Efeitos da utilização de  insulina e de um implante transitório de biomembrana de látex natural, derivado da seringueira Hevea brasiliensis, em um modelo experimental de perfuração traumática de membrana timpânica / Effects of the treatment using insulin and a transitory natural latex biomembrane implant from rubber tree Hevea brasiliensis, in an experimental model of traumatic perforation of tympanic membrane

Araújo, Marcos Miranda de

07 December 2012

Nos últimos anos, houve uma tendência na busca por substâncias reguladoras que pudessem otimizar o processo de cicatrização de membranas timpânicas (MTs) perfuradas. Objetivos: Determinar os efeitos da utilização da insulina tópica e da biomembrana de látex natural, de forma isolada e em associação, no processo de cicatrização de perfurações traumáticas de MTs. Materiais e Métodos: MTs de 61 ratos Wistar foram perfuradas nas porções anterior e posterior ao cabo do martelo. Os animais foram divididos em quatro grupos: Controle, Insulina, Látex e Insulina+Látex. No grupo Insulina, as perfurações foram tratadas com uso tópico de insulina regular. No grupo Látex, tratadas com biomembrana de látex natural. No grupo Insulina+Látex, tratadas com associação da insulina e da biomembrana de látex. As MTs foram avaliadas por técnicas histológicas com três, cinco e sete dias após sua perfuração traumática. Foram analisadas as morfometrias das espessuras das camadas epitelial, fibrosa e mucosa; tamanho da perfuração; área de secção transversal da MT; avaliação semiquantitativa e qualitativa da produção de colágeno por microscopia de polarização; e avaliação imuno-histoquímica das células epiteliais, dos miofibroblastos e da vascularização. Resultados: A insulina e a biomembrana de látex anteciparam o fechamento das perfurações traumáticas de MTs (p<0,01); estimularam precocemente o aumento da espessura da camada epitelial externa (p<0,01); promoveram aumento precoce da espessura da camada fibrosa (p<0,01); contribuíram para a maior identificação do anticorpo anti-panqueratina como marcador epitelial (p<0,05); aumentaram a marcação do anticorpo anti-alfa-actina de músculo liso (p<0,05), caracterizando maior proliferação de miofibroblastos. A insulina, isoladamente, provocou maior formação do colágeno tecidual (p<0,05), com fibras colágenas mais espessas e melhor organizadas (p<0,05). Conclusão: A insulina e a biomembrana de látex natural, de forma isolada e em associação, aceleraram o processo de cicatrização de perfurações traumáticas de MTs. / In recent years, there has been a tendency to search for regulatory substances that can optimize the healing process of perforated tympanic membranes (TMs). Objectives: To determine the effects of using topical insulin and natural latex biomembrane, alone or in combination, in the healing process of traumatic perforations of TMs. Methods: TMs of 61 Wistar rats were perforated in two sections, anterior and posterior to the malleus. The rats were divided into 4 groups: Control, Insulin, Latex, and Insulin+Latex. The Insulin group was treated with topical regular insulin. The Latex group was treated with natural latex biomembrane. The Insulin+Latex group was treated with a combination of insulin plus latex biomembrane. The TMs were histologically examined 3, 5, and 7 days post-perforation through morphometric analysis of the thickness of the epithelial, fibrous, and mucosal layers; size of the perforation; cross sectional area of the TM; semiquantitative and qualitative evaluation of the collagen production by polarization microscopy, and immunohistochemical evaluation of epithelial cells, myofibroblasts, and vascularization markers. Results: Insulin and latex biomembrane accelerated the healing process of the perforated TMs (p<0.01); stimulated early thickening of the outer epithelial layer (p<0.01); promoted premature increase in the thickness of the fibrous layer (p<0.01); contributed to a larger identification of anti-pankeratin antibody as epithelial marker (p<0.05); increased labeling of anti-alpha smooth muscle actin antibody (p<0.05), indicating greater proliferation of myofibroblasts. When insulin was used alone, it resulted in greater formation of collagen tissue (p<0.05), with thicker and better-organized collagen fibers (p<0.05). Conclusion: Insulin and natural latex biomembrane, used alone or in combination, accelerated the healing process of traumatic perforations of TMs.

