References of "Van De Water, T"
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See detailProliferation generation of auditory hair cells in culture
Malgrange, B; Belachew, S; Thiry, Marc ULg et al

in Acta Oto-Rhino-Laryngologica Belgica (2002), 56

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See detailPharmacologic treatment of inner ear: from basic science to the patient.
Lefèbvre, Philippe ULg; Staecker, H.; Van de Water, T. et al

in Acta Oto-Rhino-Laryngologica Belgica (2002), 56(1), 45-9

Most of the deafness are of sensorineural origin and are characterized by a loss of hair cells and of spiral ganglion neurons. At the present time, hearing aids are the only treatment. However, in some ... [more ▼]

Most of the deafness are of sensorineural origin and are characterized by a loss of hair cells and of spiral ganglion neurons. At the present time, hearing aids are the only treatment. However, in some diseases of the inner ear, pharmacological treatment have been proposed and used successfully. In this paper, we will review some basic science aspects of the biology of the neurosensory structures of the inner ear, in particular of the auditory neurons, that lead to the rationale of some treatments for the inner ear diseases. Developmental studies, neuronal cell culture experiments, and analyses of gene knockout animals reveal a number of growth factors which are important for the rescue and repair of injured auditory neurons in the inner ear. These factors rescue the injured auditory neurons in vivo. Furthermore, perfusion of antioxydant to the cochlea prevented the hearing loss induced by cisplatin. These in vitro and in vivo experiments demonstrate that it is possible to manipulate the neurosensory structures of the inner ear and provide an effective treatment to prevent the degeneration of the neurons. The molecules or drugs can be administered locally to the inner ear through a direct perilymphatic perfusion or through the round window membrane. As an example, we will discuss the treatment of patients suffering from idiopathic sensorineural hearing loss which can be treated successfully by a perfusion through the round window membrane, improving their hearing threshold and their speech discrimination. [less ▲]

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See detailHensen's cells acquire specific hair cell markers in vitro, strengthening their role as precursors of supernumerary OHCs
Lefèbvre, P; Malgrange, B; Thiry, Marc ULg et al

Conference (2001)

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See detailHensen's cells as precursors of supernumerary OHCs
Malgrange, B; Lefèbvre, P; Thiry, Marc ULg et al

Poster (2001)

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See detailGeneration of supporting and hair cells from progenitors isolated from a newborn mammalian organ of Corti
Malgrange, B; Belachew, S; Thiry, Marc ULg et al

Conference (2001)

See detailSupernumerary outer hair cells arise external to the last row of sensory cells in the neonatal organ of Corti
Lefèbvre, P; Malgrange, B; Thiry, Marc ULg et al

Conference (2000)

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See detailProduction of supernumerary hair cells in the neonatal organ of Corti: evidence for a cellular differentiation of Hensen cells into hair cells
Malgrange, B; Thiry, Marc ULg; Rigo, J-M et al

Conference (2000)

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See detailNeonatal rat organ of Corti forms supernumerary hair cells in response to growth factor treatment
Lefebvre, P; Malgrange, B; Thiry, Marc ULg et al

Conference (1999)

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See detailNeonatal rat organ of Corti forms supernumerary hair cells in response to growth factor treatment
Malgrange, B; Lefebvre, P; Rigo, J-M et al

Poster (1999)

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See detailNeonatal rat organ of Corti forms supernumerary hair cells in response to growth factor treatment
Lefèbvre, P; Malgrange, B; Thiry, Marc ULg et al

Conference (1999)

Detailed reference viewed: 1 (0 ULg)