PNB 2265 Practical 1

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Flashcards on PNB 2265 Practical 1, created by Nicole Servetnik on 23/02/2022.
Nicole Servetnik
Flashcards by Nicole Servetnik, updated more than 1 year ago
Nicole Servetnik
Created by Nicole Servetnik almost 3 years ago
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Question Answer
this is the most abundant type of blood cell red blood cell
these are biconcave cells that deliver oxygen to tissues, are very numerous red blood cells
these cell fragments do not have a nucleus and help to form blood clots (small purple crescents between RBCs) platelets (thrombocytes)
these cells are separated into granulocytes and agranulocytes white blood cells
these white blood cells contain many dark staining granules in the cytoplasm and the nucleus typically takes on a multi-lobed appearance granulocytes
these white blood cells contain very few dark staining granules in the cytoplasm agranulocytes
these 3 white blood cell types are granulocytes neutrophils, eosinophils, basophils
these 2 white blood cell types are agranulocytes lymphocytes, monocytes
this white blood cell releases chemicals that change blood pressure. look for dense staining of granules in cytoplasm that obscure nucleus. basophil
this white blood cell responds to the site of an acute injury or infection and performs phagocytosis of debris. look for a nucleus of 3-4 dark staining lobes with many dark staining granules in the cytoplasm. neutrophil
this white blood cell responds to allergens and chronic inflammation. they release chemicals that change blood pressure. look for nuclei with two lobes and many dark staining granules in the cytoplasm. eosinophil
what is the order of white blood cells in order of most to least abundant neutrophils, lymphocytes, monocytes, eosinophils, basophils
what is this cell neutrophil
what is this cell eosinophil
what is this cell basophil
what is this cell lymphocyte
what is this cell monocyte
what is this blood disease sickle cell anemia
what is this blood disease infectious mononucleosis
this is a viral blood disease caused by the Epstein-barr virus which results in an increased production of monocytes and lymphocytes (agranulocytes) infectious mononucleosis
what is this blood disease polycythemia
this is the abnormal increase in the number of erythrocytes which increases viscosity of blood. often a result of bone marrow cancer. polycythemia
what is this blood disease leukemia
this type of cancer involved an overproduction of leukocytes. cells and immature/abnormal in appearance and lack normal function. can be acute or chronic. leukemia
this is the main component of RBCs and has four folded proteins called globins. the red pigment is called heme hemoglobin
hemoglobin is important because each one of these molecules binds an oxygen iron
typical range of hemoglobin for a male 13.5-17.5 g/dL
type range of hemoglobin for a female 12.0-15.5 g/dL
the Hb-O2 curve is this shape sigmoidal
this is a diagnostic test to see the portion of RBC's in a blood sample hematocrit
in a completed hematocrit, the upper clear yellow layer is ___, the Buffy coat is ___, and the lower dark red layer is ____. plasma, leukocytes and platelets, RBCs
what is the proper way to balance centrifuge tubes? top or bottom picture? top
what is the calculation for hematocrit packed red blood cell volume? (packed RBC/total volume)x100
the hematocrit is (higher/lower) than normal if a patient has anemia lower
the hematocrit is (higher/lower) than normal is a patient has polycythemia higher
the hematocrit is (higher/lower) than normal if a patient has compensated blood loss lower (but is not much lower than normal since plasma and RBCs are lost in equal proportions)
the hematocrit is (higher/lower) than normal is a patient is suffering with dehydration higher
the hematocrit is (higher/lower) than normal is a patient is blood doping higher
what happens to the hematocrit when you have leukemia lower hematocrit, larger Buffy coat
this is determined by which antigen is present on a person's blood cells blood typing
Blood type A has these antibodies and can receive blood from ___ and donate blood to ___. anti-B antibodies. receive from A and O. donate to A and AB.
