![]() What two other statues were to be placed nearby?.In what part of London was the statue of Florence Nightingale situated?.What does the code tell you about what this file might be about?.Can you spot the code ‘WORK’ on this document?.This file is from the government Ministry of Works which has information about the planning, building and up keep of royal buildings and parks, public buildings and deals with the protection and care of ancient monuments and statues. Use the sources in this lesson to explore why Florence Nightingale is considered a significant figure and the founder of modern nursing.įront cover of a file about a statue for Florence Nightingale, Catalogue ref: WORK 20/67 Florence Nightingale realised that if the doctors were going to let her nurses to work then they had to do a very good job. When she arrived at the hospital, army doctors there did not want the nurses helping. Often more men died from these diseases than from their injuries. ![]() These conditions meant that they often caught other diseases like typhus, cholera and dysentery. The army base hospital at Scutari in Constantinople was unclean, poorly supplied with bandages and soap and the patients did not have proper food or medicine.įlorence Nightingale found that wounded and dying men were sleeping in overcrowded, dirty rooms often without blankets. Britain was at war with Russia in a conflict called the Crimean War (1854-1856). 9 (April 2022).On the 4 November 1854, Florence Nightingale arrived in Turkey with a group of 38 nurses from England. “Phase and group velocities for shear wave propagation in an incompressible, hyperelastic material with uniaxial stretch.” Physics in Medicine and Biology 67, no. Rouze, Ned C., Annette Caenen, and Kathryn R.“Perspective on ultrasound bioeffects and possible implications for continuous post-dive monitoring safety.” Diving and Hyperbaric Medicine 52, no. “Parametric Analysis of SV Mode Shear Waves in Transversely Isotropic Materials Using Ultrasonic Rotational 3-D SWEI.” Ieee Trans Ultrason Ferroelectr Freq Control 69, no. “Quantifying the Impact of Imaging Through Body Walls on Shear Wave Elasticity Measurements.” Ultrasound in Medicine & Biology 49, no. Zhang, Bofeng, Nick Bottenus, Felix Q.“Repeatability of Rotational 3-D Shear Wave Elasticity Imaging Measurements in Skeletal Muscle.” Ultrasound Med Biol 49, no. Bringing Scholarship to the Classroom (| Duke Today).Duke Adds 21 Faculty to Distinguished Faculty Rank (May 7, 2019).Nightingale, Wilson Elected Fellows of the National Academy of Inventors (Dec 6….BME 542: Principles of Ultrasound Imaging (GE, IM).BME 494: Projects in Biomedical Engineering (GE).BME 493-1: Projects in Biomedical Engineering (GE).BME 354L: Introduction to Medical Instrumentation.Other areas of interest include prostate imaging, abdominal imaging, image-guided therapies, and the bioeffects of ultrasound. Ultrasonic and elasticity imaging, specifically nonlinear propagation, acoustic streaming and radiation force the intentional generation of these phenomena for the purpose of tissue characterization finite element modeling of normal and diseased tissue when exposed to ultrasound, and performing both phantom and clinical experiments investigating these phenomena. Office Location: 277 Hudson Hall Annex, Durham, NC 27708.Professor in the Department of Biomedical Engineering.Theo Pilkington Distinguished Professor of Biomedical Engineering.We are also studying the risks and benefits of increasing acoustic output energy for specific clinical imaging scenarios, with the goal of improving ultrasonic image quality in the difficult-to-image patient. The ARFI imaging technologies we have developed have served as the basis for commercial imaging technologies that are now being used in clinics throughout the world. We employ FEM modeling methods to simulate the behavior of tissues during mechanical excitation, and we have integrated these tools with ultrasonic imaging modeling tools to simulate the ARFI imaging process. We maintain strong collaborations with the Duke University Medical Center where we work to translate our technologies to clinical practice. We do this through theoretical, experimental, and simulation methods. The main focus of our recent work is the development of novel, acoustic radiation force impulse (ARFI)-based elasticity imaging methods to generate images of the mechanical properties of tissue, involving interdisciplinary research in ultrasonics and tissue biomechanics. We have access to the engineering interfaces of several commercial ultrasound systems which allows us to design, rapidly prototype, and experimentally demonstrate custom sequences to explore novel beamforming and imaging concepts. The goals of our laboratory are to investigate and improve ultrasonic imaging methods for clinically-relevant problems.
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