Biomedical Engineering Final Exam BIOM-100
When did Biomedical Engineering get started?
1960s
Scientific definition of biomaterials
A biomaterial is a nonviable material used in a medical device, intended to interact with biological system. (Williams, 1987).
Combining synthetic materials (polymers, metals, ceramics etc.) with biological components to produce devices that function like tissues and organs. Key example: kidney dialysis machine (Dutch physician Kolff used cellophane to remove urea from the blood of diabetics). Addition of living cells to dialysis machines can make it artificial liver or pancreas. Design of artificial hearts and heart components such as valves, and also design of machines that keep patients alive during cardiac surgery.
Artificial organs
While infectious diseases are still the second leading cause of death in the world and the most important cause of premature death in many developing countries, what are biomedical engineers working on to help this issue?
BMEs need to make vaccines more effective, less expensive, easier to administer and easier to transport (viruses such as COVID-19, HIV, HCV, SARS and West Nile).
Subjects important to biomedical engineering?
Basic science : Physics and chemistry, quantitative systems physiology, mathematical analyses, domain specific knowledge (i.e. electrical circuits, mechanics, chemical processes, etc.)
Emphasizes chemical engineering principles for design and analysis. E.g.Pharmacokinetic analysis to give drugs safely and effectively. Design of drug-delivery systems and to create new treatments using tissue and cellular engineering. Chemical engineering principles applied to biomaterial design, nano-biotechnology and genomic analysis.
Bio-molecular engineering
What is the most important complementary definition needed to understand important aspects of biomaterials?
Biocompatibility
What are the sub-disciplines in agricultural engineering?
Biological engineering
What are the sub-disciplines that use chemical engineering?
Biological engineering, Biomolecular engineering, bioprocess engineering, biochemical engineering
Determine role of mechanical forces on human functions. Some engineers study role of forces (i.e. exercise, work conditions or activities of normal life) on tissue physiology or human performance. Others are interested in protecting humans from mechanical industry by designing seat belts or helmets. Still others determine how diseases affect the mechanical performance of tissues such as the heart or the ability of humans to move after loss of mechanical functions in bones or muscles. Design of mechanical replacements of hips, joints, heart valves and organs. Cellular mechanicsis a growing field (i.e. mechanics of cell movement through circulation, microfilaments during cell division, mechanotransduction).
Biomechanics
the practice of designing systems, equipment and devices for use in the practice of medicine. It also involves working closely with medical practitioners, including doctors, nurses, technicians, therapists and researchers, in order to determine, understand and meet their requirements for systems, equipment and devices.
Biomedical Engineering
Revolutionized medicine. CT, MRI and ultrasound imaging. Involves both instrumentation and signal/imaging processing. Most current methods provide information on tissue anatomy, but imaging techniques of the future will also provide info on the function of tissues.
Biomedical Imaging
what two terms are fairly interchangeable between academic departments?
Biomedical engineering and bioengineering
What the name of the discipline associated wit the exploitation of biological processes for industrial and other purposes, especially the genetic manipulation of microorganisms to produce antibiotics, hormones, etc.
Biotechnology
what is a growing field under biomechanics?
Cellular mechanicsis (i.e. mechanics of cell movement through circulation, microfilaments during cell division, mechanotransduction).
the practice of designing equipment, systems and processes for refining raw materials and for mixing, compounding and processing chemicals to make valuable products
Chemical Engineering
Involves design, testing, manufacturing, construction, control, monitoring and inspection of electrical and electronic devices, machinery and systems. These systems vary in scale from microscopic circuits to national power generation and transmission systems.
