SU-E-I-75: Development of New Biological Fingerprints for Patient Recognition to Identify Misfiled Images in a PACS Server

2015 ◽  
Vol 42 (6Part6) ◽  
pp. 3259-3259
Author(s):  
Y Shimizu ◽  
J Morishita ◽  
Y Yoon ◽  
K Iwase ◽  
S Yasumatsu ◽  
...  
Keyword(s):  
Pacs Server

Peak Signal-to-Noise Ratio Evaluation of Server Display Monitors and Client Display Monitors in a Digital Subtraction Angiography Devices

2020 ◽  
Vol 3 (1) ◽  
pp. 33-41
Author(s):  
Hwunjae Lee ◽  
◽  
Junhaeng Lee ◽  
Keyword(s):  
Signal To Noise Ratio ◽  
Information Loss ◽  
The Other ◽  
Digital Subtraction ◽  
Signal Distortion ◽  
Signal To Noise ◽  
Image Storage ◽  
And Performance ◽  
Pacs Server ◽  
Display Monitor

This study evaluated PSNR of server display monitor and client display monitor of DSA system. The signal is acquired and imaged during the surgery and stored in the PACS server. After that, distortion of the original signal is an important problem in the process of observation on the client monitor. There are many problems such as noise generated during compression and image storage/transmission in PACS, information loss during image storage and transmission, and deterioration in image quality when outputting medical images from a monitor. The equipment used for the experiment in this study was P's DSA. We used two types of monitors in our experiment, one is P’s company resolution 1280×1024 pixel monitor, and the other is W’s company resolution 1536×2048 pixel monitor. The PACS Program used MARO-view, and for the experiment, a PSNR measurement program using Visual C++ was implemented and used for the experiment. As a result of the experiment, the PSNR value of the kidney angiography image was 26.958dB, the PSNR value of the lung angiography image was 28.9174 dB, the PSNR value of the heart angiography image was 22.8315dB, and the PSNR value of the neck angiography image was 37.0319 dB, and the knee blood vessels image showed a PSNR value of 43.2052 dB, respectively. In conclusion, it can be seen that there is almost no signal distortion in the process of acquiring, storing, and transmitting images in PACS. However, it suggests that the image signal may be distorted depending on the resolution and performance of each monitor. Therefore, it will be necessary to evaluate the performance of the monitor and to maintain the performance.

scholarly journals Architecture of distributed picture archiving and communication systems for storing and processing high resolution medical images

2018 ◽  
Vol 177 ◽  
pp. 05004
Author(s):  
Victoria Tokareva
Keyword(s):  
Medical Imaging ◽  
Communication Systems ◽  
Medical Images ◽  
International Standards ◽  
Software Infrastructure ◽  
Picture Archiving ◽  
Technical Specifications ◽  
Picture Archiving And Communication ◽  
Pacs Server ◽  
New Generation

New generation medicine demands a better quality of analysis increasing the amount of data collected during checkups, and simultaneously decreasing the invasiveness of a procedure. Thus it becomes urgent not only to develop advanced modern hardware, but also to implement special software infrastructure for using it in everyday clinical practice, so-called Picture Archiving and Communication Systems (PACS). Developing distributed PACS is a challenging task for nowadays medical informatics. The paper discusses the architecture of distributed PACS server for processing large high-quality medical images, with respect to technical specifications of modern medical imaging hardware, as well as international standards in medical imaging software. The MapReduce paradigm is proposed for image reconstruction by server, and the details of utilizing the Hadoop framework for this task are being discussed in order to provide the design of distributed PACS as ergonomic and adapted to the needs of end users as possible.

scholarly journals Macrodystrophia Lipomatosa: A Single Large Radiological Study of a Rare Entity

2019 ◽  
Vol 9 ◽  
pp. 4
Author(s):  
CS Prabhu ◽  
K Madhavi ◽  
VN Amogh ◽  
Hiren K Panwala ◽  
Kirthi Sathyakumar
Keyword(s):  
Upper Limb ◽  
Lower Limb ◽  
Case Series ◽  
Final Analysis ◽  
Study Data ◽  
Categorical Variables ◽  
Macrodystrophia Lipomatosa ◽  
Rare Congenital Disorder ◽  
Associated Conditions ◽  
Pacs Server

Introduction: We present one of the largest case series of Macrodystrophia lipomatosa, a rare congenital disorder of localized gigantism characterized by overgrowth of all the mesenchymal elements, predominantly involving the fibroadipose tissue. Aims: To detail the radiological features, pattern of distribution, associated conditions and to suggest an appropriate terminology to describe the condition. Methods and Material: It is a retrospective study. Data from PACS server dating from 2000 and 2018 was used. The cases with isolated enlarged limb or digit/digits with or without nerve involvement were included in the study. Statistical Analysis Used: Frequency and percentage were used for analysis of categorical variables. Results: A total of 31 cases was included for the final analysis, out of which 19 were males and 12 were females. Unilateral limb involvement was seen in 30 cases. The most common pattern identified was the ’nerve territory oriented’ type in 28 cases confined to the hand or foot, ’diffuse or pure lipomatous’ type in one case and mixed type was seen in two cases. The most common nerve territory involved was along the median nerve in the upper limb and along the medial plantar nerve in the lower limb. Neural involvement was seen in 16 cases of the upper limb and 10 cases of the lower limb. Syndactyly was seen in two cases, polydactyly in one case and symphalangism in one case. Conclusions: A diagnosis of macrodystrophia lipomatosa can be confidently made in cases with congenital isolated limb or digit/digits enlargement with or without fibrolipohamartoma of nerve. Radiographs and ultrasound are sufficient along with clinical examination to make accurate diagnosis. MRI is useful for assessing the extent and for planning surgery.

