Lab Exam #2 part II
Granulocytes
(1) Neutrophils (2) Basophils (3) Eosinophils
bicuspid
(mitral) valve lets oxygen-rich blood from your lungs pass from the left atrium into the left ventricle (left AV valve).
Placenta (Human)
Allantois, Chorion, Yolk Sac
diastole
relaxation, correlates to arterial elastic recoil
Endoderm
Lining of digestive/respiratory system
T-wave
Lower heart chambers are resetting electrically and preparing for next contraction
DUBB
Pulmonary and aortic valves close
Allantois (Chick)
Waste storage
LUPP
trsicuspid and bicuspid valves shut and pulmonary arctic valves open
Blood is returned to your heart through
venules and veins.
Agranulocytes
(1) Lymphocytes B & T (2) Monocytes
Amnion (Chick)
Amniotic fluid
Amnion (Human)
Amniotic fluid
Blood Flow
Blood delivers oxygen and nutrients to every cell and removes the carbon dioxide and waste products made by those cells. Blood is carried from your heart to the rest of your body through a complex network of arteries, arterioles, and capillaries. Blood is returned to your heart through venules and veins. The one-way circulatory system carries blood to all parts of your body. This process of blood flow within your body is called circulation. Arteries carry oxygen-rich blood away from your heart, and veins carry oxygen-poor blood back to your heart. In pulmonary circulation, though, the roles are switched. It is the pulmonary artery that brings oxygen-poor blood into your lungs and the pulmonary vein that brings oxygen-rich blood back to your heart
Reproduction and Embryology
Developmental stages--Starfish embryology (compound microscope) Zygote → Morula (solid ball of cells) → → → Blastula with blastocoel →Gastrula with blastopore opening into archenteron (endoderm & ectoderm) →triploblastic
Yolk Sac (Chick)
Food
Chorion (Chick)
Gas exchange
Leukocytes (WBC)
Granulocytes: (1) Neutrophils (2) Basophils (3) Eosinophils Agranulocytes (1) Lymphocytes B & T (2) Monocytes
QRS complex
Movement of the electrical impulses through the lower chambers of the heart represents 1) atrial repolarization 2) ventricular depolarization Atrial relax and Ventricular contract
Heart Valves
The tricuspid valve regulates blood flow between the right atrium and right ventricle (right AV valve). The pulmonary semilunar valve controls blood flow from the right ventricle into the pulmonary arteries, which carry blood to your lungs to pick up oxygen. The bicuspid (mitral) valve lets oxygen-rich blood from your lungs pass from the left atrium into the left ventricle (left AV valve). The aortic semilunar valve opens the way for oxygen-rich blood to pass from the left ventricle into the aorta, your body's largest artery, where it is delivered to the rest of your body.
terrestrial vertebrate embryological development
Yolk Sac, Amnion, Allantois, Chorion
Mesoderm
circulatory, muscular & skeletal system; connective tissue
systole
contraction correlates to cardiac function and how hard the heart is pumping
pulmonary semilunar valve
controls blood flow from the right ventricle into the pulmonary arteries, which carry blood to your lungs to pick up oxygen
Germ Layers
ectoderm, mesoderm, endoderm
P-wave
electrical activity through upper heart chambers, represents atrial depolarization. Atria contracts
The primary germ layers are
embryonic tissues from which all tissues & organs develop
Platelets
involved in hemostasis
Ectoderm
nervous system & epidermis of skin
aortic semilunar valve
opens the way for oxygen-rich blood to pass from the left ventricle into the aorta, your body's largest artery, where it is delivered to the rest of your body.
Erythrocytes
red blood cells; biconcave discs; hemoglobin; oxygen transport
tricuspid valve
regulates blood flow between the right atrium and right ventricle (right AV valve).
Leukocytes
white blood cells