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Journal articles on the topic 'Radiology'

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Published: 4 June 2021
Last updated: 30 July 2024

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1

Sousa, Francisco Alencar de, Vivaldo Medeiros Santos, Amanda Juliane da Silva Branco, Carmen Regina de Souza Franco, Luciana Takahashi Carvalho Ribeiro, Rogério Santos da Silva Nogueira, João Rafael Ferraz, et al. "Radiologia e ciência cognitiva: os avanços tecnológicos e a neurociência." Revista Remecs - Revista Multidisciplinar de Estudos Científicos em Saúde 3, no. 5 (December 30, 2018): 43. http://dx.doi.org/10.24281/reremecs2526-2874.2018.3.5.43-53.

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O presente artigo é uma tentativa de reflexão sobre a relevância da radiologia no processo de transformação nos estudos das ciências cognitivas, a partir da segunda metade do século XIX. Desta forma, procurou-se explorar os procedimentos produzidos pela tecnologia de mapeamento do cérebro, como sendo fator fundamental no entendimento de como são as funções cerebrais e como o cérebro aprende. Para esta reflexão, o objetivo é trazer os processos de desenvolvimento técnico e teórico de equipamentos da radiologia que foram capazes de contribuir para os estudos das ciências cognitivas. Partiu-se da hipótese de que só a partir do desenvolvimento da área de radiologia que foi possível o avanço nos estudos das funções do cérebro. Espera-se que tais reflexões abram caminhos para novas pesquisas que pretendem explicar aptidões mentais como a linguagem, a memória e análises mais profundas, para descrever como os processos neuropsicológicos produzem o estado cognitivo.Descritores: Radiologia, Ciência Cognitiva, Tecnologia, Cérebro. Radiology and Cognitive Science: technological Advances and neuroscienceAbstract: The present article is an attempt to reflect on the relevance of radiology in the process of transformation in the studies of cognitive sciences, from the second half of the XIX century. In this way, we tried to explore the procedures produced by brain mapping technology, as a fundamental factor in understanding how brain functions are and how the brain learns. For this reflection, the objective is to bring the processes of technical and theoretical development of radiology equipment that were able to contribute to the studies of the cognitive sciences. It was hypothesized that only from the development of the radiology area that it was possible to advance in the studies of brain functions. It is hoped that such reflections will open the way to new research that seeks to explain mental abilities such as language, memory and deeper analysis to describe how neuropsychological processes produce cognitive status.Descriptors: Radiology, Cognitive Science, Technology, Brain. Radiología y ciencia cognitiva: avances tecnológicos y neurocienciaResumen: El presente artículo es un intento de reflexión sobre la relevancia de la radiología en el proceso de transformación en los estudios de las ciencias cognitivas, a partir de la segunda mitad del siglo XIX. De esta forma, se buscó explorar los procedimientos producidos por la tecnología de mapeo del cerebro, como siendo factor fundamental en el entendimiento de cómo son las funciones cerebrales y cómo el cerebro aprende. Para esta reflexión, el objetivo es traer los procesos de desarrollo técnico y teórico de equipos de radiología que fueron capaces de contribuir a los estudios de las ciencias cognitivas. Se partió de la hipótesis de que sólo a partir del desarrollo del área de radiología que fue posible el avance en los estudios de las funciones del cerebro. Se espera que tales reflexiones abran caminos para nuevas investigaciones que pretenden explicar aptitudes mentales como el lenguaje, la memoria y análisis más profundos, para describir cómo los procesos neuropsicológicos producen el estado cognitivo.Descriptores: Radiología, Ciencia Cognitiva, Tecnología, Cerebro.
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2

Sousa, Francisco Alencar de, Vivaldo Medeiros Santos, Amanda Juliane da Silva Branco, Carmen Regina de Souza Franco, Luciana Takahashi Carvalho Ribeiro, Rogério Santos da Silva Nogueira, João Rafael Ferraz, et al. "Radiologia e ciência cognitiva: os avanços tecnológicos e a neurociência." Revista Remecs - Revista Multidisciplinar de Estudos Científicos em Saúde 3, no. 5 (April 30, 2019): 43. http://dx.doi.org/10.24281/revremecs2526-2874.2018.3.5.43-53.

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O presente artigo é uma tentativa de reflexão sobre a relevância da radiologia no processo de transformação nos estudos das ciências cognitivas, a partir da segunda metade do século XIX. Desta forma, procurou-se explorar os procedimentos produzidos pela tecnologia de mapeamento do cérebro, como sendo fator fundamental no entendimento de como são as funções cerebrais e como o cérebro aprende. Para esta reflexão, o objetivo é trazer os processos de desenvolvimento técnico e teórico de equipamentos da radiologia que foram capazes de contribuir para os estudos das ciências cognitivas. Partiu-se da hipótese de que só a partir do desenvolvimento da área de radiologia que foi possível o avanço nos estudos das funções do cérebro. Espera-se que tais reflexões abram caminhos para novas pesquisas que pretendem explicar aptidões mentais como a linguagem, a memória e análises mais profundas, para descrever como os processos neuropsicológicos produzem o estado cognitivo.Descritores: Radiologia, Ciência Cognitiva, Tecnologia, Cérebro. Radiology and Cognitive Science: technological Advances and neuroscienceAbstract: The present article is an attempt to reflect on the relevance of radiology in the process of transformation in the studies of cognitive sciences, from the second half of the XIX century. In this way, we tried to explore the procedures produced by brain mapping technology, as a fundamental factor in understanding how brain functions are and how the brain learns. For this reflection, the objective is to bring the processes of technical and theoretical development of radiology equipment that were able to contribute to the studies of the cognitive sciences. It was hypothesized that only from the development of the radiology area that it was possible to advance in the studies of brain functions. It is hoped that such reflections will open the way to new research that seeks to explain mental abilities such as language, memory and deeper analysis to describe how neuropsychological processes produce cognitive status.Descriptors: Radiology, Cognitive Science, Technology, Brain. Radiología y ciencia cognitiva: avances tecnológicos y neurocienciaResumen: El presente artículo es un intento de reflexión sobre la relevancia de la radiología en el proceso de transformación en los estudios de las ciencias cognitivas, a partir de la segunda mitad del siglo XIX. De esta forma, se buscó explorar los procedimientos producidos por la tecnología de mapeo del cerebro, como siendo factor fundamental en el entendimiento de cómo son las funciones cerebrales y cómo el cerebro aprende. Para esta reflexión, el objetivo es traer los procesos de desarrollo técnico y teórico de equipos de radiología que fueron capaces de contribuir a los estudios de las ciencias cognitivas. Se partió de la hipótesis de que sólo a partir del desarrollo del área de radiología que fue posible el avance en los estudios de las funciones del cerebro. Se espera que tales reflexiones abran caminos para nuevas investigaciones que pretenden explicar aptitudes mentales como el lenguaje, la memoria y análisis más profundos, para describir cómo los procesos neuropsicológicos producen el estado cognitivo.Descriptores: Radiología, Ciencia Cognitiva, Tecnología, Cerebro.
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3

