A spinal tap (also called a lumbar puncture) is a procedure to collect and look at the fluid (cerebrospinal fluid, or CSF) that surrounds the brain and spinal cord.
During a spinal tap, a needle is carefully inserted into the spinal canal low in the back (lumbar area). Samples of CSF are collected. The samples are studied for color, blood cell counts, protein, glucose, and other substances. Some of the sample may be put into a container with a growth substance. This is called a culture. If any bacteria or fungi grow in the culture, an infection may be present. The pressure of the CSF also is measured during the procedure.
A spinal tap is done to:
A spinal tap may also be done to:
In rare cases, a spinal tap may be used to lower the pressure in the brain caused by too much CSF.
A spinal tap may be done in your doctor's office, in an emergency room, or at your bedside in the hospital. It may also be done in the radiology department if fluoroscopy is used.
You will empty your bladder before the procedure.
The doctor also may look into your eyes using a special lighted scope (ophthalmoscope) to see if the pressure is high. If the pressure is high, you may need other tests before the spinal tap.
You will lie on a bed on your side with your knees pulled up toward your chest. Or you may sit on the edge of a chair or bed and lean forward over a table with your head and chest bent toward your knees. These positions help widen the spaces between the bones of the lower spine so that the needle can be inserted more easily. If fluoroscopy is used, you will lie on your stomach so the fluoroscopy machine can take pictures of your spine during the procedure.
Your doctor marks your lower back (lumbar area) with a pen where the puncture will occur. The area is cleaned with a special soap and draped with sterile towels. A numbing medicine (local anesthetic) is put in the skin.
Then a long, thin needle is put in the spinal canal. When the needle is in place, the solid central core of the needle (stylet) is removed. If the needle is in the right spot in the spinal canal, a small amount of cerebrospinal fluid (CSF) will drip from the end of the needle. If not, the stylet will be put back in and the needle will be moved in a little farther or at a different angle to get to the fluid. Your doctor may need to move to another area of your spine if it is hard to get to the spinal fluid.
When the needle is in the spinal canal, a device called a manometer is hooked to the needle to measure the pressure of the CSF. You may be asked to straighten your legs while you are lying down. Your doctor takes the pressure reading, called the opening pressure, and checks whether the fluid is clear, cloudy, or bloody. Several small samples of fluid are collected and sent to the lab for study.
A final pressure reading, called the closing pressure, may be taken after the fluid samples are done. The needle is taken out and the puncture site is cleaned and bandaged.
Following a spinal tap, you may be told to lie flat in bed or with your head slightly raised for 1 to 4 hours. Since your brain makes new CSF all the time and replaces it 2 or 3 times a day, the small amount of fluid that is removed will be quickly replaced.
The entire procedure takes about 30 minutes.
Some people find it uncomfortable to lie curled up on their side. The soap may feel cold on your back. You will probably feel a brief pinch or sting when the numbing medicine is given. You may feel a brief pain when the spinal needle is inserted or repositioned.
During the procedure, the needle may touch one of your spinal nerves and cause a tingling feeling, like a light electrical shock, running down one of your legs.
A spinal tap is generally a safe procedure. In some cases, a leak of cerebrospinal fluid (CSF) may develop after a spinal tap. Symptoms of this problem are a headache that does not go away after 1 to 2 days. A CSF leak can be treated with a blood "patch," in which the person's own blood is injected into the area where the leak is occurring in order to seal the leak.
Some people develop a headache after having a spinal tap. Of those who do get headaches, only about half report that they are severe. These headaches may last up to 48 hours and then go away on their own. Drinking extra fluids, taking pain medicine, and lying down for several hours after the procedure may help the headache be less severe.
A few people who have a spinal tap have a minor nerve injury. This heals on its own with time. Serious nerve injury is very rare. There is also a small chance of infection of the CSF (meningitis), bleeding inside the spinal canal, or damage to the cartilage between the vertebrae. Your doctor will talk with you about these risks.
People who have bleeding problems and those who are taking blood-thinning medicine (such as warfarin or heparin) have a higher chance of bleeding after the procedure. A spinal tap may not be done unless it is needed for a life-threatening illness.
A spinal tap may cause serious problems for people who have high pressure in the brain caused by a tumor, a pocket of infection in the brain (abscess), or major bleeding inside the brain. Your doctor will check your nervous system, spinal cord and brain before doing a spinal tap. In some cases, a CT scan or an MRI scan may be done before the spinal tap to know that it is safe to do the puncture.
Many different tests can be done on the fluid (cerebrospinal fluid, or CSF) collected during a spinal tap. Some results will be ready right away, some will take a few hours after the procedure, and others will take several weeks.
Each lab has a different range for what's normal. Your lab report should show the range that your lab uses for each test. The normal range is just a guide. Your doctor will also look at your results based on your age, health, and other factors. A value that isn't in the normal range may still be normal for you.
Values may include CSF pressure, protein, glucose, and cell counts.
CSF is normally clear and colorless.
No infectious organisms (such as bacteria, fungi, or a virus) are found in the CSF sample. No tumor cells are present.
Blood in the CSF can result from bleeding (hemorrhage) in or around the spinal cord or brain. But it may also be caused by tiny blood vessels poked during the spinal tap. If a brain hemorrhage has occurred, the color of the CSF may change from red to yellow to brown over several days. Bleeding caused by the lumbar puncture itself will show more red blood cells in the first sample collected than in later samples. Cloudy CSF may mean an infection (such as meningitis or a brain abscess) is present.
High CSF pressure may occur as a result of swelling (edema) or bleeding (hemorrhage) in the brain, infection (such as meningitis), stroke, or other circulatory problems. Below-normal pressure may mean a blocked spinal canal.
A high level of protein may be caused by bleeding in the CSF, a tumor or spread of a cancer from another area of the body, diabetes, infection, injury, Guillain-Barré syndrome, severe hypothyroidism, or other nerve diseases. An increase in antibodies (immune system proteins) may be caused by inflammation in people who have multiple sclerosis, immune system disorders, or bacterial and viral infections.
Low glucose levels in the CSF are abnormal and may be caused by bacterial meningitis. Viral meningitis doesn't often cause low glucose levels in the CSF. Brain hemorrhage may also cause low glucose levels several days after bleeding begins. Higher-than-normal glucose levels are often caused by diabetes.
Red blood cells (RBCs) in the CSF can result from bleeding. High levels of white blood cells (WBCs) can be a sign of meningitis.
Bacteria or other organisms in the CSF mean that an infection (such as syphilis) or disease is present. Bacterial markers (bacterial antigens) that show up are a sign of meningitis. Cultures or stains of the CSF may also help show the cause of meningitis or encephalitis. Identifying tumor cells can show that cancer is present.
Your doctor may order other special tests on the CSF fluid depending on your symptoms and past health.
Fischbach F, Dunning MB III (2015). A Manual of Laboratory and Diagnostic Tests, 9th ed. Philadelphia: Wolters Kluwer Health.
Current as of:
April 8, 2021
Author: Healthwise StaffMedical Review: E. Gregory Thompson MD - Internal MedicineAdam Husney MD - Family MedicineMartin J. Gabica MD - Family Medicine
Current as of: April 8, 2021
Author: Healthwise Staff
Medical Review:E. Gregory Thompson MD - Internal Medicine & Adam Husney MD - Family Medicine & Martin J. Gabica MD - Family Medicine
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