Asbestos-related diseases

Asbestos-related diseases include:
 * 1) non-malignant diseases: asbestosis, pleural plaques, acute pleurisy
 * 2) malignant diseases: bronchogenic carcinoma, malignant pleural peritoneal mesothelioma, laryngeal and ovarian carcinoma.

Characteristics
Asbestos is a group of minerals (silicates) that exist in two forms – serpentines and amphiboles. Their common feature is a fibrous structure, with long and thin fibers. The fibers are not flammable and are resistant to acids and alkalis.


 * 1) Serpentine fibers – chrysotile ("white asbestos“)
 * 2) * The fibers are long, flexible, twisted, and intertwined (used in textile processing, the only asbestos that is industrially produced is chrysotile)
 * 3) Amphibole fibers – 5 types: crocidolite ("blue asbestos“), amosite, anthophyllite, actinolite, tremolite,
 * 4) * The fibers are comparatively short, brittle, and very resistant to acids.

Occupational exposure

 * This occurs during mining and transport (less common nowadays since it is packaged in plastic).
 * Also, exposure can occur during processing and usage.
 * Usage: asbestos-cement materials, roofing (eternit), pipes, cladding boards, textiles (protective clothing for firefighters and metallurgical workers), friction and braking equipment (formerly used to make brake pads).

Pleural hyalinosis
Demarcated pleural plaques and diffuse pleural thickening are characteristic. These result from the direct local inflammatory response to the presence of asbestos fibers in the pleural cavity. These fibers alveoli via the lymphatic system, and then injure the pleura, leading to inflammation and hemorrhage, and eventually adhesion formation via organization.
 * Pleural plaques – demarcated hyaline fibrous lesions - especially found in the submesothelial layer of the posterolateral parietal pleura. They are irregularly shaped, vary in size, and have a whiteish glossy surface. They calcify irregularly and form bizarre shapes (pleuritis calcarea).
 * Diffuse pleural thickening – mostly affects the visceral pleura. It is accompanied by the formation of adhesions between the pleurae and fibrosis that permeates the lung parenchyma and interlobar spaces.

Clinical picture
Demarcated plaques are the most common manifestation of asbestos exposure. They are often an accidental X-ray finding, enlarge over time, tend to calcify, and do not cause problems. Diffuse pleural damage occurs most often after acute pleurisy with effusion and it affects most of the pleura. It usually spreads bilaterally, from the apex to the base.

Extensive plaques lead to exertional dyspnea, irritating cough, and persistent chest pain.

Diagnostic criteria
Pleural fibrosis that is at least 50 mm wide, 80 mm long, and 3 mm thick (on a CT) is diagnostic. In its proximity, rounded atelectasis is characteristic. Blending of the lesions into the parenchyma on a CT is described as crow's feet.

Examination methods

 * Chest X-ray – bizarre demarcated shadows
 * Diffuse thickening – general obscuration of the lung pattern
 * CT, HRCT
 * Pulmonary function - restrictive disease

Acute pleurisy
This is a localized reaction to the presence of asbestos on the pleura. It is asymptomatic in two thirds of cases, and the exudate formed does not exceed 500 mL and is usually absorbed spontaneously.

Clinical presentation includes breathing difficulties, cough, weakened breathing, and the disappearance of fremitus pectoralis.

Examination
X-ray, ultrasonography, thoracocentesis.

Bronchogenic carcinoma
Carcinogenicity depends on the amount, time and the length of the fiber (above 5). It is an epigenetic carcinogen (IARC group I). It is involved in the development of all types of bronchogenic carcinoma - squamous cell, small cell, undifferentiated large cell, and adenocarcinoma. The risk for cancer development due to asbestos exposure is exacerbated by smoking (exposed smokers have a 50-90 times higher risk than unexposed non-smokers).

Malignant pleural and peritoneal mesothelioma
There is a causal relationship between mesothelioma and asbestos exposure: mesothelioma practically does not develop without asbestos exposure. Exposure to amphiboles is more risky (10 times greater risk).

Pathology
Mesothelioma can be localized or diffuse. Localized mesothelioma can expand and fill the entire hemithorax, while diffuse mesothelioma is multifocal with gray nodules on the pleura merging to form tumorous masses. Usually, there is a hemorrhagic pleural effusion and the tumor overgrows the lungs, eventually growing into the surroundings: the chest wall, mediastinum, abdomen...

Clinical picture
Manifestations include persistent pain and exertional dyspnea (sometimes the first symptom is significant resting dyspnea due to the effusion). In inflammatory effusion, the pain stops when the pleurae move away from each other; however, in this case it usually does not stop. Weight loss, subfebrile temperature, and symptoms of tumor organ damage are other manifestations.

Latency is a period of 30-40 years and cigarette smoking seems to have no effect on the duration of latency. It is progressing very rapidly despite treatment once manifesting and most patients die within a year of diagnosis.

Examination

 * X-ray imaging – thickening of the pleura, extensive effusion, or signs of another asbestos disease
 * CT, HRCT
 * Exudate examination, pleura cytology
 * The occupational risk of mesothelioma is highly underestimated in the Czech Republic.

Prevention
The import, production, and distribution of amphibole fibers are currently banned in the Czech Republic, and usage is restricted.

Therapy
There is no causal treatment for these conditions and therefore treatment is mainly supportive and includes oxygen therapy and bronchodilation in COPD.