Sousa, Franciso Alencar de, Vivaldo Medeiros Santos, Amanda Juliane da Silva Branco, Carmen Regina de Souza Franco, Luciana Takahashi Carvalho Ribeiro, Rogério Santos da Silva Nogueira, João Rafael Ferraz, et al. "Radiologia e ciência cognitiva: os avanços tecnológicos e a neurociência." Revista Remecs - Revista Multidisciplinar de Estudos Científicos em Saúde 3, no. 5 (December 30, 2018): 43. http://dx.doi.org/10.24281/rremecs2526-2874.2018.3.5.43-53.

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O presente artigo é uma tentativa de reflexão sobre a relevância da radiologia no processo de transformação nos estudos das ciências cognitivas, a partir da segunda metade do século XIX. Desta forma, procurou-se explorar os procedimentos produzidos pela tecnologia de mapeamento do cérebro, como sendo fator fundamental no entendimento de como são as funções cerebrais e como o cérebro aprende. Para esta reflexão, o objetivo é trazer os processos de desenvolvimento técnico e teórico de equipamentos da radiologia que foram capazes de contribuir para os estudos das ciências cognitivas. Partiu-se da hipótese de que só a partir do desenvolvimento da área de radiologia que foi possível o avanço nos estudos das funções do cérebro. Espera-se que tais reflexões abram caminhos para novas pesquisas que pretendem explicar aptidões mentais como a linguagem, a memória e análises mais profundas, para descrever como os processos neuropsicológicos produzem o estado cognitivo.Descritores: Radiologia, Ciência Cognitiva, Tecnologia, Cérebro. Radiology and Cognitive Science: technological Advances and neuroscienceAbstract: The present article is an attempt to reflect on the relevance of radiology in the process of transformation in the studies of cognitive sciences, from the second half of the XIX century. In this way, we tried to explore the procedures produced by brain mapping technology, as a fundamental factor in understanding how brain functions are and how the brain learns. For this reflection, the objective is to bring the processes of technical and theoretical development of radiology equipment that were able to contribute to the studies of the cognitive sciences. It was hypothesized that only from the development of the radiology area that it was possible to advance in the studies of brain functions. It is hoped that such reflections will open the way to new research that seeks to explain mental abilities such as language, memory and deeper analysis to describe how neuropsychological processes produce cognitive status.Descriptors: Radiology, Cognitive Science, Technology, Brain. Radiología y ciencia cognitiva: avances tecnológicos y neurocienciaResumen: El presente artículo es un intento de reflexión sobre la relevancia de la radiología en el proceso de transformación en los estudios de las ciencias cognitivas, a partir de la segunda mitad del siglo XIX. De esta forma, se buscó explorar los procedimientos producidos por la tecnología de mapeo del cerebro, como siendo factor fundamental en el entendimiento de cómo son las funciones cerebrales y cómo el cerebro aprende. Para esta reflexión, el objetivo es traer los procesos de desarrollo técnico y teórico de equipos de radiología que fueron capaces de contribuir a los estudios de las ciencias cognitivas. Se partió de la hipótesis de que sólo a partir del desarrollo del área de radiología que fue posible el avance en los estudios de las funciones del cerebro. Se espera que tales reflexiones abran caminos para nuevas investigaciones que pretenden explicar aptitudes mentales como el lenguaje, la memoria y análisis más profundos, para describir cómo los procesos neuropsicológicos producen el estado cognitivo.Descriptores: Radiología, Ciencia Cognitiva, Tecnología, Cerebro.
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4

Rodrigues, Paulo. "Radiologia Pulmonar[Pulmonary radiology]." Radiology 161, no. 3 (December 1986): 684. http://dx.doi.org/10.1148/radiology.161.3.684.

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5

Glass, Ronald B. J. "Interventionelle Radiologie[Interventional radiology]." Radiology 170, no. 3 (March 1989): 998. http://dx.doi.org/10.1148/radiology.170.3.998.

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6

Silva, Wendell da Luz, Richard Siqueira Dias, Clayton Sidney de Almeida Vergara, and Leanderson Luiz de Sá. "O papel da Virdentopsy® no avanço das ciências radiológicas legais." Revista Remecs - Revista Multidisciplinar de Estudos Cientí­ficos em Saúde 8, no. 14 (November 1, 2023): 108–19. http://dx.doi.org/10.24281/rremecs2023.8.14.108-119.

