Hemodynamics

Question 1

Hemodynamics is the correct ______ and ________ of blood and fluids within the body.

Answer 1

Flow and distribution

Question 2

What two pressures maintain correct amounts of intravascular and extravascular volumes?

Answer 2

1. hydrostatic pressures- pushing pressure out of vessel into extravascular and out of extravascular back into the vessel
2. Osmotic pressure- pulling into the vessel or pulling into extravascular

Question 3

What is abnormal distribution of fluid into the extravascular space?

Answer 3

Edema

Question 4

What are the two reasons correct blood flow is crucial for tissues?

Answer 4

1. they bring oxygen and nutrients

2. remove toxic metabolites

Question 5

What results when blood is prevented from going to an organ?

Answer 5

Ischemia

Question 6

Persistent _____ leads to cell death and the resultant area of necrotic cells is termed an _____.

Answer 6

ischemia leads to cell death, and the necrotic cells are an infarct

Question 7

Define edema.

Answer 7

It is accumulation of fluid within interstitial tissue and or body cavities resulting from an net outward movement of fluid from the vessels

Question 8

What are the five pathophysiologic causes of edema?

Answer 8

1. increased hydrostatic pressure in the vessel
2. decreased osmotic pressure in the vessel
3. Lymphatic obstruction
4. Sodium and water retention
5. Inflammation

Question 9

One of the pathophysiologic causes of edema is increased hydrostatic pressure in the vessels. What are four potential causes of this increased pressure?

Answer 9

1. Heart failure- blood backs up in the veins forcing leakage from capillaries
2. Cirrhosis of the liver- fibrous scars of the liver impair return of blood through the portal vein, increasing venous pressure
3. Venous obstruction- tumor on the vein will backup the blood increasing leakage into interstitium from the capillary bed
4. Arteriolar dilation due to heat can cause leakage

Question 10

What are four causes of decreased osmotic pressure causing edema?

Answer 10

1. Decreased albumin production from the liver (cirrhosis and other damage to liver)
2. increased protein loss from kidney (glomerular disease)
3. Malnutrition (too little protein)
4. Protein-losing enteropathy like Crohn’s

Question 11

What are the four major ways lymphatics can be obstructed? How does this cause edema?

Answer 11

1. inflammation
2. neoplastic
3. Post-surgical
4. post irradiation

Compressing the thoracic duct or lymphatic channels will decrease flow of toxic metabolites away from the tissue causing edema

Question 12

What is the major cause of salt and water retention that leads to edema?

Answer 12

Renal failure where salt is retained, thus water is retained causing:

1. increased hydrostatic pressure
2. Decreased vascular osmotic pressure

This can occur because of high salt intake and renal insufficiency OR normal salt intake but increased renal tubular reabsorption

Question 13

How does inflammation cause edema?

Answer 13

Inflammation increased blood flow and vascular permeability in infected tissue

Question 14

What is a transudate?

What would be two pathological causes of transudate?

Answer 14

fluid that is low in cells and proteins that has a specific gravity less than 1.012

1. cardiac failure
2. loss of proteins via kidney

Question 15

What is an exudate?

What would be a pathological cause of exudate?

Answer 15

It is a fluid high in cells and proteins that has a specific gravity greater than 1.012.

Inflammation causes exudate

Question 16

What is dependent edema?

What would be a major cause?

Answer 16

Dependent edema is where fluid accumulation is dependent on gravity.
It occurs frequently with heart failure where the fluid is backed up in venous circulation. In standing people, fluid pools at the feet. If someone is lying down it pools in the center

Question 17

What is pitting edema?

Answer 17

When you compress edema with your finger and it leaves an impression

Question 18

What is anasarca?

What pathological condition is it often associated with?

Answer 18

Generalized edema of the whole body (sub-cutaneous and body cavity) usually caused by protein loss by the kidney (glomerular disease)

Question 19

What are the clinical effects of soft tissue and extremity edema?

Answer 19

There is generally no significant damage (except delayed would healing and clearance of infection)

The main reason edematous extremities and soft tissue are of concern is because they are a clue to an underlying condition like kidney failure of cardiac failure.

