1.Recent Development of Computer Vision Technology to Improve Capsule Endoscopy
Junseok PARK ; Youngbae HWANG ; Ju Hong YOON ; Min Gyu PARK ; Jungho KIM ; Yun Jeong LIM ; Hoon Jai CHUN
Clinical Endoscopy 2019;52(4):328-333
Capsule endoscopy (CE) is a preferred diagnostic method for analyzing small bowel diseases. However, capsule endoscopes capture a sparse number of images because of their mechanical limitations. Post-procedural management using computational methods can enhance image quality. Additional information, including depth, can be obtained by using recently developed computer vision techniques. It is possible to measure the size of lesions and track the trajectory of capsule endoscopes using the computer vision technology, without requiring additional equipment. Moreover, the computational analysis of CE images can help detect lesions more accurately within a shorter time. Newly introduced deep leaning-based methods have shown more remarkable results over traditional computerized approaches. A large-scale standard dataset should be prepared to develop an optimal algorithms for improving the diagnostic yield of CE. The close collaboration between information technology and medical professionals is needed.
Capsule Endoscopes
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Capsule Endoscopy
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Cooperative Behavior
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Dataset
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Methods
2.Research on swallowable camera-capsules of gastrointestinal wireless endoscope.
Si-jie ZHANG ; Cheng-lin PENG ; Xiao-lin ZHENG ; Yan LIU ; Xi-tian PI ; Wen-sheng HOU
Chinese Journal of Medical Instrumentation 2005;29(5):328-330
The swallowable camera-capsule,described in the aper, 11 mm in diameter and 30 mm in length , contains a CMOS image sensor, an optical system, a battery, a light source, a transmitter, a antenna and so on. The CMOS image sensor and its driving circuit can be miniaturized with MEMS technology. Image signal can be transmitted by analog or digital way. Image signal can be wirelessly transmitted through serial data interface. Finally, the processing technics of the capsule's crust is introduced.
Capsule Endoscopes
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Equipment Design
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Wireless Technology
3.Design of Adjustable Magnetic Field Generating Device in the Capsule Endoscope Tracking System.
Chao RUAN ; Xudong GUO ; Fei YANG
Journal of Biomedical Engineering 2015;32(4):900-904
The capsule endoscope swallowed from the mouth into the digestive system can capture the images of important gastrointestinal tract regions. It can compensate for the blind spot of traditional endoscopic techniques. It enables inspection of the digestive system without discomfort or need for sedation. However, currently available clinical capsule endoscope has some limitations such as the diagnostic information being not able to correspond to the orientation in the body, since the doctor is unable to control the capsule motion and orientation. To solve the problem, it is significant to track the position and orientation of the capsule in the human body. This study presents an AC excitation wireless tracking method in the capsule endoscope, and the sensor embedded in the capsule can measure the magnetic field generated by excitation coil. And then the position and orientation of the capsule can be obtained by solving a magnetic field inverse problem. Since the magnetic field decays with distance dramatically, the dynamic range of the received signal spans three orders of magnitude, we designed an adjustable alternating magnetic field generating device. The device can adjust the strength of the alternating magnetic field automatically through the feedback signal from the sensor. The prototype experiment showed that the adjustable magnetic field generating device was feasible. It could realize the automatic adjustment of the magnetic field strength successfully, and improve the tracking accuracy.
Capsule Endoscopes
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Endoscopy
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Gastrointestinal Tract
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Humans
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Magnetic Fields
4.A Pilot Trial of Ambulatory Monitoring of Gastric Motility Using a Modified Magnetic Capsule Endoscope.
Hee Man KIM ; Ja Sung CHOI ; Jae Hee CHO
Journal of Neurogastroenterology and Motility 2014;20(2):261-264
The magnetic capsule endoscope has been modified to be fixed inside the stomach and to monitor the gastric motility. This pilot trial was designed to investigate the feasibility of the magnetic capsule endoscope for monitoring gastric motility. The magnetic capsule endoscope was swallowed by the healthy volunteer and maneuvered by the external magnet on his abdomen surface inside the stomach. The magnetic capsule endoscope transmitted image of gastric peristalsis. This simple trial suggested that the real-time ambulatory monitoring of gastric motility should be feasible by using the magnetic capsule endoscope.