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A virdentopsy® é uma técnica inovadora de autópsia virtual que utiliza imagens radiográficas, fotos 2D/3D e gravação de vídeo para analisar restos humanos. A técnica foi desenvolvida em 2020, durante a pandemia de COVID-19, para permitir o correto processamento de restos humanos e obter um perfil genético dos restos humanos não identificados. A virdentopsy® é uma ferramenta valiosa para as autoridades policiais e forenses, pois pode ajudar a identificar vítimas, obter informações sobre a causa da morte e investigar crimes. A revisão bibliográfica foi realizada na base de dados PubMed®, utilizando os descritores: radiologia odontológica forense. Para refinar a busca dos artigos encontrados, também foi utilizada a relação entre a radiologia odontológica e as ciências radiológicas legais. No Brasil, a virdentopsy® tem um potencial significativo para contribuir com a resolução de questões científicas modernas e jurídico-administrativas enfrentadas pelas Ciências Radiológicas Legais. Descritores: Radiologia Odontológica, Radiologia Legal, Autópsia Virtual. Virdentopsy®’s role in advancing legal radiological sciences Abstract: Virdentopsy® is an innovative virtual autopsy technique that uses radiographic images, 2D/3D photos, and video recordings to analyze human remains. The technique was developed in 2020 during the COVID-19 pandemic to allow the correct processing of human remains and to obtain a genetic profile of unidentified human remains. Virdentopsy® is a valuable tool for law enforcement and forensic authorities, as it can help to identify victims, obtain information about the cause of death, and investigate crimes. A literature review was conducted in the PubMed® database using the descriptors: forensic dental radiology. To refine the search for the articles found, the relationship between dental radiology and legal radiological sciences was also used. In Brazil, virdentopsy® has the potential to significantly contribute to the resolution of modern scientific and legal-administrative issues faced by Legal Radiological Sciences. Descriptors: Forensic Dental Radiology, Legal Radiology, Virtual Autopsy. El papel de Virdentopsy® en el avance de las ciencias radiológicas legales Resumen: Virdentopsy® es una innovadora técnica de autopsia virtual que utiliza imágenes radiográficas, fotografías 2D/3D y grabaciones de vídeo para analizar restos humanos. La técnica fue desarrollada en 2020, durante la pandemia de COVID-19, para permitir el correcto procesamiento de restos humanos y obtener un perfil genético de restos humanos no identificados. Virdentopsy® es una herramienta valiosa para las autoridades policiales y forenses, ya que puede ayudar a identificar a las víctimas, obtener información sobre la causa de la muerte e investigar delitos. La revisión de la literatura se realizó en la base de datos PubMed®, utilizando los descriptores: radiología dental forense. Para afinar la búsqueda de los artículos encontrados también se utilizó la relación entre la radiología dental y las ciencias radiológicas jurídicas. En Brasil, virdentopsy® tiene un potencial significativo para contribuir a la resolución de los problemas científicos y jurídico-administrativos modernos que enfrentan las Ciencias Radiológicas Jurídicas. Descriptores: Radiología Dental, Radiología Forense, Autopsia Virtual.
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Hanson, Joshua Anspach, Regina Ason, Jeffrey Weinreb, Alison Van Dyke, and Kisha Anne Mitchell. "Radiology Estimates of Viable Tumor Percentage in Hepatocellular Carcinoma Ablation Cavities Correlate Poorly With Pathology Assessment." Archives of Pathology & Laboratory Medicine 137, no. 3 (March 1, 2013): 392–99. http://dx.doi.org/10.5858/arpa.2012-0126-oa.

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Context.—No study has evaluated radiology/pathology correlation of percentage viable tumor (PVT) estimates in ablated hepatocellular carcinoma (HCC) to examine the reliability of radiologic estimates. Objective.—To determine how well interdisciplinary PVT estimates correlate and identify pathologic factors that influence this correlation. Design.—Pathologists and radiologists established blinded PVT estimates in 22 HCC ablation cavities. Paired sample t tests examined the differences between the interdisciplinary estimates. Results.—Fifteen cavities had pathologic viable tumor (VT) (68%) and 6 had radiographic VT (22%). Radiology's sensitivity for detecting VT was 40% and the specificity was 100%. Pathology detected significantly more VT than radiology (pathology mean = 22.3% versus radiology mean = 2.6%; P = .005). Five cavities had tumor growth in a discontinuous rim pattern, 7 in a nodular pattern, and 3 in a solid pattern. Radiology did not detect VT in cavities with a discontinuous rim pattern (sensitivity = 0%) but did detect VT in 3 cavities with a nodular pattern (sensitivity = 43%), and in all cavities with a solid pattern (sensitivity = 100%). There was no significant difference in PVT estimates in cavities 3.5 cm or larger (P = .07), but there was a significant difference in cavities smaller than 3.5 cm (P = .01). Conclusion.—This study clarifies that the risk of underestimation by imaging is greatest in small lesions (<3.5 cm), though the sensitivity of detection depends primarily on the tumor growth pattern within the cavity. This underestimation raises the question of whether basing treatment decisions on a radiologic impression of complete ablation is valid.
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8

Marasco, JA, and OW Linton. "Marketing radiology and radiologic services." American Journal of Roentgenology 152, no. 1 (January 1989): 191–94. http://dx.doi.org/10.2214/ajr.152.1.191.

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9

Jahiroh, NFN, Nunung Hendrawati, and Maya Marinda Montain. "Profil Hematologi dan Pemantauan Dosis Petugas Radiologi di Rumah Sakit Penyakit Infeksi (RSPI) Prof. Dr. Sulianti Saroso Tahun 2014-2015." Indonesian Journal of Infectious Diseases 3, no. 2 (November 6, 2017): 29. http://dx.doi.org/10.32667/ijid.v3i2.34.

