Merle S. Losch scite author profile

Merle S. Losch

4Publications

7Citation Statements Received

31Citation Statements Given

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Delft University of Technology

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Diffuse reflectance spectroscopy of the spine: improved breach detection with angulated fibers

Losch¹,

Kardux²,

Dankelman³

et al. 2023

Biomed. Opt. Express

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Accuracy in spinal fusion varies greatly depending on the experience of the physician. Real-time tissue feedback with diffuse reflectance spectroscopy has been shown to provide cortical breach detection using a conventional probe with two parallel fibers. In this study, Monte Carlo simulations and optical phantom experiments were conducted to investigate how angulation of the emitting fiber affects the probed volume to allow for the detection of acute breaches. Difference in intensity magnitude between cancellous and cortical spectra increased with the fiber angle, suggesting that outward angulated fibers are beneficial in acute breach scenarios. Proximity to the cortical bone could be detected best with fibers angulated at θ f = 45 ∘ for impending breaches between θ p = 0 ∘ and θ p = 45 ∘ . An orthopedic surgical device comprising a third fiber perpendicular to the device axis could thus cover the full impending breach range from θ p = 0 ∘ to θ p = 90 ∘ .

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Steering light in fiber-optic medical devices: a patent review

Losch

Kardux

Dankelman

et al. 2022

Expert Review of Medical Devices

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Introduction Steering light is relevant to many medical applications that require tissue illumination, sensing, or modification. To control the propagation direction of light beams, a great variety of innovative fiber-optic medical devices have been designed. Areas covered This review provides a comprehensive overview of the patent literature on light beam control in fiber-optic medical devices. The Web of Science Derwent Innovation Index database was scanned, and 81 patents on fiber-optic devices published in the last 20 years (2001–2021) were retrieved and categorized based on the working principle to steer light (refraction/reflection, scattering, diffraction) and the design strategy that was employed (within fiber, at fiber end, outside fiber). Expert opinion Patents describing medical devices were found for all categories, except for generating diffraction at the fiber end surface. The insight in the different designs reveals that there are still several opportunities to design innovative devices that can collect light at an angle off-axis, reduce the angular distribution of light, or split light into multiple beams.

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Proton density fat fraction of the spinal column: an MRI cadaver study

et al. 2021

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Background The increased popularity of minimally invasive spinal surgery calls for a revision of guidance techniques to prevent injuries of nearby neural and vascular structures. Lipid content has previously been proposed as a distinguishing criterion for different bone tissues to provide guidance along the interface of cancellous and cortical bone. This study aims to investigate how fat is distributed throughout the spinal column to confirm or refute the suitability of lipid content for guidance purposes. Results Proton density fat fraction (PDFF) was assessed over all vertebral levels for six human cadavers between 53 and 92 years of age, based on fat and water MR images. According to their distance to the vertebra contour, the data points were grouped in five regions of interest (ROIs): cortical bone (−1 mm to 0 mm), pre-cortical zone (PCZ) 1–3 (0–1 mm; 1–2 mm; 2–3 mm), and cancellous bone ($$\ge $$ ≥ 3 mm). For PCZ1 vs. PCZ2, a significant difference in mean PDFF of between −7.59 pp and −4.39 pp on average was found. For cortical bone vs. PCZ1, a significant difference in mean PDFF of between −27.09 pp and −18.96 pp on average was found. Conclusion A relationship between distance from the cortical bone boundary and lipid content could be established, paving the way for guidance techniques based on fat fraction detection for spinal surgery.

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TISENO® Evaluierung eines neuen „relevance filter imaging“ mit reproduzierbarer, kinetischer Bildsequenz in der thermographischen Diagnostik des Mammacarcinoms

Radaviciene¹,

Klink²,

Losch³

2009

Senologie - Zeitschrift für Mammadiagnostik und -therapie

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Merle S. Losch

Diffuse reflectance spectroscopy of the spine: improved breach detection with angulated fibers

Steering light in fiber-optic medical devices: a patent review

Proton density fat fraction of the spinal column: an MRI cadaver study

TISENO® Evaluierung eines neuen „relevance filter imaging“ mit reproduzierbarer, kinetischer Bildsequenz in der thermographischen Diagnostik des Mammacarcinoms

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