Søren Jønsson scite author profile

Søren Jønsson

5Publications

22Citation Statements Received

0Citation Statements Given

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Affiliations

Bruel & Kjaer Sound and Vibration Measurement (Denmark)

Publications

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Continuous 24-hour Measurement of Middle Ear Pressure

Tideholm¹,

Jønsson²,

Carlborg³

et al. 1996

Acta Oto-Laryngologica

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A new method was developed for continuous measurement of the middle ear pressure during a 24-h period. The equipment consisted of a piezo-electric pressure device and a digital memory. To allow continuous pressure recordings during normal every-day activities the equipment was made light and portable. The measurement accuracy of the equipment as well as the base-line and temperature stability were tested and found to meet to our requirements satisfactorily. In 4 volunteers with different middle ear conditions, a small perforation was made through the tympanic membrane. A rubber stopper containing a small polyethylene tube was fitted into the external ear canal. Tubal function tests were made to establish the equipment's ability to monitor fast pressure changes. The tests were well in accordance with other methods of direct pressure measurements. The equipment was carried by the volunteers for 24 h to monitor any slow or rapid dynamic pressure changes in the middle ear. Four continuous 24-h measurements are presented. The method was found to be suitable for valid measurements of dynamic pressure changes in the middle ear during normal every-day activities. It may become a useful instrument in the search for a better understanding of the development of chronic middle ear disease.

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Continuous Long-term Measurements of the Middle Ear Pressure in Subjects without a History of Ear Disease

Tideholm

Carlborg²,

Jønsson³

et al. 1998

Acta Oto-Laryngologica

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A new method was used for continuous measurement of the middle ear (ME) pressure during a 24-h period. In 10 subjects without a history of ear disease a small perforation was made through the tympanic membrane. A tight rubber stopper containing a small polyethylene tube was fitted into the external ear canal. Conventional tubal function tests were performed. The equipment was then carried by the subjects for 24 h of normal activity to monitor any slow or rapid dynamic pressure change in the ME. Body position was found to be the most important factor affecting ME pressure variation, during the 24-h continuous pressure measurements. A significant pressure rise occurred in the recumbent position in all but one subject. Few rapid pressure equilibrations were seen during the recordings, indicating few tubal openings. This implies that the pressure changes in the ME seen in this study were mainly the result of gas exchange over the mucosa. The investigation might be a base for reference when investigating different kinds of pathologic conditions in the ear.

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Wideband impedance measurement in the human ear canal; In vivo study on 32 subjects

Jønsson¹,

Schuhmacher²,

Jørgensen³

2018

Preprint

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Realistic, acoustic telephone evaluation using a HATS (Head and Torso Simulator) based telephone test head

Matthisson

Jønsson

1999

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A substantial variety of test heads/simulators for testing the electroacoustic characteristics of telephone terminals exist today. They all intend to replicate essential features of typical human test crews, however, with varying fidelity. Traditionally, standardized measurements are performed using a table top test head (LRGP test head). In this paper we shall present a more anatomically representative ‘‘test head’’ using a head and torso simulator combined with a telephone handset holding device. Using this setup, more realistic measurements can be obtained, still complying with the geometries of the traditional table top test heads.

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Wideband impedance measurement techniques in small complex cavities such as ear simulators and the human ear canal

Jønsson¹,

Schuhmacher²,

Jørgensen³

2018

Preprint

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Søren Jønsson

Continuous 24-hour Measurement of Middle Ear Pressure

Continuous Long-term Measurements of the Middle Ear Pressure in Subjects without a History of Ear Disease

Wideband impedance measurement in the human ear canal; In vivo study on 32 subjects

Realistic, acoustic telephone evaluation using a HATS (Head and Torso Simulator) based telephone test head

Wideband impedance measurement techniques in small complex cavities such as ear simulators and the human ear canal

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