Wednesday, September 22, 2010

Biomedical Engineering Career Training

Biomedical and medical engineering are two ways of describing the same career field. Students have many options for career training when they enter the field. Schooling focuses on teaching students how to contribute to the medical advancements that are geared towards helping patients live with different ailments and disabilities. Career training provides degree options at every level of education.

*Associate's Degree in Biomedical Engineering

Programs typically focus on teaching students about the technology used inside the field. The goal of this training is to prepare students to become technologists that provide repair services. Coursework focuses on the ability to operate, troubleshoot, manage, and fix medical equipment. Equipment can include infusion devices, pacemakers, and defibrillators. Some programs may require students to work through an internship where they learn how to use their knowledge practically. Internships help students become comfortable working with equipment on a daily basis.

*Bachelor's Degree in Biomedical Engineering

Training at this level is usually the standard for entering the career as an engineer. Study focuses on teaching students about the entire industry while concentrating on biomechanics and medical device innovation. Through the in depth study of molecular biology and physiology students learn how to create and update medical equipment for patients. This can include things like inflatable casts, prosthetic limbs, and medical drug dispensing machines. A typical course may include study on macro and molecular bioimaging. This technical course covers all modern imaging procedures, which includes the techniques and applications used in biomedical research. The course focuses heavily on the relationship between technology and the design of target specific probes. The goal is to learn how to target, deliver, and amplify probe strategies. Students learn all of the fundamental skills to enter a career as an engineer.

*Master's Degree in Biomedical Engineering

Students work to gain advanced understanding and skills by combining science with biomedical technology. The goal of this is to teach students to discover ways to improve the treatment of health-related concerns. Students work in labs and study tissue engineering and communication between cells. A tissue engineering course examines developmental biology, cel-cell, and matrix interaction. Study explores biomedical properties and formulation to discover how cells interact with each other inside the body. Designing tissue is considered inside the parameters of time, rate, cost, and safety. Students can expect to learn advanced principles that allow them to enter higher-level careers.

*Doctorate in Biomedical Engineering

This highest level of education is designed for students that want to take their knowledge and apply to research. The work done in a degree is extremely focused on the student's ability to grasp advanced understanding. This is tested by the typical requirement to write a dissertation paper. Curriculum can cover clinical medicine practices, organ transport systems, and the engineering of cells. Career options are primarily research based allowing students to work to create the latest in biomedical engineering treatments.

Students can enter education by starting an associate's or bachelor's degree program. Accredited biomedical engineering programs at these levels are required for advancement and prepare students for further study or a career. There are numerous agencies like the Accreditation Board for Engineering and Technology ( rel=nofollow [http://www.abet.org/]www.abet.org ) that provide quality educational programs with full accreditation. Schools and colleges that offer the best quality education are awarded full accreditation. Begin education and become a part of the solution for medical hindrances and illnesses.

Biomedical Research Facility

Public Health Triage Facilities

DISCLAIMER: Above is a GENERIC OUTLINE and may or may not depict precise methods, courses and/or focuses related to ANY ONE specific school(s) that may or may not be advertised at PETAP.org.

Copyright 2010 - All rights reserved by PETAP.org.

Renata McGee is a staff writer for PETAP.org. Locate [http://www.petap.org/categories/TSD/engineering-schools-colleges.cfm]Biomedical Engineering Schools and Colleges as well as [http://www.petap.org/categories/OSD/online-engineering-schools-colleges.cfm]Online Biomedical Engineering Schools at PETAP.org, your Partners in Education and Tuition Assistance Programs.

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Monday, July 19, 2010

The Success of Biopharmaceutical Plants in the Medical World

Biopharmaceutical plants use all the concepts of Pharmaceutical engineering. The only difference is that these plants develop the medicines using the ideas of bio-technology. Some of the living organisms' such as plants are a great source that can be used to prepare several medicines that has the potential to fight many lethal diseases. These biopharmaceutical plants deal with such organisms and botanical sources.

The demand for safe, therapeutic pharmaceutical proteins is a rapidly increasing. The world market for biotechnology has undergone swift expansion since its emergence about some two decades ago and it is still trying hard. These plants have earned huge profits from the human insulin, growth hormones and red blood cell stimulating agents. These therapeutic proteins are very effective in curing the diseases such as multiple sclerosis, arthritis and some orphan diseases.

About 80 biopharmaceutical plants are currently present in the world market and more than 500 more are under their initial stages of development. Biotechnology has enabled the development of human antibodies that have high level of curing capacity. These recombinant proteins are very efficient and have the capability of curing many deadly diseases like cancer and other cardiovascular disorders.

Biotechnology has blessed this world with a number of effective treatment methods and therapies. Pathogenesis can heal many diseases and also it increases the life expectancy of the patients. Many lethal diseases can be easily cured with the biopharmaceutical products. But the main problem is that development of biopharmaceutical products need a long time. Lot of research works have to be carried out prior to their development. But these products are highly cost- effective and efficient in fighting against deadliest diseases. Hence, we can say that these plants have contributed significantly to the medical world.

BIOMEDICAL RESEARCH FACILITY


BUILDINGS FOR SCIENCE

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Tuesday, June 22, 2010

Turnkey Solution

Turnkey businesses deal in areas where the project is developed and then passed onto another person or company in a readily usable form.

