MESOTHELIOMA
Mesothelioma is a rare form of cancer. The cancer cells (Malignant cells) are found in the lining of chest (Pleura), the lining of the abdominal cavity (Peritoneum) or the lining around the Heart (Pericardium).
Peritoneal Mesothelioma is a cancer of the lining of the abdominal cavity. It occurs in one fifth to one third of total number of mesothelioma.
Most people affected had a History of breathing of Asbestos. The exposure may be from their working environment or from their house itself. An exposure of Asbestos for just one or two months can result in Mesothelioma in 30 or 40 years later. The present diseased individual has a History of Asbestos exposure in the 1940s, 50s, 60s and 70s age. That is showing that it has a long latency period.
Like all cancers the prognosis of Mesothelioma is depend on the early diagnosis of the disease and how aggressively it is treated.
MAIN CAUSE OF MESOTHELIOMA- ASBESTOS EXPOSURE
At some point in our lives, nearly all of us have been exposed to asbestos in the air we breathe and the water we drink; from natural deposits in the earth, and from the deterioration of asbestos products around us. Most of us, however, do not become ill as a result of our exposure. More commonly, those who at some point are diagnosed with asbestos disease have worked in jobs where more substantial exposure occurred over longer periods of time. Nevertheless, cases of mesothelioma have been documented as the result of lesser exposure, affecting family members of workers who came into contact with asbestos and brought it home on their clothing, skin or hair, or affecting those who lived in close proximity to asbestos manufacturing facilities. Symptoms of asbestos disease usually are not be apparent until decades after exposure.
Asbestos are commonly used in the North America during 1800s itself. The use of asbestos enormously increased during Second World War, when shipyards produced massive number of ships for War purpose. Since that time the asbestos was commonly used in building construction automotive industry, etc. During that time about 5,000 products containing asbestos are used.
Although it is suggested that the number of mesothelioma cases in the U.S. has reached its peak and has begun to drop, a forecast released by the National Cancer Institute’s Surveillance, Epidemiology, and End Results Program (SEER), in April, 2003, projected the total number of American male mesothelioma cases from 2003-2054 to be approximately 71,000. This number, however, does not take into consideration events such as the World Trade Center disaster on September 11, 2001, when millions of New Yorkers were potentially exposed to air filled with carcinogenic asbestos particles. When the latency period for asbestos disease is factored in, cases of mesothelioma will continue to be diagnosed for years to come.
RACE AND MESOTHELIOMA:
Mesothelioma has no racial predilection. Asbestos exposure is the most important factor. Race is not a factor.
SEX AND MESOTHELIOMA:
Malignant mesothelioma is more common in men, with a male-to-female ratio of 3:1. It can also occur in children; however, these cases are not thought to be associated with asbestos exposure.
With regard to women with mesothelioma, a 1996 case series by Ascoli et al showed 86% of tumors arising from the pleura, of which most were the epithelial type. Of the patients in this series, 75% had a history of exposure to asbestos and more than half developed the malignancy secondary to household contact with a worker exposed to asbestos.
With regard to men with mesothelioma, the same case series demonstrated 45.5% with a history of exposure to asbestos and 53% with occupational exposure to asbestos. Most who were involved were construction workers, railroad workers, naval mechanics, bakers, explosive workers, and automobile mechanics.
AGE AND MESOTHELIOMA:
Malignant mesothelioma has a peak incidence 35-45 years after asbestos exposure. It commonly develops in the fifth to seventh decade of life.
MORTALITY/MORBIDITY:
Median survival for patients with malignant mesothelioma is 11 months. It is almost always fatal. Median survival based on histologic type is 9.4 months for sarcomatous, 12.5 months for epithelial and 11 months for mixed. Approximately 15% of patients have an indolent course.
Asbestos exposure is linked to at least 50% of patients developing malignant mesothelioma. Approximately 8 million people in the United States have been exposed to asbestos in the workplace. Family members are also exposed to asbestos embedded in the worker’s clothing. The combination of tobacco and asbestos exposure greatly increases the risk of developing pleural mesothelioma.
SYMPTOMS OF MESOTHELIOMA
The early symptoms of mesothelioma are generally non-specific, and may lead to a delay in diagnosis. Sometimes resembling viral pneumonia, pleural mesothelioma patients may present with shortness of breath, chest pain and/or persistent cough; some patients show no symptoms at all. A chest x-ray may show a build-up of fluid or pleural effusion. The right lung is affected 60% of the time, with involvement of both lungs being seen in approximately 5% of patients at the time of diagnosis. Less common symptoms of pleural mesothelioma include fever, night sweats and weight loss. Symptoms of peritoneal mesothelioma may include pain or swelling in the abdomen due to a build-up of fluid, nausea, weight loss, bowel obstruction, anemia or swelling of the feet.
PLEASE KEEP IN MIND THAT THESE SYMPTOMS MAY BE CAUSED BY MESOTHELIOMA OR BY OTHER LESS SERIOUS CONDITIONS. ONLY A DOCTOR CAN MAKE A DEFINITIVE DIAGNOSIS.
Pleural Effusion:-
One of the most common symptoms of mesothelioma is a pleural effusion, or an accumulation of fluid between the parietal pleura (the pleura covering the chest wall and diaphragm) and the visceral pleura (the pleura covering the lungs). Both of these membranes are covered with mesothelial cells which, under normal conditions, produce a small amount of fluid that acts as a lubricant between the chest wall and the lung. Any excess fluid is absorbed by blood and lymph vessels maintaining a balance. When too much fluid forms, the result is an effusion.
Types of Pleural Effusion:-
Pleural effusion is broken down into two categories, transudates and exudates. A transudate is a clear fluid that forms not because the pleural surfaces are diseased, but because of an imbalance between the normal production and removal of the fluid. The most common cause of transudative fluid is congestive heart failure. An exudate, which is often cloudy and contains many cells and proteins, results from disease of the pleura itself, and is common to mesothelioma. To determine whether a fluid is a transudate or exudate, a diagnostic thoracentesis, in which a needle or catheter is used to obtain a fluid sample, may be conducted.
Symptoms of Pleural Effusion:-
As the volume of fluid increases, shortness of breath, known as “dyspnea”, and sometimes pain, ranging from mild to stabbing, may occur. Some patients may experience a dry cough. When the doctor listens to the patient’s chest with a stethoscope, normal breath sounds are muted, and tapping on the chest will reveal dull rather than hollow sounds.
TREATMENT
Pleural effusion caused by heart failure or infection can usually be resolved by directing treatment at the cause, however, when testing has realized no diagnosis, and fluid continues to build or recur, doctors may recommend chest tube drainage and chemical pleurodesis. Chemical pleurodesis is a technique in which a sclerosing agent is used to abrade the pleural surfaces producing an adhesion between the parietal and visceral pleurae. This will prevent further effusion by eliminating the pleural space. Talc appears to be the most effective agent for pleurodesis, with a success rate of nearly 95%. It is highly effective when administered by either poudrage or slurry. Poudrage is the most widely used method of instilling talc into the pleural space. Before spraying the talc, the medical team removes all pleural fluid to completely collapse the lung. After the talc is administered, they inspect the pleural cavity to be sure the talc has been evenly distributed over the pleural surface. Some doctors prefer to use talc mixed with saline solution which forms wet slurry that can roll around the pleural cavity.
dr.rahees.k@live.in
