Academic literature on the topic 'CT scanogram'

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Journal articles on the topic "CT scanogram"

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Suh, C. H., H. S. Kang, J. W. Jung, and K. M. Yeon. "A study of long bone measurement by CT scanogram: comparison with spot scanogram." Journal of the Korean Radiological Society 23, no. 1 (1987): 105. http://dx.doi.org/10.3348/jkrs.1987.23.1.105.

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Chung, K. B., B. Y. Ahn, J. K. Park, N. J. Lee, and W. H. Suh. "Length determination of long bone by CT scanogram." Journal of the Korean Radiological Society 22, no. 2 (1986): 254. http://dx.doi.org/10.3348/jkrs.1986.22.2.254.

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Fujikawa, Hiroyuki, Tadayuki Kubota, Masumi Numano, Yasuhisa Saitoh, and Takashi Ogino. "Acuracy of radiotherapy treatment planning using CT-scanogram." Japanese Journal of Radiological Technology 51, no. 3 (1995): 269. http://dx.doi.org/10.6009/jjrt.kj00001353487.

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Kitoh, Yoshihiro, Takashi Andoh, Noriaki Yokoi, and Hitoshi Ueda. "Study of CT exposure factor based on scanogram." Japanese Journal of Radiological Technology 52, no. 10 (1996): 1333. http://dx.doi.org/10.6009/jjrt.kj00001353794.

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Salekzamani, Yaghoub, Nargess Abolghassemi Fakhree, Afshin Ebrahimi, Hamed Heravi, and Neda Dolatkhah. "Motorized Leg Length Discrepancy Measure: A New Device for Clinical Use – A Cross-sectional Study." Crescent Journal of Medical and Biological Sciences 9, no. 3 (2022): 161–67. http://dx.doi.org/10.34172/cjmb.2022.27.

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Objectives: This study aimed to construct a device that could measure leg length discrepancy (LLD) automatically. Materials and Methods: The LLD measure device measures LLD with pelvic-tilt method (Program 1) and weight-based method (Programs 2 & 3). Tests were done in 3 phases. 1: Two examiners using the LLD Measure device made -50 to 75 mm artificial LLD in two healthy subjects measuring the degree of pelvic tilt and the load bearing of lower limbs. 2: Sixteen healthy volunteers were asked to stand on the device to measure LLD with program 2 and then with both knees extended to measure LLD with program one. 3: 32 patients who had underwent lower limbs CT scanogram enrolled, and the LLD measurement with program 1 compared with those obtained by CT scanogram. Results: Data’s obtained in the first phase showed excellent repeatability (intra-class correlation coefficient [ICC] > 0.9) and very good reproducibility (ICC > 80%) except for measuring the limb load while both knees were extended (ICC ≈ 60%). In the second phase, we found no statistically significant difference between measuring LLD using programs 1 and 2 (P = 0.49). In the third phase, there was no statistically significant difference between measuring LLD using program 1 and CT scanogram (P = 0.80). Conclusions: We have developed a device to measure LLD semiautomatic with less need for examiner expertise. The results of our new device would be reliable and accurate compared to CT measurements.
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Nansih, Livia Ade, Oktavia Puspita Sari, Chairunnisa Chairunnisa, et al. "Increasing Radiographers' Knowledge Through Socialization of Research Results Pocket Book in The Radiology Unit of Reksodiwiryo Hospital in Padang." MSJ : Majority Science Journal 2, no. 3 (2024): 193–200. http://dx.doi.org/10.61942/msj.v2i3.234.

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Radiology is a medical science that focuses on imaging technology. with results in the form of images /images for. to establish a diagnosis by looking at parts of the human body using X-rays so as to be able to provide professional examination services. The results of research that have been conducted at Aulia Hospital regarding the selection of CT scanogram settings for head scans with clinical chepalgia using the upper limit of the vertex and the lower limit of the mandibular because the location of the abnormality in the patient is not known whether in the nerve or sinus, if the scanogram is made to the lower limit of the petrous pars it still cuts the cerebrum so that the sinuses are still cut. whereas in the Radiology installation of Reksodiwiryo Padang Hospital uses a scanogram of the lower limit of the cranii base and the upper limit of the vertex to minimize the radiation received by the patient. Based on this, socialization activities through a pocket book of research results were carried out at Reksodiwiryo Padang Hospital on August 10, 2023 starting at 08.00 - 12.00 WIB, with participants being radiographers in the Radiology installation of Reksodiwiryo Padang Hospital. The methods used were lecture, discussion and question and answer. With communication that is two way traffic, there is a direct reciprocal relationship between the speaker and the participants or vice versa. This method applied can focus the attention of participants in training to develop thinking power and skills to express opinions in the form of exchanging information in solving a problem. The results of the socialization of the pocket book of research results on the effectiveness of CT scan management of the head with clinical chepalgia were 98% able to increase radiographers' knowledge in the selection of scanogram settings on CT scans of the head with chepalgia able to produce images that enforce dignosa
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Lee, Francis C. C., Joseph Harold Noar, and Robert David Evans. "Evaluation of the CT scanogram for assessment of craniofacial morphology." Angle Orthodontist 81, no. 1 (2011): 17–25. http://dx.doi.org/10.2319/110809-630.1.

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Perisinakis, K., J. Damilakis, A. Voloudaki, A. Papadakis, and N. Gourtsoyiannis. "Patient Dose Reduction in CT Examinations by Optimising Scanogram Acquisition." Radiation Protection Dosimetry 93, no. 2 (2001): 173–78. http://dx.doi.org/10.1093/oxfordjournals.rpd.a006426.

