hemodyniamic ppt 1.pptx (1).pdf

Transcript

Hemodynamic
disturbance
Lec. Dr. Asma Mohammadsheet Alhialy
M.B.Ch.B MSc.(Histopath) CABHS(surgical path.)
Pathology Department/Ninevah University/Collage of Medicine
 Objective
► The student will know and learn the following:
1. Definition of hyperemia and congestion and types of congestion
2. Definition of edema, Pathogenesis of edema, Edematous fluid types, Types of
edema, Clinical significance of edema and Pathological features of edema
3. Definition of hemostasis
4. Definition of hemorrhage
5. Definition of thrombosis, Morphology of thrombus, Pathogenesis of
thrombosis and Fate of thrombus
6. Definition of embolism and its types
7. Definition of ischemia
8. Definition of infarction
9. Definition of shock
10. Types and stages of shock
Hemodynamics
► Hemodynamics is the study of dynamics of blood flow. It explains the physical laws
that govern the flow of blood in the blood vessels.
 Hyperemia and Congestion

Hyperemia and Congestion both refer to an increase in blood volume within a tissue. But
they have different mechanisms

Hyperemia Congestion
► is an active process resulting from arteriolar ► is a passive process resulting from impaired

dilation and increased blood inflow as occurs in outflow of venous blood from a tissue

exercising skeletal muscle(physiological) and in ► it can occur systematically as in cardiac failure, or
areas of inflammation(pathological). locally as a consequence of an isolated venous

► Tissue appears redder than normal because of obstruction.

engorgement with oxygenated blood. ► congested tissues have an abnormal blue-red
color(cyanosis) resulting from accumulation of
deoxygenated hemoglobin in the affected area.
At high magnification, the alveoli in
this lung are filled with a smooth to
slightly pink material characteristic
for pulmonary edema. Note also that
the capillaries in the alveolar walls
are congested with many red blood
cells.

Congestion and edema of the lungs is
common in patients with heart
failure and in areas of inflammation
of the lung.
Congestion of the liver:
usually follow right-sided heart
failure--Grossly: liver
moderately enlarged, firm and
tender.

cutsurface shows mottled
appearance of dark areas(
centrilobular zone congestion)
and pale peripheral areas (
periportal areas ) giving
appearance of (nutmeg liver).

Microscopically, red cells
accumulate in the sinusoids
around the central veins
surrounded by the peripheral
hepatocytes which are better Nutmeg
oxygenated because of their ‫ﺟوزه اﻟطﯾب‬
proximity to hepatic arterioles
so they are less hypoxic & may
only developed fatty changes
giving it an appearance called“
nut meg liver".
oedema
 About 60% of lean body weight is water, of which 2/3 is intracellular and 1/3 is extracellular( mainly

interstitial).

5% of total body water is plasma.

► There are 2 opposing factors that govern the movement of fluid between vascular and interstitial
spaces.

Normally at the arterial end the hydrostatic pressure is greater than oncotic pressure so fluid is
forced out the capillaries of the microcirculation.

While at the venous side, the reverse happen and the fluid attracted back into the vessels.

Only small residual amount stay in the tissue which will be drained by lymphatics.
Oedema means abnormal and excessive accumulation of “free fluid” in the
interstitial tissue spaces and/or body cavities.
Free fluid in the interstitial spaces is commonly called oedema , this fluid lies free
in the interstitial spaces between the cells.
The main ingredient of the fluid is water.
Extravascular fluid can also collect in the body cavities such as
pleural cavity -------> hydrothorax.
peritoneal cavity--------> hydroperitoneum (Ascites).
pericardial cavity---------> hydropericardium.
Anasarca is severe generalized oedema marked by profound swelling of the
subcutaneous tissues and accumulation of fluid in body cavities.
 https://youtu.be/aRelHSTQiJw?si=ksdjlgKapaS3okPQ

Pathogenesis of oedema
1- Increased capillary hydrostatic pressure:
congestive heart failure
constrictive pericarditis
ascites of liver diseases e.g. hepatic cirrhosis
venous obstruction e. g. DVT
2- Decreased plasma oncotic pressure
a/ decreased synthesis(e.g., liver disease, protein malnutrition).
b/increased loss(e.g., nephrotic syndrome , protein-loosing enteropathy).
3- Lymphatic obstruction
(e.g. inflammation or neoplasia)--> obstruction
lymphatic drainage e.g. filariasis--> fibrosis of regional LN-->oedema
of lower limbs(elphantiasis).
In ca breast, obstruction of superficial lymphatics --->
oedema of overlying skin-( peaud orange).
► 4- increased capillary permeability:
capillary endothelial injury by toxins and their products ( e.g. histamin, anoxia, venoms, certain
drugs, chemicals).—> increased capillary permeability causing leakage of plasma proteins into
interstitial fluid—>more reduction in plasma oncotic pressure —> inflammatory oedema.
5- Sodium and water retention:
Derangement in normal regulatory mechanisms of sodium and water balance—> increased
capillary hydrostatic pressure which leads to oedema.
example: oedema of renal diseases e.g. nephrotic and nephritic syndrome.
 Clinical classification of oedema

