Dialysis

What is dialysis?

The kidneys are responsible for filtering waste products from the blood. Dialysis is a procedure that is a substitute for many of the normal functions of the kidneys. The kidneys are two organs located on either side in the back of the abdominal cavity. Dialysis can allow individuals to live productive and useful lives, even though their kidneys no longer work adequately. Statistics from 2015, U.S. Renal Data System Annual Data Report (USRDS), showed approximately 468,000 patients were receiving dialysis in the United States. More than an additional 193,000 patients had a functioning kidney transplant for end-stage renal disease.

Dialysis helps the body by performing the functions of failed kidneys. The kidney has many roles. An essential job of the kidney is to regulate the body's fluid balance. It does this by adjusting the amount of urine that is excreted daily. On hot days, the body sweats more. Thus, less water needs to be excreted through the kidneys. On cold days, the body sweats less. Thus, urine output needs to be greater to maintain the proper balance within the body. It is the kidney's job to regulate fluid balance by adjusting urine output.

Another major duty of the kidney is to remove the waste products that the body produces throughout the day. As the body functions, cells use energy. The operation of the cells produces waste products that must be removed from the body. When these waste products are not removed adequately, they build up in the body. An elevation of waste products, as measured in the blood, is called "azotemia." When waste products accumulate they cause a sick feeling throughout the body called "uremia," which is due to urea and other nitrogenous waste compounds.

When do patients require dialysis?

When the kidneys fail to filter the blood effectively, and fluid and waste products build up in the body to a critical level a person may need to start dialysis. The two main causes of kidney failure and the need for dialysis treatment are diabetes and high blood pressure.

When a person’s levels of waste products in their body become so high they start to become sick from them, he or she may need dialysis. The level of the waste products usually builds up slowly. Doctors who specialize in diseases and conditions of the kidneys are called nephrologists. To help nephrologists decide when dialysis is necessary for a patient, they will order tests that measure several blood chemical levels in the patient’s body. The two major blood chemical levels that are measured are the "creatinine level" and the "blood urea nitrogen" (BUN) level. As these two levels rise, they are indicators of the decreasing ability of the kidneys to cleanse the body of waste products.

Doctors use a urine test, the "creatinine clearance," to measure the level of kidney function. The patient saves urine in a special container for one full day. The waste products in the urine and the blood are estimated by measuring the creatinine. By comparing the blood and urine levels of this substance, the doctor has an accurate idea of how well the kidneys are working. This result is called creatinine clearance. Usually, when the creatinine clearance falls to 1 below 10 cc/minute, the patient needs dialysis.

The doctor also uses other indicators of the patient's status to decide about the need for dialysis. If the patient is experiencing a major inability to rid the body of excess water or is complaining of problems with the heart, lungs, or stomach, or difficulties with taste or sensation in their legs, dialysis may be indicated even though the creatinine clearance has not fallen to the 10 cc/minute level.

What are the types of dialysis? How do they work?

There are two main types of dialysis, hemodialysis and peritoneal dialysis.

How hemodialysis works

Hemodialysis uses an external machine and a special type of filter to remove excess waste products and water from the blood.

During hemodialysis, blood passes from the patient's body to the dialysis machine through sterile tubing and into a filter, called a dialysis membrane. For this procedure, the patient has a specialized vascular tube placed between an artery and a vein in the arm or leg (called a gortex graft). Sometimes, a direct connection is made between an artery and a vein in the arm. This procedure is called a Cimino fistula. Needles are then placed in the graft or fistula, and blood passes to the dialysis machine, through the filter, and back to the patient. If the patient requires dialysis before a graft or a fistula is placed, a large-diameter catheter (hemodialysis catheter) is placed directly into a large vein in the neck or leg to perform dialysis. In the dialysis machine, a solution on the other side of the filter receives the waste products from the patient.

How peritoneal dialysis works

Peritoneal dialysis uses a fluid that is placed into the patient's abdominal cavity through a plastic tube (peritoneal dialysis catheter) to remove excess waste products and fluid from the body.

Peritoneal dialysis uses the patient's body tissues inside of the belly (abdominal cavity) to act as the filter. The abdominal cavity is lined with a special membrane called the peritoneal membrane. A plastic tube called a peritoneal dialysis catheter is placed through the abdominal wall into the abdominal cavity. A special fluid called dialysate is then flushed into the abdominal cavity and washes around the intestines. The peritoneal membrane acts as a filter between this fluid and the bloodstream. By using different types of solutions, waste products, and excess water can be removed from the body through this process.

SLIDESHOW

Urine: What Your Pee Says About Your Health See Slideshow

Where do I get dialysis treatment? How long does it take? How often do I have to get it?

Hemodialysis

Hemodialysis treatment usually takes place in a hemodialysis unit. This is a special building that is equipped with machines that perform dialysis treatment. The dialysis unit is also the place where patients can receive dietary counseling and help with social needs.

Patients generally go to the dialysis unit three times a week for treatment. For example, the schedule is either Monday, Wednesday, and Friday or Tuesday, Thursday, and Saturday. Before treatment, patients weigh themselves so that excess fluid accumulated since the last dialysis session can be measured. Patients then go to assigned chairs that are like lounge chairs. The area of the graft or fistula (the connection between the artery and vein), is cleaned thoroughly. Two needles are then inserted into the graft or fistula. One takes the blood to the machine where it is cleaned. The other needle allows blood that is returning to the patient to go back into the patient's body.

