Uğur Yılmaz scite author profile

The purpose of this study was to compare nasal volume changes using acoustic rhinometry (AR) and computed tomography (CT). The subjects were 10 children (6 girls and 4 boys, with an age range of 12-14 years) who required rapid maxillary expansion (RME) on the basis of their individual malocclusion. All patients were found to have normal nasal cavities following anterior rhinoscopic examination. AR and CT were undertaken at the start of treatment (t(1)) and 6 months after expansion (t(2)). Volume changes due to expansion were evaluated using Wilcoxon's test, and the correlation between the two methods was assessed with correlation analyses. Both methods demonstrated that nasal volume significantly increased following the use of RME (P<0.05). Correlation analyses showed no difference in volume (P>0.05) using either of the two methods.

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Heating of magnetic fluid systems driven by circularly polarized magnetic field

Ahsen

Yılmaz

Aksoy

et al. 2010

Journal of Magnetism and Magnetic Materials

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Cataloged from PDF version of article.A theory is presented to calculate the heat dissipation of a magnetic suspension, a ferrofluid, driven by7 circularly polarized magnetic field. Theory is tested by in vitro experiments and it is shown that, regardless of the character of the relaxation process, linearly and circularly polarized magnetic field excitations, having the same root-mean-square magnitude, are equivalent in terms of heating efficiency. (C) 2010 Elsevier B.V. All rights reserved

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Specific absorption rate reduction using nonlinear gradient fields

Kopanoğlu

Yılmaz

Gokhalk

et al. 2012

Magnetic Resonance in Med

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The specific absorption rate is used as one of the main safety parameters in magnetic resonance imaging. The performance of imaging sequences is frequently hampered by the limitations imposed on the specific absorption rate that increase in severity at higher field strengths. The most well-known approach to reducing the specific absorption rate is presumably the variable rate selective excitation technique, which modifies the gradient waveforms in time. In this article, an alternative approach is introduced that uses gradient fields with nonlinear variations in space to reduce the specific absorption rate. The effect of such gradient fields on the relationship between the desired excitation profile and the corresponding radiofrequency pulse is shown. The feasibility of the method is demonstrated using three examples of radiofrequency pulse design. Finally, the proposed method is compared with and combined with the variable rate selective excitation technique. Magn Reson Med 70:537-546, 2013.

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Characteristics of fading of HF signal and noise intensities on three paths between the United Kingdom and Turkey

Gibson¹,

Yılmaz²,

Tulunay³

et al. 1995

Radio Science

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Results from a recent measurement campaign in Turkey, pertinent to reliability and compatibility determination in HF service planning, are presented. Within‐an‐hour signal fading was found to be slightly more severe than, but day‐to‐day variability only half as large as the values (in decibels) adopted by the 1984 World Administrative Radio Conference on HF Broadcasting, or WARC‐HFBC(84). Within‐an‐hour variability of noise was negligible, and day‐to‐day variations of noise were only about one quarter of the amplitude (in decibels) given by CCIR report 322‐3 [International Radio Consultative Committee (CCIR), 1988a]. The day‐to‐day spatial correlation coefficients of both signal and noise at sites separated in range by about 400 km were found to be about 0.4. Correlation of signal with noise at each site was negligible.

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Sheared two‐dimensional radiofrequency excitation for off‐resonance robustness and fat suppression in reduced field‐of‐view imaging

Barlas

Bahadir

Kafalı

et al. 2022

Magnetic Resonance in Med

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Two-dimensional (2D) echo-planar radiofrequency (RF) pulses are widely used for reduced field-of-view (FOV) imaging in applications such as diffusion-weighted imaging. However, long pulse durations render the 2D RF pulses sensitive to off-resonance effects, causing local signal losses in reduced-FOV images. This work aims to achieve off-resonance robustness for 2D RF pulses via a sheared trajectory design. Theory and Methods:A sheared 2D RF pulse design is proposed to reduce pulse durations while covering identical excitation k-space extent as a standard 2D RF pulse. For a given shear angle, the number of sheared trajectory lines is minimized to obtain the shortest pulse duration, such that the excitation replicas are repositioned outside the slice stack to guarantee unlimited slice coverage. A target fat/water signal ratio of 5% is chosen to achieve robust fat suppression.Results: Simulations, imaging experiments on a custom head and neck phantom, and in vivo imaging experiments in the spinal cord at 3 T demonstrate that the sheared 2D RF design provides significant improvement in image quality while preserving profile sharpnesses. In regions with high off-resonance effects, the sheared 2D RF pulse improves the signal by more than 50% when compared to the standard 2D RF pulse. Conclusion:The proposed sheared 2D RF design successfully reduces pulse durations, exhibiting significantly improved through-plane off-resonance robustness, while providing unlimited slice coverage and high fidelity fat suppression. This method will be especially beneficial in regions suffering from a variety of off-resonance effects, such as spinal cord and breast.

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Uğur Yılmaz

Comparison of nasal volume changes during rapid maxillary expansion using acoustic rhinometry and computed tomography

Heating of magnetic fluid systems driven by circularly polarized magnetic field

Specific absorption rate reduction using nonlinear gradient fields

Characteristics of fading of HF signal and noise intensities on three paths between the United Kingdom and Turkey

Sheared two‐dimensional radiofrequency excitation for off‐resonance robustness and fat suppression in reduced field‐of‐view imaging

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