Unit 8: Disorders of Cardiovascular Function: Disorders of Arterial Circulation PDF

Summary

This document provides an overview of disorders of arterial circulation, focusing on hyperlipidemia, atherosclerosis, and aneurysms. It covers the etiology, pathogenesis, classifications, and risk factors associated with these conditions. The information is likely intended for healthcare professionals or advanced students.

Full Transcript

# Unit 8: Disorders of Cardiovascular Function: Disorders of Arterial Circulation

## Objectives

- Describe the etiology and pathogenesis of hyperlipidemia.
- Describe the etiology and pathogenesis of atheroscelerosis.
- Differentiate between a true and false aneurysm.
- Differentiate in terms of berry and saccular aneurysms.
- Describe the etiology and pathogenesis of aortic dissection and abdominal aortic aneurisms.

## Hyperlipidemia

- Hyperlipidemia is an excess of lipids in the blood.
- Lipids are classified as:
- Triglycerides or neutral fat
- Phospholipids
- Cholesterol

- **Triglycerides** are used in energy metabolism, are combinations of three fatty acids condensed with a single glycerol molecule.
- **Phospholipids** contain a phosphate group, are important structural constituents of lipoproteins, blood clotting components, the myelin sheath, and cell membranes.
- **Cholesterol** is not composed of fatty acids, its steroid nucleus is synthesized from fatty acids, and thus, its chemical and physical activity is similar to that of other lipid substances.
- Elevated levels of blood cholesterol (hypercholesterolemia) are implicated in the development of atherosclerosis with its attendant risk of heart attack and stroke.

## Etiology and Pathogenesis of Hyperlipidemia

- Most cases of elevated levels of cholesterol are probably multifactorial.
- Some people may have increased sensitivity to dietary cholesterol; others have a lack of LDL receptor.
- Altered synthesis of the apoproteins, including oversynthesis of apoB-100, the major apoprotein in LDL.
- Serum cholesterol levels may be elevated as a result of an increase in any of the lipoproteins (read pages 743-745):
- Chylomicrons
- VLDL (very low density lipids)
- IDL (intermediate density lipids)
- LDL (low density lipids) - bad cholesterol - main carrier of cholesterol
- HDL (high density lipids) - good cholesterol - reverse transport of cholesterol from peripheral tissues back to the liver.

## Factors that can raise blood lipid levels

- Nutrition
- Genetics
- Medications (beta-blockers, estrogen, protease inhibitors)
- Comorbid conditions
- Metabolic diseases

## Hypercholesterolemia (Hyperlipoproteinemia) Classifications

- **Primary hypercholesterolemia**: describes elevated cholesterol levels that develop independent of other health problems or lifestyle behaviors.
- **Secondary hypercholesterolemia** is associated with other health problems and behaviors.

### Primary Hypercholesterolemia

- May be caused by a defective synthesis of the apoproteins, a lack of receptors, defective receptors, or defects in the handling of cholesterol in the cell that are genetically determined.

### Secondary Hyperlipoproteinemia

- Causes may include obesity with high-calorie intake and diabetes mellitus.
- High calorie diets increase the production of VLDL, with triglyceride elevation and high conversion of VLDL to LDL.
- Excess ingestion of cholesterol may reduce the formation of LDL receptors and thereby decrease LDL removal.
- Diets that are high in triglycerides and saturated fats increase cholesterol synthesis and suppress LDL receptor activity.
- In diabetes mellitus and the metabolic syndrome, typical dyslipidemia is seen with elevation of triglycerides, low HDL, and minimal or modest elevation of LDL.
- Other systemic disease that may elevate lipids like hyperthyroidism, nephrotic syndrome, and obstructive liver disease.
- Medications such as beta-blockers, estrogens, and protease inhibitors (used in the treatment of human immunodeficiency virus (HIV) infection) can also increase lipid levels.

## Atherosclerosis

- Atherosclerosis is a type of arteriosclerosis or hardening of the arteries.
- The term atherosclerosis, which comes from the Greek words atheros ("gruel" or "paste") and sclerosis ("hardness"), denotes the formation of fibro-fatty lesions in the intimal lining of the large- and medium-sized. Such as the aorta and its branches, coronary arteries, and the large vessels that supply the brain.

## Etiology and Risk Factors for Atherosclerosis

- The major risk factor for atherosclerosis is hypercholesterolemia, which can be modified.