Cicatrização

Colágeno

Collagen

Image processing computer-assisted

Immunohistochemistry

Imuno-histoquímica

Insulin

Insulina

Latex

Látex

Perfuração da membrana timpânica

Tympanic membrane perforation

Wound healing

Comparison of Abr Recordings from Tympanic-Membrane and Ear-Canal Electrode

Murnane, Owen D., Parent, T.

01 January 1995

No description available.

comparison

ABR

auditory brainstem response

recordings

tympanic membrane

ear-canal electrode

audiology

assessment

Audiology and Speech-Language Pathology

Speech and Hearing Science

Speech Pathology and Audiology

Developing otitis media : experimental studies in particular regarding inflammatory changes in the tympanic membrane

Eriksson, Per Olof

January 2004

Otitis media (OM), one of the commonest of childhood diseases, causes much suffering. OM exists in a variety of forms, two of which are acute otitis media (AOM) and otitis media with effusion (OME). The clinical courses of these conditions differ, AOM usually presenting with earache, fever and/or aural discharge, and the OME usually with hearing impairment. The tympanic membrane (TM) mirrors the events in the middle ear cavity, and pars flaccida (PF) is the initial site of inflammatory changes in the TM. PF is rich in mast cells (MCs), which by releasing various mediators, may trigger TM inflammation. The aims of the present studies were to investigate early inflammatory changes in the TM in rat models of OM; after mast cell degranulation, in response to AOM, and OME, after myringotomy in AOM and in normal ears. Furthermore, we developed a new rat AOM model, that excludes surgical trauma and resembles the natural route of infection in man. AOM and OME elicited the first inflammatory response in PF of the TM. The response to OME was discrete, but a slight increase in macrophages was found. During the first 48 hours of AOM, the inflammatory response was intense, following a bimodal pattern. This reaction is similar to that found after MC degranulation. In AOM, macrophages were the predominant cell in PF, while in pars tensa (PT), polymorphonuclear cells (mainly neutrophils) predominated. When myringotomy was performed in AOM ears, the healing time was shorter than that of myringotomy in normal ears. The highly inflamed lamina propria seemed to promote healing. During early AOM, as well as following myringotomy, fibrin extravasates into PF and PT. This fibrin deposition may be involved in regulating the inflammatory response. Repeated nasal challenge with the otitis media pathogen Streptococcus pneumoniae provoked AOM and concomitant TM stimulation reduced the number of AOM cases. This new rat AOM model has the advantage of avoiding trauma in the middle ear cavity, while eliciting an intense inflammatory response in the middle ear cavity (MEC).

