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MindMap Gallery local blood circulation disorder

local blood circulation disorder

The mind map of local blood circulation disorders shares knowledge about blood circulation disorders, congestion and congestion, thrombosis, infarction, and embolism. Come and take a look!

Edited at 2023-06-04 10:28:07

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Outline

local blood circulation disorder

blood circulation disorder

Classification

systemic blood circulation disorder

local blood circulation disorder

Abnormal local circulation blood volume (congestion and congestion, ischemia)

Abnormal blood properties and vascular contents (thrombosis and embolism) → infarction

Changes in vessel wall permeability and integrity (edema and hemorrhage)

congestion and congestion

hyperemia

Congestion of organs or tissues due to increased arterial blood input is called active congestion.

mechanism

type

Physiological congestion (many)

Pathological congestion

inflammatory hyperemia

Hyperemia after decompression

Tissues and organs that have been under pressure for a long time will reflexively expand arterioles when the pressure is suddenly relieved, causing congestion.

Do not extract too much ascites at one time → avoid congestion after decompression

lesions

under the mirror

Thin A, Cap expands, fills RBC

naked eye

Swelling, bright red, hot (body surface)

as a result of

Mostly physiological, it is a temporary vascular reaction, which is beneficial to the body; if the blood vessels are diseased, they may cause rupture and bleeding.

Blood stasis

Finger venous return is blocked and blood accumulates in small veins and capillaries (passive)

reason

venous compression

venous lumen obstruction

heart failure

lesions

under the mirror

Little V and Cap are expanding but full of RBC

naked eye

Swelling, dark red or purple (cyanosis), cool

Cyanosis: skin and mucous membranes turn blue-purple, reduced HB≥5g/dl

as a result of

Stasis edema and hemorrhage

Parenchymal cell atrophy, degeneration, and necrosis

hemorrhagic sclerosis

Blood stasis in vital organs

Pulmonary congestion (left heart failure)

lesions

under the mirror

Alveolar wall thickening, telangiectasia, congestion, and large amounts of edema fluid, RBC, and heart failure in the alveolar cavities C

heart failure cells

When left heart failure causes chronic pulmonary congestion, macrophages C containing large amounts of hemosiderin can be seen in the alveolar spaces.

naked eye

The lung volume increases, dark red, and foamy red fluid flows out from the cut surface

clinical manifestations

Pink frothy sputum, cyanosis, shortness of breath (orthopnea)

ending

Pulmonary fibroplasia with iron-blooded yellow → brown sclerosis of the lungs

Liver congestion (right heart failure)

lesions

under the mirror

Central V sinusoidal blood stasis Compression atrophy and necrosis of liver C in the central lobule area Perilobular liver C steatosis

naked eye

Increased volume, weight, and membrane tension The cut surface is red (blood stasis) and yellow (fatty change), and looks like betel nut, so it is called betel nut liver.

clinical manifestations

Hepatomegaly, pain in liver area, decreased liver function

ending

Long-term chronic liver congestion → cirrhosis

formation of thrombus

concept

In the cardiovascular system of a living body, certain blood components (platelets) precipitate and aggregate, or blood coagulates to form a solid mass.

forming conditions

Cardiovascular endothelial cell damage (most common)

Endocarditis, myocardial infarction, atherosclerosis (cardiovascular endothelial damage leading to thrombosis)

Hypoxia, shock, sepsis → extensive endothelial injury → DIC

changes in blood flow status

Slow down/vortex

increased blood coagulability

Platelets and coagulation factors↑

Fibrinolytic system activity↓

hypercoagulable state

reason

hereditary

Acquisition

Major surgery, severe trauma, extensive burns, malignant swelling, etc.

The formation of blood clots in the arteries and heart

Intimal damage and eddy currents are common

venous thrombosis

Often slow and stagnant blood flow

The process of thrombosis and the morphology of thrombus

Platelet adhesion and aggregation

blood clotting

Platelet adhesion is the first step in thrombosis (primary) Future development depends on the location and blood flow rate (Continuous venous thrombosis is the most complete)

Types and shapes of blood clots

White thrombus (dissociated thrombus, platelet thrombus)

seen in

Persistent thrombus head, heart valve

naked eye

Gray, rough, hard, tight

under the mirror

A large number of platelets and a small amount of fibrin constitute surface adherent neutrophils

Red thrombus (coagulable thrombus)

seen in

tail of persistent thrombus

naked eye

Dark red, crispy

under the mirror

Cellulose mesh filled with red blood cells

Mixed thrombus (lamellar thrombus)

seen in

Body of persistent thrombus; aneurysm (mural thrombus), left atrium (spherical thrombus)

naked eye

Red and white, arranged in layers

under the mirror

Platelet beams and fibrin mesh filled with red blood cells between beams

hyaline thrombi (microthrombi)

seen in

DIC (disseminated intravascular coagulation)

constitute

Fibrin - fibrinous thrombus

parts

within microcirculation

naked eye

Can't see

ending

Dissolve, absorb, soften and fall off

Mechanization and recanalization

Recanalization

During the process of thrombus organization, due to drying, shrinkage and softening, cracks appear inside it or between it and the blood vessel wall. New endothelial cells cover its surface to form a new lumen and communicate with each other to partially restore blood flow to the blocked blood vessel.

