Fluid and Hemodynamics (trans 5)

Question 1

NORMAL DISTRIBUTION OF BODY WATER

Our body is composed of 60% water; and 40% comes from fat, mineral etc.

Answer 1

Water component (60% of BODY MASS)
- intracellular fluids (within the cell), comprising 60% of total body water
- extracellular fluids (outside the cell), comprising 40% of total body water
THE REMAINING 40%
- mineral (7%)
- Fat (15%)
- Protein (18%)

Question 2

The extracellular fluids (40% of total body water)

Answer 2

o the intravascular/transcellular fluid (5% of total body weight), which is composed of the plasma and cellular components of blood
o the interstitial fluid (13% of total body weight), which bathes the tissues

Question 3

The intracellular fluids = 2/3 of total body water

Answer 3

The extracellular fluids = 1/3 of total body of water

• Interstital = 95% of total extracellular fluid
• intravascular = 5% of total extracellular fluid

Question 4

REMEMBER

• Fluid exchange, which occurs at the capillary level between the vascular and interstitial components, is very dynamic.
• Due to numerous junctional gaps found in capillaries, water is able to move freely between the two compartments.
• However, the volume lost at the arterial end is regained at the venous end of the capillaries

Answer 4

o At the arterial end, where the hydrostatic pressure is high, water tends to flow out to the interstitial space.
o As opposed to the venular end, where the osmotic pressure is high, water tends to flow back into the vascular compartment.
**Thus, in the normal hemodynamic state, there is no net gain or loss of fluid.

Question 5

Homeostasis Maintenance

Normal fluid homeostasis is maintained within physiological ranges by the following:

Answer 5

o Endothelial/vessel wall integrity
o Intravascular pressure (primarily exerted by hydrostatic pressure)
o Plasma osmolarity (highly dependent on albumin concentration)

Question 6

Two types of forces drive normal fluid exchange:

Answer 6

1. Hydrostatic pressure (drives filtration)

2. Oncotic or osmotic pressure (drives reabsorbtion)

Question 7

Homeostasis Maintenance:
Hydrostatic pressure
- Drives fluid out from the intravascular space to the interstitial space

Answer 7

Affected by:

• Cardiac output (eg. blood pressure)
• Vessel wall elasticity: if you have a blood vessel that is spastic or tonically contracted, you expect to see elevated blood pressure, and this will increase the hydrostatic pressure allowing water to move from the intravascular to the interstitial space
• Vascular tone
• Blood volume

Question 8

Homeostasis Maintenance:

Oncotic or osmotic pressure

Answer 8

 Pressure which drives fluid from the interstitium back into the intravascular space
 Maintained by protein level in the blood especially that of serum albumin level
 For instance, if albumin level is low, such as in malnutrition, osmotic pressure is reduced, thus, fluid reabsorption is decreased. This lead to edema, one of its most important clinical manifestations.

Question 9

Normal Microcirculation
Arterial
Hydrostatic pressure: +36
oncotic pressure: -26
Net: +10 mmHg (leak-out)

Answer 9

Normal Microcirculation
Venous
Hydrostatic pressure: +16
oncotic pressure: -26
Net: - 9 mmHg (leak-out)

Question 10

DERANGEMENTS: EDEMA
 excessive accumulation of fluid in the interstitium and body cavities
 an expansion of the interstitial fluid compartment

Answer 10

Abnormal manifestations in patients:
o the weight of the patient INCREASES => instead of being excreted, the water is retained in the extracellular space
o the skin is distended/bloated
o periorbital edema => water accumulates in tissues that are loose, i.e. under the eyes

Question 11

DERANGEMENTS: EDEMA
Types of Edema
a. Inflammatory (Exudative) edema
o increased vascular permeability => water and other plasma components get out of the blood vessels
o e.g. thermal injury
b. Non-inflammatory (Transudative) edema
o changes in hemodynamic forces (hydrostatic and oncotic forces)
o e.g. malnutrition – problem of reduced oncotic pressure

