Prostatic stent

Prostatic stent for treatment of BPH
Prostatic stent use in the treatment of BPH
Classification and external resources
Specialty urology
ICD-10 N40
ICD-9-CM 600
DiseasesDB 10797
eMedicine med/1919

A prostatic stent[1] 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[2] is a common condition with a variety of causes. Benign prostatic hyperplasia (BPH) is the most common cause,[3] 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.

Classification

There are two types of prostatic stent: temporary and permanent.

Although a permanent prostatic stent is not a medical treatment, it falls under the classification of a surgical procedure.[4] Placement of a permanent prostatic stent is carried out as an outpatient treatment under local, topical or spinal anesthesia and usually takes about 15–30 minutes.

A temporary prostatic stent can be inserted in a similar manner to a Foley catheter, requiring only topical anesthesia.

Advantages and disadvantages to permanent prostatic stents

Advantages

Disadvantages

Advantages and disadvantages to temporary prostatic stents

Advantages

Disadvantages

Society

At the present time, there is one temporary prostatic stent that has received U.S. Food and Drug Administration (FDA) approval.[5] The Spanner[6] temporary prostatic stent maintains urine flow and allows natural voluntary urination. The prostatic stent is a completely internal device and can be inserted and removed as easily as a Foley catheter.[7] It permits normal bladder and sphincter functioning and can be worn comfortably by patients.[8] The temporary prostatic stent is typically used to help patients maintain urine flow after procedures that cause prostatic swelling, such as brachytherapy, cryotherapy, TUMT, TURP. It has also become an effective differential diagnostic tool for identifying poor bladder function separate from prostatic obstruction.

Research

Permanent stents are often metal coils,[9] which are inserted into the male urethra. The braided mesh is designed to expand radially, applying constant gentle pressure to hold open the sections of the urethra that obstruct the flow of urine. The open, diamond-shape cell design of the stent allows the stent to eventually become embedded in the urethra, thus minimizing the risk for encrustation and migration. Permanent stents are used to relieve urinary obstructions secondary to benign prostatic hyperplasia (BPH), recurrent bulbar urethral stricture (RBUS), or detrusor external sphincter dyssynergia (DESD).[10] The main motive for removal of permanent stents is worsening of symptoms even with device fitted. Other reasons have been migration, clot retention, hematuria, and urinary retention. The only FDA approved permanent stent is the Urolume. Usually, permanent stents are used only for men who are unwilling or unable to take medications or who are reluctant or unable to have surgery. Most doctors do not consider permanent stents a viable long-term treatment for most men.[11]

Not yet approved in the USA but available in Europe and several other countries are the nickel-titanium stents Memokath Stents. Memokath™ Prostate stents place themselves between temporary and permanent stents since they can remain in place for several years and still easily be exchanged. The Memokath™ Prostate stent is used for long-term treatment of patients with prostatic obstruction and enlargement. The treatment requires only local anesthetic gel which makes it suitable for day case treatment. The stent is easy and simple to insert and the procedure takes approximately 20 minutes. Patients can normally empty their bladder immediately after stent placement. If necessary, the stent can easily be exchanged as it is not prone to encrustation or tissue in-growth. The reason for this feature is that nickel-titanium becomes super-soft when cooled with cold water.

See also

References

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