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Transurethral resection of the prostate

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(Redirected from TURP) "TURP" redirects here. For other uses, see Turp. Surgical procedure to perform a prostatectomy Medical intervention
Transurethral resection of the prostate
Micrograph of a transurethral resection of the prostate (TURP) specimen, showing BPH (nodular hyperplasia of the prostate) – left-of-center in image. H&E stain.
Other namesTURP
ICD-9-CM60.29
MeSHD020728
MedlinePlus002996
[edit on Wikidata]

Transurethral resection of the prostate (commonly known as a TURP, plural TURPs, and rarely as a transurethral prostatic resection, TUPR) is a urological operation. It is used to treat benign prostatic hyperplasia (BPH). As the name indicates, it is performed by visualising the prostate through the urethra and removing tissue by electrocautery or sharp dissection. It has been the standard treatment for BPH for many years, but recently alternative, minimally invasive techniques have become available. This procedure is done with spinal or general anaesthetic. A triple lumen catheter is inserted through the urethra to irrigate and drain the bladder after the surgical procedure is complete. The outcome is considered excellent for 80–90% of BPH patients. The procedure carries minimal risk for erectile dysfunction, moderate risk for bleeding, and a large risk for retrograde ejaculation.

Indications

BPH is normally initially treated medically through alpha antagonists such as tamsulosin, or 5-alpha-reductase inhibitors such as finasteride and dutasteride. If medical treatment does not reduce a patient's urinary symptoms, a TURP may be considered following a careful examination of the prostate or bladder through a cystoscope. If TURP is contraindicated, a urologist may consider a simple prostatectomy, in and out catheters, or a supra-pubic catheter to help a patient void urine effectively. As the medical management of BPH improves, the number of TURPs has been decreasing.



Types of TURP

This section needs more reliable medical references for verification or relies too heavily on primary sources. Please review the contents of the section and add the appropriate references if you can. Unsourced or poorly sourced material may be challenged and removed. Find sources: "Transurethral resection of the prostate" – news · newspapers · books · scholar · JSTOR (September 2020)
Urologist with a rigid cystoscope inserted into the urethra

Traditionally, a cystoscope (a "resectoscope") has been used to perform TURP. The scope is passed through the urethra to the prostate where surrounding prostate tissue can then be excised. There are two types of modalities:

  • Monopolar TURP: A monopolar device utilizing a wire loop with electric current flowing in one direction (thus monopolar) can be used to excise tissue via the resectoscope. A grounding ESU pad and irrigation by a non conducting fluid is required to prevent this current from disturbing surrounding tissues. This fluid (usually glycine) can cause damage to surrounding tissue after prolonged exposure, resulting in TUR syndrome, so surgery time is limited.
  • Bipolar TURP: This is a newer technique that uses bipolar current to remove the tissue. Bipolar TURP allows saline irrigation and eliminates the need for an ESU grounding pad thus preventing post-TURP hyponatremia (TUR syndrome) and reducing other complications. As a result, bipolar TURP is also not subject to the same surgical time constraints of conventional TURP.

A 2019 Cochrane review of 59 studies including 8924 men with BPH urinary symptoms found that bipolar and monopolar TURP probably result in comparable improvements in urinary symptoms, as well as in similar erectile function, incidence of urinary incontinence and need for retreatment. Bipolar surgery likely reduces the risk of TUR syndrome and the need for blood transfusion.

Another transurethral method utilizes laser energy to remove tissue. With laser prostate surgery a fiber optic cable pushed through the urethra is used to transmit lasers such as holmium-Nd:YAG high-powered "red" or potassium titanyl phosphate (KTP) "green" to vaporize the adenoma. More recently the KTP laser has been supplanted by a higher power laser source based on a lithium triborate crystal, though it is still commonly referred to as a "Greenlight" or KTP procedure. The specific advantages of utilizing laser energy rather than a traditional electrosurgical TURP is a decrease in the relative blood loss, elimination of the risk of post-TURP hyponatremia (TUR syndrome), the ability to treat larger glands, as well as treating patients who are actively being treated with anticoagulation therapy for unrelated diagnosis.

A further transurethal method utilizes a robotically-controlled waterjet to remove prostate tissue. Visualization is provided by a combination of cystoscope and transrectal ultrasound methods. This procedure claims risk reduction advantages as a result of being heat free.

Risks

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Because of bleeding risks associated with the procedure, TURP is not considered safe for many patients with cardiac problems.

Postoperative complications include:

Acute complications

  • Bleeding (most common). Bleeding may be reduced by pre-treatment with an anti-androgen such as finasteride or flutamide.
  • Clot retention and clot colic. The blood released from the resected prostate may become stuck in the urethra and can cause pain and urine retention.
  • Bladder wall injury, such as perforation (rare). Intraperitoneal bladder rupture will present with upper abdominal pain and referred pain to the shoulder. Extraperitoneal bladder rupture may present with inguinal, peri-umbilical pain.
  • TURP syndrome: Hyponatremia and water intoxication caused by an overload of fluid absorption from the open prostatic sinusoids during the procedure. This complication can lead to confusion, changes in mental status, vomiting, nausea, and even coma. To prevent TURP syndrome, the length of the procedure is limited to less than one hour in many centers, and the height of the container of irrigating solution above the surgical table – determining the hydrostatic pressure driving fluid into the prostatic veins and sinuses – is kept to a minimum. The classic triad of TURP syndrome includes elevated systolic and diastolic blood pressures with increased pulse pressure, bradycardia, and mental status changes (assuming an awake patient under regional anesthesia).<
  • The different types of irrigation fluids used for TURP each have specific disadvantages. Glycine irrigating solution may cause transient blindness. Distilled water has the highest risk for intravascular hemolysis, hypervolemia, and dilutional hyponatremia. Balanced salt solutions (such as normal saline) cause electrical current dispersion during TURP, but significantly reduce the risk of TURP syndrome.  Sorbitol and mannitol solutions may lead to hyperglycemia (sorbitol), intravascular fluid expansion with absorption (mannitol), and osmotic diuresis (sorbitol and mannitol).

