EXAM QUESTIONS AND ANSWERS BEST RATED A+ GUARANTEED SUCCESS
“What is Starling's Law of Capillary forces?
How does this explain why a nutritionally deficient child would have edema? - CORRECT
ANSWER Starling's Law describes how fluids move across the capillary membrane. There
are two major opposing forces that act to balance each other, hydrostatic pressure
(pushing water out of the capillaries) and osmotic pressure (including oncontic pressure,
which pushes fluid into the capillaries).
Both electrolytes and proteins (oncontic pressure) in the blood affect osmotic pressure,
high electrolyte and protein concentrations in the blood would cause water to leave the
cells and interstitial space and enter the blood stream to dilute the high concentrations.
On, the other hand, low electrolyte and protein concentrations (as seen in a nutritionally
deficient child) would cause water to leave the capillaries and enter the cells and
interstitial fluid which can lead to edema."
"Compare and contrast Type I and Type II Diabetes - CORRECT ANSWER Type I
diabetes is caused by lack of insulin. With out insulin signaling, glucose will not be taken
into the cell and leads to high blood glucose (hyperglycemia). Type I is usually treated with
insulin injections.
Type II diabetes is caused by a desensitization to insulin signaling. The insulin receptors
are no longer responding to insulin, which also leads to hyperglycemia.
Type II is usually treated with drugs to increase the sensitization to insulin (metformin),
dietary and life-style changes or insulin injections."
"Differentiate between Innate Immunity and Adaptive Immunity ? - CORRECT
ANSWER The innate immune system encompasses physical barriers and chemical and
cellular defenses. Physical barriers protect the body from invasion. These include things
like the skin and eyelashes. Chemical barriers are defense mechanisms that can destroy
harmful agent. Examples include tears, mucous, and stomach acid.
Cellular defenses of the innate immune response are non-specific. These cellular defenses
identify pathogens and substances that are potentially dangerous and takes steps to
neutralize or destroy them.
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,Adaptive immunity is an organism's acquired immunity to a specific pathogen. As such, it's
also referred to as acquired immunity. Adaptive immunity is not immediate, nor does it
always last throughout an organism's entire lifespan, although it can.
The adaptive immune response is marked by clonal expansion of T and B lymphocytes,
releasing many antibody copies to neutralize or destroy their target antigen"
"Why are some infections harder on children while other infections are harder on the
elderly? - CORRECT ANSWER Children have not been exposed to many pathogens yet,
so they lack memory cells and have not built-up immunity yet.
The elderly have a depleted naïve T cell population from years of battling infections, so the
likelihood of getting a match is less."
"Describe how and why our injury response results in the signs of redness, swelling, heat,
and pain?
(Be sure to use chemokines, histamine, and vasodilation in your response.) - CORRECT
ANSWER An injury causes an inflammatory response which is responsible for the
redness, swelling, heat and pain. Upon injury, cells on the surface begin to release
chemokines which act as messengers that something has happened.
Mast cells are also alerted to release histamines which travel to the endothelial cells of
capillaries and causes vasodilation, which is related to swelling and redness.
Vasodilation also causes the capillaries to become leaky which allows for histamines,
chemokines and even pathogen particles to enter the blood stream where they are met by
neutrophils (non-specific) which start to adhere to the capillary wall and squeeze through
the leaky holes (diapedesis or extravasation) to phagocytose pathogens and damaged cells.
Dendritic cells just under the surface of skin are also activated to phagocytose foreign
particles. Other B cells, T cells (specific) and the complement system also squeeze through
the capillary wall to create an area of congestion."
"What is Spina Bifida?
Why are relative deficiencies in Folic acid or B12 associated with Spina Bifida? -
CORRECT ANSWER Failure to close the neural tube early in gestation due to low folic
acid and B-12. These vitamins help activate DNA synthesis in the developing fetus in the
first 4 weeks of pregnancy, that are responsible for closing up the spinal column.
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, Three types of spina bifida.
1) spina bifida occulta (most common, less severe)
2) Meningocele (least common)
3) Myelomeningocele (most severe)."
"Essential Question: How does the body's cellular responses and adaptations react to
disruptions? - CORRECT ANSWER The body uses the RAAS system to regulate blood
volume and pressure, the immune response reacts to fight infection, the inflammatory
response reacts to injury"
"Describe how calcitonin, parathyroid hormone, and calcitriol (Vitamin D) work together to
maintain normal blood calcium levels. - CORRECT ANSWER Vitamin D: UV light
stimulates formation of vit d by liver and the kidney into the active form of calcitriol.
Calcitriol absorption of calcium and phosphorus from the GI tract and kidney and began to
build up bone by raising calcium and phosphorus levels. Low vitamin D levels can cause
hypocalcemia, which stimulates the release of parathyroid hormone (PTH).
PTH stimulates osteoclasts to increase blood calcium levels. PTH also stimulates
osteoblasts to form bone. PTH stimulates kidneys to reabsorb calcium into the blood and to
produce vitamin D.
When blood calcium gets too high, the thyroid is stimulated to release calcitonin"
"Describe the function of osteocytes within lacunae of bone - CORRECT ANSWER
Osteocytes absorb nutrients from the bloodstream and put it in the bone.
Osteocytes absorb waste products from the bone and put them in the bloodstream"
"Describe bone remodeling ?
Which cells are involved in this process and what is their function? - CORRECT
ANSWER Osteoclasts breakdown older bone structure and release calcium into the
bloodstream.
Osteoblasts absorb calcium from the bloodstream and use it to build new bone structure.
Working together, these two cell types allow for regeneration of damaged bone structur"
"Describe the process of articular degeneration.
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