A turnkey solution is often conjured in the construction process. The units are created and sold then put to use with all the units intact. Since these can be easily and immediately employed and used, turnkey solutions has become the most widely coveted business model. Turnkey businesses have become the preferred choice not only because of their easy implementation but also because of their cost-saving advantages due to time and production efficiency.

Turnkey laboratories are one such readily available and cost effective means for biocontainment and animal science. Universities, national security operations and the oil field industry have found that turnkey laboratories are much more cost effective means toward reaching their goals.

Thursday, May 20, 2010

Biopharmaceutical Plants - The Applications of Biopharmaceutical Plants

Biopharmaceuticals are nothing but medicines produced by applying Biotechnology. These medicines are manufactured from cells of micro organisms and plant cell cultures and the manufacturing process is done in bioreactors having varied configurations. There are also some controversial methods adopted for making medicines which include genetic modification of plants and animal science. This is considered as a controversial method because the manufacturer is putting himself in a risky situation if the research fails. Sometimes the research may be successful but the drug may not be approved by government bodies due to some perceived risks and other ethical concerns. Thus the manufacturer bears the risk of losing his investment in a failed project. Another risk in the production of Biopharmaceuticals is cross contamination with crops engineered for non-medical use or non-engineered crops.

Basically, Biopharmaceutical plants require heavy machinery and should be designed using the guidelines set by professional bodies like Food and Drug Administration (FDA). The medicines should be manufactured in "clean room" environment which complies with the standards fixed for airborne particles. The medicines may have to undergo clinical trials for many years before they are approved. And in many cases, the drug is closely monitored for safety risks and performance after it is released for consumption. The medicine is not approved and released in case it fails to satisfy the "current Good Manufacturing Practices" (cGMP) and regulations prescribed by FDA. There are companies that manufacture the machinery required for the manufacturing processes carried out in a Biopharmaceutical plant. These companies offer various quality services ranging from engineering the design, supervision of the construction process, testing of operations and commissioning of project, validation, and complete execution of the project on a turnkey basis. The machinery installed includes bioreactors, fermentors, media & buffer production systems, ultra-filtration units, storage tanks, stoppering and capping lines.

The Biopharmaceutical plants must employ Clean in Place (CIP) and Sterilization in Place (SIP) methods for ensuring disinfection and automated cleaning of equipments and machines used in production processes. These cleaning methods are essential to ensure undisturbed production and cleaning of huge equipments without dismantling and disassembling the machines. The turnkey laboratories must be designed and constructed keeping in view the maintenance of aseptic conditions and considering heating, ventilation and air conditioning (HVAC) measures. Biopharmaceuticals produced include proteins, nucleic acids, vaccines used for therapeutic and diagnostic purposes. These are essential to ensure the health and well being of human life.

high containment BSL 3 facilities

lab animal housing


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Tuesday, March 2, 2010

Microbiology Laboratory Testing & Studies

To know whether you are healthy or not is the most important thing in life. Nowadays, laboratory testing creates a very large influence in everything that you do. Before you get hired at work, you should get a laboratory test. When you are sick or you have an ailment, laboratory test is what doctors and professionals will ask you to do. Laboratory testing is where your blood, urine, and sputum are taken for interpretation. Also, in laboratory tests, you can determine your cholesterol level and if your blood smear indicates a new infection. Laboratory test may also provide the first clues to a major disease process.

In laboratory testing, you will be able to know what types of disease you have or minor infections. Not only that, by laboratory test, you will be able to know if you can give your husband a big smile and say "We're having a baby". Good thing because after taking laboratory test, professional doctors will know what medical advices they can provide you for a better living condition.

A division of laboratory testing is the Microbiology Laboratory. Microbiology laboratory is a research facility which focuses on biological studies of microscopic organisms. If you ever wonder what a microbiology laboratory is, it is a laboratory where they do the experiments and studies of microorganisms such as bacteria, viruses, fungi, and more. A research microbiology laboratory has the intention or deepening your understanding of these microorganisms so you can attain more insight how life evolved, how your own body works, or how pathogenic microorganisms infect animal or human cells.

The components of microbiology lab are microbiology testing, microbiology analysis, microbiology research developments, assays, experiments and research studies. The laboratory addresses problems concerning the safety and quality of drinking water and drinking water distributions systems.

Also, microbiology laboratory studies and researches on food microbiologyeterotrophic plate count, coliforms, E. coli, enterococci, yeast and mold, beach water, coliforms, E.coli, and enterococci which deals with food-borne Pathogen Detection, Challenge Organism testing, Shelf-Life studies, and food allergen testing.

Another is dairy microbiology which deals with direct microscopic A - DMSS, Bacterial plate counts, antibiotic resistance testing, and pathogen identification. Lastly, environmental microbiology test which deals with the feasibility studies, treatability studies, aerobic/anaerobic respiration and metabolism studies and the groundwater risk assessment.

The microbiology laboratory offers sterility of parentals, ophthalmic preparations, and sterile medical devices. It offers services like microbiological assay of antibiotics, antimicrobial preservative efficacy test, bacterial endotoxin (LAL) test, microbial contamination, and vaccine quality control.

Remember that laboratory testing and microbiology laboratory helps us to make a big difference in our life, health and overall lifestyle. Making sure that once you doubted on a certain thing regarding on what you feel and what you eat, make sure you consult a specialist and don't just do what you want to do and take the risk after. Take note, Health is wealth!

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