Urinary catheterization

Urinary catheterization
Urinary catheterization
	Urinary catheterization with a dummy
ICD-9-CM	57.94
MeSH	D014546
MedlinePlus	003981
	[ edit on Wikidata]

Last updated December 19, 2023

In urinary catheterization, a latex, polyurethane, or silicone tube known as a urinary catheter is inserted into the bladder through the urethra to allow urine to drain from the bladder for collection. It may also be used to inject liquids used for treatment or diagnosis of bladder conditions. A clinician, often a nurse, usually performs the procedure, but self-catheterization is also possible. A catheter may be in place for long periods of time (indwelling catheter) or removed after each use (intermittent catheterization).

Catheter types

Catheters come in several basic designs:^[1]

A Foley catheter (indwelling urinary catheter) is retained by means of a balloon at the tip that is inflated with sterile water. The balloons typically come in two different sizes: 5 cm³ and 30 cm³. They are commonly made in silicone rubber or natural rubber.
An intermittent catheter/Robinson catheter is a flexible catheter that is removed after each use. Unlike the Foley catheter, it has no balloon on its tip and therefore cannot stay in place unaided. These can be non-coated or coated (e.g., hydrophilic coated and ready to use).
A coudé catheter, including Tiemann's catheter, is designed with a curved tip that makes it easier to pass through the curvature of the prostatic urethra.^[2]
A hematuria catheter is a type of Foley catheter used for Post-TURP hemostasis. This is useful following endoscopic surgical procedures, or in the case of gross hematuria. There are both two-way and three-way hematuria catheters (double and triple lumen).^[1]
A condom catheter can be used by males and carries a lower risk of infection than an indwelling catheter.^[3]

Catheter diameters are sized by the French catheter scale (F). The most common sizes are 10 F (3.3mm) to 28 F (9.3mm). The clinician selects a size large enough to allow free flow of urine, and large enough to control leakage of urine around the catheter. A larger size is necessary when the urine is thick, bloody, or contains large amounts of sediment. Larger catheters, however, are more likely to damage the urethra. Some people develop allergies or sensitivities to latex after long-term latex catheter use making it necessary to use silicone or Teflon types.^{[ citation needed ]}

Evidence does not support an important decrease in the risk of urinary tract infections when silver-alloy catheters are used.^[4]

Indications

Common indications for urinary catheterization include acute or chronic urinary retention (which can damage the kidneys) from conditions such as benign prostatic hyperplasia, orthopedic procedures that may limit a patient's movement, the need for accurate monitoring of input and output (such as in an ICU), urinary incontinence that may compromise the ability to heal wounds, and the effects of various surgical interventions involving the bladder, prostate, or bowel.

Intermittent self-catheterization may be indicated in cases of neurogenic bladder due to damage to the spinal cord or brain. This can be performed by the patient four to six times a day, using a clean technique. Nurses use a sterile technique to perform intermittent catheterization in hospital settings. For patients with neurogenic bladder due to spinal cord injury, intermittent catheterization (IC) is a standard method for bladder emptying. The technique is safe and effective and results in improved kidney and upper urinary tract status, lessening of vesicoureteral reflux and amelioration of continence.^[5] In addition to the clinical benefits, patient quality of life is enhanced by the increased independence and security offered by self-catheterization.^[6]^[7]

Illustrations

Foley catheter
Condom catheter
Male Self-Catheterization
Female Self-Catheterization

Catheter maintenance

A catheter that is left in place for more than a short period of time is generally attached to a drainage bag to collect the urine. This also allows for measurement of urine volume. There are three types of drainage bags: The first is a leg bag, a smaller drainage device that attaches by elastic bands to the leg. A leg bag is usually worn during the day, as it fits discreetly under pants or skirts, and is easily emptied into a toilet. The second type of drainage bag is a larger device called a down drain that may be used overnight. This device is hung on a hook under the patient's bed—never placed on the floor, due to the risk of bacterial infection. The third is called a belly bag and is secured around the waist. This bag can be worn at all times. It can be worn under the patient's underwear to provide a totally undetectable look.