Electrical Engineering
The application of science and math to solve problems
Engineering
polymers as biomaterials : polyethylene (PE)
Hip and knew implants, artificial tendons and ligaments, synthetic vascular grafts, dentures, and facial implants
Involves design, manufacturing, inspection and maintenance of machinery, equipment and components as well as control systems and instruments for monitoring their status and performance. This includes vehicles, contractions and farm machinery, industrial installations and a wide variety of tools and devices
Mechanical Engineering
Example: multidisciplinary nature of biomedical engineering - Development of soft contact lenses
Requires working knowledge of physics (refraction and mechanics), anatomy, physiology (tear production and circulation), materials science, immunology (body's response to foreign materials), and math (evaluation of oxygen diffusion).
Systems-level analyses to chemical reactions, proteins and cells to understand and predict biological outcomes. Also involves development of efficient computer methods for examining biological databases to find and sort new biological information. Development of new tools to measuring the state of function of individual cells (proteomics, array technologies, design of BioMEMs devices that interface with living cells).
Systems biology
Name three biomedical engineering professional societies
The Biomedical Engineering Society, IEEE Engineering in Medicine and Biology Society, and The American Institute for Medical and Biological Engineering
What are some future contributions of Biomedical engineering?
Vaccines, robotic surgery, long-term artificial hearts, genetic scans for disease prediction (i.e. gene chips), brain-machine interface, spinal cord regeneration, "designer" organs grown from single cells, imaging of moving parts (joints, heart etc.), artificial pancreas, control of angiogenesis (development of new blood vessels) for cancer treatment.
What is the most common protein in blood? what is second to this?
albumin, immunoglobulins (immune system proteins)
Nature uses a bottom-up approach to assemble a human being, what exactly does this mean?
all materials are made from a relatively simple set of 20 amino acids and four nucleic acids
What is the problem with biomimetics?
because the function of every aspect of tissues or organs is not known, imitating the structure and function of natural technique is almost impossible for scientists
tissues composed of both synthetic and natural materials
bioartificial tissues
the ability of a material to perform with an appropriate host response in a specific application (Williams, 1987).
biocompatibility (definition)
what fields intersect with the development, study, and application of biomaterials?
bioengineer, chemist, chemical engineer, electrical engineer, mechanical engineer, materials scientist, biologist, microbiologist, physician, veterinarian, ethicist, nurse, lawyer, regulatory specialist and venture capitalist (- this is only a partial list)
materials (synthetic and natural; solid and sometimes liquid) that are used in medical devices or in contact with biological systems.
biomaterials
One of the oldest and richest parts of BME. Hospitals have lots of machines to determine state of the patient (i.e. blood pressure monitors, pacemakers, arrhythmia detectors, ECG machines). Latest implantable devices stimulate electrical activity in Parkinson's. Future devices will deliver drugs, monitor local tissue states and send detailed information on internal function outside of the body.
biomedical instrumentation
approach that is used by biomedical engineers to design medical devices or systems that repair, monitor, or assist the functions of the human body in ways that mimic or replicate nature's techniques - this technique are often at the heart of a successful medical device or therapy
biomimetics
what do biomaterials usually make first contact with and why?
blood, implantation often creates a wound and bleeding usually ensues
polymers as biomaterials : polymethylmethcrylate (PMMA)
bone cement, intraocular lenses
Natural materials : ceramics or demineralized ceramics
bone graft substitute
Ceramics as biomaterials : calcium sulfate
bone graft substitutes
Ceramics as biomaterials : glass
bone graft substitutes, fillers for dental materials
Ceramics as biomaterials : calcium phosphate
bone graft substitutes, surface coatings on total joint replacements, cell scaffolds
biomaterials in medical devices (synthetic) : ceramics
bone grafts, heart valves, dental implants
biomaterials in medical devices (synthetic) : polymers
breast implants, ophthalmologic devices, sutures, skin grafts
How do biomaterials promote cell/tissue attachment and activity?
by allowing selective protein absorption or can inhibit tissue interactions by repelling protein
What are the two primary areas of the multidisciplinary nature of biomedical engineering?
careful analysis and study of the operation of body systems, development of new technologies for study or repair of the body
what are some important issues within the field of tissue engineering?