Answer 11

c. Localized
Fluid accumulation tends to be regional, located in a particular organ system.
o Hydropericardium – fluid accumulates in pericardial sac
o Hydrothorax (pleural effusion) – edema is in thoracic cavity
o Hydroperitoneum (ascitis) – excessive fluid in peritoneal space
o Localized Sub-Epidermal Bullae – accumulation of water beneath the skin
d. Generalized (Anasarca)
o Congestive Heart Failure (CHF): the heart fails => cardiac output is reduced => back flowing of blood => blood retention in the lungs => increase in hydrostatic pressure => generalized edema
o Nephrotic Syndrome
o Malnutrition
o Hydrops Fetalis – fetus looks very big, shiny and swollen because of a congenital anomaly

Question 12

Inflammatory Edema
Other term: Exudative
Protein content: HIGH => because of altered permeability of endothelial cells
Fibrin content: Fibrin-rich fluid
Cell content: Inflammatory cells typical (HIGH)
Specific gravity: > 1.020 (water contains proteins and cells)
Process: Usually a LOCALIZED process
Pathogenesis: Increase vascular permeability

Answer 12

Non-inflammatory Edema
Other term: Transudate
Protein content: LOW => no alteration in endothelial permeability
Fibrin content: No fibrin in fluid
Cell content: No inflammatory cells in fluid (or FEW)
Specific gravity:

Question 13

Pathophysiologic Categories of Edema

Answer 13

a. Increased hydrostatic pressure
b. Reduced plasma osmotic pressure
c. Lymphatic obstruction
d. Sodium/Water retention
e. Inflammation

Question 14

Pathophysiologic Categories of Edema:
Increased hydrostatic pressure
Clinical situations:
o Impaired venous return/increase venous pressure: CHF, constrictive pericarditis, liver cirrhosis, venous obstruction/compression
o Arteriolar dilatation: heat and neurohumoral regulation (i.e. in heat stroke patients, one of the clinical manifestations is general swelling)

Answer 14

Mechanism of Edema in Increased Hydrostatic Pressure. For example, in high blood pressure: the normal 36 mmHg at the arterial end is much higher => more water getting out => excessive accumulation of water in interstitial space.
Note: The lymphatic system attempts to compensate by increasing drainage

Question 15

Pathophysiologic Categories of Edema:
Increased hydrostatic pressure - Pathogenesis of edema in CHF
o One of the prominent clinical manifestations of CHF is edema. In CHF, from whatever cause, the heart fails to function normally.
o Two types of heart failure: high-output and lowoutput cardiac failure. Whatever mechanism, the cardiac output is reduced. As a result, there is a reduction of Effective Arterial Blood Volume (EABV): the blood doesn’t come out, the volume is reduced, the circulating blood volume in the arterial side is decreased

Answer 15

o Secondary compensatory mechanisms come into play in order to maintain the EABV:
i. renin-angiotensin-aldosterone system – stimulates the kidney to reabsorb sodium and water into intravascular space => increased hydrostatic pressure
ii. vasopressin release –a peptide hormone released by the pituitary gland which promotes water retention by the kidneys
iii. sympathetic system
o These mechanisms will lead to sodium and water retention => increase plasma volume => transudation => EDEMA

Question 16

Pathophysiologic Categories of Edema:

Increased hydrostatic pressure - Pathogenesis of edema in cirrhosis

Answer 16

o Cause: hepatitis (virus), metabolic disorders, alcohol (toxins)
o Produces scarring, which causes obstruction of the blood vessels in the liver and results in portal hypertension and splanchnic vasodilation => leads to localized accumulation of water in the abdominal cavity called ascites/hydroperitoneum
o Venous return is decreased which in turn causes decreased EABV => EDEMA