Otorhinolaryngology

otitis media with effusion

acute otitis media

myringotomy

tympanic membrane

rat

Streptococcus pneumoniae

compound 48/80

mast cell

Otorhinolaryngologi

Otorhinolaryngology

Otorhinolaryngologi

Topical anesthesia of the tympanic membrane : an experimental animal study

Schmidt, Sten-Hermann

January 1987

Myringotomy plays an important role in otological therapy. The procedure requires an efficient anesthesia, which can be obtained without general anesthesia. However, the use of local anesthetics on the tympanic membrane (TM) has been abandoned in many places, as general anesthesia has been readily available. In the present study the effects of some commonly used topical anesthetics on the TM structure and inner ear were tested in an animal model (rat and guinea pig).Four different anesthetic compounds—Xylocaine®, Bonain's liquid, phenol and Emla®—were applied to the TMs of the animals, which were sacrificed 10 minutes to 5 months after application. Morphological effects regarding time after treatment and number of applications were elucidated. At sacrifice the tissue was fixed and the TMs analysed by light microscopy (LM) and transmission electron microscopy (TEM). In nine animals phenol, Xylocaine® Spray or Emla® was applied to the round window niche and ABR recordings were made at 24 h to 6 months after exposure. After the final ABR evaluation the animals were sacrificed and the cochleae prepared for LM and scanning electron microscopy (SEM).On the TM phenol and Bonain's liquid caused instant destruction of the keratinizing stratified squamous epithelium followed by long-lasting hyperplasia of this epithelium and the underlying connective tissue. A pronounced hyperplasia of these two layers was also noted for the Xylocaine® Spray group, but without immediate destruction of the keratinizing epithelium. The extent of structural changes differed in relation to the extent of spreading of the agent. Emla® showed little, if any, sign of epithelial reaction and had no effect on the connective tissue. Regarding the inner ear Emla®, Xylocaine® Spray and phenol induced significantly impaired ABR thresholds mainly affecting the higher frequencies. However, the impaired ABR thresholds were reversible and at the end of the experiment there was no significant impairment compared to the control data. All agents, except Xylocaine®, damaged the hair cells in the basal part of the cochlea as shown by cytocochleogram and SEM analysis.Instant destruction of the epidermis seems to be necessary for an instant anesthetic effect. All agents caused profound connective tissue reactions. The manner of application, depending on the physical properties of the agent, determined the extent of the structural changes. The changes of the connective tissue were concentrated to the submucosal layer, which seems to be the area for reconstruction of the damaged TM. All agents caused functional inner ear changes. With the exception of Xylocaine® they also caused morphological alterations of the cochlea. The functional changes were partly reversible. Topical anesthetics applied to the TM should be used with caution and when used in an appropriate manner they can be considered safe, especially in an inflamed middle ear, with a thickened round window membrane, which should prevent the agents from reaching the inner ear structures. / digitalisering@umu

Topical anesthesia

middle ear

tympanic membrane

cochlea

collagen fibres

lidocaine

96 % phenol

Bonain's liquid

auditory brainstem response

ototoxicity

cytocochleogram

scanning electron microscopy

rat

guinea pig

Modelling of Components of the Human Middle Ear and Simulation of Their Dynamic Behaviour

Beer, Hans-Joachim, Bornitz, Matthias, Hardtke, Hans-Jürgen, Schmidt, Rolf, Hofmann, Gert, Vogel, Uwe, Zahnert, Thomas, Hüttenbrink, Karl-Bernd

03 March 2014

In order to get a better insight into the function of the human middle ear it is necessary to simulate its dynamic behaviour by means of the finite-element method. Three-dimensional measurements of the surfaces of the tympanic membrane and of the auditory ossicles malleus, incus and stapes are carried out and geometrical models are created. On the basis of these data, finite-element models are constructed and the dynamic behaviour of the combinations tympanic membrane with malleus in its elastic suspensions and stapes with annular ligament is simulated. Natural frequencies and mode shapes are computed by modal analysis. These investigations showed that the ossicles can be treated as rigid bodies only in a restricted frequency range from 0 to 3.5 kHz. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Modalanalyse

Gehörknöchelchen

Trommelfell

Mittelohr

Finite-Elemente-Methode

Parameterschätzung

Finite-element method

Middle ear

Ossicles

Tympanic membrane

Modal analysis

Parameter estimation

ddc:610

rvk:XA 10000

Identification of Parameters for the Middle Ear Model

Bornitz, Matthias, Zahnert, Thomas, Hardtke, Hans-Jürgen, Hüttenbrink, Karl-Bernd

03 March 2014

This paper presents a method of parameter identification for a finite-element model of the human middle ear. The parameter values are estimated using a characterization of the difference in natural frequencies and mode shapes of the tympanic membrane between the model and the specimens. Experimental results were obtained from temporal bone specimens under sound excitation (300–3,000 Hz). The first 3 modes of the tympanic membrane could be observed with a laser scanning vibrometer and were used to estimate the stiffness parameters for the orthotropic finite-element model of the eardrum. A further point of discussion is the parameter sensitivity and its implication for the identification process. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Mittelohr