During long-term use, the catheter may be left in place all the time, or a patient may be instructed on a procedure for placing a catheter just long enough to empty the bladder and then removing it (known as intermittent self-catheterization). Patients undergoing major surgery are often catheterized and may remain so for some time. The patient may require irrigation of the bladder with sterile saline injected through the catheter to flush out clots or other matter that does not drain.^[8]

Maintenance

How to properly drain a condom catheter
How to properly drain a Foley catheter
Closed urinary drainage method
How to empty a urinary drainage bag

Complications

Catheterization can have short and long term complications. Generally long-term catheterization carries higher risk of complications. Long-term catheterization carries a significant risk of urinary tract infection. ^{[ citation needed ]} Because of this risk catheterization is a last resort for the management of incontinence where other measures have proved unsuccessful. ^{[ citation needed ]} Other long term complications may include blood infections (sepsis), urethral injury, skin breakdown, bladder stones, and blood in the urine (hematuria). ^{[ citation needed ]} After many years of catheter use, bladder cancer may also develop. ^{[ citation needed ]}

Some people experience bladder spasms with catheterization and may be more common in males. If bladder spasms occur, or there is no urine in the drainage bag, the catheter may be blocked by blood, thick sediment, or a kink in the catheter or drainage tubing. Sometimes spasms are caused by the catheter irritating the bladder, prostate/Skene's glands, or penis/vulva. Such spasms can be controlled with medication such as butylscopolamine, although most patients eventually adjust to the irritation and the spasms go away.^[9]

Preventing infection

Everyday care of the catheter and drainage bag is important to reduce the risk of infection. Such precautions include:

Urinary catheterization should be done in a sterile aseptic manner.
Cleansing the urethral area (the area where the catheter exits body) and the catheter itself.
Disconnecting the drainage bag from catheter only with clean hands
Disconnecting the drainage bag as seldom as possible.
Keeping the drainage bag connector as clean as possible and cleaning the drainage bag periodically.
Use of a thin catheter where possible to reduce the risk of harming the urethra during insertion.
Drinking sufficient liquid to produce at least two litres of urine daily
Sexual activity is very high risk for urinary infections, especially for catheterized women.

There is no clear evidence that any one catheter type or insertion technique is superior compared to another in preventing infections or complications.^[10] In the UK it is generally accepted that cleaning the area surrounding the urethral meatus with 0.9% sodium chloride solution is sufficient for both male and female patients as there is no reliable evidence to suggest that the use of antiseptic agents reduces the risk of urinary tract infection.^[11]

Recent developments in the field of the temporary prostatic stent have been viewed as a possible alternative to indwelling catheterization and the infections associated with their use.^[12]

History

Ancient Egyptian and Roman physicians have been described using reeds as urinary catheters to overcome blockages, and catheterization to relieve urinary retention has also been described in ancient Indian and Chinese texts.^[13]

Related Research Articles

Cystoscopy is endoscopy of the urinary bladder via the urethra. It is carried out with a cystoscope.

Urinary incontinence (UI), also known as involuntary urination, is any uncontrolled leakage of urine. It is a common and distressing problem, which may have a large impact on quality of life. It has been identified as an important issue in geriatric health care. The term enuresis is often used to refer to urinary incontinence primarily in children, such as nocturnal enuresis. UI is an example of a stigmatized medical condition, which creates barriers to successful management and makes the problem worse. People may be too embarrassed to seek medical help, and attempt to self-manage the symptom in secrecy from others.

<span class="mw-page-title-main">Urethral stricture</span> Medical condition

A urethral stricture is a narrowing of the urethra, the tube connected to the bladder that allows the passing of urine. The narrowing reduces the flow of urine and makes it more difficult or even painful to empty the bladder.

<span class="mw-page-title-main">Hematuria</span> Medical condition

Hematuria or haematuria is defined as the presence of blood or red blood cells in the urine. "Gross hematuria" occurs when urine appears red, brown, or tea-colored due to the presence of blood. Hematuria may also be subtle and only detectable with a microscope or laboratory test. Blood that enters and mixes with the urine can come from any location within the urinary system, including the kidney, ureter, urinary bladder, urethra, and in men, the prostate. Common causes of hematuria include urinary tract infection (UTI), kidney stones, viral illness, trauma, bladder cancer, and exercise. These causes are grouped into glomerular and non-glomerular causes, depending on the involvement of the glomerulus of the kidney. But not all red urine is hematuria. Other substances such as certain medications and foods can cause urine to appear red. Menstruation in women may also cause the appearance of hematuria and may result in a positive urine dipstick test for hematuria. A urine dipstick test may also give an incorrect positive result for hematuria if there are other substances in the urine such as myoglobin, a protein excreted into urine during rhabdomyolysis. A positive urine dipstick test should be confirmed with microscopy, where hematuria is defined by three or more red blood cells per high power field. When hematuria is detected, a thorough history and physical examination with appropriate further evaluation can help determine the underlying cause.

Dysuria refers to painful or uncomfortable urination.