Question 20

What are the clinical effects of edema in the lungs?

Answer 20

fluid fills the alveoli and pleural cavity which:

1. impairs the ability of the lung to oxygenate RBC
2. provides an environment conducive for infection

Question 21

What are the clinical effects of edema in the brain?

Answer 21

Edema causes the brain to expand and because the skull is an enclosed area, it can lead to flattened gyri and narrowed sulci.
Herniations are the result of the expanding brain

Question 22

What is a herniation?

What are the three main areas where this occurs?

Answer 22

When the brain expands through available spaces

1. subfalcine
2. uncal
3. cerebellar tonsillar

Question 23

What is a subfalcine herniation?

Answer 23

When the cingulate gyrus herniates under the falx cerebri

Question 24

What is an uncal herniation?

What are the clinical presentations of someone that may have an uncal herniation?

Answer 24

When the unci herniates under the tentorium and compresses:

1. CN3 causing pupil dilation
2. posterior cerebral artery (ipsi occipital lobe infarct)

Question 25

What is a cerebellar tonsillar herniation?

What would be the clinical presentation of someone who had this?

Answer 25

It is when the tonsils herniate down the foramen magnum and compress the brainstem.
This shuts of respiratory and cardiac functions and causes death.

Question 26

Which herniation is the most serious clinically?

Answer 26

Cerebellar tonsillar herniation because it can compress the brainstem and cause death

Question 27

What role does the renin-angiotensin-aldosterone system and renal hypoperfusion play in edema?

Answer 27

When there is decreased flow to the kidneys, the renin-angiotensin-aldosterone system is activated to retain Na and water because of low persfusion. This exacerbates edema because of the retained fluid and Na causing increased hydrostatic pressure

Question 28

Contrast generalized and dependent edema with respect to etiology.

Answer 28

Generalized edema (anasarca) is edema of the entire body and body cavities due to increased protein filtration by the kidneys (kidney failure)
Dependent edema is fluid accumulation pulling in veins furthest from the heart commonly associated with heart failure

Question 29

What is hyperemia?

Answer 29

Active accumulation of blood due to increased flow and arteriolar dilation (inflammation, heat induced swelling)

Question 30

What is congestion?

What are the two types of congestion?

Answer 30

Passive accumulation of blood due to impaired venous return.

1. Acute passive congestion- occurs quickly and recently developed
2. Chronic- congestion occurs over time and results in damage to the organ

Question 31

In what situation (hyperemia, acute passive congestion, chronic passive congestion) would you see engorged vessels that are dilated?

Answer 31

Hyperemia and acute passive congestion

Question 32

You are looking at a gross specimen that appears wet and oozing with blood.
You then look at a slide and see blood engorging the alveoli that are dilated.
This presentation could point to ________ or ___________.
How do you differntiate between these two situations?

Answer 32

It could be hyperemia or acute passive congestion and you would differentiate between these two using clinical correlation

Question 33

What would you see on a slide of chronic passive congestion?

Answer 33

RBC broken down
Hemosiderin in cells
Macrophages
Inflammation and scarring

Question 34

What would be the most common cause of chronic passive congestion in the lung?
Describe gross and microscopic morphology.

Answer 34

Left-sided heart failure would cause chronic passive congestion in the lung because blood backs up in the lungs due to the left ventricle not pumping fast enough
Gross: pigmented, heavy, firm lungs
Microscopic: Hemosiderin in macrophages and fibrosis of alveolar septa

Question 35

What is “heart failure cells”?

Answer 35

Hemosiderin laden macrophages

Question 36

What is the major cause of chronic passive congestion of the liver?

Answer 36

Right-sided heart failure which causes blood to back up in the liver

Question 37

What is the morphology of chronic passive congestion of the liver?

1. Gross
2. Microscopic

Answer 37

1. Nutmeg liver- shrunken and hemorrhagic central lobar areas (mottled red areas around central vein because they are last to get O2 and become ischemic)
2. Fibrosis around central veins due to them being last to get O2 and first to become ischemic

Question 38

What is a hemorrhage?

