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Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 29 січня 2023

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1

Comi, Antonio, Berta Buttarazzi, Massimiliano M. Schiraldi, Rosy Innarella, Martina Varisco, and Luca Rosati. "DynaLOAD: a simulation framework for planning, managing and controlling urban delivery bays." Transportation Research Procedia 22 (2017): 335–44. http://dx.doi.org/10.1016/j.trpro.2017.03.049.

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2

Birch, Michael R., Christopher M. Boroni, Frances W. Goosey, Samuel D. Patton, David K. Poole, Craig M. Pratt, and Rockford J. Ross. "DYNALAB." ACM SIGCSE Bulletin 27, no. 1 (March 15, 1995): 29–33. http://dx.doi.org/10.1145/199691.199706.

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3

Lafontaine, Adam T., Bruce J. Mayer, and Kazuya Machida. "Dynalogo: an interactive sequence logo with dynamic thresholding of matched quantitative proteomic data." Bioinformatics 36, no. 5 (October 14, 2019): 1632–33. http://dx.doi.org/10.1093/bioinformatics/btz766.

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Анотація:
Abstract Summary Current web-based sequence logo analyses for studying domain–peptide interactions are often conducted only on high affinity binders due to conservative data thresholding. We have developed Dynalogo, a combination of threshold varying tool and sequence logo generator written in the R statistical programming language, which allows on-the-fly visualization of binding specificity over a wide range of affinity interactions. Hence researchers can easily explore their dataset without the constraint of an arbitrary threshold. After importing quantitative data files, there are various data filtering and visualizing features available. Using a threshold control, users can easily track the dynamic change of enrichment and depletion of amino acid characters in the sequence logo panel. The built-in export function allows downloading filtered data and graphical outputs for further analyses. Dynalogo is optimized for analysis of modular domain–peptide binding experiments but the platform offers a broader application including quantitative proteomics. Availability and implementation Dynalogo application, user manual and sample data files are available at https://dynalogo.cam.uchc.edu. The source code is available at https://github.com/lafontaine-uchc/dynalogo. Supplementary information Supplementary data are available at Bioinformatics online.
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4

Boroni, Christopher M., Torlief J. Eneboe, Frances W. Goosey, Jason A. Ross, and Rockford J. Ross. "Dancing with DynaLab." ACM SIGCSE Bulletin 28, no. 1 (March 1996): 135–39. http://dx.doi.org/10.1145/236462.236526.

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5

Park, Danielle Morello, Fábio Lourenço Romano, Ary dos Santos-Pinto, Lídia Parsekian Martins, and Darcy Flávio Nouer. "Análise da qualidade de adesão de diferentes bases de braquetes metálicos." Revista Dental Press de Ortodontia e Ortopedia Facial 10, no. 1 (February 2005): 88–93. http://dx.doi.org/10.1590/s1415-54192005000100010.

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Анотація:
Diante das diferenças existentes nas características das bases dos braquetes usados atualmente, objetivou-se neste trabalho comparar entre si três tipos de bases de braquetes metálicos (Monobloc, Equilibrium e Dynalock). Foram utilizados 36 pré-molares humanos, divididos em 3 grupos de 12 dentes. Os dentes foram incluídos em troquéis com gesso pedra tipo IV e posicionados com suas faces vestibulares perpendiculares à base do troquel. Todos os braquetes foram colados com o compósito Concise Ortodôntico e submetidos ao ensaio de cisalhamento em uma Máquina Universal com uma velocidade de 0,5 mm por minuto. O braquete Monobloc obteve o maior valor médio de resistência adesiva (x = 28,19 Kgf/cm²), sendo superior estatisticamente aos braquetes Equilibrium (x = 18,07 Kgf/cm²) e Dynalock (x = 18,24 Kgf/cm²). Em relação ao ARI (Índice de Remanescente Resinoso), não foi encontrada diferença estatística entre os braquetes testados.
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6

Braga, Cristine Pritsch, Guilherme Drumond Vanzin, Ernani Menezes Marchioro, and João Carlos P. Beck. "Avaliação do coeficiente de atrito de braquetes metálicos e estéticos com fios de aço inoxidável e beta-titânio." Revista Dental Press de Ortodontia e Ortopedia Facial 9, no. 6 (December 2004): 70–83. http://dx.doi.org/10.1590/s1415-54192004000600011.