<span class="mw-page-title-main">Urinary retention</span> Inability to completely empty the bladder

Urinary retention is an inability to completely empty the bladder. Onset can be sudden or gradual. When of sudden onset, symptoms include an inability to urinate and lower abdominal pain. When of gradual onset, symptoms may include loss of bladder control, mild lower abdominal pain, and a weak urine stream. Those with long-term problems are at risk of urinary tract infections.

In urology, a Foley catheter is a brand name for one of many brands of urinary catheters (UC). Foleys and their namesakes are indwelling UC, often referred to as an IDCs or the alternative type being an in/out catheters. The foley UC was named after Frederic Foley, who produced the original design in 1929. The UC is a flexible tube if it is indwelling and stays put, or rigid if it is in/out, that a clinician, or the client themselves, often in the case of in/out UC, passes it through the urethra and into the bladder to drain urine.

<span class="mw-page-title-main">Mitrofanoff procedure</span>

The Mitrofanoff procedure, also known as the Mitrofanoff appendicovesicostomy, is a surgical procedure in which the appendix is used to create a conduit, or channel, between the skin surface and the urinary bladder. The small opening on the skin surface, or the stoma, is typically located either in the navel or nearby the navel on the right lower side of the abdomen. Originally developed by Professor Paul Mitrofanoff in 1980, the procedure represents an alternative to urethral catheterization and is sometimes used by people with urethral damage or by those with severe autonomic dysreflexia. An intermittent catheter, or a catheter that is inserted and then removed after use, is typically passed through the channel every 3–4 hours and the urine is drained into a toilet or a bottle. As the bladder fills, rising pressure compresses the channel against the bladder wall, creating a one-way valve that prevents leakage of urine between catheterizations.

<span class="mw-page-title-main">Suprapubic cystostomy</span>

A suprapubic cystostomy or suprapubic catheter (SPC) is a surgically created connection between the urinary bladder and the skin used to drain urine from the bladder in individuals with obstruction of normal urinary flow. The connection does not go through the abdominal cavity.

A urethrotomy is an operation which involves incision of the urethra, especially for relief of a stricture. It is most often performed in the outpatient setting, with the patient (usually) being discharged from the hospital or surgery center within six hours from the procedure's inception.

Posterior urethral valve (PUV) disorder is an obstructive developmental anomaly in the urethra and genitourinary system of male newborns. A posterior urethral valve is an obstructing membrane in the posterior male urethra as a result of abnormal in utero development. It is the most common cause of bladder outlet obstruction in male newborns. The disorder varies in degree, with mild cases presenting late due to milder symptoms. More severe cases can have renal and respiratory failure from lung underdevelopment as result of low amniotic fluid volumes, requiring intensive care and close monitoring. It occurs in about one in 8,000 babies.

In urology, voiding cystourethrography (VCUG) is a frequently performed technique for visualizing a person's urethra and urinary bladder while the person urinates (voids). It is used in the diagnosis of vesicoureteral reflux, among other disorders. The technique consists of catheterizing the person in order to fill the bladder with a radiocontrast agent, typically diatrizoic acid. Under fluoroscopy the radiologist watches the contrast enter the bladder and looks at the anatomy of the patient. If the contrast moves into the ureters and back into the kidneys, the radiologist makes the diagnosis of vesicoureteral reflux, and gives the degree of severity a score. The exam ends when the person voids while the radiologist is watching under fluoroscopy. Consumption of fluid promotes excretion of contrast media after the procedure. It is important to watch the contrast during voiding, because this is when the bladder has the most pressure, and it is most likely this is when reflux will occur. Despite this detailed description of the procedure, at least as of 2016 the technique had not been standardized across practices.

<span class="mw-page-title-main">Ureteral stent</span>

A ureteral stent, or ureteric stent, is a thin tube inserted into the ureter to prevent or treat obstruction of the urine flow from the kidney. The length of the stents used in adult patients varies between 24 and 30 cm. Additionally, stents come in differing diameters or gauges, to fit different size ureters. The stent is usually inserted with the aid of a cystoscope. One or both ends of the stent may be coiled to prevent it from moving out of place; this is called a JJ stent, double J stent or pig-tail stent.

Neurogenic bladder dysfunction, or neurogenic bladder, refers to urinary bladder problems due to disease or injury of the central nervous system or peripheral nerves involved in the control of urination. There are multiple types of neurogenic bladder depending on the underlying cause and the symptoms. Symptoms include overactive bladder, urinary urgency, frequency, incontinence or difficulty passing urine. A range of diseases or conditions can cause neurogenic bladder including spinal cord injury, multiple sclerosis, stroke, brain injury, spina bifida, peripheral nerve damage, Parkinson's disease, or other neurodegenerative diseases. Neurogenic bladder can be diagnosed through a history and physical as well as imaging and more specialized testing. Treatment depends on underlying disease as well as symptoms and can be managed with behavioral changes, medications, surgeries, or other procedures. The symptoms of neurogenic bladder, especially incontinence, can have a significant impact on quality of life.