Question 17

Pathophysiologic Categories of Edema: Reduced plasma osmotic pressure

Answer 17

Clinical situations
o Nephrotic syndrome – the glomerular capillaries are very leaky, very permeable => water and protein is lost in the kidney => proteinuria => decreased protein level => reduced osmotic pressure => drawing capacity of water from interstitium back to intravascular is lost
o Liver cirrhosis – when liver is damaged, low production of protein => hypoalbuminemia
o Malnutririon and Protein losing enteropathy
**On both diseases, the loss of protein is in gastrointestinal system => low circulating plasma oncotic pressure

Question 18

Pathophysiologic Categories of Edema: Lymphatic obstruction

- if lymphatic channels are damaged => absorptive capacity is lost => retention of water

Answer 18

Clinical situations:

• Tumor infiltration: these are seen in clinical situations when there’s a tumor that encroaches on the lymph node => lymphatic obstruction
• Inflammatory scarring (e.g. filariasis)
• Postsurgical complication: in breast cancer surgery, the standard surgical care is to remove the breast and axillary node => as a result, no drainage of lymphatic channels in the arm
• Postradiation complication

Question 19

Pathophysiologic Categories of Edema: Sodium/Water retention
 commonly seen in clinical situations like acute renal failure, conditions wherein you have increase in salt intake and increase in tubular reabsorption

Answer 19

If you keep on eating salty food, you’ll become swollen because of an increase of sodium in your body => water tends to produce hemostasis => absorb/retain water together with sodium => hydrostatic pressure is increased => EDEMA

Question 20

Pathophysiologic Categories of Edema: Inflammation

 seen in acute inflammation, chronic inflammation and angiogenesis

Answer 20

In granulation tissue, there’s angiogenesis => these new vessels are very young and the gap junctions are very porous => water escapes => EDEMA

Question 21

Morphology of Edema

Gross

Answer 21

o Increase weight
o Organomegaly
o Moist, wet, glistening
o Subcutaneous edema
- Dependent/pitting
- Fluid gravitates and accumulates in dependent part of the body
- Water gravitates to the lower extremities when standing.
- Loss of elastic recoil is manifested by putting
pressure on the site of edema: PITTING

Question 22

Morphology of Edema

Histology

Answer 22

Histology
o Loosening/separation of extracellular matrix
o Accumulation of poor staining extracellular material (water)

Question 23

Pulmonary Edema

- Fluid accumulates in the alveolar space

Answer 23

Associated Diseases
o Liver failure
o Renal Failure
o Acute respiratory distress syndrome (ARDS)
o Infections

Question 24

Pulmonary Edema

Signs/Symptoms

Answer 24

o Dyspnea (difficulty in breathing)
o Orthopnea
o Paroxysmal nocturnal dyspnea
- Dyspnea worsens at night
- Water accumulates at dependent part supine

Question 25

Pulmonary Edema

Morphology

Answer 25

o Distended alveoli with pink proteinaceous fluid
o Septal congestion
o Sectioning yields frothy, blood-tinge fluid

Question 26

Cerebral Edema

Associated Diseases

Answer 26

o Brain tumors
o Infection
o Hypertension
o Injury/trauma

Question 27

Cerebral Edema

Signs/Symptoms

Answer 27

o Stupor
o Coma
o Death
o Disorientation

Question 28

Cerebral Edema

Morphology

Answer 28

o Enlargement
o Swelling
o Narrowing of sulci
o Distention of gyri

Question 29

DERANGEMENTS: HYPEREMIA/CONGESTION

• Local increased blood volume in an affected organ or tissue.
• Usually in a small blood vessel because of their tensile elasticity

Answer 29

a. Hyperemia (Active Hyperemia)
o increase blood flow to capillaries secondary to arterial/arteriolar dilatation (ex. blushing)
b. Congestion (Passive Hyperemia)
o Retention of blood secondary to impaired venous drainage (ex. CHF)

Question 30

Active
Hyperemia
Pathogenesis: 
- Arterial dilatation
- Sympathetic N.S.stimulation
- Vasoactivesubstances
Morphology: Bright red discoloration (ex. blushing,
exercise, inflammation)