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Анотація:
Um fator importante que define a eficácia dos aparelhos ortodônticos fixos é o atrito existente entre as superfícies de fios e braquetes. Assim, este estudo teve como objetivo investigar o coeficiente de atrito estático entre fios de aço inoxidável e beta-titânio (TP Orthodontics) e braquetes de aço inoxidável (Dynalock® - Unitek), braquetes estéticos com slot de aço inoxidável (Clarity® - Unitek) e estéticos convencionais (Allure® - GAC). Para tanto, construiu-se um equipamento no Departamento de Engenharia Mecânica e Mecatrônica da PUCRS. Antes de serem iniciados os testes, foi quantificado o erro de método e constatou-se que não houve interferência significante (p>0,05) do fator operador nas medições. Então, pôde-se calcular o valor do coeficiente de atrito, obtido pela divisão da força de atrito pela carga normal. O método estatístico utilizado neste estudo foi Análise de Variância (ANOVA) e teste de Comparações Múltiplas (Tukey). Constatou-se que: 1) a combinação com menor coeficiente de atrito foi composta pelo fio de aço inoxidável e braquete Dynalock® e a que apresentou maior coeficiente foi a do braquete Allure® com o fio de beta-titânio; 2) o fio de beta-titânio apresentou coeficiente de atrito significativamente maior do que o fio de aço inoxidável; 3) o braquete Dynalock® não apresentou diferenças significativas em relação ao coeficiente de atrito do braquete Clarity® quando o fio utilizado foi de beta-titânio. No entanto, quando o fio testado foi de aço inoxidável, apresentou coeficiente de atrito significativamente menor. O braquete Clarity® apresentou coeficiente de atrito significativamente menor do que o braquete Allure®.
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7

Vogt, Ferdinand, Janez Zibert, Alenka Bahovec, Francesco Pollari, Joachim Sirch, Matthias Fittkau, Thomas Bertsch, et al. "Improved creatinine-based early detection of acute kidney injury after cardiac surgery." Interactive CardioVascular and Thoracic Surgery 33, no. 1 (May 10, 2021): 19–26. http://dx.doi.org/10.1093/icvts/ivab034.

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Abstract OBJECTIVES This study aims to improve early detection of cardiac surgery-associated acute kidney injury (CSA-AKI) compared to classical clinical scores. METHODS Data from 7633 patients who underwent cardiac surgery between 2008 and 2018 in our institution were analysed. CSA-AKI was defined according to the Kidney Disease Improving Global Outcomes (KDIGO) criteria. Cleveland Clinical Score served as the reference with an area under the curve (AUC) 0.65 in our cohort. Based on that, stepwise logistic regression modelling was performed on the training data set including creatinine (Cr), estimated glomerular filtration rate (eGFR) levels and deltas (ΔCr, ΔeGFR) at different time points and clinical parameters as preoperative haemoglobin, intraoperative packed red blood cells (units) and cardiopulmonary bypass time (min) to predict CSA-AKI in the early postoperative course. The AUC was determined on the validation data set for each model respectively. RESULTS Incidence of CSA-AKI in the early postoperative course was 22.4% (n = 1712). The 30-day mortality was 12.5% in the CSA-AKI group (n = 214) and in the no-CSA-AKI group 0.9% (n = 53) (P < 0.001). Logistic regression models based on Cr and its delta gained an AUC of 0.69; ‘Model eGFRCKD-EPI’ an AUC of 0.73. Finally, ‘Model DynaLab’ including dynamic laboratory parameters and clinical parameters as haemoglobin, packed red blood cells and cardiopulmonary bypass time improved AUC to 0.84. CONCLUSIONS Model DynaLab’ improves early detection of CSA-AKI within 12 h after surgery. This simple Cr-based framework poses a fundament for further endeavours towards reduction of CSA-AKI incidence and severity.
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8

Atwal, P., and R. Ramaseshan. "SU-F-T-463: Light-Field Based Dynalog Verification." Medical Physics 43, no. 6Part20 (June 2016): 3569. http://dx.doi.org/10.1118/1.4956648.

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9

Aydogan, B., B. Smith, and J. Li. "SU-GG-T-191: DynaLog File Analysis for IMRT Delivery Verification." Medical Physics 37, no. 6Part18 (June 2010): 3228–29. http://dx.doi.org/10.1118/1.3468580.