cell isolation, control of cell organization and function, upscaling to full bioartificial tissues, and biomaterial fabrication
Natural materials : collagen and gelatin
cosmetic surgery, wound dressings, tissue engineering cell scaffold
ses electrical energy to restore the heart to its normal beating rhythm
defibrillator
what is it important to do when using a biomimetic design strategy?
define what native tissue function is needed
Metals as biomaterials : gold
dental fillings and crowns, electrodes
biomaterials by themselves do not make a useful clinical therapy, meaning that they have to be fabricated into what?
devices
Biomaterials are rarely used on their own, but are used more commonly integrated into what?
devices or implants
acts as a substitute for a person with a failing kidney by removing the waste and excess water from blood.
dialysis machine
Natural materials : cellulose
drug delivery
Natural materials : alginate
drug delivery, cell encapsulation
Why might specific proteins that may have been deliberately and carefully placed on the biomaterial before implantation no longer be available to the cells after blood contact?
due to the additional absorption of blood proteins
biomaterials in medical devices (synthetic) : ceramics and polymers
ear implants
measures the electrical activity of the heart andcan help physicians gather information about the health of theheart and its chambers, heart rate, and/or the effects of drugs.
electrocardiogram (ECG)
Metals as biomaterials : platinum
electrodes, neural stimulation devices
in what kind of applications are bioartificial tissues (those composed of both synthetic and natural materials) are used as an alternative to organ transplant or developed to study tissue behavior in vitro?
ex vivo applications
secreted by cells and surrounds cells in tissues, it has long ben understood that this is the structural support for cells since its characteristics set the characteristics of the tissue (i.e. bone compared to cartilage compared to brain). while instead of being passive, it is an extraordinarily complex scaffold composed of a variety of biologically active molecules that are highly regulated and critical for determining the action and fate of the cells that it surrounds
extracellular matrix (ECM)
what is the engineer's role in biomaterial science?
fabricate devices and work closely with synthetic chemists to optimize materials properties and physicians to ensure that the device is useful in clinical applications
What final layer of protein may be absorbed (although less abundant) that could potentially cause a greater affinity for the biomaterial surface?
fibrinogen
polymers as biomaterials : silicone rubber
finger joints, artificial skin, great implants, intraocular lenses, catheters
A biomedical engineer uses DNA microarrays to compare the expression of certain genes in cells and tissues of humans to a possible animal model.
gene chips
an example of a biomedical instrumentation device that can help patients better manage their diabetes.
glucometer / glucose meter
small electronics to amplify sound for the wearer
hearing aids
Ceramics as biomaterials : carbon
heart valve coatings, orthopedic implants
Ceramics as biomaterials : zirconia
hip implants
Ceramics as biomaterials : aluminum oxides
hip implants, dental implants, cochlear replacement
what ideas are used in biomaterials?
ideas from medicine, biology, chemistry, materials science and engineering
what are the components of the ECM?
integrin (adhesion), soluble signal, proteoglycan, matrix proteins, receptor, ECM Degradation Enzymes
Metals as biomaterials : cobalt-chrome alloys
joint replacement, bone fracture fixation
Metals as biomaterials : stainless steel
joint replacement, bone fracture fixation, heart valves, electrodes
Metals as biomaterials : titanium and titanium alloys
joint replacements, dental bridges and dental implants, coronary stents
what are some examples of "appropriate host responses" in regards to biocompatibility as it pertains to biomaterials?
lack of blood clotting, resistance to bacterial colonization, normal healing, etc.
