Trends of incident opioid users, L-TOT users, and L-TOT discontinuers between 2009 and 2013. by Qian Cai (112039)

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The yearly numerator, denominator and rate of incident opioid users, L-TOT users and L-TOT discontinuers from 2009 to 2019. by Qian Cai (112039)

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Incidence rate ratios of negative binominal regression models for yearly rates of incident opioid users, L-TOT users and L-TOT discontinuers during 2009–2013 and 2015–2019. by Qian Cai (112039)

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Demographic, comorbidity, concurrent drug, and opioid characteristics, among L-TOT users and L-TOT discontinuers between 2009–2019. by Qian Cai (112039)

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Basic characteristics of the studies included. by Renáta Kiss-Miki (20760127)

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PRISMA flowchart of the article selection process. by Renáta Kiss-Miki (20760127)

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List_of_studies_identified_31-JAN-2025. by Renáta Kiss-Miki (20760127)

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Forest plot showing the mean difference of global IQ level among pediatric brain cancer patients treated with either PT or XRT. by Renáta Kiss-Miki (20760127)

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Forest plot showing the ratio of odds of hypothyroidism (=event) among pediatric brain cancer patients treated with either PT or XRT. by Renáta Kiss-Miki (20760127)

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Forest plot showing the ratio of odds of acute side effects: nausea (a) and vomiting (b) (=events) among pediatric patients with brain tumors treated with PT or XRT. by Renáta Kiss-Miki (20760127)

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Forest plot showing the odds of 5-year overall-survival rate among children with brain tumors treated with either PT or XRT. by Renáta Kiss-Miki (20760127)

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Data_table_with_all_identified_articles_31-JAN-2025. by Renáta Kiss-Miki (20760127)

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Data_extraction_table_31-JAN-2025. by Renáta Kiss-Miki (20760127)

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Forest plot showing the ratio of odds of grade 3 anemia (=event) among pediatric patients with brain tumors treated with either PT or XRT. by Renáta Kiss-Miki (20760127)

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Amplitude for A/L = 0.29. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Top view of the experimental setup. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Amplitude for A/L = 0.338. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Parameters of energy harvesting. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Graph for Max Amplitude/Length at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Amplitude for A/L = 0.02. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”