Circulatory System

Question 1

GENERAL CONSIDERATIONS
CARDIOVASCULAR SYSTEM

Answer 1

• Mediates continuous flow of all body fluids.
• Transport oxygen and nutrients to the tissues.
• Transport carbon dioxide and metabolic waste products from the tissues.
• Thermoregulation.
• Distribution of hormones and cells (immune system cells).

Question 2

COMPONENTS OF THE
CARDIOVASCULAR SYSTEM

Answer 2

• Heart
• Highly modified, muscular blood vessel pumps the blood.
• Closed circuit of vessels (as blood leaves the heart):
  A. Elastic arteries (aorta and pulmonary arteries)
  B. Muscular arteries
  C. Small arteries and arterioles
  D. Capillaries
  E. Venules and small veins
  F. Medium veins
  G. Large veins (venae cava)

Question 3

TYPES OF CIRCULATION

Answer 3

• PULMONARY
• SYSTEMIC
• LYMPHATIC

Question 4

PULMONARY
CIRCULATION - right heart

Answer 4

Circuit of blood between the heart and the lungs.
* Blood leaves the right ventricle → pulmonary arteries → capillaries →pulmonary veins → left atrium.
* Deoxygenated blood gets sent to the lungs to get oxygenated.

Question 5

SYSTEMIC
CIRCULATION - left heart pumps oxygenated blood

Answer 5

• Distributes blood from the
  heart to the body tissues.
• Blood leaves the left ventricle → aorta →systemic arteries →systemic capillaries - in all body tissues where gas exchange occurs →systemic veins → inferior and superior vena cavae → right atrium.
• For exchange of CO2 and O2, nutrients and metabolic wastes between blood and tissues, distribution of hormones

Question 6

LYMPHATIC
CIRCULATION

Answer 6

• Outside of the heart – lymphatic system.
• A system of blind-ended lymph vessels located throughout the body that act as drainage without a pump.
• Returns the tissue fluid (lymph) to the venous circulation afterimmunological screening through the lymphatic system.

Question 7

HEART CHAMBERS

Answer 7

• The heart as four chambers:
• Atria – receiving chambers
• Right atrium - upper right chamber - get blood from superior venae cavae and coronary sinus pumps blood into the right ventricle
• Left atrium - lower right - gets blood from RA via the 4 pulmonary veins and pumps into LV
• Ventricles – discharging chambers
• Right ventricle - upper left. Gets O2 blood from the RA and pumps into pulmonary trunk which carries blood to the lungs for O2 pickup
• Left ventricle- get blood from LA and pumps into the aortic arch (brachiocephalic artery, Left common carotid artery, Left subclavian artery) and to the tissues in the systemic circuit
• Right and left sides act as separate pumps.
• Right side – participates in the pulmonary circuit.
• Left side – participates in the systemic circulation.

Question 8

HEART VALVES

Answer 8

• Allow blood to flow in only one direction (prevent backflow).
• Four heart valves:
  A. Semilunar valves—between ventricle and artery;
• Closed during heart relaxation
• Open during ventricular contraction
• Pulmonary semilunar valve
• Aortic semilunar valve

B. Atrioventricular (AV) valves—between atria and ventricles;
* Anchored in place by chordae tendineae (“heart strings”);
* Open during heart relaxation.
* Closed during ventricular contraction:
* Bicuspid (mitral) valve (left side of heart).
* Tricuspid valve (right side of heart).

Question 9

LAYERS OF THE HEART WALL

Answer 9

PERICARDIUM (Heart sac)
* Two layers enveloping the heart:
* Outer fibrous pericardium.
* Inner serous pericardium
EPICARDIUM
* Outermost layer of the heart wall.
* Covers the heart and forms the visceral layer of serous pericardium – inner layer of pericardium.
MYOCARDIUM
* Middle layer of the heart.
* Contracts to pump blood into arteries
ENDOCARDIUM
* Innermost layer of the heart.
* Lines the interior chambers and covers the heart valves.

Question 10

EPICARDIUM

Answer 10

Outer layer of the heart.
* Thin serous membrane that covers the heart and forms the visceral pericardium.
* mesothelial cells on the outer surface- squamous or cuboidal
* Morphology – Simple squamous / Simple cuboidal.
* Responsible for secretion of lubrication fluid.
* Morphology: DICT
* Adipose tissue ,Blood vessels and nerves present.

Question 11

MYOCARDIUM

Answer 11

Middle layer of the heart.
* Morphology: Striated involuntary.
* Cardiac muscle fibers have striations. a single nucleus. involuntarily controlled. intercalated discs (ID):
* Attach adjacent cells to each other.
* Allow rapid transfer of electrical impulses between cells. with Purkinje fibers

• Connective tissue involvement:
• Endomysium – CT that supports individual muscle fibers.
• Perimysium – CT that supports bundles of muscle fibers (fascicle).
• Epimysium – CT that supports the entire heart muscle = epicardium.