Laser-Scanning-Vibrometer

Finite-Elemente-Methode

Parameterschätzung

Trommelfell

Modellanalyse

Finite-element model

Middle ear

Parameter estimation

Tympanic membrane

Modal analysis

Laser scanning vibrometer

ddc:610

rvk:XA 10000

Efeitos da utilização de  insulina e de um implante transitório de biomembrana de látex natural, derivado da seringueira Hevea brasiliensis, em um modelo experimental de perfuração traumática de membrana timpânica / Effects of the treatment using insulin and a transitory natural latex biomembrane implant from rubber tree Hevea brasiliensis, in an experimental model of traumatic perforation of tympanic membrane

Marcos Miranda de Araújo

07 December 2012

Nos últimos anos, houve uma tendência na busca por substâncias reguladoras que pudessem otimizar o processo de cicatrização de membranas timpânicas (MTs) perfuradas. Objetivos: Determinar os efeitos da utilização da insulina tópica e da biomembrana de látex natural, de forma isolada e em associação, no processo de cicatrização de perfurações traumáticas de MTs. Materiais e Métodos: MTs de 61 ratos Wistar foram perfuradas nas porções anterior e posterior ao cabo do martelo. Os animais foram divididos em quatro grupos: Controle, Insulina, Látex e Insulina+Látex. No grupo Insulina, as perfurações foram tratadas com uso tópico de insulina regular. No grupo Látex, tratadas com biomembrana de látex natural. No grupo Insulina+Látex, tratadas com associação da insulina e da biomembrana de látex. As MTs foram avaliadas por técnicas histológicas com três, cinco e sete dias após sua perfuração traumática. Foram analisadas as morfometrias das espessuras das camadas epitelial, fibrosa e mucosa; tamanho da perfuração; área de secção transversal da MT; avaliação semiquantitativa e qualitativa da produção de colágeno por microscopia de polarização; e avaliação imuno-histoquímica das células epiteliais, dos miofibroblastos e da vascularização. Resultados: A insulina e a biomembrana de látex anteciparam o fechamento das perfurações traumáticas de MTs (p<0,01); estimularam precocemente o aumento da espessura da camada epitelial externa (p<0,01); promoveram aumento precoce da espessura da camada fibrosa (p<0,01); contribuíram para a maior identificação do anticorpo anti-panqueratina como marcador epitelial (p<0,05); aumentaram a marcação do anticorpo anti-alfa-actina de músculo liso (p<0,05), caracterizando maior proliferação de miofibroblastos. A insulina, isoladamente, provocou maior formação do colágeno tecidual (p<0,05), com fibras colágenas mais espessas e melhor organizadas (p<0,05). Conclusão: A insulina e a biomembrana de látex natural, de forma isolada e em associação, aceleraram o processo de cicatrização de perfurações traumáticas de MTs. / In recent years, there has been a tendency to search for regulatory substances that can optimize the healing process of perforated tympanic membranes (TMs). Objectives: To determine the effects of using topical insulin and natural latex biomembrane, alone or in combination, in the healing process of traumatic perforations of TMs. Methods: TMs of 61 Wistar rats were perforated in two sections, anterior and posterior to the malleus. The rats were divided into 4 groups: Control, Insulin, Latex, and Insulin+Latex. The Insulin group was treated with topical regular insulin. The Latex group was treated with natural latex biomembrane. The Insulin+Latex group was treated with a combination of insulin plus latex biomembrane. The TMs were histologically examined 3, 5, and 7 days post-perforation through morphometric analysis of the thickness of the epithelial, fibrous, and mucosal layers; size of the perforation; cross sectional area of the TM; semiquantitative and qualitative evaluation of the collagen production by polarization microscopy, and immunohistochemical evaluation of epithelial cells, myofibroblasts, and vascularization markers. Results: Insulin and latex biomembrane accelerated the healing process of the perforated TMs (p<0.01); stimulated early thickening of the outer epithelial layer (p<0.01); promoted premature increase in the thickness of the fibrous layer (p<0.01); contributed to a larger identification of anti-pankeratin antibody as epithelial marker (p<0.05); increased labeling of anti-alpha smooth muscle actin antibody (p<0.05), indicating greater proliferation of myofibroblasts. When insulin was used alone, it resulted in greater formation of collagen tissue (p<0.05), with thicker and better-organized collagen fibers (p<0.05). Conclusion: Insulin and natural latex biomembrane, used alone or in combination, accelerated the healing process of traumatic perforations of TMs.