Fault-tolerant PACS server design

2001 ◽  
Author(s):  
H. K. Huang ◽  
F. Cao ◽  
Brent J. Liu ◽  
Jianguo Zhang ◽  
Zheng Zhou ◽  
...  
Keyword(s):  
Fault Tolerant ◽  
Server Design ◽  
Pacs Server

scholarly journals Virtual Atlas of Personified Human Anatomy “SkiaAtlas” and the Possibility of Its Application

2020 ◽  
Vol 18 (1) ◽  
pp. 83-93
Author(s):  
B. O. Shcheglov ◽  
N. I. Bezulenko ◽  
S. A. Atashchikov ◽  
S. N. Scheglova
Keyword(s):  
Information System ◽  
Programming Languages ◽  
Web Application ◽  
Three Dimensional ◽  
Personal Data ◽  
Human Anatomy ◽  
Anatomical Models ◽  
Software Products ◽  
Clinical Thinking ◽  
Pacs Server

The work is devoted to the description of the structure of the developed SkiaAtlas software, which is focused on working with individual anatomical models of the human body and physiological parameters of the patient. The problem of using mock-up and post-sectional material in teaching medical students, and why the developed information system has advantages over these models, is shown. Virtual anatomical models were obtained from anonymous DICOM images of magnetic resonance imaging (MRI) and computed tomography (CT). The subsystems of the information system are described: a PACS server where all data is stored (server part) and a web application where the user works with data (client part). The information system modules implemented in the form of various software products are described in detail: data import module, anonymization module, DBMS module, visualization module, etc. The operation of these modules is illustrated schematically. It is shown in what programming languages and frameworks this software is implemented, and advantages of choosing these implementation tools relative to software are shown. The process of deleting personal data from DICOM files is described in detail; the process of obtaining the “mask” of the object in the picture, which is then used to obtain three-dimensional models of the patient’s internal organs. The process of user work with the database and the search for pathologies using the system interface tools are clearly described. The possibilities of using this information system in the educational field are shown – an illustration of specific clinical cases in order to search for cause-effect relationships in the pathogenesis of various diseases and the development of clinical thinking in a student. In a specific clinical case, an example is given of how the SkiaAtlas program was used to search for a pathology – a volumetric formation of the left hemisphere of the brain.

TH-D-332-09: Development of a Search Method to Find Lost Chest Radiographs in PACS Server

2008 ◽  
Vol 35 (6Part27) ◽  
pp. 2992-2992
Author(s):  
J Morishita ◽  
S Katsuragawa ◽  
Y Sasaki ◽  
T Hiwasa ◽  
K Doi
Keyword(s):  
Search Method ◽  
Chest Radiographs ◽  
Pacs Server

General DICOM PACS server for echocardiography images

2003 ◽  
Author(s):  
M.G.J.M. Gerritsen ◽  
N. van der Putten ◽  
W.A. Dijk ◽  
W.R.M. Dassen ◽  
H.J. Spruijt ◽  
...  
Keyword(s):  
Pacs Server

scholarly journals Radiology Informatics : Image Processing In Pacs-Lung Cancer Detection in CT Images

2020 ◽  
pp. 189-194
Author(s):  
Tulika Choudhury ◽  
Mandar Karyakarte
Keyword(s):  
Lung Cancer ◽  
Image Processing ◽  
Three Dimensional ◽  
Cross Sectional ◽  
Radiology Informatics ◽  
Svm Algorithm ◽  
Cross Sectional Imaging ◽  
Time Required ◽  
Pacs Server ◽  
Processing Techniques

<p>In this Paper, I will do Image Processing Techniques in DICOM Images acquired from the PACS Server and by utilizing KNN and SVM Algorithm and I will utilize a prescient strategy to examine the disarranges of any patient by contrasting the prior datasets of same methodology and Predict the turmoil of the patient, which will diminish the time taken to break down any DICOM pictures. Mix of RIS and PACS administrations into a solitary arrangement has turned into a broad reality in day by day radiological work on, permitting significant increasing speed of work process without any difficulty of work contrasted and more seasoned age film-based radiological movement. Specifically, the quick and stupendous late development of computerized radiology (with unique reference to cross-sectional imaging modalities, for example, CT and MRI) has been paralleled by the improvement of incorporated RIS– PACS frameworks with cutting edge picture preparing devices (either two-and additionally three-dimensional) that were a restrictive undertaking of expensive devoted workstations until a couple of years prior. This new situation is probably going to additionally enhance profitability in the radiology division with decrease of the time required for picture translation and revealing, and also to cut expenses for the buy of devoted independent picture handling workstations. In this paper, a general depiction of common incorporated RIS– PACS design with picture preparing capacities will be given, and the primary accessible picture handling devices will be delineated. The most well-known kind of malignancy is Lung Cancer. The demise rate is higher in this kind of growth, which can be lessened, if found in its before stages. The Lung Cancer can be recognized utilizing picture preparing strategies on the CT pictures of the Chest of a patient. In this Paper, I will utilize the CT pictures of the Chest to distinguish Lung Cancer by decreasing the clamor of the picture and changing over it to grayscale and after that utilization water shed calculation to identify lung disease.</p>

Fault-tolerant PACS server design and evaluation

2001 ◽  
Vol 1230 ◽  
pp. 760-766 ◽  
Author(s):  
Brent J. Liu ◽  
Fei Cao ◽  
Jianguo Zhang ◽  
H.K. Huang ◽  
Michael Z. Zhou ◽  
...  
Keyword(s):  
Fault Tolerant ◽  
Server Design ◽  
Pacs Server
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