Question 12

ENDOCARDIUM

Answer 12

• Innermost layer of the heart.
• Endothelium:
• Thin epithelium lining the heart chamber
• Contains endothelial cells.
• Morphology: Simple squamous.
• Sub-endothelium:
• Fibrous connective tissue surrounding endothelium.
• Morphology: LOCT .
• Below endocardium:
• Conducting system of heart –conducting muscle fibers.
• Purkinje fibers – specialized type of cardiac muscle

Question 13

INTRINSIC
CONDUCTING SYSTEM

Answer 13

• Heart muscle cells contract, without nerve impulses.
• Contraction regular, continuous way through sequential stimulation.
• Special tissues in the heart sets its pace:
• Sinoatrial node
• Atrioventricular (AV) node
• BUNDLE OF HIS
• Purkinje fibers

Question 14

BASIC STRUCTURAL ORGANIZATION of the heart

Answer 14

Concentric layers of TUNICA (“coats”) that surrounds the lumen:

INNERMOST LAYER Tunica intima in blood vessels and the heart is the Endocardium
MIDDLE LAYER Tunica media in blood vessels and the heart is the Myocardium - thickest
OUTER LAYER Tunica externa/
adventitia (stretchy collagen fibers to prevent the vessels from bursting) in blood vessels and the heart is the Epicardium

Muscles involved:
* Smooth muscles in blood vessels; cardiac muscles in heart.

Nerves involved:
vasa vasorum and nervi vasorum- large blood vessels with their own blood supply and nervous stimulation

cardiac blood vessels and nerves have their own blood supply and nervous stimulation

capillary is the smallest and doesnt have the 3 tunics only the endothelium as the tunica since they are so thin

Question 15

tunics in the blood vessels

Answer 15

TUNICA INTIMA
Endothelium + Subendothelium
ARTERIES: Smooth lining
VEINS: Smooth lining with valves to ensure one-way flow.
CAPILL: entire wall

INTERNAL ELASTIC LAMINA (IEL) Elastin fibers
ARTERIES: Separates Tunica intima from Tunica media
VEINS: Absent
CAPILL: Absent

TUNICA MEDIA Smooth muscles +elastic fibers
ARTERIES: constriction and dilation of vessels. THICK
VEINS: constriction and dilation of vessels. THIN
CAPILL: Absent

EXTERNAL ELASTIC LAMINA (EEL)
Elastin fibers
ARTERIES: Separates Tunica media from Tunica externa
VEINS: Absent
CAPILL: Absent

TUNICA EXTERNA /ADVENTITIA
COLLAGEN FIBERS- DICT
ARTERIES: flexible support that resists collapse and injury. THIN
VEINS: flexible support that resists collapse and injury. THICK

CAPILL: Absent

veins in tissue look more collapsed compared to the arteries because the arteries have more pressure in pumping than veins

Question 16

ARTERIES

Answer 16

Transports blood away from the heart towards the capillary beds.
* Blood flows through large arteries → small arteries → arterioles → capillary beds → body tissues.
* Walls of arteries are muscular to accommodate changes in pressure.
*smooth muscle and elastic tissue.
* Thicker walls and smaller lumens than veins of similar size.
* Tunica media is the predominant layer

Question 17

ELASTIC tissue

Answer 17

• Large arteries and thickest
• Tunica media contains sheets of elastic tissue (IEL and EEL).
• allow aorta and pulmonary
  arteries to withstand pressure by distending and recoiling.

Question 18

MUSCULAR tissue

Answer 18

• Medium arteries.
• Tunica media is composed of smooth muscles.
• The layer of smooth muscles is bounded by IEL and EEL.
• Regulate blood pressure, contraction and relaxation of smooth muscles. deliver blood to specific organs

Question 19

SMALL ARTERIES &
ARTERIOLES

Answer 19

• Smooth muscle layer is thinner
  +/- IEL. Disappears as the diameter becomes smaller.
• Regulate blood pressure, deliver blood under low pressure to the capillary beds.
  -distributes blood from the arteries

Question 20

VEINS

Answer 20

Return blood from the capillary beds back to the heart.
* Lower blood pressure – further away from the pumping heart.
* Thinner walls and larger lumens than arteries of same size.
* Tunica adventitia predominant layer
* Large veins have valves that prevent backflow of blood.
* Skeletal muscle contractions aid in blood flow.

Question 21

LARGE VEINS

Answer 21

• smooth muscles in the tunica adventitia.
• IEL and EEL absent.
• Tunica adventitia is the predominate tunic.
• Possess valves to prevent back-flow of blood.

Question 22

MEDIUM VEINS

Answer 22

• Smooth muscle layer defined.
• IEL and EEL absent.
• Tunica adventitia is the predominate
  tunic

Question 23

SMALL VEINS &
VENULES

Answer 23

• Smooth muscles disappear as the
  diameter of the veins decreases.
• Tunica media and tunica adventitia is absent in venules.
• Walls lined by endothelium

Question 24

CAPILLARIES types

Answer 24

CONTINUOUS capillaries
* Most common.
* Endothelium and basement membrane is continuous no pores
* Found in skin and muscle.

FENESTRATED capillaries
* Endothelium contains pores.
* Found in endocrine organs and portions of the GIT.

DISCONTINUOUS capillaries- Sinusoid
* Larger diameter.
* Slower blood flow.
* Endothelium has large pores.
* Found in liver and spleen.

Question 25

DIFFERENTIATING ARTERY FROM VEIN

Answer 25

WALL PATENCY -openess
ARTERY: Lumen is open and circular.- high pressure
Three tunica layers -DISTINCT
VEIN : Lumen is more collapsed and flat.
Three tunica layers are present but not distinct

WALL THICKNESS
ARTERY: Thick muscular or elastic walls.
VEIN : Thinner wall.

PRESCENCE OF RBCs SEEN
ARTERY: Less RBCs see- travelling faster
VEIN : More likely to see RBC’s.

CONNECTIVE TISSUE
ARTERY: Less CT support compared to veins
VEIN : Broader tunica adventitia layer- more collagen - protective feature