Urethroplasty is the surgical repair of an injury or defect within the walls of the urethra. Trauma, iatrogenic injury and infections are the most common causes of urethral injury/defect requiring repair. Urethroplasty is regarded as the gold standard treatment for urethral strictures and offers better outcomes in terms of recurrence rates than dilatations and urethrotomies. It is probably the only useful modality of treatment for long and complex strictures though recurrence rates are higher for this difficult treatment group.

A retrograde urethrography is a routine radiologic procedure used to image the integrity of the urethra. Hence a retrograde urethrogram is essential for diagnosis of urethral injury, or urethral stricture.

A prostatic stent is a stent used to keep open the male urethra and allow the passing of urine in cases of prostatic obstruction and lower urinary tract symptoms (LUTS). Prostatic obstruction is a common condition with a variety of causes. Benign prostatic hyperplasia (BPH) is the most common cause, but obstruction may also occur acutely after treatment for BPH such as transurethral needle ablation of the prostate (TUNA), transurethral resection of the prostate (TURP), transurethral microwave thermotherapy (TUMT), prostate cancer or after radiation therapy.

<span class="mw-page-title-main">Cystometry</span> Medical evaluation of bladder function

Cystometry, also known as flow cystometry, is a clinical diagnostic procedure used to evaluate bladder function. Specifically, it measures contractile force of the bladder when voiding. The resulting chart generated from cystometric analysis is known as a cystometrogram (CMG), which plots intravesical pressure against the volume of fluid in the bladder.

<span class="mw-page-title-main">Overflow incontinence</span> Medical condition

Overflow incontinence is a concept of urinary incontinence, characterized by the involuntary release of urine from an overfull urinary bladder, often in the absence of any urge to urinate. This condition occurs in people who have a blockage of the bladder outlet, or when the muscle that expels urine from the bladder is too weak to empty the bladder normally. Overflow incontinence may also be a side effect of certain medications.

The genitourinary tract, or simply the urinary tract, consists of the kidneys, ureters, bladder, and the urethra. The kidney is the most frequently injured. Injuries to the kidney commonly occur after automobile or sports-related accidents. A blunt force is involved in 80-85% of injuries. Major decelerations can result in vascular injuries near the kidney's hilum. Gunshots and knife wounds and fractured ribs can result in penetrating injuries to the kidney.

References

1 2 Hanno PM, Wein AJ, Malkowicz SB (2001). Clinical manual of urology.. McGraw-Hill Professional. p. 78.
↑ Elroy D. Kursh (1987). Urology: Problems in Primary Care. Medical Economics Books. ISBN 9780874894196.
↑ Black MA (1994). Medical nursing (2nd ed.). Springhouse, Pa.: Springhouse Corp. p. 97. ISBN 0-87434-738-6. LCCN 94035389.
↑ Lam TB, Omar MI, Fisher E, Gillies K, MacLennan S (September 2014). "Types of indwelling urethral catheters for short-term catheterisation in hospitalised adults". Cochrane Database Syst Rev (9): CD004013. doi:10.1002/14651858.CD004013.pub4. PMID 25248140.
↑ Hedlund H, Hjelmås K, Jonsson O, Klarskov P, Talja M (February 2001). "Hydrophilic versus non-coated catheters for intermittent catheterization". Scand. J. Urol. Nephrol. 35 (1): 49–53. doi:10.1080/00365590151030822. PMID 11291688. S2CID 218867279.
↑ Lapides J, Diokno AC, Silber SJ, Lowe BS (March 1972). "Clean, intermittent self-catheterization in the treatment of urinary tract disease". J. Urol. 107 (3): 458–61. doi:10.1016/s0022-5347(17)61055-3. PMID 5010715.
↑ Winder A (2002). "Intermittent self-catheterisation". Nurs Times. 98 (48): 50. PMID 12501532.
↑ Best practices : evidence-based nursing procedures (2nd ed.). Philadelphia: Lippincott Williams & Wilkins. 2007. ISBN 978-1-58255-532-4. LCCN 2006012245.
↑ "Urinary catheters". MedlinePlus, the National Institutes of Health's Web site. March 9, 2010. Retrieved December 1, 2010.
↑ Prieto, Jacqui A.; Murphy, Catherine L.; Stewart, Fiona; Fader, Mandy (October 26, 2021). "Intermittent catheter techniques, strategies and designs for managing long-term bladder conditions". The Cochrane Database of Systematic Reviews. 2021 (10): CD006008. doi:10.1002/14651858.CD006008.pub5. ISSN 1469-493X. PMC 8547544 . PMID 34699062.
↑ Dougherty Lisa; Lister Sara (August 15, 2011). The Royal Marsden Hospital Manual of Clinical Nursing Procedures. John Wiley & Sons. ISBN 978-1-4443-3509-5.
↑ Shore ND, Dineen MK, Saslawsky MJ, Lumerman JH, Corica AP (March 2007). "A temporary intraurethral prostatic stent relieves prostatic obstruction following transurethral microwave thermotherapy". J. Urol. 177 (3): 1040–6. doi:10.1016/j.juro.2006.10.059. PMID 17296408.
↑ Nahon, I; Waddington, G; Dorey, G; Adams, R (2011). "The history of urologic surgery: from reeds to robotics". Urologic Nursing. 31 (3): 173–80. doi:10.7257/1053-816X.2011.31.3.173. PMID 21805756.

