понедельник, 5 марта 2018 г.

Heart Dissection Lab

Here below is a HEART DISSECTION lab report. We do the lab with the 8th graders. Enjoy!
Title: Heart dissection.
Purpose: to list and describe the principal structures of the mammalian heart; to identify important parts of the heart, to be able to explain heart work.
Equipment: dissection pan, heart, scalpel, scissors.
Background: The heart is a muscle that pumps oxygenated blood and nutrients throughout the body. A sheep’s heart has four chambers like most mammals. Two of those chambers are receiving chambers called the right and left atrium. The other two chambers are pumping chambers called the right and left ventricle. The efficiency in the cycle of blood depends on the sequential contraction of the atriums and ventricles. Whenever the atriums contract this is called the systolic phase and whenever the ventricles contract this is called the diastolic phase.
Blood flow through the heart starts when the right atrium takes the blood that flows in through the superior or inferior vena cava. The right atrium then fills with blood and pressure causes tricuspid valve to open. The blood then goes into the right ventricle where it contracts the blood into the pulmonary arteries. These arteries lead to the lungs where blood is then oxygenated. The oxygenated blood then flows from the lungs to the left atrium through the pulmonary veins. Due to pressure the mitral valve, which leads to the left ventricle, opens up and pushes the blood into the left ventricle. The left ventricle then contracts and forces the blood through the aorta, which provides the rest of the body with blood.
Procedure:
Place the sheep’s heart in the dissecting tray and turn the heart so that the ventral surface is facing you. Locate the left and right atriums, the left and right ventricles, the aorta, the pulmonary arteries, and the superior and inferior vena cava. Turn the heart over to locate the pulmonary veins. Next, Use a blunt metal probe to explore the blood vessels that lead into and out of the chambers in the heart. Then, Locate a diagonal deposit of fat along the lower two-thirds of the heart. Use this fatty deposit to help you guide your incision into the heart.
Following the cutting diagram below study the anatomy of the right side of the heart. With the heart on the ventral side facing you and the apex pointing downwards, cut along line 1. Cut just deep enough to go through the atria wall and continue the cut into the right ventricle. With a probe, push open the heart at the cut and examine the internal structure. Cut along line 2 and extend the cut upward toward the pulmonary artery. Cut just deep enough to go through the ventricle wall. Complete the cut on line 3. Cut downward along the pulmonary artery around the wall of the right atrium and upward along the right of the superior vena cava. With tweezers, carefully lift the resulting flap to expose the structures underneath. Follow the cutting diagram below very carefully to study the anatomy of the left side of the heart. Start to cut on line 4 at the top of the left atrium and continue into the left ventricle. Cut just deep enough to go through the ventricle wall. Cut on line 5 across the middle of the left ventricle into the aorta. Leave a small margin between this cut and the cut previously made for line 2. Begin to cut on line 6 on the left atrium where cut 4 began. Extend this cut around and through the pulmonary artery upward on the aorta to the right of cut 5. With tweezers, carefully lift up the resulting flap to expose the structure underneath. Observe the thick septum dividing the left and right ventricles. Also note the thickness of the walls of the left ventricle. Locate the tricuspid valve between the right atrium and ventricle. Locate the mitral valve between the left atrium and ventricles. Observe that the valves are connected by fibers to the inner surface of the ventricle. Use a probe to explore the openings in the valves. With a scalpel, cut across a section of the aorta and a section of the vena cava. Compare the thickness of their walls. Dispose of your materials according to the directions from your teacher. Finally, clean up your work area and wash your hands before leaving the lab.
Result: We carried out all the stages of the lab work correctly.
While conducting part A …
In part B …
Conclusion:
  1. Trace the path of blood from the right atrium to the aorta.
  2. Pulmonary circulation carries blood between the heart and the lungs. Systemic circulation carries blood to the rest of the body. In what chambers of the heart does pulmonary circulation begin and end? In what chambers does systemic circulation begin and end?
  3. What is the function of the septum separating the left and right ventricles?
  4. What is the function of the mitral and tricuspid valves?
  5. Why are the walls of the left ventricle thicker than the walls of the right ventricle?
In part A … I think it was … It is also possible that the brain …

In part B … I think it was the result of … Point proven.

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