Our little Liam has spent so much time in the hospital and has been poked so many times for IV's and blood draws that his veins blow. Blood draws are extremely difficult and IV's are near impossible and last usually no longer than 2 to 24 hours. PICC lines are a no go. He has so much scar tissue that they can only get a newborn sized line in him and cant use it to draw blood or give proper amount of fluids or medicine through it. His last hospital stay he went through 3 IV's in 2 days. One IV only lasted 2 hours before it infiltrated and left Liams arm swollen and painful.
(Infiltrated IV)
Because of his frequent stays at the hospital and all his other IV issues, he became a candidate for a mediport.
Ports are used mostly to treat hematology and oncology patients, but recently ports have been adapted also for hemodialysis patients.
The port is usually inserted in the upper chest, just below the clavicle or collar bone, leaving the patient's hands free.
(Metal version on the mediport with needle attached)
How it works:
A port consists of a reservoir compartment (the portal) that has a silicone bubble for needle insertion (the septum), with an attached plastic tube (the catheter). The device is surgically inserted under the skin in the upper chest or in the arm and appears as a bump under the skin. It requires no special maintenance and is completely internal so swimming and bathing are not a problem. The catheter runs from the portal and is surgically inserted into a vein (usually the jugular vein, subclavian vein, or superior vena cava). Ideally, the catheter terminates in the superior vena cava, just upstream of the right atrium. This position allows infused agents to be spread throughout the body quickly and efficiently.
The septum is made of a special self-sealing silicone rubber; it can be punctured hundreds of times before it weakens significantly. To administer treatment or to withdraw blood, a health professional will first locate the port and disinfect the area. Then he or she will access the port by puncturing the overlying skin with a 90° Huber point needle although a winged needle may also be used. (Due to its design, there is a very low infection risk, as the breach of skin integrity is never larger than the caliber of the needle. This gives it an advantage over indwelling lines such as the Hickman line.) Negative pressure is created to withdraw blood into the vacuumized needle, to check for blood return and see if the port is functioning normally. Next, the port will be flushed with a saline solution. Then, treatment will begin. After each use, a heparin lock is made by injecting a small amount of heparinized saline (an anticoagulant) into the device. This prevents development of clots within the port or catheter. In some catheter designs where there is a self-sealing valve at the far end, the system is locked with just saline. The port can be left accessed for as long as required. The port is covered in a dressing to protect the site from infection and to secure the needle in position.
If a port is used infrequently, it may be necessary to access the port, flush it with saline, and inject a new heparin lock every month to prevent clotting between uses.
The surgery itself is considered minor, and is typically performed under both local anaesthesia and conscious sedation. Patients sometimes have a little discomfort after the procedure, and can be managed with a narcotic, such as demerol for 24–48 hours.
A port is most commonly inserted as a day surgery procedure in a hospital or clinic by a surgeon or an interventional radiologist, under conscious sedation. When no longer needed, the port can be removed in the operating room.
(xray of a mediport)
Uses:
There are many different types of portacaths. The particular type selected is based on the patient's specific medical conditions.
Portals:
- can be made of plastic, stainless steel, or titanium
- can be single chamber or dual chamber
- vary in height (although the base is about the size of a quarter)
- can be made of biocompatible, medical-grade polyurethane or silicone
- can vary in length (cm)
- can vary in diameter (mm)
Risks:
- Infection - a severe bacterial infection can compromise the device, require its surgical removal, and seriously jeopardize the health of the already weak patient.
- Thrombosis - formation of a blood clot in the catheter may block the device irrevocably. To prevent clotting the portacath is flushed with saline and heparin, usually by a nurse or other medical professional, or someone properly trained that is a family member or the patient, at least once every four weeks, or more often in conjunction with administering medication.
- Mechanical failure - is extremely unlikely. It is possible in a rare event that part of the system could break, usually the attached catheter, and become lodged in the circulatory system. In such a case it is unlikely to cause serious harm; many patients are asymptomatic but the mechanical failure is discovered because of an inability to flush or withdraw fluids from the port. In those rare instances intervention surgery is required to withdraw the failed vascular access device.
- Age - If the device is put into a child, the child's growth means that the catheter becomes relatively shorter and will move away from the inferior part of the superior vena cava - it might be necessary to remove or replace it.
- Pneumothorax - Attempts to gain access to the subclavian vein or jugular vein can injure the lung, possibly leading to this complication. If the pneumothorax is large enough, a chest tube might need to be placed. In experienced hands, the incidence of this complication is about 1%.
- Arterial injury - The subclavian artery can be inadvertently punctured. This usually leads to a subcutaneous hematoma and occasionally a pseudoaneurysm. An alternative site may need to be used for port placement. Puncture of the carotid artery is more rare, since attempts to access the nearby jugular vein are increasingly done with ultrasound guidance.
(Info gained from http://en.wikipedia.org/wiki/Port_(medical)
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