External links

Female urinary catherization, Merck Manual Professional Edition
Male urinary catherization, Merck Manual Professional Edition

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[Hanno-1] 1 2 Hanno PM, Wein AJ, Malkowicz SB (2001). Clinical manual of urology.. McGraw-Hill Professional. p. 78.

[2] Elroy D. Kursh (1987). Urology: Problems in Primary Care. Medical Economics Books. ISBN 9780874894196.

[3] Black MA (1994). Medical nursing (2nd ed.). Springhouse, Pa.: Springhouse Corp. p. 97. ISBN 0-87434-738-6. LCCN 94035389.

[Lam2014-4] Lam TB, Omar MI, Fisher E, Gillies K, MacLennan S (September 2014). "Types of indwelling urethral catheters for short-term catheterisation in hospitalised adults". Cochrane Database Syst Rev (9): CD004013. doi:10.1002/14651858.CD004013.pub4. PMID 25248140.

[pmid11291688-5] Hedlund H, Hjelmås K, Jonsson O, Klarskov P, Talja M (February 2001). "Hydrophilic versus non-coated catheters for intermittent catheterization". Scand. J. Urol. Nephrol. 35 (1): 49–53. doi:10.1080/00365590151030822. PMID 11291688. S2CID 218867279.

[Lapides-1972-6] Lapides J, Diokno AC, Silber SJ, Lowe BS (March 1972). "Clean, intermittent self-catheterization in the treatment of urinary tract disease". J. Urol. 107 (3): 458–61. doi:10.1016/s0022-5347(17)61055-3. PMID 5010715.

[Winder2002-7] Winder A (2002). "Intermittent self-catheterisation". Nurs Times. 98 (48): 50. PMID 12501532.

[8] Best practices : evidence-based nursing procedures (2nd ed.). Philadelphia: Lippincott Williams & Wilkins. 2007. ISBN 978-1-58255-532-4. LCCN 2006012245.

[9] "Urinary catheters". MedlinePlus, the National Institutes of Health's Web site. March 9, 2010. Retrieved December 1, 2010.

[10] Prieto, Jacqui A.; Murphy, Catherine L.; Stewart, Fiona; Fader, Mandy (October 26, 2021). "Intermittent catheter techniques, strategies and designs for managing long-term bladder conditions". The Cochrane Database of Systematic Reviews. 2021 (10): CD006008. doi:10.1002/14651858.CD006008.pub5. ISSN 1469-493X. PMC 8547544 . PMID 34699062.

[Marsden-11] Dougherty Lisa; Lister Sara (August 15, 2011). The Royal Marsden Hospital Manual of Clinical Nursing Procedures. John Wiley & Sons. ISBN 978-1-4443-3509-5.

[pmid17296408-12] Shore ND, Dineen MK, Saslawsky MJ, Lumerman JH, Corica AP (March 2007). "A temporary intraurethral prostatic stent relieves prostatic obstruction following transurethral microwave thermotherapy". J. Urol. 177 (3): 1040–6. doi:10.1016/j.juro.2006.10.059. PMID 17296408.

[Nahon2011-13] Nahon, I; Waddington, G; Dorey, G; Adams, R (2011). "The history of urologic surgery: from reeds to robotics". Urologic Nursing. 31 (3): 173–80. doi:10.7257/1053-816X.2011.31.3.173. PMID 21805756.

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