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10

Kang, Dong-Jin, Jae-Yong Jung, Young-Joo Shin, Jung-Whan Min, Yon-Lae Kim, and Hyung-jin Yang. "Quality Assurance of Volumetric Modulated Arc Therapy Using the Dynalog Files." Journal of Radiological Science and Technology 39, no. 4 (December 31, 2016): 577–85. http://dx.doi.org/10.17946/jrst.2016.39.4.13.

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11

Peterka, T., R. L. Kooima, D. J. Sandin, A. Johnson, J. Leigh, and T. A. DeFanti. "Advances in the Dynallax Solid-State Dynamic Parallax Barrier Autostereoscopic Visualization Display System." IEEE Transactions on Visualization and Computer Graphics 14, no. 3 (May 2008): 487–99. http://dx.doi.org/10.1109/tvcg.2007.70627.

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12

Rangaraj, D., D. Yang, S. Goddu, S. Oddiraju, S. Yaddanapudi, and J. Monroe. "SU-FF-T-236: Dynalog Based Quality Assurance for Rapid Arc Therapy." Medical Physics 36, no. 6Part12 (June 2009): 2575. http://dx.doi.org/10.1118/1.3181712.

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13

Pacheco, Mariana Ribeiro, Dauro Douglas Oliveira, Perrin Smith Neto, and Wellington Correa Jansen. "Avaliação do atrito em braquetes autoligáveis submetidos à mecânica de deslizamento: um estudo in vitro." Dental Press Journal of Orthodontics 16, no. 1 (February 2011): 107–15. http://dx.doi.org/10.1590/s2176-94512011000100016.

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Анотація:
INTRODUÇÃO: o atrito gerado na interface braquete/fio durante a mecânica de deslizamento pode reduzir a eficiência da movimentação ortodôntica. O método de ligação do fio ao braquete exerce importante papel na determinação desse atrito. MÉTODOS: o presente estudo comparou a força de atrito gerada por quatro tipos de braquetes autoligáveis (Time®; Damon 2®; In-Ovation R® e Smart Clip®) com um grupo de braquetes ortodônticos convencionais (Dynalock®) associados a ligaduras elásticas tradicionais (Dispens-A-Stix®), que serviu como grupo controle. A força de atrito estático foi mensurada através da máquina universal de ensaios EMIC® DL 500 com dois fios de aço inoxidável com secção transversal 0,018" e 0,017" x 0,025". RESULTADOS: a análise de variância ANOVA e o teste de Tukey mostraram baixos níveis de atrito nos quatro braquetes autoligáveis associados ao fio 0,018" (P<0,05). Entretanto, os resultados observados quando os braquetes autoligáveis foram testados com fios 0,017" x 0,025" mostraram alta resistência ao deslizamento nos grupos de braquetes autoligáveis ativos.
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14

Infusino, E., V. Didonna, A. Mameli, and M. Bettiol. "134. DynaLog file-based Procedure for a daily monitoring of IMRT dose delivery." Physica Medica 56 (December 2018): 147. http://dx.doi.org/10.1016/j.ejmp.2018.04.145.

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15

Farhat, L., T. Sahnoun, B. Daoud, and J. Daoud. "Analyse des fichiers dynalog-Varian pour le contrôle de qualité des radiothérapies dynamiques." Cancer/Radiothérapie 21, no. 6-7 (October 2017): 719–20. http://dx.doi.org/10.1016/j.canrad.2017.08.093.

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16

Olasolo Alonso, J., M. Gracia Ochoa, S. Pellejero Pellejero, M. L. Martín Albina, N. Fuentemilla Urío, N. Gallardo Rodriguez, F. Mañeru Cámara, L. Bragado Álvarez, and S. Lozares Cordero. "EP-1571: Evaluation of MLC leaf positioning errors in dynamic IMRT plans using dynalogs files." Radiotherapy and Oncology 115 (April 2015): S860. http://dx.doi.org/10.1016/s0167-8140(15)41563-4.

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17

Rutonjski, Laza, Zoran Kuzmanovic, Milutin Baucal, Borislava Petrovic, and Milan Teodorovic. "The quality assurance of Varian enhanced dynamic wedges using Daily QA Check 2." Archive of Oncology 16, no. 1-2 (2008): 7–9. http://dx.doi.org/10.2298/aoo0802007r.