Blood type B has these antibodies and can receive blood from ___ and donate blood to ___. anti-A antibodies. receive from B and O. give to B and AB.
blood type AB has these antibodies and can receive blood from ___ and donate blood to ___. no antibodies. receive from A, B, AB, and O. give to AB.
blood type O has these antibodies and can receive blood from ___ and donate blood to ___. anti-a and anti-b antibodies. receive from O. give to O, A, B, and AB.
what is this blood type? A+
what is this blood type? AB-
when you plot the amount of oxyhemoglobin vs oxygen concentration you obtain a oxygen-hemoglobin dissociation curve
hemoglobin exhibits this kind of binding cooperative binding
what is p50? half saturation pressure
this shift to the Hb-O2 curve means p50 is higher, oxygen affinity is lower, there is more CO2, less H+, higher DPG, or higher temperature right shift
this shift to the Hb-O2 curve means p50 is lower, oxygen affinity is higher, there is less CO2, more H+, lower DPG, or colder temperature left shift
this was used to monitor the proportion of oxyhemoglobin present in the sample spectrophotometer
what wavelength do you use on the spectrophotometer for hemoglobin? 660 nm
this is the wavelength where the substance shows max absorbance lambda max
this plot shows the intensity of color related to the amount of substance present standard curve
Calculation for saturation of hemoglobin (A-B)/(A-C) X 100%
For the saturation of hemoglobin, what did A, B and C stand for in the saturation equation? A - absorbance after deoxygenation B - absorbance after each step C - absorbance before deoxygenation
this is the pressure at which half of hemes are bound to oxygen p50
what is beers law and what does each component stand for A = EbC A - absorbance C - concentration of absorbing molecule E - molar absorptivity (measurement of how strongly it absorbs light) b - cell path length
which has higher oxygen affinity? myoglobin or hemoglobin? myoglobin
which has higher oxygen affinity? fetal hemoglobin or adult hemoglobin? fetal hemoglobin
the positive electrode for ECG is placed on the left arm
the negative electrode for ECG is placed on the right arm
the earth electrode for ECG is placed on the right leg
what structure is labeled 1 common carotid artery
what structure is labeled 2 brachiocephalic trunk
what structure is labeled 3 aortic arch
what structure is labeled 4 pulmonary artery
what structure is labeled 5 pulmonary trunk
what structure is labeled 6 thoracic aorta
what structure is labeled 1 subclavian artery
what structure is labeled 2 axillary artery
what structure is labeled 3 brachial artery
what structure is labeled 4 radial artery
what structure is labeled 1 abdominal aorta
what structure is labeled 2 celiac trunk
what structure is labeled 3 superior mesenteric artery
what structure is labeled 4 inferior mesenteric artery
what structure is labeled 1 common iliac artery
what structure is labeled 2 internal iliac artery
what structure is labeled 3 external iliac artery
what structure is labeled 4 femoral artery
what structure is labeled 1 internal jugular vein
what structure is labeled 2 brachiocephalic vein
what structure is labeled 3 superior vena cava
what structure is labeled 4 inferior vena cava
what structure is labeled 1 subclavian vein
what structure is labeled 2 axillary vein
what structure is labeled 3 cephalic vein
what structure is labeled 4 basilic vein
what structure is labeled 1 hepatic vein
what structure is labeled 2 hepatic portal vein
what structure is labeled 3 renal veins
what structure is labeled 4 inferior vena cava
what structure is labeled 1 common iliac vein
what structure is labeled 2 external iliac vein
what structure is labeled 3 internal iliac vein
what structure is labeled 4 great saphenous vein
what structure is labeled 5 femoral vein
what is A pulmonary trunk
what is B aorta
what is C superior vena cava
what is D pulmonary vein
what is 2 interventricular septum
what is 3 tricuspid valve
what is 4 bicuspid valve
what is 5 papillary muscle
what is 6 pectinate muscle
what is 7 chordae tendinae
what is 1 interventricular sulcus
what is 8 ventricle
what is 9 atrium
what is 1 subclavian artery
what is 2 common carotid artery
what is 4 on the left side (anatomical position) aortic arch
what is 4 on the right side (anatomical position) brachiocephalic trunk
what is 5 ascending aorta
what is 6 atrium
what is 7 ventricle
arteries carry blood (away from/to) the heart away from
veins carry blood (away from/to) the heart to
the size of the lumen is bigger on an artery or a vein vein