Abdomen
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Capsule Endoscopes*
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Capsule Endoscopy
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Healthy Volunteers
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Monitoring, Ambulatory*
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Peristalsis
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Stomach
5.Analysis of Gastrointestinal Transit Rate in Capsule Endoscopy.
Bora KEUM ; Hoon Jai CHUN ; Sung Woo JUNG ; Sung Chul PARK ; Rok Son CHOUNG ; Yong Sik KIM ; Yoon Tae JEEN ; Hong Sik LEE ; Soon Ho UM ; Sang Woo LEE ; Jai Hyun CHOI ; Chang Duck KIM ; Ho Sang RYU ; Jin Hai HYUN
Korean Journal of Gastrointestinal Endoscopy 2004;29(4):175-180
BACKGROUND/AIMS: Capsule endoscope (CE) is a new method of investigating entire small bowel (SB). Some reported that current battery time was sufficient for observing entire SB, but others reported negatively. The aims of this study were to determine the factors influencing the entire SB transit rate. METHODS: From Sep. 2002 to Aug. 2003, CE was performed in 197 cases and they were devided into complete/incomplete transit according to getting ileocecal valve image within battery time. sixteen cases were excluded due to anatomical abnormality or artificial procedure. one hundred eighty one cases were analyzed with multiple logistic regression. RESULTS: The complete SB transit rate was 63.5%. Mean battery time was 7 and 1/2 hrs. Gastric transit time (GTT) was significantly shorter in complete group than in incomplete group but the other factors (age, sex, preparation, symptom) were not significant. Mean small bowel transit time in complete group was 4 and 1/2 hrs and ranged from 1 to 8 hrs. In incomplete group (66 cases), 2 cases were reached to distal jejunum, 11 cases to proximal ileum, and the other 53 cases to distal ileum. CONCLUSIONS: Complete SB transit rate of CE was 63.5% in the 181 cases under current battery time. GTT was the only significant factor influencing gastrointestinal transit rate of CE.
Capsule Endoscopes
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Capsule Endoscopy*
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Gastrointestinal Transit*
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Ileocecal Valve
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Ileum
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Jejunum
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Logistic Models
6.Body Position Adjustment May Facilitate Capsule Endoscopic Real-Time Examination in Patients with a Large Amount of Food Retention in the Stomach.
Clinical Endoscopy 2014;47(3):266-269
A patient with acute obscure gastrointestinal bleeding was found to have a large amount of food retention in the stomach after fasting for >12 hours. We tried to adjust the patient's body position to facilitate capsule endoscopic examination. The patient laid on the bed on his right side, which is the position required for a normal procedure, and then his hip was raised while his upper body was lowered gradually until the pylorus appeared at the center of the screen of the real-time monitor. It took 15 minutes of body position adjustment to make the pylorus appear at the center of the monitor and another 5 minutes for the capsule endoscope to enter the duodenum. The lesion was ultimately found at the terminal small intestine.
Capsule Endoscopes
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Capsule Endoscopy
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Duodenum
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Fasting
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Hemorrhage
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Hip
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Humans
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Intestine, Small
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Pylorus
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Stomach*
7.The latest development of the localization for noninvasive monitoring capsule in gastrointestinal tract.
Wenhui HE ; Guozheng YAN ; Xudong GUO
Journal of Biomedical Engineering 2008;25(1):196-199
The work of research and development of noninvasive monitoring system for human GI (gastrointestinal tract) has been very successful all over the world, and without questions, the system as such will extensively be applied in the future. However, the method for localization of the monitoring capsule in the system is not perfect. This paper reports the status quo of the research process for the capsule localization system, and analyzes their advantages and defects.