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AbstrakLatar belakang : Petugas radiologi mempunyai risiko untuk terpapar radiasi. Pemantauan kesehatan dan dosis para petugas radiologi wajib dilakukan untuk mengidentifikasi adanya gejala awal atau tanda kerusakan awal akibat paparan radiasi dan untuk menjamin keselamatan dan kesehatan petugas radiologi. Penelitian ini bertujuan untuk meningkatkan kewaspadaan terhadap risiko paparan radiasi pada petugas radiologi berdasarkan hasil pemeriksaan hematologi dan pemantauan dosis.Metode : Kajian ini menggunakan desain deskriptif dengan metode potong lintang. Subyek yang digunakan dalam kajian ini terdiri dari ahli radiologi, radiografer dan petugas administrasi yang bekerja di Instalasi Radiologi, RSPI Prof. Dr. Sulianti Saroso periode 2014-2015. Data yang digunakan yaitu data sekunder dari hasil pemeriksaan kesehatan berkala tahun 2014-2015, berupa data karakteristik demografi dan pemeriksaan laboratorium. Hasil pengukuran dosis radiasi dari laboratorium pemantauan dosis perorangan - Balai Pengamanan Fasilitas Kesehatan dan Pusat Teknologi Keselamatan dan Metrologi Radiasi - Badan Tenaga Nuklir Nasional (BATAN).Hasil : Jumlah petugas radiologi laki-laki sama dengan jumlah petugas perempuan, sebanyak 58,4% petugas berusia 31-40 tahun, 75% petugas berpendidikan DIII radiologi, 33,3% petugas dengan lama kerja 11-15 tahun. Hasil pemeriksaan kadar Ht, leukosit, dan LED menunjukkan semua petugas masih dalam batas normal. Petugas yang mempunyai kadar Hb rendah meningkat menjadi 33,3% pada tahun 2015 dari tahun 2014 (25%). Petugas yang mengalami anemia normositik meningkat dari 16,5% (2014) menjadi 25% (2015). Sebanyak 16,6% petugas mempunyai kadar serum besi yang rendah, sebanyak 25% petugas mempunyai jumlah retikulosit yang rendah. Hasil pemantauan dosis radiasi pada tahun 2014 dan 2015 menunjukkan semua petugas radiologi masih dibawah Nilai Batas Dosis.Kesimpulan : Secara keseluruhan hasil pemeriksaan hematologi dan pemantauan dosis petugas radiologi masih dalam batas normal. AbstractBackground : The officer radiology at risk for exposure to radiation. Health monitoring and dose the radiology staff must be conducted to identify the presence of early symptoms or signs of early damage due to exposure to radiation and to ensure the safety and health of radiology staff. This study aims to increase awareness of the risks of radiation exposure in radiology staff based on the results of hematology and dose monitoring.Methods : The study used a descriptive design with cross sectional method. The subjects used in this study consists of radiologists, radiographers and administrators who work in Radiology, Prof. RSPI Dr. Sulianti Saroso period 2014-2015. The data used is secondary data from periodic health examination results year 2014-2015, in the form of data on demographic characteristics and laboratory tests. The results of the laboratory measurement of radiation dose monitoring individual dose - Safety Center HealthFacilities and Technology Center Safety and Radiation Metrology - National Nuclear Energy Agency (BATAN).Results : The number of male officers radiology equal to the number of women officers, as many as 58.4% of 31-40-year-old clerk, 75% of the officers educated DIII radiology, 33.3% of the officers working with 11-15 years old. Examination results hematocrit levels, leukocytes, and LEDs indicate all the officers are still within normal limits. Officers who have low Hb level increased to 33.3% in 2015 from 2014 (25%). Officers who are anemic normositik increased from 16.5% (2014) to 25% (2015). A total of 16.6% of the officers had serum iron levels are low, as many as 25% of the officers had a low reticulocyte count. Radiation dose monitoring results in 2014 and 2015 shows all radiology staff is still below the dose limit value.Conclusion : Overall results of the monitoring of hematology and radiology staff doses are within normal limits.
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10

Lanier, L., and J. V. Kaude. "Radiologic Anatomy — A Credit Course for First-Year Medical Students." Acta Radiologica 34, no. 4 (July 1993): 414–16. http://dx.doi.org/10.1177/028418519303400423.

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Diagnostic radiology should assume a more prominent role in medical student education. We have developed a 4-year plan for radiologic education at the University of Florida. The initial step in this plan is a required credit course in radiologic anatomy given in the first semester. Designed to introduce students to various imaging modalities while teaching anatomic recognition, the course combines a lecture series with systematized self-study film packets and self-test packets. These are reinforced by a videotape series and other written materials. Examinations are in practical format utilizing radiographs on viewbox stations. The course provides a foundation for subsequent coursework in diagnostic radiology, including radiologic pathology and clinical radiology. These courses stress how to workup patients and how to use the radiologist as a consultant in patient care. The response to the radiologic anatomy course has been highly favorable.
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11

Bankier, Alexander A. "Interventionelle Radiologie (Interventional Radiology). 2nd ed." Radiology 203, no. 1 (April 1997): 70. http://dx.doi.org/10.1148/radiology.203.1.70.

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12

Chew, Cindy, Paul Cannon, and Patrick J. O'Dwyer. "Radiology for medical students (1925–2018): an overview." BJR|Open 2, no. 1 (November 2020): 20190050. http://dx.doi.org/10.1259/bjro.20190050.

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Objective: Radiology has been espoused as an excellent tool for educating medical students since 1925. Advances in technology and PACS mean it has never been easier to demonstrate living anatomy and clinical pathology in exquisite detail to students. The aim of this study was to provide an overview of radiologic publications related to teaching medical students and its evolution through time. Methods A literature search was performed from inception to November 2018. The search strategies used both text words and relevant indexing related to “radiology”, “medical students” and “curriculum”. Results: 3589 records were identified of which 377 were included. There was a 100 fold increase in rate of publication over time—most were expository or surveys (60%), with few truly experimental articles. Radiology was used in clinical teaching (67%) and anatomy (33%). Almost half of radiologic anatomy teaching was conducted without the input of a Radiologist. Compulsory clinical clerkships/blocks in radiology was offered infrequently (35%). Female first authorship had increased in the last decade (47%). Conclusion: There is a significant increase in articles published on the role of radiology in medical student teaching in the last decade. Research in this area is required in order to investigate the role of radiology in improving the modern medical students’ education.
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Miguel, Alberto, and Luis Martí-Bonmatí. "Self-citation: comparison between Radiología, European Radiology and Radiology for 1997–1998." European Radiology 12, no. 1 (May 8, 2001): 248–52. http://dx.doi.org/10.1007/s003300100894.