Chronic complications

In most cases, urinary incontinence and erectile dysfunction resolve on their own within 6 to 12 months post-TURP. Therefore, many doctors will postpone invasive treatment until a year after the surgery.

Additionally, transurethral resection of the prostate is associated with a low risk of mortality.

Research

The UNBLOCS trial compared using TURP to the thulium laser transurethral vaporesection of the prostate (ThuVARP). Both methods led to similar improvements, number of complications and lengths of hospital stay. Both were effective as treatment but TURP resulted in a better urinary flow rate.

See also

References

  1. Rassweiler J, Teber D, Kuntz R, Hofmann R (November 2006). "Complications of transurethral resection of the prostate (TURP)--incidence, management, and prevention". European Urology. 50 (5): 969–79, discussion 980. doi:10.1016/j.eururo.2005.12.042. PMID 16469429.
  2. "Transurethral resection of the prostate (TURP) – Risks". nhs.uk. 2017-10-24. Retrieved 2020-03-05.
  3. Collins MA, Terris MK (October 25, 2021). Talavera F, Noble MJ (eds.). "Transurethral Resection of the Prostate: Overview, Treatment & Management, Post-Procedure". EMedicine.
  4. Alexander CE, Scullion MM, Omar MI, Yuan Y, Mamoulakis C, N'Dow JM, et al. (December 2019). "Bipolar versus monopolar transurethral resection of the prostate for lower urinary tract symptoms secondary to benign prostatic obstruction". The Cochrane Database of Systematic Reviews. 12 (12): CD009629. doi:10.1002/14651858.CD009629.pub4. PMC 6953316. PMID 31792928.
  5. Rassweiler J, Teber D, Kuntz R, Hofmann R (November 2006). "Complications of transurethral resection of the prostate (TURP)--incidence, management, and prevention". European Urology. 50 (5): 969–79, discussion 980. doi:10.1016/j.eururo.2005.12.042. PMID 16469429.
  6. Özdal OL, Özden C, Benli K, Gökkaya S, Bulut S, Memiş A (2005). "Effect of short-term finasteride therapy on peroperative bleeding in patients who were candidates for transurethral resection of the prostate (TUR-P): a randomized controlled study". Prostate Cancer and Prostatic Diseases. 8 (3): 215–218. doi:10.1038/sj.pcan.4500818. PMID 15999118. S2CID 20871409.
  7. Li MX, Tang ZY, Su J, et al. "Effect of Finasteride on Perioperative and Postoperative Bleeding Following Transurethral Resection of Prostate". CNKI.
  8. Rassweiler J, Teber D, Kuntz R, Hofmann R (November 2006). "Complications of transurethral resection of the prostate (TURP)--incidence, management, and prevention". European Urology. 50 (5): 969–79, discussion 980. doi:10.1016/j.eururo.2005.12.042. PMID 16469429.
  9. Jensen V (January 1991). "The TURP syndrome". Canadian Journal of Anaesthesia. 38 (1): 90–96. doi:10.1007/BF03009169. PMID 1989745.
  10. ^ Barash PG, Cullen BF, Stoelting RK, Cahalahan MK, Stock MC (2009). Clinical Anesthesia (6th ed.). Philadelphia: Wolters Kluwer/Lippincott Williams & Wilkins. pp. 1365–1368. ISBN 978-0-7817-8763-5.
  11. Suarez OA, McCammon KA (June 2016). "The Artificial Urinary Sphincter in the Management of Incontinence". Urology. 92: 14–19. doi:10.1016/j.urology.2016.01.016. PMID 26845050.
  12. Bauer RM, Gozzi C, Hübner W, Nitti VW, Novara G, Peterson A, et al. (June 2011). "Contemporary management of postprostatectomy incontinence". European Urology. 59 (6): 985–996. doi:10.1016/j.eururo.2011.03.020. PMID 21458914.
  13. Cordon BH, Singla N, Singla AK (4 July 2016). "Artificial urinary sphincters for male stress urinary incontinence: current perspectives". Medical Devices: Evidence and Research. 9 (9): 175–183. doi:10.2147/MDER.S93637. PMC 4938139. PMID 27445509.
  14. Cornu JN, Ahyai S, Bachmann A, de la Rosette J, Gilling P, Gratzke C, et al. (June 2015). "A Systematic Review and Meta-analysis of Functional Outcomes and Complications Following Transurethral Procedures for Lower Urinary Tract Symptoms Resulting from Benign Prostatic Obstruction: An Update". European Urology. 67 (6): 1066–1096. doi:10.1016/j.eururo.2014.06.017. PMID 24972732.
  15. "Laser surgery for an enlarged prostate is no more effective than standard surgery". NIHR Evidence (Plain English summary). National Institute for Health and Care Research. 2021-02-17. doi:10.3310/alert_44637. S2CID 241164315.
  16. Worthington J, Lane JA, Taylor H, Young G, Noble SM, Abrams P, et al. (September 2020). "Thulium laser transurethral vaporesection versus transurethral resection of the prostate for benign prostatic obstruction: the UNBLOCS RCT". Health Technology Assessment. 24 (41): 1–96. doi:10.3310/hta24410. PMC 7520718. PMID 32901611.

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