► localized oedema: when limited to an organ or limb e.g.
a- inflammatory oedema
b-lymphatic oedema due to lymphatic obstruction.
c- Oedema due to localized venous congestion.
d- pulmonary oedema.
► Generalized Oedema:
a-Cardiac oedema seen in right sided heart failure.
b-Nutritional oedema: due to hypoproteinemia seen in:
- malnutrition
-malabsorption
-chronic liver diseases( decreased protein
synthesis).
c- Renal oedema: particularly starts around the eyelids
(periorbital)then become generalized.
Oedema can be classified according to the nature of
accumulated fluid into:

Transudate: protein poor fluid results from
► disturbance of Starling forces
specific gravity 1.012, protein
► content>3g/dl.
 Pathological Features of Oedema
oedema is most easily recognized grossly.
M/S oedema fluid is reflected as a clearing and separation of the extracelluar matrix elements. oedema most
commonly seen in subcutaneous tissues, lungs and brain.
Subcutaneous oedema: this can be diffused or more prominent in areas with high hydrostatic pressure.
dependent oedema is a prominent feature of cardiac failure particularly of the right ventricle.
As a result of gravity, it can be in the legs when standing, or involving the sacrum when recumbent.
Oedema due to renal dysfunction or nephrotic syndrome starts in loose tissues around the eyes(periorbital)
then become generalized.
 HEMOSTASIS
► DEFINITION
- Heme = blood
- stasis = to stop

► It is the process of forming clots in the wall of damaged blood vessels
& preventing blood loss while maintaining blood in a fluid state with
in the vascular system.

► Defects in hemostasis can lead to an increased risk of bleeding
(hemorrhage) or clotting (thrombosis).
Events in Hemostasis
► Vascular Constriction
-Damaged blood vessels constrict

► Formation of platelet Plug
- Platelets adhere to damaged endothelium to form platelet plug
(primary hemostasis).
► Blood Coagulation
- Clots form upon the conversion of fibrinogen to Fibrin, and its
addition to the platelet plug (secondary hemostasis).
 STAGES OF PRIMARY HEMOSTASIS
► Platelet Adhesion
► Platelet Activation
► Platelet Aggregation
 Secondary hemostasis
► If there is a large hole in the blood vessel, a blood clot is additionally required.

► Cascade of reactions
It states that ‘inactive’ enzymes are activated, and the ‘activated’ enzymes in turn activates
other inactive enzymes until final step is reached.
 THE CLOTTING MECHANISM

INTRINSIC EXTRINSC
Collagen Tissue Thromboplastin
XII
XI VII
IX
VIII

X

V FIBRINOGEN
(I)

PROTHROMBIN THROMBIN
(II) (III) FIBRIN
 Fibrinolytic phase

► The fibrinolytic system does not allow the fibrin clot to grow and block a vessel, which would cause
serious complications. The dissolution of a clot, called fibrinolysis (dissolving of fibrin fibers), is
brought about by the formation of the active enzyme plasmin from plasminogen
 HEMOSTASIS in summery

► DEPENDENT UPON:

Vessel Wall Integrity
Adequate Numbers of Platelets
Proper Functioning Platelets
Adequate Levels of Clotting Factors
Proper Function of Fibrinolytic Pathway
 Hemorrhage
indicate extravasation of blood from blood vessels.
Causes:
1- chronic congestion.
2-Hemorrhagic diathesis.
3- vascular injury( trauma, atherosclerosis, inflammation, neoplastic
erosion).
patterns include:
External bleeding.
Internal bleeding---> hematoma formation, hematothorax,
hematoperitoneum).
petechiae (1-2mm).
Purpura (>3mm).
Ecchymoses (1-2cm).
Clinical significance of any bleeding depends on:
volume of blood loss and rate of bleeding
rapid loss of up to 20% of blood volume or slow loss of even larger
amounts may have little effect on healthy adults however, greater looses
can lead to hemorrhagic (hypovolemic shock).
The site of hemorrhage is also important, a trivial bleeding in the
subcutaneous tissues can lead to death if occur in the brain.
Duration of bleeding (acute versus chronic or recurrent).
Thank you