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14

Diyanti, Afridiyanti, Leon Candra, and Ahmad Satria Efendi. "ANALISIS KINERJA PETUGAS DIINSTALASI RADIOLOGI RUMAH SAKIT LANCANG KUNING PEKANBARU." Media Kesmas (Public Health Media) 1, no. 2 (December 12, 2021): 474–83. http://dx.doi.org/10.25311/kesmas.vol1.iss2.23.

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Sumber daya manusia yang ada di Instalasi Radiologi Rumah Sakit Lancang kuning Pekanbaru masih belum memadai,pendidikan dan pelatihan yang masih jarang dilakukan serta kurangnya motivasi yang diberikan kepada petugas dan SOP yang belum dilaksanakan secara maksimal. Tujuan dari penelitian ini adalah untuk diketahuinya Analisis Kinerja Petugas DiInstalasi Radiologi Rumah Sakit Lancang Kuning Pekanbaru Tahun 2020. Penelitian ini merupakan penelitian deskriptif dengan pendekatan metode kualitatif. Informan penelitian berjumlah 4 orang yaitu Informan Utama terdiri dari Kepala Ruangan Radiologi dan Petugas Radiologi dan Informan Penunjang yaitu Direktur Rumah Sakit dan Kepala Bidang Pelayanan Medik atau Penunjang Medik. Hasil penelitian diketahui jumlah SDM yang ada masih belum memadai dan perlu adanya penambahan lagi, pendidikan dan pelatihan hanya berupa seminar-seminar saja karna tidak adanya dana dari rumah sakit untuk melaksanakan pelatihan, motivasi yang diberikan atasan hanya berupa arahan saja tidak diberikan bonus, reward atau insentif kepada petugas, SOP di Instalasi Radiologi sudah ada dan sudah berjalan walaupun belum 100% karena masih terdapat kendala pada alatnya. Diharapakan SDM di Instalasi Radiologi ditambah dan diberikan pelatihan dan pendidikan sesuai kebutuhan, serta peningkatan motivasi kepada petugas. The existing human resources in the Radiology Installation of LancangKuning Hospital in Pekanbaru are still inadequate, education and training are still rarely done as well as the lack of motivation given to officers and Standar Operasional Prosedur that have not been carried out to the fullest. The purpose of this research is to know the Performance Analysis of Radiology Installation Officer at LancangKuning Hospital Pekanbaru in 2020. This research is a descriptive study with a qualitative method approach. There were 4 research informants, namely the Main Informant consisting of the Head of the Radiology Room and Radiology Officers and Supporting Informants, namely the Hospital Director and the Head of Medical Services or Medical Support. The results of the study revealed that the number of existing human resources was still inadequate and there was a need for more additions, education and training were only in the form of seminars because there was no funding from the hospital to carry out training, motivation given by superiors was only in the form of directives, not given bonuses, rewards or incentives to officers, Standar operasional prosedur in Radiology Installation already exists and is already running even though it is not yet 100% because there are still problems with the equipment. It is expected that HR in the Radiology Installation will be added and given training and education as needed, as well as increased motivation for officers.
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15

Elsayed Abdallah, Naglaa Mostafa. "Radiology and sustainable development." World Journal of Science, Technology and Sustainable Development 13, no. 2 (April 4, 2016): 89–99. http://dx.doi.org/10.1108/wjstsd-01-2016-0005.

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Purpose – The purpose of this paper is to highlight the relation between radiology and sustainable development with emphasis on the UK and European countries, and to spotlight its possible application in the developing countries. Design/methodology/approach – This is a review paper where data about sustainable development and radiology are collected from selected journals, websites, articles and conferences, e.g. Royal College of Radiology, European Society of Radiology, World Health Organization and other different radiology societies. Findings – Adoption of sustainable diagnostic radiology by many countries in Europe and the UK helps to provide imaging services efficiently and effectively, with simultaneous preservation of the natural resources, patient health and environment much better than before. The developing and underdeveloped countries should follow this knowledge hoping to reach the same goals. Practical implications – Limiting the use of radiologic examinations, guide the clinicians to use clinical skills before rushing to radiology examinations will save money, preserve equipment and protect patients from possible radiation hazards. The use of teleradiology will indirectly reduce global warming, and will deliver medical services to poor countries. Social implications – Improving the health of people of poor countries will improve their socioeconomic level. Originality/value – This paper focuses on the value of applying sustainable development in radiology not only in general medicine.
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Mustert, Bryan. "Hiring Practices in Private Practice Interventional Radiology." Seminars in Interventional Radiology 36, no. 01 (March 2019): 023–25. http://dx.doi.org/10.1055/s-0039-1679944.

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AbstractThe growth of interventional radiology over the last several decades has changed the specialty into a dynamic, clinically based practice, vital to the function of a successful radiologic practice. This growth of the specialty has been paralleled by our own sections growth in a large Midwest private practice radiology group. This article looks at our experience in hiring interventional radiologists, including evaluation of our process, successes, and failures, along with lessons learned.
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Ashkanani, Ali, and Abdullah Alkhayat. "Musculoskeletal Radiology in the Middle East: Training Programs, Current Practice, and Future Directions." Seminars in Musculoskeletal Radiology 22, no. 05 (November 2018): 592–98. http://dx.doi.org/10.1055/s-0038-1672192.

