Intracranial Hematoma
Head injuries account for approximately 70% of traumatic accident deaths. Intracranial hematoma plays an important role in the death and disability that are associated with head injury. Intracranial hematoma is a serious and possibly a life threatening condition that often requires immediate medical attention. Many patients with intracranial hematoma harbor mass lesions that require emergency decompression. Other causes include brain tumors, liver disease, autoimmune syndromes and bleeding disorders.
The human brain floats within the skull. It is surrounded by cerebrospinal fluid which cushions the brain from the bounces of everyday movements. Sometimes it becomes impossible for the fluid to absorb the force of a sudden blow or a quick stop. Under such situations, the brain may slide forcefully against the inner wall of the skull and get bruised. An intracranial hematoma occurs when the blood vessel ruptures between the skull and the brain. The blood leaks between the brain and the skull. This collection of blood, hematoma, which is possibly clotted, compresses the brain tissue. Some hematomas require surgery to remove the blood clot whereas some others can be treated without surgery.
Symptoms of intracranial hematoma include headache, nausea, vomiting, lethargy and slurred speech. The pupils may appear of unequal size. Memory loss is often associated with head trauma. One may even forget that they have suffered a blow. These symptoms of intracranial hematoma may occur either immediately or several weeks or months after a blow has been received in the head.
Injury in the head is the most common cause of intracranial hematoma. Among elderly persons, even a mild head trauma is more likely to cause a hematoma in the brain. Hematoma resulting from injury in the head is classified as:
Subdural hematoma: This occurs when the blood vessels, most often the veins rupture between the brain and the dura mater which is the outermost of three membrane layers that covers the brain. The blood that leaks forms a hematoma. This compresses the brain tissue. The danger here is that if the hematoma keeps growing then there is a progressive decline in consciousness and possible death. The risk of subdural hematoma is greater in people who use aspirin or other anticoagulants regularly. Alcoholics and very young and very old people also stand to be affected by subdural hematoma. All types of subdural hematomas require medical attention as soon as the symptoms become apparent. Other wise permanent brain damage may be the result.
Epidural hematoma: This type of hematoma occurs when the blood vessel, usually the artery, ruptures between the surface of the dura mater and the skull. Morbidity and mortality from epidural hematoma is substantial unless immediate medical attention is given. The cause of epidural hematoma is most of the time road automobile accidents or any other traumatic injuries.
Intraparenchymal hematoma: When blood pools in the white matter of the brain, Intraparenchymal hematoma occurs. There may be multiple severe Intraparenchymal hematomas after a head trauma. Serious brain damage can occur, as the neurons can no longer communicate.
A physician may find it difficult to diagnose intracranial hematoma, as it may not be immediately apparent. It is better to seek medical advice after any significant blow has been received to the head and if the patient has lost consciousness or experiences symptoms such as headache, lethargy, nausea and vomiting. A CT scan or MRI scan is suggested to define the position and size of a hematoma.
After a head injury, doctors use medications such as corticosteroids and diuretics to control the edema in the brain after head injury. Often surgery is required. If the blood clot is localized and there is no excessive clotting, then perforation is made through the skull and the liquid is removed by suction. Large hematomas require opening of a section of the skull to remove blood clots.
It is essential to wear appropriate safety equipment and gadgets during sports, including helmet when riding, motorcycling, horseback riding, skating or doing any other activity that may result in injury to head. Chances of motor vehicle accidents can be minimized by wearing a seat belt.
Cardiac Catheterization
Cardiac catheterization is a test which is performed to obtain certain diagnostic information about the heart. Patients may require this medical therapy rather than undergo angioplasty or bypass surgery when they suffer from rare or easily controlled episodes of angina. Alternatively, cardiac catheterization is not performed in patients who have infrequent episodes of angina and in whom angina can be easily controlled. When a patient has heart failure due to suspected coronary artery disease or there is suspected coronary artery disease, cardiac catheterization is conducted. Cardiac catheterization can help:
Measure blood pressure within heart.
Know the amount of oxygen in the blood.
Check the pumping ability of the heart muscle.
Check blood flow through the heart after surgery.
Collect blood samples from the heart.
Inject dye into the coronary arteries.
To provide treatment in certain types of heart conditions like congenital heart defects and how severe it is.
To find out a coronary artery disease and if found to pinpoint the size and location of fat and calcium deposits that have built up in coronary artery from atherosclerosis.
To determine whether the patient needs bypass surgery or angioplasty.
Examine the arteries of the heart with an x-ray technique called fluoroscopy.
The patient is asked not to drink or eat anything, except a small amount of water, for atleast 6 to 12 hours before the test. The patient is tested for allergy to iodine or other medications. Patients suffering from kidney disease or diabetes or bleeding disorders must keep the cardiologist informed. The cardiac catheterization test is performed in a cath lab by a cardiologist. The actual catheterization procedure takes about 15 - 30 minutes. The patient's electrocardiogram that continuously records the electrical activity of the heart is taken. A pulse oximeter device that measures the oxygen levels of the patients' blood is monitored. An intravenous needle is inserted into the patients' vein to give fluids or medicine during the catheterization procedure. A sedative is also given through this IV line which helps the patient to relax.
Cardiac catheterization procedure involves passing a catheter, a thin flexible tube, into the right or left side of the heart. The doctor inserts this thin plastic tube into the groin - femoral artery. Other places where in the catheter may be inserted are the elbow- brachial artery or the wrist - radial artery. From there it is slowly advanced into the chambers of the heart or into the coronary arteries. The doctor watches the progress of the catheter into the heart's vessels and chambers on the imaging screen. Pressures within the heart chambers are measured and the blood and tissue samples are also removed through the catheter. A small amount of dye is also injected through the catheter into the heart chamber or into one of the coronary arteries.
Therapeutic catheterization: Certain types of heart defects can be repaired using catheterization. For instance, if the coronary arteries are blocked, the cardiologist can use a catheter, guide wire and balloon to open and improve blood flow to the heart. This is termed as percutaneous coronary intervention (PCI).
Normal result indicate that there is no significant narrowing or blockage in the coronary arteries. Abnormal results may suggest that the heart does not pump blood normally or the valves in the heart may be weak. There may be leakage between heart chambers. There is a possibility of aortic aneurysm. Some complications with cardiac catheterization include heart attack or stroke, hematoma, puncture of the heart or arrhthmias.
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