Treatments last from 2 ½ to 4 ½ hours. During this time, the dialysis staff checks the patient's blood pressure frequently and adjusts the dialysis machine to ensure that the proper amount of fluid is being removed from the patient's body. Patients can read, watch television, sleep, or do other work during treatment. On occasion, very motivated patients may be able to perform dialysis themselves at home in a process called home hemodialysis.

Peritoneal Dialysis

Peritoneal dialysis requires the patient to play a more active role in their dialysis treatment. Of primary importance is the patient's responsibility for maintaining a clean surface on the abdomen and catheter, where treatment is administered, to prevent infection.

During this process, the patient weighs herself/himself to determine the strength of the fluid to be used. The patient then puts on a mask and cleans the peritoneal catheter site. The fluid has been allowed to stay in the peritoneal cavity while the peritoneal membrane filters waste into the fluid. The fluid and waste are then drained back into the plastic bag that originally contained the fluid. The patient then disconnects this bag containing waste in the fluid and connects a new bag of solution that is allowed to drain into the peritoneal cavity. Once the fluid is in the body, the new bag is rolled up and placed in the patient's underwear until the next treatment. This procedure usually takes 30 minutes to accomplish and must be done four to five times a day.

As an alternative to this treatment, some patients on peritoneal dialysis use a machine called a "cycler." This cycler is used every night. Five to six bags of dialysis fluid are used on the cycler and the machine automatically changes the fluid while the patient sleeps.

What are the advantages of the different types of dialysis?

Each of the two types of dialysis, hemodialysis, and peritoneal dialysis, has advantages and disadvantages. It is up to the patient and their kidney doctor to decide which of these procedures is best by considering her/his lifestyle, other medical conditions, support systems, and how much responsibility and participation in the treatment program he/she desires. The patient must realize that because of their specific medical condition, they may not be a candidate for one or the other type of dialysis. Each patient must view the two types of dialysis procedures from her/his perspective.

Regardless of which type of dialysis is chosen, patients have certain responsibilities such as following a diet program, watching their fluid intake, and taking special vitamins, and other medicines to control blood pressure and calcium and phosphorus balance.

For many patients, the major advantage of hemodialysis is minimal participation in the treatment. However, patients are required to adhere to a specific schedule and travel to the dialysis unit three times a week. Hemodialysis also requires stricter diet control and fluid control than peritoneal dialysis.

For those patients preferring more independence, peritoneal dialysis allows for more flexible scheduling and can be performed at home. The patient must undergo a certain amount of dialysis each day but can alter the exact timing of the dialysis procedure.

A major problem with peritoneal dialysis is infection. The patient has a plastic tube that goes from the peritoneal cavity to the outside of the body and this is a potential site for the entry of bacteria into the body. Great emphasis is placed on cleanliness and technique during the training sessions.

What is the life expectancy for someone on dialysis?

The expected lifespan of a patient receiving dialysis in the United States Renal Data System (USRDS) report was approximately 8 years for dialysis patients 40 to 44 years of age and approximately 4.5 years for those 60 to 64 years of age. This is a highly variable range that is dependent on many factors such as:

  • Race
  • Age of patient
  • Quality of dialysis treatment
  • Other medical issues in the patient (comorbidities)
  • Quality of pre-dialysis treatment
  • Control of potassium levels
  • Overall compliance of the patient

Some patients do dialysis as a bridge (time to locate an appropriate donor kidney) to get a kidney transplant (renal transplant). If a patient is successful in getting a transplant and can stop dialysis, their survival prognosis increases greatly.

How can patients learn more about dialysis?

As a patient approaches dialysis, there are numerous sources of information. The doctor often has access to training videos that explain the dialysis techniques and their respective advantages and disadvantages.

Throughout the country are regional units of the National Kidney Foundation. These can be contacted, either through your physician or by contacting local dialysis units.

The National Kidney Foundation
30 East 33rd St.
New York, NY 10016
(800) 622-9010

The American Association of Kidney Patients is an active association of patients and families involved with dialysis and a very good source of information.

American Association of Kidney Patients
3505 E. Frontage Rd., Ste. 315
Tampa, FL 33607
800-749-2257 (direct)
813-636-8122 (fax)
www.aakp.org
[email protected]

Subscribe to MedicineNet's General Health Newsletter

By clicking Submit, I agree to the MedicineNet's Terms & Conditions & Privacy Policy and understand that I may opt out of MedicineNet's subscriptions at any time.

References
Mailloux, MD, MD. et al. "Patient survival and maintenance dialysis." UpToDate. Updated: Oct 13, 2017. <>https://www.uptodate.com/contents/patient-survival-and-maintenance-dialysis>

National Kidney Foundation. "End Stage Renal Disease in the United States." Updated: January 2016. <https://www.kidney.org/news/newsroom/factsheets/End-Stage-Renal-Disease-in-the-US>

Tattersall, James et al. "When to start dialysis: updated guidance following publication of the Initiating Dialysis Early and Late (IDEAL) study." Published: May 2011. Nephrology Dialysis Transplantation, Volume 26, Issue 7, 1 July 2011, Pages 2082–2086. <https://academic.oup.com/ndt/article/26/7/2082/1896753>