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AbstractThis article outlines the development of radiology training in the Middle East. It discusses the history of radiology in the region and current available pathways to subspecialize in musculoskeletal (MSK) radiology. Owing to the rapidly changing demographics and health indicators in the region, a major shift has occurred in the government's focus in directing more resources to advance the health care system. This in addition to intraregional initiatives, such as the establishment of many radiologic societies, has provided strong incentives toward developing radiology training programs in the region. There are profound differences in the region regarding the development of radiology, with only few countries offering structured radiology training programs and MSK radiology fellowships. To keep up with the explosion of information in imaging technology and hold clinical ground, current and future MSK radiologists must overcome certain challenges and change their approach to stay clinically relevant.
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MacDonald-Jankowski, D. S. "Oral and maxillofacial radiology. Radiologic/Pathologic correlations." Journal of Dentistry 21, no. 5 (October 1993): 319. http://dx.doi.org/10.1016/0300-5712(93)90123-8.

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Sanchez, Ramon, Pek-Lan Khong, and Hans Ringertz. "Radiologic protection in pediatric radiology: ICRP recommendations." Pediatric Radiology 43, no. 8 (May 2, 2013): 920–21. http://dx.doi.org/10.1007/s00247-013-2703-4.

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Angelika, Irene, and Eko Prasetyo. "Evaluasi Radiologi pada Kasus Fraktur Basis Kranii." Jurnal Biomedik:JBM 13, no. 3 (April 10, 2021): 259. http://dx.doi.org/10.35790/jbm.13.3.2021.33050.

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Abstract: Skull base fractures, namely fractures that extend through the base of the anterior, middle, or posterior cranial fossa that occur in about 7% to 16% of non-perforating head injuries, are caused by trauma with relatively high velocity, and are most frequently caused by a high-speed motor vehicle accident. Pedestrian injuries, falls and assault are other related causes. Penetrating trauma, especially gunshot wounds, is much rarer and accounts for less than 10% of cases. This research method is in the form of literature review. The literature was collected using several databases, such as ClinicalKey and Google Scholar with the keywords radiology and base skull fracture, this article was obtained according to keywords and was screened according to inclusion and exclusion criteria. There are 11 journals full text that will be reviewed according to the criteria consisting of one retrospective study, one clinical review, two literature reviews, three review articles, one prospective study, one case report, one descriptive study and one comparative study. This study shows that 11 literature reviews radiological evaluation in the case of cranii basis. In conclusion, radiology is the most important examination required in patients who are suspected of suffering from fracture of the base cranii is a non-contrast head CT scan.. Other radiological examinations that can be used are plain radiographs of the head, and angiography.Key words: Skull base fractures, basis cranii, radiology Abstrak: Fraktur basis cranii, yaitu fraktur yang meluas melalui dasar fossa kranial anterior, tengah, atau posterior yang terjadi pada sekitar 7% hingga 16% dari cedera kepala non-perforans, disebabkan oleh trauma dengan kecepatan yang relatif tinggi, dan paling sering disebabkan oleh kecelakaan kendaraan bermotor berkecepatan tinggi. Cedera pejalan kaki, jatuh, dan penyerangan adalah penyebab terkait lainnya. Trauma tembus, terutama luka tembak jauh lebih jarang dan terhitung kurang dari 10% kasus. Metode penelitian ini dalam bentuk studi pustaka (lirerature review). Literature di kumpulkan menggunakan beberapa database, seperti ClinicalKey dan Google Scholar dengan kata kunci radiology dan base skull fracture, artikel ini didapatkan sesuai dengan kata kunci dan dilakukan skrining sesuai kriteria inklusi dan eksklusi. Terdapat 11 jurnal full text yang akan dilakukan review yang sesuai kriteria terdiri atas satu retrospective study, satu clinical review, dua literature review, tiga review article, satu prospective study, satu case report, satu descriptive study dan satu comparative study. Penelitian ini menunjukkan bahwa 11 literatur mengulas tentang evaluasi radiologi pada kasus basis cranii. Sebagai simpulan, radiologis merupakan pemeriksaan paling utama yang diperlukan pada pasien yang dicurigai menderita fraktur basis cranii adalah pemeriksaan CT-Scan non kontras kepala.. Pemeriksaan radiologi lain yang dapat digunakan adalah pemeriksaan foto polos kepala, dan angiografi.Kata kunci: Patah tulang dasar kepala, basis kranii, radiologi
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21

Alahmari, Abdulwahab. "A standardized educational system for radiology programs worldwide: An opinion." International Journal of Clinical Case Reports and Reviews 8, no. 3 (September 15, 2021): 01. http://dx.doi.org/10.31579/2690-4861/168.

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The educational system in radiology programs worldwide are different. In the American system, they offer a certificate program (Cert) then an associate degree (AAS) −in some colleges then a diploma (Dip) − after that a bachelor’s degree (B.S.). A radiographer a.k.a radiologic technologist can continue to get a post-baccalaureate certificate or a master’s degree (M.S.) and −rarely in America due to the shortage of Ph.D. programs− a doctorate of philosophy in radiology.
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Blickman, Johan G. "Kolon: Klinische Radiologie, Endoskopie[Colon: clinical radiology, endoscopy]." Radiology 189, no. 1 (October 1993): 258. http://dx.doi.org/10.1148/radiology.189.1.258.

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Oestreich, Alan E. "La Radiologia del Mediastino[Radiology of the mediastinum]." Radiology 155, no. 2 (May 1985): 322. http://dx.doi.org/10.1148/radiology.155.2.322.

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Swensen, Stephen J., and C. Daniel Johnson. "Radiologic Quality and Safety: Mapping Value Into Radiology." Journal of the American College of Radiology 2, no. 12 (December 2005): 992–1000. http://dx.doi.org/10.1016/j.jacr.2005.08.003.

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Melbye, H., and K. Dale. "Interobserver Variability in the Radiographic Diagnosis of Adult Outpatient Pneumonia." Acta Radiologica 33, no. 1 (January 1992): 79–81. http://dx.doi.org/10.1177/028418519203300117.

