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[APA format] Breath Pressure References

This is a list of references related to the study of Breath Pressure in Ethnic Wind Instruments.

The references on this page are a sub-set of the complete list of Flutopedia references.

For information on the format and other details of these citations, see the main references page.

[APA format] Breath Pressure References

[Adduci 2011] Adduci, M. D. (2011). Dynamic measurement of intraoral pressure and sound pressure with laryngoscopic characterization during oboe performance (Doctoral dissertation, University of North Texas).

[Akgun 1967] Akgün, N., & Ozgönül, H. (1967). Lung volumes in wind instrument (zurna) players, The American Review of Respiratory Disease, 96(5), 946–951. Publication 6059203 on PubMed/NCBI (subscription access).

[Baken 2000] Baken, R. R., & Orlikoff, R. F. (2000). Clinical measurement of speech and voice, Second Edition. Cengage Learning.

[Bernardini 2010] Bernardini, N. (2010). The role of physical impedance matching in music playing, Sound is Motion Symposium, Stockholm, Sweden, February 11, 2010.

[Bertschinger 2007] Bertschinger, D. R., Mendrinos, E., & Dosso, A. (2007). Yoga can be dangerous—Glaucomatous visual field defect worsening due to postural yoga, British Journal of Ophthalmology, 91(10), 1413–1414, doi:10.1136/bjo.2007.114546. Publication 17895421 on PubMed/NCBI (subscription access).

[Borch 2011] Borch, D. Z., & Sundberg, J. (2011). Some phonatory and resonatory characteristics of the rock, pop, soul, and swedish dance band styles of singing, Journal of Voice, 25(5), 532–537, doi:10.1016/j.jvoice.2010.07.014. Publication 20926250 on PubMed/NCBI (subscription access).

[Bouhuys 1964] Bouhuys, A. (1964). Lung volumes and breathing patterns in wind-instrument players, Journal of Applied Physiology, 19, 967–975.

[Bouhuys 1965] Bouhuys, A. (1965). Sound-power production in wind instruments, Journal of the Acoustical Society of America, 37(3), 453–456. Publication 14284611 on PubMed/NCBI (subscription access).

[Bouhuys 1968] Bouhuys, A. (1968). Pressure-flow events during wind instrument playing, Annals of the New York Academy of Sciences, 155(1), 264–275, doi:10.1111/j.1749-6632.1968.tb56771.x.

[Bouhuys 1969] Bouhuys, A. (1969). Physiology and musical instruments, Nature, 221(5187), 1199–1204, doi:10.1038/2211199a0. Publication 5773830 on PubMed/NCBI (subscription access).

[Broadwater 2002] Broadwater, K. J. (2002). The effects of singing on blood pressure in classically trained singers (Doctoral dissertation, Louisiana State University).

[BrutelVuilmet 2008] Brutel-Vuilmet, C., & Fuchs, S. (2008). Rate effects on aerodynamics of intervocalic stops: Evidence from real speech data and model data, Papers in Phonetics and Phonology, ZAS Papers in Linguistics, 49, 1–21.

[Coltman 1966] Coltman, J. W. (1966). Resonance and sounding frequencies of the flute, Journal of the Acoustic Society of America, 40(1), 99–107, doi:10.1121/1.1910070.

[Cossette 2008] Cossette, I., Monaco, P., Aliverti, A., & Macklem, P. T. (2008). Chest wall dynamics and muscle recruitment during professional flute playing, Respiratory Physiology & Neurobiology, 160, 187–195.

[Cros 2005] Cros, A., Demolin, D., Flesia, A. G., & Galves, A. (2005). On the relationship between intra-oral pressure and speech sonority, Interspeech 2005.

[Cuadra 2008] Cuadra, P. d. l., Fabre, B., Montgermount, N., & Ryck, L. D. (2008). Analysis of flute control parameters: A comparison between a novice and an experienced flutist, Acta Acustica united with Acustica, 94(5), 740–749, doi:10.3813/AAA.918091.

[Dalston 1988] Dalston, R. M., Warren, D. W., Morr, K. E., & Smith, L. R. (1988). Intraoral pressure and its relationship to velopharyngeal inadequacy, Cleft Palate Journal, 25(3), 210–219.