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Background: Clinical implementation of enhanced dynamic wedges (EDW) requires, as any other dynamic treatment, very serious quality assurance (QA) program. In this work, we presented the results of six-month evaluation of Varian enhanced dynamic wedges and detailed QA program for those wedges. Methods: The Sun Nuclear Daily QA Check 2 was used for QA purpose. The QA program included daily and monthly checks. The daily QA program included central axis dose and wedge angle measurements. Within the monthly QA program wedge factors and delivered STTs from the Dynalog files were checked. Results: Our daily QA measurements of dose and wedge angle showed the reproducibility error less than ?1.5%. On the other hand, monthly QA measurements of wedge factor the reproducibility error was less than ?0.5%. The monthly QA check of delivered STTs showed excellent agreement. Conclusion: During the six-month quality control we observed a good reproducibility in the delivery of EDW treatment. Also, the Sun Nuclear Daily QA Check 2 showed to be very satisfying in QA of the EDW treatment.
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18

Luo, W., F. Yin, Q. Wu, and J. Fan. "SU-FF-T-223: A New IMRT/RapidArc QA Procedure Utilizing MLC Dynalog Files." Medical Physics 36, no. 6Part12 (June 2009): 2572. http://dx.doi.org/10.1118/1.3181699.

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19

Calvo‐Ortega, Juan F., Tony Teke, Sandra Moragues, Miquel Pozo, and Joan Casals. "A Varian DynaLog file‐based procedure for patient dose‐volume histogram‐based IMRT QA." Journal of Applied Clinical Medical Physics 15, no. 2 (March 2014): 100–109. http://dx.doi.org/10.1120/jacmp.v15i2.4665.

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20

Rice, R., J. Wang, and L. Marcus. "SU-FF-T-126: Clinical Experience Using Dynalog Files for Verification of IMRT Delivery." Medical Physics 33, no. 6Part8 (June 2006): 2078. http://dx.doi.org/10.1118/1.2241051.

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21

Dias, Susana, Alessandro Esposito, Sofia Silva, Luis T. Cunha, Anabela Gregório Dias, Diana Pimparel, Joana Lencart, and João A. M. Santos. "Configuration of the PRIMO software to simulate intensity modulated radiation therapy through dynalog file." Physica Medica 32 (September 2016): 316. http://dx.doi.org/10.1016/j.ejmp.2016.07.193.

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22

Stumpf, Aisha de Souza Gomes, Karina dos Santos Mundstock, Daniel Mundstock, and Carlos Alberto Mundstock. "In vitro force delivery of nickel-titanium superelastic archwires in vertical displacement." Dental Press Journal of Orthodontics 17, no. 6 (December 2012): 26–30. http://dx.doi.org/10.1590/s2176-94512012000600011.

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Анотація:
OBJECTIVE: The purpose of this study was to evaluate the force delivered by different superlastic nickel-titanium wires during vertical displacement, in order to determine whether their stress release meets the criteria for constant and light forces that are usually accredited to these archwires. METHOD: Ten samples of 6 brands of 0.016-in archwires (Ormco, GAC, Morelli, TP, American Orthodontics e Rocky Mountain) were tested in a complete metal model using Dynalock brackets (3M Unitek™). In the canine position, there was a sliding bracket connected to a pole. This set was related to a load cell of 0.5 kg attached to a universal testing machine (Autograph AG-199kNG, Shimadzu). The crosshead speed was 0.5 mm/min and the maximum displacement was 1.0 mm. The model was submerged in temperature-controlled water. The results were analyzed by ANOVA (p < 0.05), using the software SAS System 8.02, Cry, NC, USA. RESULTS: The TP archwire had the lowest force throughout the test, although the final force was high (277.91 g). The Rocky Mountain archwire had the highest force release (455.41 g). CONCLUSION: The different brands of wires tested in this study failed in delivering low and constant forces as expected from superlastic nickel-titanium wires. The forces were extremely heavy for a vertical tooth movement.
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23

Lee Defoor, Dewayne, Panayiotis Mavroidis, L. Vazquez Quino, Alonso Gutierrez, Niko Papanikolaou, and Sotiri Stathakis. "On the evaluation of patient specific IMRT QA using EPID, dynalog files and patient anatomy." International Journal of Cancer Therapy and Oncology 2, no. 2 (April 8, 2014): 020219. http://dx.doi.org/10.14319/ijcto.0202.19.