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Acute chest radiographs were obtained from 319 adult patients with acute respiratory infections. Where a lower respiratory infection was diagnosed, follow-up chest radiographs were obtained in most patients. A radiologic panel diagnosed pneumonia in 21 patients. The agreements between the panel and 3 independent interpreters, 2 residents in radiology, and one senior chest physician, were assessed. Also the reports given by the specialist in radiology at the Department of Radiology were compared with the panel's evaluation. While the kappa-agreements between the panel's interpretations and those by the Department of Radiology and the consultant in chest medicine was 0.71 and 0.72, respectively, the corresponding kappa-values between the residents and the panel was only 0.50. The proportion of agreement when pneumonia was diagnosed was 0.56 between the panel and the Department of Radiology, and 0.59 between the panel and the chest consultant, compared to 0.36 between the panel and the residents. The study demonstrates the difficulty of diagnosing outpatient pneumonia and the importance of experience.
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Mau, Jens. "Sharing Economy in der Medizin: „Drive now“ für Radiologen." kma - Klinik Management aktuell 23, no. 12 (December 2018): 56–57. http://dx.doi.org/10.1055/s-0036-1595585.

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Medneo sorgt für Furore auf dem Radiologie-Markt. Unter dem Slogan „Radiology as a Service“ bietet das Start-up alles, was man in der Radiologie braucht – außer die ärztliche Leistung. Im kma Interview erklärt André Glardon, einer der drei Medneo-Gründer, das ungewöhnliche Geschäftsmodell.
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Hope, William W., Kendra Von Der Embse, Gamal Mostafa, Richard D. Redvanly, Michael J. Kelley, Ronald F. Sing, and B. Todd Heniford. "Cardiopulmonary Arrest Occurring in the Radiology Department: Patient Characteristics, Incidence, and Outcomes." American Surgeon 77, no. 3 (March 2011): 273–76. http://dx.doi.org/10.1177/000313481107700312.

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Despite efforts for patient stabilization before radiologic procedures, cardiopulmonary arrests still occur. The purpose of our study was to define the incidence, patient characteristics, and outcomes of patients having cardiopulmonary arrest in a radiology department. We retrospectively reviewed patients sustaining cardiopulmonary arrest in the radiology department from 2002 to 2007. Patient characteristics and outcomes were documented. Descriptive statistics were calculated. Over the 6 years of the study, 1,480,578 radiographic procedures were performed, and 27 patients sustained a cardiopulmonary arrest in the radiology department for an incidence rate of 0.002 per cent. The average patient age was 66 years (range, 35 to 88 years); 12 were male (44%). Radiological procedures were diagnostic in 15 cases and therapeutic in 12 cases. The most common locations for arrest were in the CT area (9 patients) and the vascular procedures area (8 patients). The most common preprocedural patient locations were the hospital wards (11 patients [41%]), the emergency department/trauma bay (5 patients [19%]), the intensive care unit (4 patients [15%]), and an outpatient setting (four patients [15%]). Nineteen patients (70%) survived the initial code, 14 patients (52%) survived 24 hours, and 9 patients (33%) survived until discharge. Survival to discharge was significantly impacted by body mass index ( P = 0.005) and type of radiologic procedure ( P = 0.04) but not by the preprocedure patient location. Cardiopulmonary arrest occurring in the radiology department is a rare but potentially lethal occurrence. Patients undergoing vascular access procedures may be an at-risk group. Further study is needed to evaluate potential risk factors for cardiopulmonary arrest occurring in the radiology department.
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Zigman Suchsland, Monica, Maria Jessica Cruz, Victoria Hardy, Jeffrey Jarvik, Gianna McMillan, Anne Brittain, and Matthew Thompson. "Qualitative study to explore radiologist and radiologic technologist perceptions of outcomes patients experience during imaging in the USA." BMJ Open 10, no. 7 (July 2020): e033961. http://dx.doi.org/10.1136/bmjopen-2019-033961.

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ObjectiveWe aimed to explore the patient-centred outcomes (PCOs) radiologists and radiologic technologists perceive to be important to patients undergoing imaging procedures.DesignWe conducted a qualitative study of individual semi-structured interviews.ParticipantsWe recruited multiple types of radiologists including general, musculoskeletal neuroradiology, body and breast imagers as well as X-ray, ultrasound, CT or MRI radiologic technologists from Washington and Idaho.OutcomeThematic analysis was conducted to identify themes and subthemes related to PCOs of imaging procedures.ResultsTen radiologists and six radiology technologists participated. Four main domains of PCOs were identified: emotions, physical factors, knowledge and patient burden. In addition to these outcomes, we also identified patient and provider factors that can potentially moderate these outcomes.ConclusionsRadiologists and technologists perceived outcomes related to the effect of imaging procedures on patients’ emotions, physical well-being, knowledge and burden from financial and opportunity costs to be important to patients undergoing imaging procedures. There are opportunities for the radiology community to measure and use these PCOs in comparisons of imaging procedures and potentially identify areas where these outcomes can be leveraged to drive a more patient-centred approach to radiology.
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Indrajit, IK. "Radiology websites: Conventional radiology." Indian Journal of Radiology and Imaging 18, no. 04 (October 2008): 355–56. http://dx.doi.org/10.1055/s-0041-1734497.

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Jackson, F. I. "Whither radiology? Wither radiology?" Radiology 174, no. 3 (March 1990): 894. http://dx.doi.org/10.1148/radiology.174.3.2305077.

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Serova, N. S., A. Sokkar, O. Yu Pavlova, and A. Medhat. "RADIOLOGY IN DENTAL IMPLANTATION." Russian Electronic Journal of Radiology 11, no. 1 (2021): 43–62. http://dx.doi.org/10.21569/2222-7415-2021-11-1-43-62.

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The detailed review on dental implantation is presented including preoperative planning, intraoperative control and postoperative follow-up. Since successful outcome depends on the precise preparation for the surgical intervention, the range of radiological methods is described in the review as well as new methods and techniques of dental implantation. Advantages and limitations of different methods are presented with the summary of possible complications and their radiological appearance
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Clouse, M. E. "American martyrs to radiology. Morrison and early radiologic technology." American Journal of Roentgenology 165, no. 3 (September 1995): 693–94. http://dx.doi.org/10.2214/ajr.165.3.7645498.

