Experimental studies on the suitability of the erbium laser for stapedotomy in an animal model

Jovanovic, S.; Anft, D.; Schönfeld, U; Berghaus, Alexander; Scherer, Hans

doi:10.1007/bf00167313

Cited by 27 publications

(21 citation statements)

References 5 publications

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“…This value is much lower than the safety limit of 36 J cm-2 published by Jovanovic et al (34). The discrepancy might be explained by the larger diameter of the perforation (500-600/lm compared to 350ttm in the present study).…”

Section: Discussioncontrasting

confidence: 82%

Experimental in vivo fenestration of guinea pig cochlea using 2.79 Μm laser radiation

et al. 1997

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Abstract. Erbium-YSGG laser systems are promising tools in ear, nose and throat (ENT) surgery. The high absorption in biological tissues, resulting in precise tissue ablation with minimal thermal tissue damage, and the possibility to guide the radiation through optical fibres make the 2.79 ~m wavelength a favourite for microsurgery.In order to simulate the fenestration of the human stapes foot plate required for prosthesis implantation when treating otosclerosis, five guinea pig cochleae were irradiated in vivo until perforation was achieved. The laser-induced temperature rise and pressure transients evoke activity in the inner hair cells that was investigated by micro-iontophoresis.Perforation of the cochlea bone (hole diameter of 350/~m) can be performed with a few laser pulses and high precision with a thermal damage zone of <100~m. The bone ablation rate is 10 + 2 ~m pulse -1 at a radiant exposure of 12 J cm-2. The functionality of the afferent inner hair cells in the guinea pig cochlea was verified before and after laser treatment using glutamate receptor agonists AMPA and NMDA. For the above selected laser parameters, the induced 15-min enhanced activity was blockable with the specific reversible AMPA and NMDA antagonists CNQX and AP-7.Micro-iontophoresis confirms the reversibility of cochlea functionality after its perforation with Er-YSGG laser pulses. A limit of radiant exposure around 12 J cm -2 is found for safe fenestration. It is demonstrated that the Er-YSGG laser is a precise and safe instrument whilst still using adequate laser parameters. On the other hand, this study demonstrates the potential of uncontrollable and unintended induced damage, resulting from vapour channel formation in the perilymph, if a high laser radiant exposure is applied.

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Section: Discussioncontrasting

confidence: 82%

Experimental in vivo fenestration of guinea pig cochlea using 2.79 Μm laser radiation

et al. 1997

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“…As recently shown in similar animal models, the safety limit of erbium laser treatment was determined by changes in the CAP at an energy of 36 J/cm 2 per pulse with 25 applications at a repetition rate of 5 Hz [15]. In our experiments, however, there was a clear limitation below this value.…”

Section: Discussionmentioning

confidence: 53%

“…Recently, Jovanovic and co-workers [15] determined the relative safety of the erbium laser in animal experiments by means of changes in compound action potentials (CAP) of acoustic evoked potentials from the guinea pig cochlea.…”

Section: Introductionmentioning

confidence: 99%

Experimental erbium laser surgery in the guinea pig cochlea: its use in the study of afferent cochlear neurotransmitters

Arnold

Felix

Ehrenberger

et al. 1996

Eur Arch Otorhinolaryngol

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Microiontophoretic techniques were used to examine the changes in activity of inner half cell afferents in the guinea pig following circumscribed penetration of cochlear bone with erbium:YSGG laser pulses. Neuronal responses to the application of the glutamate agonists N-methyl-D-aspartate (NMDA) and alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) before laser use and after return to normal spontaneous activity were equivalent, implying total reversibility of the changes occurring. Suppression of laser-induced hair cell activity was possible with NMDA and AMPA receptor antagonists and lasted 10-15 min. These findings suggest a transmitter-related increase of neuronal activity. Our results show that use of the erbium laser in inner ear microsurgery might be possible with low risk if the amount of energy applied is kept under a safe limit of 10 J/cm2.

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“…Direct comparison shows all laser types to have specific advantages and disadvantages: whereas temperature increases are, accordingly, greater for the CO 2 laser [18], higher peak pressures can be expected with the Erbium laser [8, 14, 23]. The two latter systems have nevertheless become well established in routine clinical practice and have seen wide distribution and acceptance.…”

Section: Discussionmentioning

confidence: 99%

Pressure and Temperature Changes inIn VitroApplications with the Laser and Their Implications for Middle Ear Surgery

Schwab

Kontorinis

2010

International Journal of Otolaryngology

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Background. The purpose of this study was to evaluate the thermal and pressure effects using a Titan Sapphire chirped-pulse amplifier system configured to deliver ultrashort pulses of 180 femtoseconds (fs) in an inner ear model. Materials and Methods. Temperature increases and heat exchange processes in the fluid (physiological saline) were examined in a calorically and physiologically approximated cochlea model for applying laser parameters effective in the creation of footplate perforations. Results. In the effective energy density range, the highest temperature increases achieved with the Carbon dioxide (CO2) laser were about 11 degrees C. The lowest temperature maxima were 6 degrees C with the Er:YAG laser (Yttrium-Aluminum-Oxide doted with Erbium3+-ions) and <5 degrees C with the femtosecond laser. Comparison of the laser-induced pressure with the limit graph published by Pfander indicated that the use of the fs laser is unobjectionable for fluences <1 J/cm2. Conclusions. Our investigations demonstrated that the application of the fs laser in middle ear surgery presents a new and promising addition to the range of ultrashort wavelength lasers used for this purpose.

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Experimental studies on the suitability of the erbium laser for stapedotomy in an animal model

Cited by 27 publications

References 5 publications

Experimental in vivo fenestration of guinea pig cochlea using 2.79 Μm laser radiation

Experimental in vivo fenestration of guinea pig cochlea using 2.79 Μm laser radiation

Experimental erbium laser surgery in the guinea pig cochlea: its use in the study of afferent cochlear neurotransmitters

Pressure and Temperature Changes inIn VitroApplications with the Laser and Their Implications for Middle Ear Surgery

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