...Biomedical scientist: Job description More in this section Job description Salary and conditions Entry requirements Training Career development Employers and vacancy … Related jobs Print all pages in this section Case studies Biomedical scientist: Ann Thomas Biomedical scientist: Kathryn Owen Biomedical scientist: Roslyn Cooke Biomedical scientists work in healthcare and carry out a range of laboratory tests and techniques on tissue samples and fluids to help clinicians diagnose diseases. They also evaluate the effectiveness of treatments. Their work is extremely important for many hospital departments and the functions they carry out are wide ranging. For example, they may work on medical conditions, such as cancer, diabetes, AIDS, malaria, food poisoning or anaemia, or carry out tests for emergency blood transfusions or to see if someone has had a heart attack. Biomedical scientists can work in three areas: infection sciences; blood sciences; and cellular sciences. Infection sciences include: •medical microbiology - identification of micro-organisms causing disease and their antibiotic treatment; •virology - identification of viruses, associated diseases and monitoring the effectiveness of vaccines. Blood sciences include: •clinical chemistry - analysis of body fluids and toxicology studies; •transfusion science - determination of donor/recipient blood compatibility, ensuring blood banks are sufficient; •haematology - form...
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...telemaintenance framework. In addition, this research will show how the cost effectiveness of such a system, can provide consistent monitoring of elaborate time sensitive data and systems without constraints. Due to recent growth and expansion into the medical equipment industry, the centralization of resources can expedite repair services, and this paper will give solutions to many reoccurring problems of the past. Lastly, this paper will propose the best solution for the best outcome to address the current problems as a whole. II ABSTRACT As it stands today, the current medical equipment maintenance model is on site and hands on, versus remote and virtual. There is no standardized remote diagnostic access capability for biomedical...
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...CONTENTS PAGE Introduction………………………………………………………………………………………………………… 3 Biomedical Engineering Technician……………………………………………………………………… 3 Education Requirements………………………………………………………………………………….. 3 Salary Ranging up to $140,000 Annually…………………………………………………………… 4 Fast-Growing Job Field…………………………………………………………………………………….. 4 Moving into Management…………………………………………………………………………………. 4 Financial Services Entrepreneur…………………………………………………………………………… 4 Starting a Business…………………………………………………………………………………………… 4 Potential Income Growth…………………………………………………………………………………. .5 Self-Management……………………………………………………………………………………………… 5 Conclusions and Recommendations……………………………………………………………………… 5 Works Cited………………………………………………………………………………………………………… 6 BIOMEDICAL ENGINEERING TECHNICIAN VERSUS FINANCIAL SERVICES ENTREPRENEUR INTRODUCTION Biomedical engineering is considered the fastest growing job field today, while the financial services industry has also remained strong due to the everlasting need for financial security. These are two drastically different career paths, and both have great potential in terms of career success. With the cost of schooling the way it is, many are wondering if it is even worth the investment to have a degree. So, this report was created to compare one of the best post-secondary school majors available with a career that requires no major at all. This report analyzes the costs of working and potential...
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...John Smith Dr. Madaro University Physics I Spring 2014 Biomedical Engineering and the Future of Modern Medicine I have always been interested in math and science, but my interest developed into a fascination this year in physics class. I enjoyed being able to apply all of the laws and theories that we learned in class to real-world situations. I liked being able to figure out the distance an object traveled just by knowing the acceleration and speed, finding the vertical and horizontal components of a force, and solving for the coefficient of friction of a surface. I loved that every concept seemed to build on the one before it, and how they all helped me understand the world in a way I never had before. Whenever I think about my future, what I want to study, and how I want to make a living, I always think of engineering- a career that would allow me to develop this fascination with the way the world works and to apply my knowledge to a project that could help improve peoples' lives. I want to go into this field to develop technology that could help cure disease or improve the quality of life of those with serious medical conditions. The concepts of Physics play a crucial part in the everyday work of Biomedical Engineers, specifically in the invention of prosthetic limbs, artificial organs, and improved hearing aids. "The first artificial limbs were stiff and did not have joints that bent like real arms, hands, or legs" (Woods 40). The invention of the artificial limbs...