### Non-Modifiable Risk Factors

- Increasing age
- Family history of premature CHD
- Male

### Major risk factors for atherosclerosis that can be affected by a change in health care behaviors

- High blood cholesterol levels (specifically high LDL cholesterol levels)
- Cigarette smoking
- Obesity and visceral fat
- Hypertension
- Diabetes mellitus (traditional cardiovascular risk factors)

## Role of Inflammation in the Etiology of Atherosclerosis

- CRP (C-Reactive Protein) is a serum marker for systemic inflammation. 
- Several prospective studies have indicated that elevated CRP levels are associated with vascular disease.
- The pathophysiologic role of CRP in atherosclerosis has not yet been defined.

## Pathogenesis of Atherosclerosis

- The lesions associated with atherosclerosis are of three types:
- Fatty streak
- Fibrous atheromatous plaque
- Complicated lesion

### Complicated lesion

- The more advanced complicated lesions contain hemorrhage, ulceration, and scar tissue deposits.
- Thrombosis is the most important complication of atherosclerosis.
- Slowing and turbulence of blood flow in the region of the plaque and ulceration of the plaque cause it. 
- The thrombus may cause occlusion of small vessels in the heart and brain.

## Aneurysms

- An aneurysm is an abnormal localized dilation of a blood vessel.
- Aneurysms can occur in arteries and veins, but they are most common in the aorta.

## Two types of Aneurysms

| Parameters | True Aneurysm | False Aneurysm |
| :--------------- | :---------------------------------------------------- | :-------------------------------------------------------------- |
| Characteristics | One in which the aneurysm is bounded by a complete vessel wall. The blood in a true aneurysm remains within the vascular compartment. | Represents a localized dissection or tear in the inner wall of the artery with formation of an extravascular hematoma that causes vessel enlargement. |
| | | Unlike true aneurysms, false aneurysms are bounded only by the outer layers of the vessel wall or supporting tissues. |

## Classification of Aneurysm

| Classifications | Description | Location |
| :------------------- | :-------------------------------------------------------------------------------------------------------------------- | :-------------------------------------------------------------------------- |
| Berry aneurysm | True aneurysm that consists of a small, spherical dilation of the vessel at a bifurcation. | Found in the circle of Willis in the cerebral circulation. |
| Fusiform aneurysm | True aneurysm that involves the entire circumference of the vessel and is characterized by a gradual and progressive dilation of the vessel. | Entire ascending and transverse portions of the thoracic aorta or may extend over large segments of the abdominal aorta. |
| Saccular aneurysm | Is a true aneurysm that extends over part of the circumference of the vessel and appears saclike. | Blood vessels |
| Dissecting aneurysm | False aneurysm resulting from a tear in the intimal layer of the vessel that allows blood to enter the vessel wall, dissecting its layers to create a blood-filled cavity. | Occurs in aorta and is a life-threatening condition. |

## Aortic Aneurysms

- **Etiology**: Two most common causes of aortic aneurysms:
- Atherosclerosis
- Degeneration of the vessel media.

- **Pathophysiology**: Abdominal aortic aneurysms are located most commonly below the level of the renal artery (>90%) and involve the bifurcation of the aorta and proximal end of the common iliac arteries. The infrarenal aorta is normally 2 cm in diameter; an aneurysm is defined as an aortic diameter greater than 3 cm.
- They can involve any part of the vessel circumference (saccular) or extend to involve the entire circumference (fusiform).
- Most abdominal aneurysms are asymptomatic.
- Calcification, which frequently exists on the wall of the aneurysm.
- As the aneurysm expands, it may compress the lumbar nerve roots, causing lower back pain that radiates to the posterior aspects of the legs.
- An abdominal aneurysm also may cause erosion of vertebrae.
- Stasis of blood favors thrombus formation along the wall of the vessel.
- With thoracic and abdominal aneurysms, the most dreaded complication is rupture.

## Etiology and Pathogenesis of Aortic Dissection

- Aortic dissection is caused by conditions that weaken or cause degenerative changes in the elastic and smooth muscle of the layers of the aorta.

## Incidence of Aortic Dissection

- Most common in the 40- to 60-year-old age group.
- More prevalent in men than in women.

## Risk Factors for Aortic Dissection

- Two risk factors predispose to aortic dissection:
- Hypertension
- Degeneration of the medial layer of the vessel wall.

## Other factors that predispose to dissection

- Congenital defects of the aortic valve (i.e., bicuspid or unicuspid valve structures) and aortic coarctation.
- Aortic dissection is a potential complication of cardiac surgery or catheterization.

## Two types of Aortic Dissection

- **Type A**: The more common (and potentially more serious in terms of complications) proximal lesions, involving the ascending aorta only or both the ascending and the descending aorta.
- **Type B**: Those not involving the ascending aorta and usually beginning distal to the subclavian artery.