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24

Agnew, C. E., R. B. King, A. R. Hounsell, and C. K. McGarry. "Implementation of phantom-less IMRT delivery verification using Varian DynaLog files and R/V output." Physics in Medicine and Biology 57, no. 21 (October 3, 2012): 6761–77. http://dx.doi.org/10.1088/0031-9155/57/21/6761.

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25

Defoor, D., P. Mavroidis, A. Gutierrez, N. Papanikolaou, and S. Stathakis. "On the Evaluation of Patient-Specific IMRT QA Using EPID, Dynalog Files, and Patient Anatomy." International Journal of Radiation Oncology*Biology*Physics 90, no. 1 (September 2014): S885. http://dx.doi.org/10.1016/j.ijrobp.2014.05.2524.

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26

Ahmed, S., S. Ahmed, F. Ahmed, and A. Hussain. "SU-F-T-266: Dynalogs Based Evaluation of Different Dose Rate IMRT Using DVH and Gamma Index." Medical Physics 43, no. 6Part16 (June 2016): 3523–24. http://dx.doi.org/10.1118/1.4956475.

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27

Pimparel, D., J. Lencart, and J. A. M. Santos. "Practical use of dynalogs analysis in seven linacs in IMRT and VMAT techniques over than 20 months." Physica Medica 32 (September 2016): 294. http://dx.doi.org/10.1016/j.ejmp.2016.07.126.

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28

Yousuf, A., and A. Hussain. "SU-E-T-100: Designing a QA Tool for Enhance Dynamic Wedges Based On Dynalog Files." Medical Physics 41, no. 6Part12 (May 29, 2014): 245. http://dx.doi.org/10.1118/1.4888430.

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29

Luo, W., C. Ma, F. Yin, and J. Fan. "SU-FF-T-148: Developing a Convenient and Effective IMRT QA Procedure Using MLC Dynalog Files." Medical Physics 34, no. 6Part9 (June 2007): 2435. http://dx.doi.org/10.1118/1.2760807.

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30

Frehn, Anica, Soroush Azarian, Gesa Quistorf, Stephan Adloff, Fritz Santjer, and Antonello Monti. "First comparison of the electrical properties of two grid emulators for UVRT test against field measurement." Forschung im Ingenieurwesen 85, no. 2 (April 1, 2021): 373–84. http://dx.doi.org/10.1007/s10010-021-00476-9.

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Анотація:
AbstractThe technical rules for connecting turbines to the medium, high or extra-high voltage grid in Germany require the certification of the UVRT characteristics of wind turbines. The state-of-art voltage divider-based test equipment, also named UVRT-Container, is well equipped for executing UVRT tests in field. To conduct the UVRT in field the full wind turbine should be already installed. A second option to perform UVRT tests are system level test benches. They enable the testing of the nacelle. The components that are not actually present, such as the turbine tower or the blades, are emulated via a mechanical hardware in the loop (HiL) system. In this work, for the first time, the performance of two different grid simulators installed at the DyNaLab at Fraunhofer IWES and at the CWD at RWTH Aachen University is compared with a field measurement of the same type of wind turbine. Thus, not only a system test bench measurement is compared to a field measurement. Rather, two system test benches with individual technical approaches are additionally compared with each other. The focus of this work is to investigate the characteristics of the grid simulators within the steady-state range of the UVRT tests to replicate identical fault shapes on the test benches and in the field.
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31

Schreibmann, E., A. Dhabaan, E. Elder, and T. Fox. "SU-FF-T-218: Volumetric Patient-Specific Quality Assurance for VMAT Treatment Delivery Using the Dynalog Files." Medical Physics 36, no. 6Part12 (June 2009): 2570–71. http://dx.doi.org/10.1118/1.3181693.

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32

Goncalves, V., CP Lopes, RK Sakuraba, and JC Cruz. "SU-FF-T-298: MLC Quality Control Evaluation Combining Dynalog Files and Portal Dosimetry Using Proprietary Software." Medical Physics 36, no. 6Part13 (June 2009): 2589–90. http://dx.doi.org/10.1118/1.3181775.

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33

Olasolo, J., S. Pellejero, M. Gracia, N. Gallardo, M. Martin, S. Lozares, F. Maneru, L. Bragado, S. Miquelez, and A. Rubio. "SU-E-P-36: Evaluation of MLC Positioning Errors in Dynamic IMRT Treatments by Analyzing Dynalog Files." Medical Physics 42, no. 6Part5 (June 2015): 3234. http://dx.doi.org/10.1118/1.4923970.