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...My name is Dominique McLeod and I reside in Atlanta, Georgia. I am one of four children, the child of two loving parents, God-fearing, a genuine person, and most importantly striving to be the leader I am destined to be. Attending college has never been just an option; it was a must. That is why I am making every effort to make that come true. “Leadership is the capacity to translate vision into reality.” This quote by American Scholar Warren Bennis, plainly states the goal of a true leader. A true leader has a goal, a vision as Bennis put it. The task set before that leader is to make the vision come true (a reality) by any means necessary. There are certain qualities needed to make sure the vision is successfully turned into a reality. Hard work, dedication, and perseverance are the three main qualities among many that act as a catalyst to the leader’s vision. When these qualities are put into action, the impossible becomes the possible and as Warren Bennis put it, the vision becomes a reality. One obstacle, that in my life I classified as the impossible, was attending the first charter school of Gwinnett County, The Gwinnett School of Mathematics, Science, & Technology. Gwinnett School of Mathematics, Science, and Technology (GSMST) is a charter school that was established in 2007. It focuses on the higher end of the academic spectrum in providing exceptional students with challenging curriculum and extensive leadership responsibilities in order to prepare the students...
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...Session: Spring, 2014 Lecturer’s Name: Dr. Kamal Jaafar Engineering Logistics in Biomedical Equipment Prepared By: Disclaimer * * “The document was prepared as per the information given by the Medical Engineer working for Mafraq Hospital, the data and methodologies given within this document are for research only, copying any part of it is not allowed without getting the written permission of the authors” Executive Summary The BME department at Mafraq Hospital performs a broad image of tasks which may be assigning to different units of department, the maintenance work at the hospital falls into one of the following types: Preventive Maintenance, Corrective Maintenance, and Emergency Maintenance. Key Performance Indicator (KPIs) is the performance indicators that Biomedical Department in Mafraq Hospital is using to monitor the performance of the department and wither they are working successfully by meeting expectations or there are gaps to be filled. A KPI guides them to improve maintenance effectiveness and efficiency, and lead to reliability growth at Mafraq Hospital. The BME department has established a mechanism of collecting data and required information to formulate the KPI. That required introducing new processes and train engineers and technicians into how they implement such a mechanism. An interview was done with Biomedical Engineers in Mafraq Hospital to identify how well the KPIs are being achieved during the last two years...
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...Tissue engineering is a branch of biomedical engineering that focuses on isolating and amplifying the natural ability of the human body to heal injuries. The paradigm of tissue engineering is composed of three major components: a tissue scaffold; biological factors; and cells. Among these three components, the source of the cells used in the medical device is the largest source of controversy. Not only can the origin of the cells affect the funding of an engineering project, but it can even lead to the overall rejection of the project by society if they feel that the source is morally objectionable. This essay will explore two common sources of pluripotent cells used in tissue engineering, the laws that are set in place in accordance with...
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...Unit 1 Research Paper 1 Injectable Tissue Engineering Brand Zae GS1140 Injectable Tissue Engineering Introduction Every year more than700,000 Americans undergo a form of joint replacement surgery. The procedure-in which a knee or a hip is replaced with an artificial implant-is highly invasive, and many patients delay said surgery for as long as they can. A doctor by the name of Jennifer Elisseeff , a biomedical engineer at Johns Hopkins University, hopes to change that with a simple and quick procedure that does away with surgery entirely. Dr. Elisseeff and her colleagues have developed a way to inject joints with specially designed mixtures of polymers, cells, and growth stimulators that solidify and form healthy tissue. This form of technology can eliminate the need for many expensive and dangerous surgeries. Surgeries involving muscle development, the cardio vascular system, and even limb repair after a traumatic incident. This form of technology can improve our health care system dramatically and open new windows of opportunity for new forms of medicine. Even the possibility for new cures for diseases that we currently fight every day such as cancer and possibly even HIV, eliminating the need for long and expensive treatments. As well as repairing worn or damaged tissue, this form of engineering can also be used in the future for growing new organs or limbs to replace old damaged or missing ones. If a patient is in need of a new heart...
