Scholar
46O'malley, J. F., “Ventilation of the Nose and Accessory Sinuses,” Journ. of Laryng., 1., 1935, 6.Google Scholar
47Proc. Roy. SOC. Med., Section of Laryng., xxviii., 1935, 978.Google Scholar
48Proc. Roy. SOC. Med., Section of Laryng., xxviii., 1935, 1978.Google Scholar
49Proetz, A. W., “Some intimate studies of Nasal Function,” Annals of Otology, etc., xli., 1932, 03, 128.Google Scholar
50Proetz, A. W., Arch. of Otolaryng., 06 1934, xix., 607.CrossRefGoogle Scholar
51Reports on Public Health, etc., Ministry of Health, London, 1928, 52.Google Scholar
52Schaeffer, , Parsons, J., The Nose and Olfactory Organ, Philadelphia, 1920.Google Scholar
53Sharpey, W., Todd's Cyclopædia of Anatomy and Physiology, London, 1835, ii., 606–38.Google Scholar
54Sur l'Absence de Microbes dans l'air expiré,” Académie des Sciences,“ Séance du 5 Dec. and La Semaine Med., 1887, 49, 493.Google Scholar
55The Ciliary Movement of the Trachea studied in Vitro,” Lancet, 1928, 10 2nd, 808.Google Scholar
56Tweedie, A. R., Journ. of Laryng., xlix., 1934, 09, 567.Google Scholar
57Watson-Williams, P., “On the Probable Rhythmical Contraction of the Bronchial Muscular coat as a factor in pulmonary disease,” Bristol Medico-Chir. Journ., xxi., 1903, 6.Google Scholar
58Werden mit der Expirationsluft Bacterien aus den Körper entführt?Klin. Monatsblätter f. Augenheilkunde, 1882.Google Scholar
59Wurtz, and Lermoyez, , “Le pouvoir Bactericide du Mucus Nasal,” Ann. des. Mal. de l'Orielle, 1893.Google Scholar
60Yates, , Lowndes, A., “Method of Estimating the Activity of the Ciliary Epithelium within the Sinuses,” Journ. of Laryng., xxxix., 1924, 10, 554.CrossRefGoogle Scholar
61Zentralb and Bakt, iii., 1888.Google Scholar