Biosensing Techniques
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Capsule Endoscopes
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Capsule Endoscopy
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methods
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trends
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Equipment Design
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Gastrointestinal Tract
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Humans
8.The hardware design of a portable gastrointestinal wireless endoscope image receiver.
Si-jie ZHANG ; Xiao-ping ZENG ; Xiao-lin ZHENG ; Li-ying XIE ; Cheng-lin PENG
Chinese Journal of Medical Instrumentation 2006;30(3):184-223
The portable gastrointestinal wireless endoscope image receiver is developed and based on TMS320C6211 DSP. It can receive and demodulate the modulated signal which is transmitted from the camera-capsule, and then output the video signal. The synchronizing signals offered by SAA7114H are made best of and are used to design the time logic circuit. The fitful video signal can be collected under the control of the time logic circuit. The circuit can automatically get rid of useless blank data and only collect effective and good-quality video signals, and storage them in CF card. In addition, the image signal can be processed and compressed by DSP, and thus the data storage space and the data- analyzing time can be saved.
Capsule Endoscopes
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Capsule Endoscopy
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methods
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Computer Systems
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Endoscopes, Gastrointestinal
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Equipment Design
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Humans
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Image Interpretation, Computer-Assisted
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instrumentation
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methods
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Signal Processing, Computer-Assisted
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instrumentation
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Software
9.Two Cases of Jejunal Gastrointestinal Stromal Tumor Diagnosed by Capsule Endoscope.
Jae Won CHOI ; Ji Eun LEE ; Byung Ik JANG ; Tae Nyeun KIM ; Sun Kyo SONG ; Young Kyong BAE
Yeungnam University Journal of Medicine 2006;23(1):131-137
Small bowel tumors have been difficult to diagnose because of low incidence and absence of specific symptoms. There are no efficient and accurate tests available for diagnosis. Capsule endoscopy is an efficient diagnostic tool for small bowel disease and obscure gastrointestinal bleeding. We diagnosed two cases of small bowel gastrointestinal stromal tumor (GIST) diagnosed by capsule endoscopy that were treated by surgery. A 68 year old male presented with abdominal pain. The capsule endoscopy showed fungating ulcer mass at the jejunum. A 55 year female presented with melena. The capsule endoscopy showed an intraluminal protruding mass with a superficial ulcer at the jejunum. Two cases were diagnosed with GIST after surgery. We report these two case diagnosed by capsule endoscopy and review the medical literature.
Abdominal Pain
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Aged
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Capsule Endoscopes*
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Capsule Endoscopy
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Diagnosis
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Female
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Gastrointestinal Stromal Tumors*
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Hemorrhage
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Humans
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Incidence
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Jejunum
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Male
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Melena
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Ulcer
10.A Case of NSAID Induced Small Bowel Ulcer Bleeding Diagnosed by Capsule Endoscopy.
Yong Sik KIM ; Hoon Jai CHUN ; Yoon Tae JEEN ; Rok Son CHOUNG ; Hong Sik LEE ; Soon Ho UM ; Sang Woo LEE ; Jai Hyun CHOI ; Chang Duck KIM ; Ho Sang RYU ; Jin Hai HYUN
Korean Journal of Gastrointestinal Endoscopy 2003;27(6):545-548
The small intestine has always been a problematic segments for endoscopic exploration in patients with obscure gastrointestinal bleeding. Recent emergence of capsule endoscopy has entailed a relevant diagnostic imaging advance for gastrointestinal conditions. Capsule endoscope can be used to detect small bowel bleeding. Some studies report that capsule endoscopy has the high diagnostic yield and is superior to enteroscopy and other diagnostic methods. We report here the first case of small bowel bleeding detected by using capsule endoscope in Korea, in a woman with hematochezia and a history of aspirin ingestion.
Aspirin
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Capsule Endoscopes
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Capsule Endoscopy*
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Diagnostic Imaging
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Eating
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Female
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Gastrointestinal Hemorrhage
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Hemorrhage*
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Humans
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Intestine, Small
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Korea
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Ulcer*