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34

Defoor, D., S. Stathakis, P. Mavroidis, and N. Papanikolaou. "SU-E-T-576: Evaluation of Patient Specific VMAT QA Using Dynalog Files and Treatment Planning System." Medical Physics 41, no. 6Part20 (May 29, 2014): 360. http://dx.doi.org/10.1118/1.4888911.

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35

Saito, Masahide, Noriyuki Kadoya, Kiyokazu Sato, Kengo Ito, Suguru Dobashi, Ken Takeda, Hiroshi Onishi, and Keiichi Jingu. "Comparison of DVH‐based plan verification methods for VMAT: ArcCHECK‐3DVH system and dynalog‐based dose reconstruction." Journal of Applied Clinical Medical Physics 18, no. 4 (June 26, 2017): 206–14. http://dx.doi.org/10.1002/acm2.12123.

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Emam, I., J. Fan, Q. Xu, L. Jin, and C. Ma. "MO-EE-A1-01: A QA Procedure for MLC Leaf Position and Dynalog File Accuracy Using the EPID." Medical Physics 36, no. 6Part21 (June 2009): 2700–2701. http://dx.doi.org/10.1118/1.3182247.

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Calvo Ortega, J., J. Casals Farran, T. Teke, M. Pozo Massó, S. Moragues Femenía, and E. Puertas Calvo. "EP-1318: Accuracy of the MLC during delivery of intensity modulated radiosurgery plans: a Dynalog file-based study." Radiotherapy and Oncology 106 (March 2013): S497. http://dx.doi.org/10.1016/s0167-8140(15)33624-0.

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Agnew, C. E., A. R. Hounsell, and C. K. McGarry. "PD-0331 EFFICIENT IMRT QUALITY CONTROL USING VARIAN DYNAMIC LOG-FILE (DYNALOG) ANALYSIS IN A BUSY RADIOTHERAPY DEPARTMENT." Radiotherapy and Oncology 103 (May 2012): S132. http://dx.doi.org/10.1016/s0167-8140(12)70670-9.

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Tateoka, K., K. Fujimoto, and M. Hareyama. "EP-1384: The new method of the VMAT QA using Varian DynaLog Files and Modulation Complexity Score (MCS)." Radiotherapy and Oncology 115 (April 2015): S747. http://dx.doi.org/10.1016/s0167-8140(15)41376-3.

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Defoor, D., L. Vazquez Quino, S. Stathakis, P. Mavroidis, and N. Papanikolaou. "SU-E-T-252: On the Evaluation of Patient Specific IMRT QA Using EPID, Dynalog Files and Patient Anatomy." Medical Physics 41, no. 6Part15 (May 29, 2014): 281. http://dx.doi.org/10.1118/1.4888583.

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Sun, B., S. Boddu, S. Goddu, D. Yang, D. Rangaraj, and S. Mutic. "WE-C-BRB-08: Independent Dose Calculation Followed by Dynalog File Analysis as an Alternative for Measurement Based IMRT QA." Medical Physics 38, no. 6Part32 (June 2011): 3805–6. http://dx.doi.org/10.1118/1.3613327.

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Moister, R. E. "A comparison of enamel detachments after debonding between Unitek's “Dynalok” bracket and a foil-mash bracket: A scanning electron microscope study." American Journal of Orthodontics 88, no. 3 (September 1985): 266. http://dx.doi.org/10.1016/s0002-9416(85)90223-4.

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LC, Borris, Thorninger R, and Brink O. "Premature discontinuation of a randomized comparison between a new implant Dynaloc® and cancellous screws for femoral neck fractures: An ethical dilemma." Journal of Traumatology and Clinical Orthopaedics 2, no. 1 (October 1, 2020): 1–6. http://dx.doi.org/10.14312/2399-8180.2020-1.

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Morcos, M., and E. Mitrou. "SU-E-T-479: IMRT Plan Recalculation in Patient Based On Dynalog Data and the Effect of a Single Failing MLC Motor." Medical Physics 42, no. 6Part19 (June 2015): 3444–45. http://dx.doi.org/10.1118/1.4924841.

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Tateoka, K., K. Fujimomo, Y. Saitou, T. Nakazawa, T. Abe, A. Nakata, M. Yano, and M. Hareyama. "SU-E-T-325: The New Evaluation Method of the VMAT Plan Delivery Using Varian DynaLog Files and Modulation Complexity Score (MCS)." Medical Physics 41, no. 6Part16 (May 29, 2014): 299. http://dx.doi.org/10.1118/1.4888658.