Cicatrização

Colágeno

Imuno-histoquímica

Insulina

Látex

Perfuração da membrana timpânica

Collagen

Image processing computer-assisted

Immunohistochemistry

Insulin

Latex

Tympanic membrane perforation

Wound healing

Middle ear structure in relation to function : the rat in middle ear research

Albiin, Nils

January 1985

The present study was undertaken to evaluate the rat as a model for middle ear re­search. The rat was chosen primarily because the gross structure of its middle ear shows several similarities to that of man. It was considered of great importance to make a thorough structural study of the rat middle ear and to compare the results with those reported for the human middle ear. The thesis therefore includes indepen­dent studies on various aspects of rat middle ear structure and function as well as a review of the literature. The most pertinent findings in the experimental part of this study were the following. The rat Eustachian tube consists of a nasopharyngeal, and a cartilaginous and bony portion. The orifice of the nasopharyngeal portion is composed of two soft tissue lips, which appear to be opened mainly by the action of the salpingopharyngeal mus­cle, but also by the levator and tensor veli palatini muscles. The cartilaginous por­tion appears to be opened solely by the tensor veli palatini muscle. The tensor tympani muscle seems to have no effect on the tube. A ciliated and secretory epithelium lines the inferomedial walls of the tube throughout its length. In the tympanic cavity these thelial cell types extend as two tracts - one anterior and the other inferoposterior to  the promontory - which communicate with the epitympanic/attic compartments. The remaining parts of the tube and the tympanic cavity are covered by a squamous/cuboidal, non-ciliated epithelium. The subepithelial loose connective tissue contains vessels, nerves, and connective tissue cells, among these mast cells. The mast cells are confined to areas covered by the ciliated epithelium, and in the floor of the bulla, in the pars flaccida, and along the manubrial vessels. Glands are restricted to the Eustachian tube. In the clearance/transport of serum-like material, from the epitympanum towards the tube, hydrostatic forces appear to be important. The tympanic membrane is vascularized from meatal and tympanal vessels. Meatal ves­sels branch in the pars flaccida and along the handle of the malleus, where they are localized directly beneath the outer, keratinizing, stratified, squamous epithelium. Furthermore, meatal vessels form a vascular network at the junction between the fi­brocartilaginous annulus and the tympanic sulcus. Tympanal vessels send branches to the periphery of the pars tensa, where they run immediately beneath the tympanal, simple, squamous epithelium. In the major portion of the pars tensa, no blood vessels were found. The rat stapedial artery is a thin-walled vessel with a wide lumen. Without branch­ing, it runs through the tympanic cavity to the extratympanal regions it supplies. In contrast to the corresponding artery in man, the rat stapedial artery persists throughout life. The artery does not seem to be affected by the fluid produced during experimentally induced otitis media with effusion. The middle ear structure in the rat and in man show both similarities and differ­ences. If the differences are kept in mind and considered, it would seem that the rat is indeed a suitable model for experimental middle ear research. / digitalisering@umu

rats

Eustachian tube

ear

middle

tympanic membrane

palatal muscles

mucous membrane

blood vessels

mast cells

otitis media

microscopy

electron

Medical and Health Sciences

Medicin och hälsovetenskap

Untersuchungen zum Einfluss der Trommelfellrekonstruktion auf das Mittelohrübertragungsverhalten nach Mittelohrrekonstruktion mit aktiven Implantaten: Simulation postoperativer Belüftungsstörungen