[Dawson 2006] Dawson, W. J. (2006). The motions of wind instrument performance.

[Deniz 2006] Deniz, O., Savci, S., Tozkoparan, E., Ince, D. I., Ucar, M., & Ciftci, F. (2006). Reduced pulmonary function in wind instrument players, Archives of Medical Research, 37(4), 506–510, doi:10.1016/j.arcmed.2005.09.015. Publication 16624650 on PubMed/NCBI (subscription access).

[Dibbell 1979] Dibbell, D. G., Ewanowski, S., & Carter, W. L. (1979). Successful correction of velopharyngeal stress incompetence in musicians playing wind instruments, Plastic Reconstructive Surgery, 64(5), 662–664. Publication 504488 on PubMed/NCBI (subscription access).

[DiCarlo 2007] Carlo, N. S. D. (2007). Effect of multifactorial constraints on intelligibility of opera singing (i), Journal of Singing, 63(4).

[DiCarlo 2007a] Carlo, N. S. D. (2007). Effect of multifactorial constraints on intelligibility of opera singing (ii), Journal of Singing, 63(5), 559–567.

[Dimsdale 1995] Dimsdale, J. E., & Nelesen, R. A. (1995). French-horn hypertension, New England Journal of Medicine, 333, 326–327, doi:10.1056/NEJM199508033330522.

[Elisberg 1951] Elisberg, E. I., Goldberg, H., & Snider, G. L. (1951). Value of intraoral pressure as a measure of intrapleural pressure, Journal of Applied Physiology, 4(3), 171–176. Publication 14897780 on PubMed/NCBI (subscription access).

[Enflo 2009] Enflo, L., & Sundberg, J. (2009). Vocal fold collision threshold pressure: An alternative to phonation threshold pressure?, Logopedics Phoniatrics Vocology, 34(4), 210–217.

[Enflo 2009a] Enflo, L., Sundberg, J., & Pabst, F. (2009). Collision threshold pressure before and after vocal loading, Proceedings of Interspeech 2009, Brighton, United Kingdom.

[Enflo 2010] Enflo, L. (2010). Alternative measures of phonation: Collision threshold pressure & electroglottographic spectral tilt (Licentiate dissertation, KTH, Royal Institute of Technology, School of Computer Science and Communication, Stockholm, Sweden).

[Evans-A 2009] Evans, A., Ackermann, B., & Driscoll, T. (2009). The role of the soft palate in woodwind and brass playing, International Symposium on Performance Science (ISPS), New Zealand, 267–272.

[Evans-A 2010] Evans, A., Ackermann, B., & Driscoll, T. (2010). Functional anatomy of the soft palate applied to wind playing, Medical Problems of Performing Artists, 25(4), 183–189. Publication 21170481 on PubMed/NCBI (subscription access).

[Evans-A 2011] Evans, A., Driscoll, T., & Ackermann, B. (2011). Prevalence of velopharyngeal insufficiency in woodwind and brass students, Occupational Medicine, 61(7), 480–482, doi:10.1093/occmed/kqr072. Publication 21697080 on PubMed/NCBI (subscription access).

[Farland 2011] Farland, M. G. (2011). Under pressure: Generic and individual intra-oral pressure profiles in liquid swallows (Doctoral dissertation, University of Otago, Dunedin, New Zealand).

[Fiz 1993] Fiz, J., Aguilar, J., Carreras, A., Teixido, A., Haro, M., Rodenstein, D. O., & Morera, J. (1993). Maximum respiratory pressures in trumpet players, Chest, 104(4), 1203–1204. Publication 8404193 on PubMed/NCBI (subscription access).

[Fletcher-NH 1974] Fletcher, N. H. (1974). Some acoustical principles of flute technique, The Instrumentalist, 28(7), 57–61.

[Fletcher-NH 1975] Fletcher, N. H. (1975). Acoustical correlates of flute performance technique, Journal of the Acoustical Society of America, 57(1), 233–237, doi:10.1121/1.380430.

[Fletcher-NH 1991] Fletcher, N. H., & Rossing, T. D. (1991). The physics of musical instruments. New York: Springer-Verlag. reprinted 1991, 1994, and 1996.