Answer 38

Extravasation (leaking) of blood from vessels into the extravascular space

Question 39

What are the three types of hemorrhage?

Answer 39

1. Petechial- pinpoint (1-2mm) on skin, mucous, serosal surface
2. Purpura- (3-5mm)
3. Ecchymosis (larger than a cm)

Question 40

What are the common causes of petechial hemorrhage?

Answer 40

thrombocytopenia
platelet dysfunction
increased vascular pressure
clotting factor deficiencies

Question 41

What are the common causes of purpural hemorrhage?

Answer 41

Same as petechial but including increased vascular fragility (elderly) and trauma

Question 42

What are the common causes of ecchymosis?

Answer 42

trauma and fragility (usually associated with age)

Ecchymosis is bruising

Question 43

What two factors determine severity of hemorrhage?

Answer 43

1. Location of hemorrhage- (250ml from skin is insignificant but 5ml from brainstem can be fatal)
2. Loss of blood (amount)- to die you need to lose 30% of blood

Question 44

What is a hemothorax?

Answer 44

Hemorrhage in the pleural cavity

Question 45

What is a hemoperocardium?

Answer 45

Hemorrhage in the pericardial cavity

Question 46

What is a hemorrhage in the peritoneal cavity called?

Answer 46

Hemoperitoneum

Question 47

What is an infarct?

Answer 47

Area of dead cells within an organ due to occlusion of arterial blood supply or venous drainage

Question 48

What is the difference between hypoxia and ischemia?

Answer 48

Hypoxia is lack of oxygen to an organ
Ischemia is lack of blood which makes it more damaging than hypoxia because there is decreased oxygen AND decreased nutrients AND decreased removal of toxic metabolites

Question 49

What is the most common cause of an infarct?

Answer 49

Arterial thrombus or embolism

Question 50

What are the three major causes of infarct?

Answer 50

1. Obstruction of a vessel (artery or vein)- thrombus, embolism, artherosclerosis, extrinsic compression
2. Vessel damage
3. Generalized hypotension (shock)

Question 51

What are the four noted ways that a vessel can be obstructed (thus causing infarction)?

Answer 51

1. Thrombus
2. Embolism
3. Vessel compression (tumor, twisted vessel)
4. Atherosclerosis

Question 52

What are the 3 main types of infarct?

Answer 52

Red, white and septic

Question 53

What causes a red infarct?

What organs typically have red infarct?

Answer 53

Blood within the hemorrhage. This occurs in organs that have dual blood supply and/or loose parechymal tissue that allows for leakage of blood
Ex. Lungs

Question 54

What is the most frequent cause of a red infarct?

Answer 54

Venous infarct because the artery still pumps blood to the tissue but it isn’t removed (no new O2 gets in because of the backup–> infarcted tissue)

Question 55

What occurs when blood flow returns to an organ that had been ischemic?

Answer 55

Repurfusion injury

Question 56

What is the gross presentation of red infarct and what is the microscopic presentation?

Answer 56

Gross- red and soft

Micro- coagulative necrosis (maintained cell shape, no nuclei)

Question 57

What organs typically display white (anemic) infarction?

Answer 57

Organs with single blood supply (this is the end arterial flow with no collateral supply), and solid parenchyma.
Ex. Heart, liver, spleen

Question 58

What is the morphology of white infarct?

1. Gross
2. Micro

Answer 58

1. soft, white, tend to be wedge shaped at end of occluded vessel
2. coagulative necrosis

Question 59

What is septic infarct vs bland?

Answer 59

It is infected vs. non-infected

Question 60

What are the two major causes of septic infarct?

Answer 60

1. Embolization of bacterial vegetation (that has grown on heart valves, etc)
2. Bacterial seeding of necrotic tissue

Question 61

What is the morphology of a septic infarct?

Answer 61

It progresses from infarct to abscess

Question 62

What are the four major factors that influence the development of an infarct?

Answer 62

1. vascular supply - dual vs end-arterial
2. Rate of development- does it allow time for collateral circulation?
3. Vulnerability of cells to hypoxia- neurons die faster than myocytes
4. Oxygen content of blood- anemic are more susceptible to infarct