Müller, Christoph Daniel

08 December 2021

Although the Vibrant Soundbridge is one of the most frequently used active middle ear implants, data regarding how middle ear ventilation disorders may affect the transmission behavior of its floating mass transducer are still insufficient. Studies involving coupling the floating mass transducer to the stapes head are particularly lacking. This temporal bone study evaluated the influence of simulated middle ear ventilation disorders on the middle ear transfer function in the reconstructed middle ear. The middle ear transfer function was measured using Laser Doppler Vibrometry after vibroplasty onto the stapes head, with or without tympanic membrane reconstruction. Middle ear ventilation disorders were simulated through changes in static pressure via the external ear channel with a maximum pressure of þ3 kPa. Slice thickness of tympanic membrane reconstruction material was measured using micro-CT. When the reconstructed ossicular chain and the reconstructed tympanic membrane were mechanically excited by the floating mass transducer under conditions of ambient static pressure, the transmission behavior was found to be independent of the type of tissue used. Increase in static pressure up to þ3 kPa caused maximum low frequency transmission loss of 15 dB when elastic grafts were used and 5 dB when stiff tissue was inserted. At high frequencies, measured loss of up to 5 dB was relatively independent of the tissue stiffness. Increase in static pressure led to displacement of the tissues towards the vestibulum and caused stiffening, especially of the annular ligament. Stiffening-induced transmission losses were mainly found at low frequencies and could not be compensated by the floating mass transducer in this range. Above 1300 Hz, the continuous force spectrum of the actuator sufficiently protected against loss of amplitude. To minimize postoperative transmission loss due to persisting ventilation disorders, choosing a very stiff tympanic membrane reconstruction material seems to be appropriate.:Inhaltsverzeichnis Abkürzungsverzeichnis V 1 Einleitung 1 1.1 Einführung 1 1.2 Operationen zur Hörverbesserung 2 1.3 Mittelohrimplantate 6 1.4 Belüftungsstörungen des Mittelohres 12 1.5 Fragestellungen, Forschungshypothesen und Zielstellung der Arbeit 18 2 Material und Methoden 20 2.1 Laserdopplervibrometrische Messungen am Felsenbeinpräparat 20 2.2 Untersuchung der Trommelfellersatzmaterialien mittels optischer Messverfahren 3 Ergebnisse 42 3.1 Ermittelung der Trommelfellersatzmaterialdicken und -steifigkeiten mittels optischer Messverfahren 42 3.2 Messung der Mittelohrübertragungsfunktion am Felsenbeinpräparat 62 4 Diskussion 104 4.1 Bestimmung der Trommelfellersatzmaterialdicken und -steifigkeiten mittels optischer Messverfahren 104 4.2 Messung der Mittelohrübertragungsfunktion am Felsenbeinpräparat 110 4.3 Ausblick und Konsequenzen der Untersuchungen zur Paukenminderbelüftung auf die Vibroplastik und die Tympanoplastik Typ III 131 4.4 Funktionelles Hörergebnis nach Implantation einer VSB beim Vorliegen einer Schallleitungsschwerhörigkeit oder kombinierten Schwerhörigkeit 133 4.5 Schlussfolgerung 134

info:eu-repo/classification/ddc/610

ddc:610

Modelling of Components of the Human Middle Ear and Simulation of Their Dynamic Behaviour

Beer, Hans-Joachim, Bornitz, Matthias, Hardtke, Hans-Jürgen, Schmidt, Rolf, Hofmann, Gert, Vogel, Uwe, Zahnert, Thomas, Hüttenbrink, Karl-Bernd

January 1999

In order to get a better insight into the function of the human middle ear it is necessary to simulate its dynamic behaviour by means of the finite-element method. Three-dimensional measurements of the surfaces of the tympanic membrane and of the auditory ossicles malleus, incus and stapes are carried out and geometrical models are created. On the basis of these data, finite-element models are constructed and the dynamic behaviour of the combinations tympanic membrane with malleus in its elastic suspensions and stapes with annular ligament is simulated. Natural frequencies and mode shapes are computed by modal analysis. These investigations showed that the ossicles can be treated as rigid bodies only in a restricted frequency range from 0 to 3.5 kHz. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610