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Qiu, Y., S. Kim, P. Mavroidis, N. Papanikolaou, and S. Stathakis. "SU-E-T-201: Dosimetric Comparison of Patient Specific IMRT QA Using Varian DynaLog Files and TPS Calculations in a Phantom Geometry." Medical Physics 40, no. 6Part13 (June 2013): 250. http://dx.doi.org/10.1118/1.4814636.

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Santiago, Juan AgustinCalama, Miguel Angel Infante Utrilla, and Maria ElisaLavado Rodriguez. "A method to improve fluence resolution derived from two-dimensional detector array measurements for patient-specific IMRT verification using the information collected in dynalog files." Journal of Medical Physics 40, no. 1 (2015): 5. http://dx.doi.org/10.4103/0971-6203.152231.

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Gelosa, S., F. Parisoli, P. Lattuada, M. Frigerio, C. Berlusconi, and A. Ostinelli. "Impact of the MLC delivery errors on patient dose for IMRT treatments: A comparison between planned DVH and reconstructed DVH based on MLC log file (DynaLog)." Physica Medica 32 (February 2016): 26. http://dx.doi.org/10.1016/j.ejmp.2016.01.092.

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Kumar, Avinash, and Nadeem Husain. "Frictional Resistance between Orthodontic Brackets and Archwire: An in vitro Study." Journal of Contemporary Dental Practice 12, no. 2 (2011): 91–99. http://dx.doi.org/10.5005/jp-journals-10024-1015.

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Анотація:
ABSTRACT Aim The purpose of this investigation was to determine the kinetic frictional resistance offered by stainless steel and Titanium bracket used in combination with rectangular stainless steel wire during in vitro translatory displacement of brackets. Materials and methods In this study. Brackets: (All brackets used had a torque of – 7° and an angulation of 0°): (1) Dynalock (Unitek) 0.018” slot, 3.3 mm bracket width, (2) Mini Uni-Twin (Unitek) 0.018” slot, 1.6 mm bracket width, (3) Ultra-Minitrim (Dentaurum) 0.022” slot 3.3 mm bracket width, (4) Titanium (Dentaurum) 0.022” slot, 3.3 mm bracket width. WIRES: (1) 0.016 × 0.022” stainless steel (Dentaurum), (2) 0.017 × 0.025’'stainless steel (Unitek), (3) 0.018 × 0.025” stainless steel (Dentaurum), elastomeric modules (Ortho Organisers), 0. 009” stainless steel ligature wires, hooks made of 0.021 × 0.025” stainless steel wires, super glue to bond the hooks to the base of the bracket, acetone to condition the bracket and wires before testing and artificial saliva. Brackets were moved along the wire by means of an Instron universal testing machine (1101) and forces were measured by a load cell. All values were recorded in Newtons and then converted into gms (1N-102 gm). 200 gm was then subtracted from these values to find out the frictional force for each archwire/bracket combination. For each archwire/ bracket combination three readings were taken under wet and dry condition and also with stainless steel ligature and elastomeric modules separately. Results The results showed that narrow brackets generated more friction than wider brackets. Frictional force was directly proportional to wire dimension. Titanium brackets generated more friction than stainless steel brackets. Archwire and bracket ligated with elastomeric module generated more friction than when ligated with stainless steel ligature wire. Frictional forces in the wet condition were greater than in the dry condition for all archwire to bracket combinations. Conclusion Frictional force was seen to be inversely proportional to bracket width, frictional force was inversely proportional to bracket width, and in the wet condition were greater than in the dry condition for all archwire to bracket combinations. Clinical significance This study of friction is its role in lessening the force actually received by a tooth from an active component such as a spring, loop or elastic. Hence greater applied force is needed to move a tooth with a bracket archwire combination demonstrating high magnitudes of friction compared with one with a low frictional value. How to cite this article Husain N, Kumar A. Frictional Resistance between Orthodontic Brackets and Archwire: An in vitro Study. J Contemp Dent Pract 2011;12(2):91-99.
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"DynaLOC Breast Interventional Planning Software." Biomedical Safety & Standards 45, no. 9 (May 2015): 67. http://dx.doi.org/10.1097/01.bmsas.0000465277.23709.a5.

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