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...Name: HUY HUYNH Class: PHIL-370 Instructor: Michael Davis Third Paper ENGINEERS AND LAYERS Ornella Muti, P.E., was retained by plaintiff’s attorney to evaluate a transponder used in small planes to determine whether it could have been the cause of a mid-air collision. While doing the evaluation, Muti discovered that the transponder has a flaw which, though unrelated to the collision, might well cause another dangerous error, failure to respond during the approach to landing if the ambient temperature is too high. Since this second flaw both concerns public safety and was unrelated to the case, Muti sent a senior engineer at the defendant company a copy of the relevant parts of her report when she sent the entire report to the plaintiff’s attorney, telling the attorney what she had done. Plaintiff’s attorney then filed a complaint with us, alleging breach of confidentiality, breach of contract, and other unprofessional conduct. The case is pretty simple to understand. Muti was hired by a plaintiff’s attorney to investigate a transponder whether it caused a mid-air collision. While doing so, she found an unrelated flaw that could cause a hazard. She sent a second engineer at the defendant company parts of her report, and then sent a full report to the plaintiff’s attorney, telling about the second engineer. The attorney filed a complaint against Muti. The case itself has a few ambiguous details. We have made the following assumptions to clarify these ambiguities so that we...
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...understand the reality of ‘engineering.' For them, engineers are “super-humans” who build rockets, robots, electric vehicles and the like. The reason is that when a person says he works on a satellite project, people jump to the conclusion that he knows every detail of building a satellite. In reality, no engineer can know the entire details of projects. For example, it requires people from various disciplines such as electrical, mechanical, chemical and materials engineering to design an electric car. Since the common man has the “super-human” view in mind, he generally does not accept or appreciate many of the “real” engineering works. For example, a home inverter might not bring about any awe to the common man as does an electric vehicle (though both might be equally challenging to build), because he often finds a technician setting right the problems in a home inverter. The technician just knows by experience what to do, whereas an engineer knows why it has to be done. Engineering is more valuable than science First, I will clarify the difference between ‘science' and ‘engineering' through a simple example. The study of optics of materials will fall under science. Scientists (physicists, in this case) will try to explain the optical properties which different materials possess. If someone tries to use the optical properties to make a microscope or a camera, he will be an engineer. Scientists establish facts which engineers exploit to make things useful to society. History...
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...this is what is called being selfish. For example, the purchase amounts of staff time to work on the weekend. This Quite simply is not the work of an ethical famous factories do, do. In light of the reputation and confidence, showing factories famous quality and value at the expense of small factories and start-ups. Greed to get as much as possible from customers and a thousand The benefits of competition to make catalog immoral. The most affected is the ultimate consumer Engineers are always trying to develop their companies no matter what the cost is. Many of the engineers working more than they should. For example, some of the engineers is trying hard to reach the top for the success of that company, even if it cost him to work outside working hours. Good job he does not harm in it. But, you gave the right engineer for other engineers to show themselves? Is this the work of aspiring engineer for selfish for himself or to serve the community and the people? Is this the work of engineer will cost consumers the right price, or he would use the uniqueness of this product is to raise prices exaggerated? I believe...
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...that we use to make our life more comfortable are created and maintained by engineers. Clearly engineers play an important role in our lives. However, there is a shortage of them. I believe that studying engineering should be encouraged and we should make engineering a more attractive career. In this report, I will address the importance of engineers, reasons why we are lacking them and some solutions that can help solve the problem. 2. The importance of Engineers Engineers apply their knowledge in mathematics, sciences, economics and society and use their practical skills to design and build structures, machines, devices, materials, systems, and processes1. Looking around us, everything from vehicles, buildings, facilities to our laptops, mobile phones have been created and are still maintained by engineers. Hence, it is hard to imagine how our lives will be without them. Moreover, engineers are those who has changed and shaped the world today. “Engineers will drive the solutions to today’s most pressing problems” – Quote by Dean of Engineering, UC Berkeley. One of the most significant events in the history of the world’s economy is the Industrial revolution in eighteenth and nineteenth century. Starting in the UK, the manufacturing of products has switched from animal and labour based to machine based. Since then, the UK economy, and later the most of Europe economy have developed dramatically. Engineers continue to solve one of the biggest problems today, global warming. The...
