Topic
Loupe
About: Loupe is a research topic. Over the lifetime, 233 publications have been published within this topic receiving 1813 citations. The topic is also known as: hand lens & nose lens.
Papers published on a yearly basis
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Papers
TL;DR: This article demonstrates that LOUPE-optimized under-sampling masks are data-dependent, varying significantly with the imaged anatomy, and perform well with different reconstruction methods, and presents empirical results obtained with a large-scale, publicly available knee MRI dataset, where LouPE offered superior reconstruction quality across different conditions.
Abstract: In compressed sensing MRI (CS-MRI), k-space measurements are under-sampled to achieve accelerated scan times. CS-MRI presents two fundamental problems: (1) where to sample and (2) how to reconstruct an under-sampled scan. In this article, we tackle both problems simultaneously for the specific case of 2D Cartesian sampling, using a novel end-to-end learning framework that we call LOUPE (Learning-based Optimization of the Under-sampling PattErn). Our method trains a neural network model on a set of full-resolution MRI scans, which are retrospectively under-sampled on a 2D Cartesian grid and forwarded to an anti-aliasing (a.k.a. reconstruction) model that computes a reconstruction, which is in turn compared with the input. This formulation enables a data-driven optimized under-sampling pattern at a given sparsity level. In our experiments, we demonstrate that LOUPE-optimized under-sampling masks are data-dependent, varying significantly with the imaged anatomy, and perform well with different reconstruction methods. We present empirical results obtained with a large-scale, publicly available knee MRI dataset, where LOUPE offered superior reconstruction quality across different conditions. Even with an aggressive 8-fold acceleration rate, LOUPE's reconstructions contained much of the anatomical detail that was missed by alternative masks and reconstruction methods. Our experiments also show how LOUPE yielded optimal under-sampling patterns that were significantly different for brain vs knee MRI scans. Our code is made freely available at https://github.com/cagladbahadir/LOUPE/ .
114 citations
Patent•
15 Dec 2009TL;DR: In this paper, the use of a magnification loupe is described to facilitate management and manipulation of user interface content and small user interface elements via gestures on a touch-sensitive surface.
Abstract: Context-sensitive, automated use of a magnification loupe is disclosed to facilitate management and manipulation of user interface content and small user interface elements via gestures on a touch-sensitive surface In one embodiment, a magnifying loupe is displayed based on the context associated with a finger-based gesture on a touch-sensitive surface For example, a magnification loupe is displayed when one or more user interface elements corresponding to the location of the gesture on the touch-sensitive surface is smaller than a predefined size threshold, but the loupe is not displayed when the user interface elements corresponding to the location of the gesture on the touch-sensitive surface are larger than the predefined size threshold In another embodiment, the magnification power of the loupe varies based on the size of the one or more user interface elements corresponding to the location of the gesture on the touch-sensitive surface
104 citations
TL;DR: High-power ocular loupes provide an alternative to the operating microscope for microvascular anastomosis of vessels 1.0 mm or greater in diameter and are advocated on the grounds of cost-effectiveness, portability, and operator freedom.
Abstract: Eight years ago, the principal author (Shenaq) began employing high-power ocular loupes for microvascular anastomoses. Subsequently, 251 free-tissue transfers were performed with loupes as the sole means of magnification. Procedures included free flaps, toe-to-hand transfers, and digital replantations, with the external diameter of the vascular pedicles averaging 1.5 mm. Analysis of the series revealed a 97.2 percent overall success rate, a 1.2 percent partial flap necrosis rate, and an 8.3 percent revision rate for anastomoses (during the initial operative procedure), which compare favorably with the success rates frequently cited for microscope-assisted procedures. The most favorable results were achieved with free flaps and toe-to-hand transfers with 98.5 and 96.4 percent success rates, respectively. The 79.2 percent survival rate achieved with digital replantation falls within the range (74.0 to 94.2 percent) reported in the literature. This experience indicates that in practiced hands, high-power ocular loupes provide an alternative to the operating microscope for microvascular anastomosis of vessels 1.0 mm or greater in diameter. Loupe use is advocated on the grounds of cost-effectiveness, portability, and operator freedom.
59 citations
TL;DR: There is a growing body of evidence to suggest that surgeon posture while operating contributes to cervical musculoskeletal strain, discomfort, and chronic pain.
Abstract: There is a growing body of evidence to suggest that surgeon posture while operating contributes to cervical musculoskeletal strain, discomfort, and chronic pain. Microsurgeons may be particularly susceptible to this risk due to persistent neck flexion, long periods of static posture, and the use of heavy, high-power loupe magnification. Several techniques are thus presented that may help in obviating the cervicospinal repercussions of performing microsurgery.
59 citations
Patent•
6 Oct 2004TL;DR: In this article, a virtual loupe consisting of a lens region and a target region is used to display visual information associated with the target region to be displayed in the lens region, and the user can configure the virtual loupe to display the visual information at different levels of magnification.
Abstract: A method and apparatus for viewing digital images is provided. A digital image may be viewed using a digital image system that employs a virtual loupe. A virtual loupe comprises a lens region and a target region. The lens region and the target region may each be a bounded area displayed on a display. A user may position the target region over a digital image displayed on the display to cause a depiction of visual information associated with the target region to be displayed in the lens region. The user can configure the virtual loupe to display visual information in the lens region at different levels of magnification. The lens may automatically move and change in orientation with respect to the target region as the target region moves on the display to ensure that the display of the lens region on the display is always unobscured.
50 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2021 | 10 |
| 2020 | 11 |
| 2019 | 11 |
| 2018 | 11 |
| 2017 | 2 |
| 2016 | 8 |