What may happen to proteins as a result of interaction with the solid surfaces of biomaterials?
loss of some biological activity
What is the progression of the hierarchical design using biomaterials?
macrostructure, mesostructure, microstructure, submicrostructure, nanostructure
helped the field of biomedical imaging by allowing for a technique in which images can be created that show good contrast between soft tissues (something which is extremely difficult to do using x-ray). In particular, it has also helped physicians and researchers study and diagnosis diseases which effect the brain
magnetic resonance imaging (MRI)
Types of biomaterials
metals, polymers, ceramics, composites, synthetic, natural, porous, dense, crystalline, semicrystalline, amorphous
the field of biomaterials is what?
multidisciplinary
What field represents the newest field in prosthetics and one of the fastest developing topics in biomedical engineering today?
neural prosthetics
biomaterials in medical devices (synthetic) : metals
orthopedic implants, stents, dental implants, fracture management devices
what changes in the microenvironment that can occur after biomaterial implantation can alter the conformation of a nearby protein and thus its function?
pH and ionic strength
Metals as biomaterials : silver
pacemaker wires, suture materials, dental amalgams
biomaterials in medical devices (synthetic) : metals, polymers, and ceramics
pacemakers
Math models to help engineers understand and predict system behavior (i.e.pharmacokinetic models, use of math models of hip mechanics to predict stresses and strains the artificial hip must endure). Mathematical models of blood flow in small vessels guides the development of tissue-engineered blood vessels and stents. Engineers are now making models of the networks of chemical reactions that occur within cells.
physiological modeling
what materials are used for bone cement?
polymers and ceramics
Natural materials : hyaluronic acid
postoperative adhesion prevention, ophthalmic and orthopedic lubricant, drug delivery, cell scaffold
What are two examples of diagnostic tests that BME has helped bring into the average household?
pregnancy tests, thermometers
What is one of the oldest innovations of biomedical engineering?
prosthetics
defined as any "internal or external device(s) that replace lost parts or functions of the neuroskeletomotor system" and may be either orthopedic or externally controlled
prosthetics
What plays an important role in determining the biological activity of the tissue-implant interface?
proteins
polymers as biomaterials : polyester
restorable sutures, fracture fixation, cell scaffolds, skin wound coverings, drug delivery devices
what materials are used in finger joints?
silicone
What materials are used in an intraocular lens?
silicone, acrylic, or other plastic
polymers as biomaterials : nylon
surgical sutures, gastrointestinal segments, tracheal tubes
what materials are used in vascular grafts?
teflon
externally controlled prosthetic devices may be controlled by what?
the body itself through myoelectricity or a separate power supply
What processes are albumin and immunoglobulins involved in?
the recognition and adhesion processes of cells
Although biomaterials are primarily used for medical applications, they are also used in what other regards?
they are also used to grow cells in culture, to assay for blood proteins in the clinical laboratory, in processing biomolecules in biotechnology, for fertility regulation implants in cattle, in diagnostic gene arrays, in the aquaculture of oysters and for investigational cell-silicon "biochips."
In context of biomaterials, what is important to remember about proteins?
they guide cell attachment, proliferation, and differentiation, so it is important to know which proteins are attached to the biomaterial after implantation
consists of the manufacture of biological tissue either ex vivo or in vitro (outside the body), or the incorporation of new advancements to aid in the repair and growth of existing tissues in vivo (inside the body).
tissue engineering
what materials are used in hip implants?
titanium alloys
what materials are used in dental implants?
titanium alloys, ceramics
polymers as biomaterials : polyvinylchloride (PVC)
tubing, facial prosthesis
have played a huge role in helping control infectious diseases. However, infectious diseases still cause a large number of deaths worldwide. Advancements are needed to help bring sufficient (blank) to the developing world. Biomedical Engineers could: help develop new (blanks), find new ways to administer them, new and less expensive ways for them to be manufactured and means by which to more easily transport them.
vaccines
what is blood mixture of?
water, various kinds of cells and ell fragments (platelets), salts, and proteins (plasma)
Natural materials : chitin
wound dressings, cell scaffold, drug delivery
(first discovered in 1895) has revolutionized medicine, allowing medical staff to noninvasively see images of our skeletal system and other major organs.
x-ray imaging