the thickness of the wall is larger on an artery or a vein artery
what is 1 and 2 1 - vein 2 - artery
the lub sound (first heart sound) is created because these valves close AV valves
the dub sound (second heart sound) is created because these valves close SL valves
in this wave of the ecg, there is atrial depolarization p wave
in this wave of the ecg, there is atrial repolarization and ventricular depolarization qrs wave
in this wave of the ecg, there is ventricular repolarization t wave
how is p wave amplitude and duration affected after exercise amplitude goes up and duration goes up
how is qrs amplitude and duration affected after exercise both stay pretty similar
how is the t wave amplitude and duration affected after exercise amplitude increases and duration decreases
when does the first heart sound happen based on an ecg 0.05 seconds after R
when does the second heart sound happen based on ecg 0.05 seconds after T
what is the calibration force for the force transducer setup 49 mN
the positive lead attaches to this part for the frog experiment hook with heart
the negative lead attaches to this part for the frog experiment right shoulder
the earth lead attaches to this part for the frog experiment left thigh
how many atria and ventricles do frogs have compared to humans frogs have 2 atria and 1 ventricle humans have 2 atria and 2 ventricles
is there oxygen separation in the frog heart no
where are the pacemaker cells in a frog compared to human frog - SV node human - SA node
a decrease in temperature results in this change in heart rate. this is because proteins and enzymes require higher temperatures to work efficiently. decrease in heart rate
an increase in calcium concentrations leads to these changes in force and HR. the reasoning is that calcium facilitates the cross bridge formation between thick and thin filaments which increases contractility. increase in force, little or no increase in HR
an increase is potassium concentration leads to this change in HR and force. this is because potassium depolarizes the membrane potential of pacemaker cells and decreases driving force. increase in HR then decrease in HR no change in force
when adding isuprel to the frog heart, this is how HR and contractile force changed. This is because it activates beta1 adrenergic receptors which causes Gs stimulation, increases adenyl cyclase, increase cAMP, increase HCN channel activity, increase pKa, increase calcium concentration. increase HR increase contractile force
when adding Ach to a frog heart, this happens to HR. This is because Ach activates muscarinic receptors and causes Gi stimulation which decreases adenyl cyclase, cAMP, HCN channel activity, decrease pKa, decrease calcium concentration. decrease HR
When adding atropine then Ach to the frog heart, this is what happens to HR and force. This is because atropine is a plant alkaloid that blocks muscarinic receptors. normal HR normal force
When mechanically stretching the frog heart, this is the expected observation. This is because of the frank-starling law increase contractile force no decline phase due to pericardium
absolute refractory in a frog heart causes this channel to inactivate Na
in frog heart experiment, which peak represents atrial contraction and ventricular contraction (big peak of little peak) atrial contraction - little peak ventricular contraction - big peak
what are the primary lymphoid organs thymus bone marrow
what are the secondary lymphoid organs spleen, lymph nodes, tonsils, appendix
this lymphoid organ is bi-lobed, Capsule- connective tissue Cortex- T cells, dendritic cells, macrophages, epithelial cells Medulla- more mature T cells, macrophages, dendritic cells, Hassall’s corpuscles thymus
this region is the darker region of thymus due to presence of lymphocytes, in comparison to this region, which has less dense concentration cortex - dark medulla - light
this lymphoid organ filters blood and is the site of initiation of immune response spleen
this pulp in the spleen serves as site of storage of RBCs and filters them red pulp
this pulp in the spleen contains clusters of T cells, B cells and Macrophages white pulp
what is the difference between indirect and direct ELISA? indirect - antigen coated direct - antibody coated
this lymphocyte doesn't involve antibodies, matures in the thymus, and directly kills infected host cells T lymphocyte
this lymphocyte secretes antibodies, matures in the thymus and bone marrow, and provides defense against pathogens B lymphocyte
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