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Anggraeni, Leny. "ANALISIS PROSEDUR PEMERIKSAAN CT SCAN SINUS PARANASAL MENGGUNAKAN KONTRAS MEDIA DENGAN KLINIS TUMOR CAVUM NASI." Jurnal Teras Kesehatan 6, no. 1 (2023): 8–15. http://dx.doi.org/10.38215/jtkes.v6i1.107.

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 Background : sinus paranasal adalah rongga yang terdapat pada tulang-tulang wajah yang terdiri dari sinus frontal, sinus etmoid, sinus maksila dan sinus sphenoid. Pemeriksaan Ct scan sinus paranasal dengan pemberian kontras media digunakan untuk mendeteksi berbagai kelainan pada tulang-tulang wajah secara rinci dan bentuk-bentuk jaringan lunak, dimana diketahui irisan axial merupakan standar pemeriksaan paling baik yang digunakan dalam bidang inferior orbito meatal line (IOML).
 Penelitian ini bertujuan untuk menganalisis prosedur pemeriksaan CT Scan Sinus paranasal dengan klinis tumor cavum nasi di Instalasi Radiologi RSUD. Dr.H.Abdul Moeloek Bandar Lampung.
 
 Methods : Jenis penelitian adalah kualitatif dengan pendekatan studi kasus, Pengumpulan data dilakukan di Instalasi Radiologi RSUD Dr.H.Abdul Moeloek Bandar Lampung dengan metode observasi spesialis dan dokumentasi, wawancara radiographer dan radiolog.
 Pengolahan data dilakukan secara deskriptif terkait observasi, wawancara dan dokumentasi sehingga dapat ditarik kesimpulan dan saran.
 
 Result : Pemeriksaan CT Scan sinus paranasal dengan klinis tumor cavum nasi dilakukan dengan persiapan pasien dengan pemeriksaan laboratorium untuk menilai fungsi ginjal (ureum creatinin), pemeriksaan dilakukan menggunakan protokol pemeriksaan rutin, pengambilan gambar scanogram dengan penambahan penyuntikan media kontras pada potongan axial dan coronal.
 
 Conclusions : Pemeriksaan CT Scan Sinus paranasal dengan klinis tumor cavum nasi di Instalasi Radilogi RSUD Dr.Hi.Abdul Moeloek Bandar Lampung dilakukan dengan pemeriksaan laboratorium persiapan pasien, pengambilan gambar secara scanogram pada potongan axial dan coronal.
 
 Kata kunci: Sinus paranasal, CT Scan Sinus paranasal, Parameter Scanning
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Ria Saputri, Shelly Angella, Agus Salim, and Jati Utama. "Literatur Review Teknik Pemeriksaan CT-Scan Kepala Klinis Cephalgia." JRI (Jurnal Radiografer Indonesia) 6, no. 2 (2023): 93–97. http://dx.doi.org/10.55451/jri.v6i2.222.

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Background: Cephalgia is pain around the head area. One of the diagnostic supporting modalities that can help establish the diagnosis of cephalgia is to perform a CT-scan. This study aims to determine the examination technique, the use of parameters and to determine the role of the use of contrast in CT-scan examination of the head with clinical cephalgia.
 Methods: This research is a type of literature review research using descriptive qualitative research methods. This study uses 5 research journals that have been analyzed according to the research objectives.
 Results: All journals reviewed have 3 journals that provide complete information regarding examination techniques including patient preparation, tool preparation, patient position and object position. The use of parameters in all major journals used includes scanogram, slice thickness, scan area, kV, mAs, FOV and window. There are 4 journals that provide information about the role of using contrast for CT-scan examination of the clinical head of cephalgia.
 Conclusions: The cephalgia clinical head CT-scan technique includes preparing the patient by removing metal objects in the head area. The scan parameters used are the lateral cranium scanogram, slice thickness of 5 mm, scan area from maxillary sinus to vertex, kV 120, mAs 250, FOV 250 mm , and window brains. The use of contrast media is done when abnormalities are suspected, for example tumors, aneurysms and disorders due to infection such as meningitis or encephalitis because with contrast the location of the abnormality can be seen.
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Book chapters on the topic "CT scanogram"

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"Prehospital and Emergency Department Care, Including Prophylactic Antibiotics." In Standards for the Management of Open Fractures, edited by Simon Eccles, Bob Handley, Umraz Khan, Iain McFadyen, Jagdeep Nanchahal, and Selvadurai Nayagam. Oxford University Press, 2020. http://dx.doi.org/10.1093/med/9780198849360.003.0001.

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An open long bone fracture is a serious injury not only because of the associated significant soft tissue damage but because the exposed bone is contaminated and the risk of infection increased greatly. Antibiotics should be administered intravenously as soon as possible and ideally within 1 hour of injury. Patients with open fractures should be treated in centres that can offer the full spectrum of orthoplastic services including soft tissue and bone reconstruction. Such teams are found in major trauma centres and in some specialist orthoplastic centres. Clinical assessment should include vascularity and neurological status of the of the injured limb. The wound should not be irrigated prehospital or in the emergency room. The open wound should be photographed and dressed with saline-soaked gauze covered with an occlusive film. Imaging for isolated fractures should include orthogonal radiographs and patients with multilevel injuries or polytrauma should undergo head to toe CT scanogram. All patients should be considered for venous thromboembolism prophylaxis.
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Conference papers on the topic "CT scanogram"

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Yu Zou, Alexander A. Zamyatin, Beshan S. Chiang, and Michael D. Silver. "Reduction of the streak artifacts in circular cone beam CT using scanograms." In 2007 IEEE Nuclear Science Symposium Conference Record. IEEE, 2007. http://dx.doi.org/10.1109/nssmic.2007.4436890.

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