[Fletcher-NH 1998] Fletcher, N. H., & Rossing, T. D. (1998). The physics of musical instruments, Second Edition. New York: Springer-Verlag. reprinted 1999 and 2000.

[Fletcher-NH 1999] Fletcher, N. H., & Tarnopolsky, A. (1999). Blowing pressure, power, and spectrum in trumpet playing, Journal of the Acoustical Society of America, 105(2), 874–881. Publication 9972572 on PubMed/NCBI (subscription access).

[Fletcher-NH 2000] Fletcher, N. H. (2000). The physiological demands of wind instrument performance, Acoustics Australia, 28(1), 53–56.

[Fuks 1996] Fuks, L., & Sundberg, J. (1996). Blowing pressures in reed woodwind instruments, Department for Speech, Music and Hearing. Quarterly Progress and Status Reports (TMH-QPSR), 37(3), 41–56.

[Garcia 2010] Diaz-Castroverde, F. G. (2010). Acquisition and study of blowing pressure profiles in recorder playing (Masters dissertation, Universitat Pompeu, Fabra, Barcelona).

[Garcia 2011] Garcia, F., Vinceslas, L., Tubau, J., & Maestre, E. (2011). Acquisition and study of blowing pressure profiles in recorder playing, Proceedings of the International Conference on New Interfaces for Musical Expression, Oslo, Norway, May 30 – June 1, 2011, 124–127.

[GarnNunn 2004] Garn-Nunn, P. G., & Lynn, J. M. (2004). Calvert's descriptive phonetics transcription workbook, Third Edition. Thieme Medical Publishers.

[Gilbert 1998] Gilbert, T. B. (1998). Breathing difficulties in wind instrument players, Maryland Medical Journal, 47(1). Publication 9448412 on PubMed/NCBI (subscription access).

[Gomez 2007] Gomez, M. A. (2007). Música y neurología «Music and neurology», Neurologia, 22(1), in Spanish, 39–45.

[Goss 2013] Goss, C. F. (2013). Intraoral pressure in ethnic wind instruments, arXiv:1308.5214.

[Hahnengress 2012] Hahnengress, M. L. (2012). Cardiopulmonary changes during clarinet playing.

[Harris-LR 1996] Harris, L. R. (1996). Horn playing and blood pressure, The Lancet, 348(9033), 1042, doi:10.1016/S0140-6736(05)64982-3.

[Hiss 2001] Hiss, S. G., Treole, K., & Stuart, A. (2001). Effect of age, gender, and repeated measures on intraoral air pressure in normal adults, Journal of Voice, 15(2), 159–164.

[Hodge-FS 2001] Hodge, F. S., Colton, R. H., & Kelley, R. T. (2001). Vocal intensity characteristics in normal and elderly speakers, Journal of Voice, 15(4), 503–511, doi:10.1016/S0892-1997(01)00050-9. Publication 11792026 on PubMed/NCBI (subscription access).

[Holmberg 1988] Holmberg, E. B., Hillman, R. E., & Perkell, J. S. (1988). Glottal airflow and transglottal air pressure measurements for male and female speakers in soft, normal, and loud voice, Journal of the Acoustical Society of America, 84(2), 511–529. Erratum in Volume 85, Number 4 of the same journal. Publication 3170944 on PubMed/NCBI (subscription access).

[Ingrams 2000] Ingrams, D. R., McFerran, D. J., & Graham, J. M. (2000). Velopharyngeal incompetence in wind players, Musical Performance, 2, 105–112.

[Kirsch 1999] Kirsch, C. M., Shinn, J., Porzio, R., Trefelner, E., Kagawa, F. T., Wehner, J. H., & Jensen, W. A. (1999). Pneumoparotid due to spirometry, Chest, 116(5), 1475–1478, doi:10.1378/chest.116.5.1475. Publication 10559118 on PubMed/NCBI (subscription access).

[Klusek 2006] Klusek, J. (2006). Comparison of speech and practiced nonspeech intraoral pressure waveform characteristics (Masters dissertation, University of Pittsburgh, Pennsylvania).