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Oestreich, Alan E. "Knochentumoren: Klinik-Radiologie-Pathologie[Bone tumors: clinical, radiology, pathology]." Radiology 171, no. 3 (June 1989): 774. http://dx.doi.org/10.1148/radiology.171.3.774.

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Wolowczyk, L., T. Beckitt, RN Baird, M. Subramaniam, FC Smith, and PM Lamont. "Out-of-hours Demand For Vascular Radiology." Bulletin of the Royal College of Surgeons of England 90, no. 3 (March 1, 2008): 100–102. http://dx.doi.org/10.1308/147363508x284630.

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The Vascular Society of Great Britain and Ireland recognises the importance of interventional vascular radiology as part of the multidisciplinary approach to the provision of emergency vascular services. However, arranging emergency rotas for vascular radiolo gy is not easy because of the small numbers of interventional radiologists who may also be required to cover other specialities.
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Article, Editorial. "DIGITAL RADIOLOGY AND TELE-RADIOLOGY." Diagnostic radiology and radiotherapy, no. 1 (April 26, 2018): 175–77. http://dx.doi.org/10.22328/2079-5343-2018-9-1-175-177.

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36

Ibrahim, Roszita, Azana Hafizah Mohd Aman, Amrizal Muhd Nur, and Syed Mohamed Aljund. "Cost Centric Data Mining for Radiology Procedures at Teaching Hospital in Malaysia." January 2020 39, no. 1 (January 1, 2020): 1–8. http://dx.doi.org/10.22581/muet1982.2001.01.

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This study explored radiology procedure cost across available units in the Radiology’s Department UKMMC (University Kebangsaan Malaysia Medical Centre). In 2011, the total number of radiology procedures carried out in this department was 121,221. Nevertheless, the estimating expenses of offering these procedures are not known. An economic evaluation study was employed and cost centric data mining based on costing activity method was used to determine the charge of the procedure in every centre. Information on seven cost parameters was collected for each procedure: human resources, consumables, equipment, reagents, administration, maintenance and utilities. The results of the study show that the highest percentage of cost parameter for the human resource was Radiology (Mobile) 57.5%, the highest percentage of cost parameter for consumables and reagent was EIR (Endovascular International Radiology) Unit 75.8% and Medical Nuclear Unit 68.1% was the highest percentage of cost parameter for reagent. The MRI (Magnetic Resonance Imaging) Unit 81.4% was the highest cost parameter for equipment. The most top mean cost procedures were EIR MYR4330 and it was revealed that procedures with the highest difference ratio were procedures in EIR (18.50). Finding of this study is very useful to UKMMC management since it helps to enhance the efficiency of services and reduce unnecessary radiology procedures in patient’s management.
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Kaufman, John A. "The Interventional Radiology/Diagnostic Radiology Certificate and Interventional Radiology Residency." Radiology 273, no. 2 (November 2014): 318–21. http://dx.doi.org/10.1148/radiol.14141263.

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Lemos, Clarkson Henrique Santos, Idna de Carvalho Barros Taumaturgo, and Romário dos Santos Pereira. "A importância da proteção radiologia na radiologia intervencionista em procedimentos de fluoroscopia/ The importance of radiology protection in interventional radiology in fluoroscopy procedures." Brazilian Journal of Development 7, no. 7 (July 13, 2021): 70870–83. http://dx.doi.org/10.34117/bjdv7n7-317.

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Earwaker, John W. S., William S. C. Hare, and David A. Lisle. "Radiology." Medical Journal of Australia 174, no. 1 (January 2001): 14–15. http://dx.doi.org/10.5694/j.1326-5377.2001.tb143135.x.

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Adler, Brendan D., and Richard M. Mendelson. "Radiology." Medical Journal of Australia 176, no. 1 (January 2002): 38. http://dx.doi.org/10.5694/j.1326-5377.2002.tb04271.x.

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&NA;. "RADIOLOGY." Southern Medical Journal 79, Supplement (September 1986): 57–61. http://dx.doi.org/10.1097/00007611-198609092-00018.

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&NA;. "RADIOLOGY." Southern Medical Journal 80, Supplement (September 1987): 67–70. http://dx.doi.org/10.1097/00007611-198709001-00019.

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Bloomfield, J. A. "Radiology." Medical Journal of Australia 150, no. 9 (May 1989): 537. http://dx.doi.org/10.5694/j.1326-5377.1989.tb136662.x.

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Sorby, W. A. "Radiology." Medical Journal of Australia 150, no. 9 (May 1989): 537. http://dx.doi.org/10.5694/j.1326-5377.1989.tb136663.x.

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Fraser, G. M. "Radiology." Current Opinion in Gastroenterology 2, no. 6 (November 1986): 836–41. http://dx.doi.org/10.1097/00001574-198611000-00008.

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Bartram, C. I. "Radiology." Current Opinion in Gastroenterology 3, no. 1 (January 1987): 63–66. http://dx.doi.org/10.1097/00001574-198701000-00012.

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Fraser, G. M. "Radiology." Current Opinion in Gastroenterology 3, no. 6 (November 1987): 962–66. http://dx.doi.org/10.1097/00001574-198711000-00008.

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Simpkins, K. C. "Radiology." Current Opinion in Gastroenterology 4, no. 1 (January 1988): 59–61. http://dx.doi.org/10.1097/00001574-198801000-00013.

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Amberg, J. R. "Radiology." Current Opinion in Gastroenterology 4, no. 6 (November 1988): 998–1002. http://dx.doi.org/10.1097/00001574-198811000-00011.

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Simpkins, K. C. "Radiology." Current Opinion in Gastroenterology 5, no. 1 (February 1989): 50–52. http://dx.doi.org/10.1097/00001574-198902000-00009.

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