Answer 30

Passive Hyperemia/Congestion
Pathogenesis:
- Impaired outflow
- Venous obstruction
Morphology: Blue-red discoloration (cyanotic)

Question 31

DERANGEMENTS: Congestion

Types of Congestion

Answer 31

a. Acute Congestion (Passive Hyperemia)

b. Chronic Congestion (Long Standing Congestion)

Question 32

DERANGEMENTS: Congestion of the lungs
Acute Pulmonary Congestion (passive hyperemia)
 Gross appearance: heavy, dark red, violaceous
 Histologic appearance: septal cavity engorged and thickened with blood
 Associated with septal edema and alveolar hemorrhage and edema

Answer 32

Chronic Passive Congestion of Lung
 thickened, fibrotic alveolar septal wall
 alveolar congestion/septal hemorrhage
 presence of heart failure cells (macrophages containing hemosiderin) in the lungs
 Long Standing: Pulmonary Hypertension
 can cause irreversible effects in the lungs
 Chronic Pulmonary Congestion is the important clinical finding associated with congestive heart failure

Question 33

DERANGEMENTS: Congestion of the Liver
Acute Hepatic Congestion
o central venous congestion
o central hepatocytic necrosis and hemorrhages
o sparing of periportal hepatocytes

Answer 33

Chronic Hepatic Congestion

• Occurs at the center
• Produces the classical nutmeg appearance of the liver
• Has a characteristic dark, pale area
• Dark Areas: area of congestion
• Pale Areas- relative sparring of peri-portal hepatocytes
• Centrilobular necrosis, hemosiderin laden macrophages and degeneration of hepatocytes
• Long Standing Complication: Liver Cirrhosis

Question 34

DERANGEMENTS: HEMORRHAGE

extravasation of red blood cells secondary to blood vessel rupture

Answer 34

Types of Hemorrhage
- According to site
1. Hemothorax
2. Hemopericardium
3. Hemoperitoneum
4. Hemarthrosis – blood accumulates in the
synovial space
- According to size:
1. Petechiae
2. Purpura
3. Ecchymosis
4. Hematoma

Question 35

DERANGEMENTS: HEMORRHAGE ACCORDING TO SIZE

Petechiae

Answer 35

1-2mm very small pinpoint hemorrhage. Usually located in themucosa. Related to capillary ruptures

Question 36

DERANGEMENTS: HEMORRHAGE ACCORDING TO SIZE

Purpura

Answer 36

greater than 2-3mm usually in the mucosa or skin based, flat lesions; associated with the disease amyloidosis

Question 37

DERANGEMENTS: HEMORRHAGE ACCORDING TO SIZE

Ecchymosis

Answer 37

greater than 1-2cm, large clumped regions, blue black spots also in the skin or mucosa big flat map-like lesions.

Question 38

DERANGEMENTS: HEMORRHAGE ACCORDING TO SIZE

Hematoma

Answer 38

Characterized by large amounts of blood; location of hematoma can be fatal such as subdural hematoma

Question 39

DERANGEMENTS: HEMORRHAGE

Pathogenesis

Answer 39

a. Trauma/Laceration– major cause
b. Atherosclerosis – fat deposition on blood vessel wall can lead to endothelial damage
c. Inflammation – weakened blood vessel can lead to rupture
d. Neoplastic erosion of blood vessel – tumor or cancerous growth eroding the blood vessel
e. Hemorrhagic diathesis – abnormality in the coagulation pathway by which the patients are prone to bleed

Question 40

Significance of hemorrhage depends on:
 the volume of blood loss
 the rate of blood loss
 the site of hemorrhage

Answer 40

Clinical significance of hemorrhage:
 Significant blood loss – hemorrhagic/hypovolemic shock
 Bleeding into vital organs like brain, lung and pericardium (cardiac tamponade)
 External blood loss – blood hemoglobin falls leading to iron deficiency anemia
 Internal blood loss – red blood cell distraction can be source of increased bilirubin leading to jaundice