[Kreuter 2008] Kreuter, M. ., Kreuter, C. ., & Herth, F. . (2008). Pneumologische aspekte des musizierens auf einem blasinstrument — physiologische, pathophysiologische und therapeutische gesichtspunkte «Pneumological aspects of wind instrument performance - physiological, pathophysiological and therapeutic considerations», Pneumologie, 52(2), 83–87, doi:10.1055/s-2007-996164.

[Kroger 1997] Kröger, B. J. (1997). On the quantitative relationship between subglottal pressure, vocal cord tension, and glottal adduction in singing, Proceedings of the Institute of Acoustics, 19(5), 479–484.

[Larger 1996] Larger, E., & Ledoux, S. (1996). Cardiovascular effects of french horn playing, The Lancet, 348(9040), 1528, doi:10.1016/S0140-6736(05)65960-0.

[Lee-GG 2012] Lee, G. G., Lee, J., Kim, B. Y., & Hong, S. D. (2012). A case of pneumoparotid: Initially presented with viral parotitis, Korean Journal Otorhinolaryngol-Head Neck Surgery, 55(11), 721–723, doi:10.3342/kjorl-hns.2012.55.11.721.

[Libeaux 2010] Libeaux, A. (2010). The egg spectrum slope in speakers and singers: Variations related to voice sound pressure level, vowel and fundamental frequency «Spektrumlutning hos elektroglottografiska signaler relaterad till ljudnivå, vokal och grundtonsfrekvens i tal- och sångröst» (Masters dissertation, The Department of Speech, Music and Hearing, KTH Royal Institute of Technology, Stockholm, Sweden).

[Lucia 1994] Lucia, R. (1994). Effects of playing a musical wind instrument in asthmatic teenagers, Journal of Asthma, 31(5), 375–385, doi:10.3109/02770909409061317. Publication 7928933 on PubMed/NCBI (subscription access).

[Malick 2007] Malick, D., Moon, J., & Canady, J. (2007). Stress velopharyngeal incompetence: Prevalence, treatment, and management practices, Cleft Palate–Craniofacial Journal, 44(4), 424–433, doi:10.1597/06-176.1.

[Marks 1974] Marks, M. B. (1974). Musical wind instruments in rehabilitation of asthmatic children, The 1974 Bela Schick Memorial Lecture, Annals of Allergy, 33(6), 313–319. Publication 4613211 on PubMed/NCBI (subscription access).

[Mazon 2009] Mazon, W. E. (2009). The effect of the breath builder™ on various lung functions and musical performance abilities of clarinet players (Doctoral dissertation, The University of Arizona).

[McPherson 2006] McPherson, G. E. (editor) (2006). The child as musican: A handbook of musical development. Oxford, England: Oxford University Press.

[Montgermont 2008] Montgermont, N., Fabre, B., & Cuadra, P. D. L. (2008). Gesture synthesis: Basic control of a flute physical model, Journal of the Acoustical Society of America, 123(5), 5698–5702.

[Moore-RS 1991] Moore, R. S. (1991). Comparison of children's and adults' vocal ranges and preferred tessituras in singing familiar songs, Bulletin of the Council for Research in Music Education, 107, 13–22. Publication 40318417 on JSTOR (subscription access).

[Prairie 2006] Prairie, M. (2006). Understanding the acoustics of the Native American-style flute.

[Prairie 2011] Prairie, M. (2011). Back pressure.

[Rodgers 2010] Rodgers, B., & Fuchs, S. (2010). How intraoral pressure shapes the voicing contrast in American English and German, ZAS Papers in Linguistics, 52, 63–82.

[Rothenberg 1987] Rothenberg, M., Miller, D., Molitor, R., & Leffingwell, D. (1987). The control of air flow during loud soprano singing, Journal of Voice, 1(3), 262–268, doi:10.1016/S0892-1997(87)80010-3.

[Scavone 2005] Scavone, G., & Silva, A. d. (2005). Frequency content of breath pressure and implications for use in control, Proceedings of the NIME 2005 conference on New interfaces for musical expression, 93–96.

[Schmidtmann 2011] Schmidtmann, G., Jahnke, S., Seidel, E. J., Sickenberger, W., & Grein, H. (2011). Intraocular pressure fluctuations in professional brass and woodwind musicians during common playing conditions, Graefe's Archive for Clinical and Experimental Ophthalmology, 249(6), 895–901, doi:10.1007/s00417-010-1600-x.