Calcification (incomplete organization): phleboliths/arterioliths

Effects on the body

favorable

Stop bleeding and prevent the spread of infection

unfavorable

block blood vessels

embolism

Heart valve deformation

extensive bleeding

infarction

concept

Necrosis of organs or local tissues due to vascular obstruction and cessation of blood flow leading to ischemia and hypoxia

Reason

Thrombosis (most common)

Arterial embolism

arterial spasm

Vessel compression and occlusion

condition

Tissue sensitivity to ischemia and hypoxia

Collateral circulation status

dual blood supply

Lungs (pulmonary artery and bronchial artery), liver (hepatic artery and portal vein)

Rich anastomotic branches

Forearm and hand (radial and ulnar arteries)

Few anastomotic branches

Brain, spleen, kidney

Pathological changes and types

General morphological features of infarction

The shape of the infarct

Depends on how the organs are vascularized

Portal organs (spleen, kidneys, lungs)

Cone shape (sector-shaped section)

The tip points toward the portal (the site of blood vessel obstruction)

The bottom is close to the surface of the organ

Myocardial infarction

Map graphics

Intestinal infarction

segmental

Texture of the infarct

Depends on the type of necrosis

Coagulative necrosis: heart, liver, spleen, lung, kidney

Liquefied necrosis: brain

Color of infarct

Depends on the blood content in the lesion

Anemic infarction (white infarct)

Hemorrhagic infarct (red infarct)

Types of infarction

Anemic infarction

Reason

Blocked arteries

Part

Heart, kidney, spleen, brain

Dense tissue structure with thin and few side branches

lesions

Grayish white, clear boundary, surrounding congestion and hemorrhage

Hemorrhagic infarction

Reason

Blocked arteries

Conditions

Severe congestion

Part

Lungs, intestines

The tissue structure is loose and the dual arterial supply or anastomotic branches are abundant

Common

pulmonary hemorrhagic infarction

Part

In the peripheral part of the lower lobe of the lung, the costophrenic angle is more common

naked eye

Cone-shaped, dark red, pulmonary membrane fibrinitis

under the mirror

The structure of the alveolar wall is unclear, and the alveolar cavity and interstitium are filled with red blood cells

enterohemorrhagic infarction

naked eye

Segment-shaped, purple-red, thickened intestinal wall

under the mirror

Tissue necrosis and bleeding in various layers of the intestinal wall

septic infarction

Bacteria-containing emboli block blood vessels, common in infective endocarditis

The impact and outcome of infarction on the body

embolism

concept

Abnormal substances that are insoluble in the blood appear in the circulating blood and travel with the blood to block the lumen of the blood vessels.

embolus

Abnormal substance that blocks the blood

solid

liquid

gas

The path of travel of emboli

consistent with blood flow direction

From the venous system (systemic circulation) and right heart

lung

From the left heart and aortic system

The whole body (spleen, brain, kidneys, lower limbs, etc.)

portal venous system

liver (splenic vein)

cross emboli

congenital atrioventricular septal defect

Retrograde embolism (rare)

Seen when chest and abdominal pressure suddenly increase when venous emboli in systemic circulation circulate

Types of embolism and effects on the body

Thromboembolism (99%)

pulmonary embolism

source

Deep veins of lower limbs above the knee (95%) Pelvic vein, right heart mural thrombosis

as a result of

Depends on the size and number of emboli and cardiopulmonary function

The emboli are small and few

Generally does not cause serious consequences

Dual blood supply of pulmonary artery and bronchial artery

Chronic pulmonary congestion

Hemorrhagic infarction of lung tissue

Increased intramicrocirculatory pressure and obstruction of bronchial artery blood supply

The embolus is big

sudden death

The emboli are small and numerous

sudden death

systemic circulatory embolism

Source

Left heart (80%) or artery

parts

More common in brain, kidney, spleen and lower limbs

as a result of

Local tissue infarction when no collateral circulation is established

fat embolism

Fat droplets appear in the circulation and block blood vessels

source

Shaft fractures of long bones, severe bruises and burns to fatty tissue

Lipid droplets → bone marrow sinusoidal capillaries and venules

traumatic Non-traumatic (diabetes, alcoholism, chronic pancreatitis, excessive stress)

gas embolism

concept

A large amount of air quickly enters the blood circulation or the gas dissolved in the blood quickly dissociates to form bubbles and block blood vessels.

Classification

air embolism

seen in

Infusion, blood transfusion, artificial pneumothorax and other accidents Trauma or surgery to the head, neck, chest wall, and lungs Strong uterine contractions during childbirth

as a result of

In small doses, no serious consequences will occur

Sudden death when exceeding 100 ml

Air→enters the blood→foamy blood forms in the heart cavity→sudden death

Nitrogen embolism

concept

When the human body rapidly transitions from a high-pressure environment to a low-pressure environment, the gas dissolved in the blood, interstitial fluid, and fatty tissue rapidly dissociates and forms bubbles, causing gas embolism, which is called decompression sickness.

seen in

diver, pilot

as a result of

Subcutaneous → Subcutaneous emphysema, skin itching

Muscles, tendons, ligaments → Muscle, joint pain

Systemic blood vessels → ischemia, infarction, If it affects the heart and brain, it can be life-threatening

amniotic fluid embolism

Amniotic fluid (containing meconium, vernix, lanugo, mucus, keratinized squamous epithelium, etc.)

concept

During childbirth, the uterus contracts and the amniotic fluid is pressed into the venous sinuses of the uterine wall and enters the maternal blood circulation.

More common in abnormal births such as placenta previa and inappropriate use of oxytocin

process

Amniotic fluid → maternal blood circulation → pulmonary embolism → systemic circulation embolism

sudden death mechanism

Pulmonary artery obstruction and reflex vasospasm

Anaphylactic shock caused by amniotic fluid

DIC caused by coagulogenase-like substances in amniotic fluid