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...MGT 434 Week 4 DQ 3 To Buy This material Click below link http://www.uoptutors.com/MGT-434/MGT-434-Week-4-DQ-3 You are the Office Manager for an engineering firm. You interview Patricia for a position as the admin for three engineers and two surveyors. Three weeks after she accepts the job, she calls in sick. She does not bring in a doctors note. Two weeks later, she calls you to tell you that her boy friend”must undergo surgery. She has promised him that the first person he will see upon coming out of anesthesia will be she. She needs to take time off to fulfill her promise. You tell her to report in once she has seen him. One month after that, she comes to you and tells you that she needs an advance on her salary, as she is on the verge of being evicted. You speak with the owner, who says that she can have her check early ONLY this one time. Several days later, she calls on her cell phone. She speaks to one of the engineers and tells him to tell you that a car drove her off the road and the state trooper investigating the case believes that she needs to take the day off to recuperate. The engineer reports this to you. He also tells you that his team has been keeping a diary on her time and attendance. She constantly is leaving her work station, going outside to smoke or talk on has cell phone. She also has told them that she suffers from Crohn’s’ Disease and needs frequent bathroom breaks. You tell her that you would like to speak with her. She tells you, in reply,”Great...
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...MANUAL OF PROFESSIONAL PRACTICE FOR ELECTRONICS ENGINEERS I. CODE OF ETHICS FOR ELECTRONICS ENGINEERING PRACTITIONERS FOREWORD Honesty, justice and courtesy form a moral philosophy which, associated mutual interest among men, constitutes the foundation of ethics. The electronics engineer should recognize such standard, not in passive observance, but a set of dynamic principles guiding his conduct and way of life. It is his duty to practice his profession according to this Code of Ethics and Conduct. The keystone of professional conduct is integrity. Hence, it behoves the electronics engineer to discharge his duties with fidelity to the public, his employer and his client and with fairness and impartially to all. It is my duty to interest himself in public welfare, and to be ready to apply his special knowledge for the benefit of mankind. He should uphold the honor and dignity of his profession and avoid association with enterprise of questionable character. In his dealings with fellow engineers, he should be fair and tolerant. RELATIONS WITH THE STATE 1. Each and every engineer shall recognize and the supreme authority of the State as express through its laws and implemented by its agencies, whenever wherever such laws do not infringe upon the rights and privileges of citizens as guaranteed by the Constitution. 2. He shall recognize that the well-being of the public and the interest of the State are above the well-being and interest of any individual. ...
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...facts in the situation – obtain all of the unbiased facts possible Donald J. Giffels is a civil engineer and president of a engineering consulting firm. His firm was under a contract to some work with installing equipment at a facility to train firefighters dealing with fire crashes of airplanes. Jet fuel was recently replaced with liquid propane because it contaminated the soil to simulate fires. Giffels was concerned about the lack of design in areas crucial to safety. No design analysis was submitted either. He contacted the designers for a justification in approving the design. Giffels contacted another engineering firm that had installed similar designs and they had confirmed the cause for concern about safety when looking at the design. A mechanical engineering firm was asked to do a design study but was turned down because of liability fears. Therefore Giffels firm asked the government to be absolved of any responsibility in case of mishaps do to inadequate design. The firm refused to proceed with the installation until safety issues were addressed. The government agency agreed and brought in three other firms to fix the safety issues. Step 2: Define the Stakeholders - those with a vested interest in the outcome The Government agency would be a stakeholder. Where they have overlooked the safety designs and failed to submit an analysis. Giffels’ civil engineer is a stake holder also who would have felt the guilt of ignoring the design although his firm is only...
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