[Schuman 2000] Schuman, J. S., Massicotte, E. C., Connolly, S., Hertzmark, E., Mukherji, B., & Kunen, M. Z. (2000). Increased intraocular pressure and visual field defects in high resistance wind instrument players, Ophthalmology, 107(1), 127–133. Publication 10647731 on PubMed/NCBI (subscription access).

[Schutte 1980] Schutte, H. K. (1980). The efficiency of voice production (Doctoral dissertation, University of Gröningen, The Netherlands). Gröningen, Netherlands: Kemper.

[Schutte 2003] Schutte, H. K., Stark, J. A., & Miller, D. G. (2003). Change in singing voice production, objectively measured, Journal of Voice, 17(4), 495–501.

[Schwab 2004] Schwab, B., & Schultze-Florey, A. (2004). Velopharyngeal insufficiency in woodwind and brass players, Medical Problems of Performing Artists, 19(1), 21–25.

[Schwab 2004a] Schwab, B., & Schultze-Florey, A. (2004). Intraorale druckentwicklung bei holz- und blechbläsern «Investigations into intraoral pressure in woodwind and brass musicians», Musikphysiologie und Musikermedizin, 11(4), in German, 183.

[Sehmann 2000] Sehmann, K. H. (2000). The effects of breath management instruction on the performance of elementary brass players, Journal of Research in Music Education, 48(2), 136–150. Publication 3345572 on JSTOR (subscription access).

[Stasney 2003] Stasney, C. R., Beaver, M. E., & Rodriguez, M. (2003). Hypopharyngeal pressure in brass musicians, Medical Problems of Performing Artists, 18(4), 153–155.

[Stone-WH 1874] Stone, W. H. (1874). On wind pressure in the human lungs during performance on wind instruments, Proceedings of the Physical Society of London, 1, 13–14, doi:10.1088/1478-7814/1/1/302.

[Subtelny 1966] Subtelny, J. D., Worth, J. H., & Sakuda, M. (1966). Intraoral pressure and rate of flow during speech, Journal of Speech and Hearing Research, 9, 498–518.

[Sundberg 1987] Sundberg, J. (1987). The science of the singing voice. Dekalb, Illinois: Northern Illinois University Press.

[Sundberg 1991] Sundberg, J., Elliot, N., & Gramming, P. (1991). How constant is subglottal pressure in singing?, Speech Transmission Laboratory. Quarterly Progress and Status Reports (STL-QPSR), 1, 53–63.

[VanMiddlesworth 1978] Middlesworth, J. L. V. (1978). An analysis of selected respiratory and cardiovascular characteristics of wind instrument performers (Masters dissertation, Eastman School of Music of the University of Rochester).

[Watson-AHD 2009] Watson, A. H. D. (2009). The biology of musical performance and performance-related injury. Plymouth, England: Scarecrow Press, Inc.

[Weber-J 1970] Weber, J., Jr., & Chase, R. A. (1970). Stress velopharyngeal incopetence in an oboe player, Cleft Palate Journal, 7, 858–861. Publication 5273877 on PubMed/NCBI (subscription access).

[Welch 2006] Welch, G. F. (2006). Singing and vocal development, contained in [McPherson 2006], 311–329.

[Williams-J 2010] Williams, J. (2010). The implications of intensive singing training on the vocal health and development of boy choristers in an English cathedral choir (Doctoral dissertation, Institute of Education, University of London).

[Wilson-P 2004] Wilson, P. (2004). On singing staws and water bottles: The physics of pressure, Australian Voice, 10, 16–19.

[Wright-E 2011] Wright, E. (2011). Dynamic breathing and respiratory mechanics for brass players and teachers, International Trumpet Guild Journal, 35(3), 32–36.

[Yamazaki 2005] Yamazaki, M., & Sugimura, N. (2005). A motion analysis of a female Japanese drum playing exercise, ISBS 2005, Beijing, China, 342–345.

[Yeo 2002] Yeo, D. K. L., Pham, T. P., Baker, J., & Porter, S. A. T. (2002). Specific orofacial problems experienced by musicians, Australian Dental Journal, 47(1), 2–11.

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