Ultrahigh Definition (8K UHD) Video System and Video-Assisted Surgery in the Near Future

High-Definition Video System for Peripheral Neurorrhaphy in Rats

Surgical Innovation ◽

10.1177/1553350617704755 ◽

2017 ◽

Vol 24 (4) ◽

pp. 369-372 ◽

Cited By ~ 4

Author(s):

Rui Sergio Monteiro de Barros ◽

Marcus Vinicius Henriques Brito ◽

Renan Kleber Costa Teixeira ◽

Vitor Nagai Yamaki ◽

Felipe Lobato da Silva Costa ◽

...

Keyword(s):

Image Quality ◽

Wistar Rats ◽

Low Cost ◽

High Definition ◽

Surgical Time ◽

Video System ◽

Image Magnification ◽

High Definition Video ◽

Video Assisted ◽

Video Systems

Background: Although all microsurgeries are based on the use of surgical microscopes, several alternative magnification systems have shown promising results. Improvements in image quality facilitated the use of video systems in microsurgeries with safety and accuracy. The aim of this study was to evaluate the use of a low-cost, video-assisted magnification system in peripheral neurorrhaphy in rats. Methods: Twenty Wistar rats were randomly divided into 2 matched groups according to the magnification system used: the microscope group, with neurorrhaphy performed under a microscope with an image magnification of 40×; and the video system group, with the procedures performed under a video system composed of a high-definition Sony camcorder DCR-SR42 set to 52× magnification, macro lenses, 42-inch television, and a digital HDMI cable. We analyzed weight, nerve caliber, total surgery time, neurorrhaphy time, number of stitches, and number of axons in both ends (proximal and distal). Results: There were no significant differences between groups in weight, nerve caliber, or number of stitches. Neurorrhaphy under the video system took longer (video: 5.60 minutes; microscope: 3.20 minutes; P < .05). Number of axons was similar between groups, both in proximal and distal stumps. Conclusion: It is possible to perform a peripheral neurorrhaphy in rats through video system magnification, but with a longer surgical time.

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Spectrophotometric reductions with an IBM 1620

Symposium - International Astronomical Union ◽

10.1017/s0074180900053328 ◽

1966 ◽

Vol 24 ◽

pp. 116-117

Author(s):

P.-I. Eriksson

Keyword(s):

Astronomical Data ◽

Spectrophotometric Data ◽

Electronic Computers ◽

The University ◽

Near Future

Nowadays more and more of the reductions of astronomical data are made with electronic computers. As we in Uppsala have an IBM 1620 at the University, we have taken it to our help with reductions of spectrophotometric data. Here I will briefly explain how we use it now and how we want to use it in the near future.

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Recent developments in automated Transmission Electron MI

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100152203 ◽

1989 ◽

Vol 47 ◽

pp. 46-47

Author(s):

W.J. de Ruijter ◽

P. Rez ◽

David J. Smith

Keyword(s):

Image Analysis ◽

Computer Image ◽

Lens Design ◽

Computer Image Analysis ◽

Transmission Electron ◽

Resolution Electron ◽

Recent Developments ◽

On Line ◽

Routine Procedures ◽

Near Future

There is growing interest in the on-line use of computers in high-resolution electron n which should reduce the demands on highly skilled operators and thereby extend the r of the technique. An on-line computer could obviously perform routine procedures hand, or else facilitate automation of various restoration, reconstruction and enhan These techniques are slow and cumbersome at present because of the need for cai micrographs and off-line processing. In low resolution microscopy (most biologic; primary incentive for automation and computer image analysis is to create a instrument, with standard programmed procedures. In HREM (materials researc computer image analysis should lead to better utilization of the microscope. Instru (improved lens design and higher accelerating voltages) have improved the interpretab the level of atomic dimensions (approximately 1.6 Å) and instrumental resolutior should become feasible in the near future.

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DNA methylation in satellite repeats disorders

Essays in Biochemistry ◽

10.1042/ebc20190028 ◽

2019 ◽

Vol 63 (6) ◽

pp. 757-771 ◽

Cited By ~ 4

Author(s):

Claire Francastel ◽

Frédérique Magdinier

Keyword(s):

Dna Methylation ◽

Human Genome ◽

Repetitive Dna ◽

Dna Sequences ◽

Satellite Repeats ◽

Tremendous Progress ◽

Genes Encoding ◽

Dna Elements ◽

Near Future

Abstract Despite the tremendous progress made in recent years in assembling the human genome, tandemly repeated DNA elements remain poorly characterized. These sequences account for the vast majority of methylated sites in the human genome and their methylated state is necessary for this repetitive DNA to function properly and to maintain genome integrity. Furthermore, recent advances highlight the emerging role of these sequences in regulating the functions of the human genome and its variability during evolution, among individuals, or in disease susceptibility. In addition, a number of inherited rare diseases are directly linked to the alteration of some of these repetitive DNA sequences, either through changes in the organization or size of the tandem repeat arrays or through mutations in genes encoding chromatin modifiers involved in the epigenetic regulation of these elements. Although largely overlooked so far in the functional annotation of the human genome, satellite elements play key roles in its architectural and topological organization. This includes functions as boundary elements delimitating functional domains or assembly of repressive nuclear compartments, with local or distal impact on gene expression. Thus, the consideration of satellite repeats organization and their associated epigenetic landmarks, including DNA methylation (DNAme), will become unavoidable in the near future to fully decipher human phenotypes and associated diseases.

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