Pediatrics: UPJO & Megaureter: Difference between revisions

From UrologySchool.com
Jump to navigation Jump to search
Created page with "== Ureteropelvic Junction Obstruction (UJPO) == * '''See Management of Upper Urinary Tract Obstruction Chapter Notes''' * Hydronephrosis in children, defined by an anteroposterior intrarenal pelvis diameter of 12 mm, differs from that seen later in life and is not necessarily synonymous with true obstruction * '''Classified in children as congenital/primary vs. acquired/secondary''' ** '''Congenital/primary UPJO''' *** '''Typically due to either:''' **** '''Intrinsi..."
 
 
(6 intermediate revisions by the same user not shown)
Line 1: Line 1:
== Ureteropelvic Junction Obstruction (UJPO) ==
== Ureteropelvic Junction Obstruction (UJPO) ==


* '''See [[Management of Upper Urinary Tract Obstruction]] Chapter Notes'''
* '''See [[Ureteropelvic Junction Obstruction]] Chapter Notes'''
* Hydronephrosis in children, defined by an anteroposterior intrarenal pelvis diameter of 12 mm, differs from that seen later in life and is not necessarily synonymous with true obstruction
 
* '''Classified in children as congenital/primary vs. acquired/secondary'''
=== Differential Diagnosis of Hydronephrosis in Child ===
** '''Congenital/primary UPJO'''
 
*** '''Typically due to either:'''
# '''Ureteropelvic junction obstruction'''
**** '''Intrinsic narrowing'''
# '''Multicyclic dysplastic kidney'''
***** '''The ureteral segment has an interruption in the development of the circular musculature of the UPJ''' and an alteration in collagen fibers in and around the muscular cells. This results in a narrowed segment of the UPJ with '''functional discontinuity of the muscular contractions and ultimately to insufficient emptying of the renal pelvis'''
# '''Ureteral stone'''
***** '''UPJO in newborns and infants is most often caused by an ''intrinsic'' narrowing'''
# '''Extrarenal pelvis'''
**** '''Extrinsic obstruction'''
# '''Malignant ureteral obstruction'''
***** '''Seen in association with a lower pole vessel''' (aberrant, accessory, or early branching) '''that passes anteriorly to the UPJ or proximal ureter and contributes to mechanical obstruction'''
# '''Megaureter'''
***** '''UPJO in childhood and adolescence is often extrinsic narrowing caused by an accessory vessel to the lower pole of the kidney''' giving rise to flank pain, nausea, and vomiting.
# '''Peripelvic cyst'''
** '''Acquired/secondary UPJO'''
# '''Retrocaval ureter'''
*** '''High-grade vesicoureteral reflux (VUR)''' '''with a tortuous dilated ureter can result in kinking or narrowing of the UPJ'''
# '''Vesicoureteral reflux (VUR)'''
* '''Congenital renal malformations commonly associated with UPJO (8):'''
# '''Fibroepithelial polyp'''
*# '''Contralateral UPJO (most common anomaly)'''
# '''Calyceal diverticulum'''
*# '''Renal dysplasia'''
 
*# '''Multicystic dysplastic kidneys'''
=== Management ===
*# '''Renal agenesis'''
 
*# '''Horseshoe kidneys'''
==== Options (2): ====
*# '''VUR'''
# '''Observation'''
*# '''Ectopic kidney''' (Chapter 130)
# '''Surgical intervention'''
*# '''Duplex kidney''' (Chapter 134)
##'''Endoscopic'''
* '''Intermittent UPJO'''
##'''Pyeloplasty'''
** '''Dietl's crisis is intermittent abdominal pain associated with nausea and vomiting following an episode of high fluid intake.'''
 
** Although a renal scan with Lasix is used in an attempt to prompt the crisis, it may on occasion be falsely negative.
===== Observation =====
** In these patients, it is best to repeat a renal ultrasound at the time of pain and compare this to a baseline renal ultrasound taken when the patient was asymptomatic. If increased hydronephrosis at the time of symptoms is present, it is diagnostic and the pyeloplasty will be curative.
* Only ≈1/3 of affected children will need surgical intervention
* '''Management'''
 
** Only ≈1/3 of affected children will need surgical intervention
===== '''Intervention''' =====
** '''Indications for surgery (4):'''
====== '''Indications (4):''' ======
**# '''Symptoms'''
# '''Symptoms'''
**# '''Infections''' while on prophylactic antibiotics
# '''Infections''' while on prophylactic antibiotics
**# '''Increasing hydronephrosis'''
# '''Increasing hydronephrosis'''
**# Low or decreasing differential '''renal function'''
# Low or decreasing differential '''renal function'''
** '''Options: pyeloplasty vs. endoscopic'''
 
*** '''Pyeloplasty'''
====== Pyeloplasty ======
**** '''Dismembered Pyeloplasty'''
* '''Dismembered Pyeloplasty'''
***** '''Improved outcomes over non-dismemembered approach in the repair of a UPJO'''
** '''Improved outcomes over non-dismemembered approach in the repair of a UPJO'''
****** '''Anderson-Hynes dismembered pyeloplasty is the preferred technique  '''
*** '''Anderson-Hynes dismembered pyeloplasty is the preferred technique  '''
****** '''Advantages of dismembering the UPJ (3):'''
*** '''Advantages of dismembering the UPJ (3):'''
******# '''A vessel crossing the lower pole can be preserved'''
***# '''A vessel crossing the lower pole can be preserved'''
******# '''The adynamic part of the ureter excised'''
***# '''The adynamic part of the ureter excised'''
******# '''Redundant pelvic tissue reduced'''
***# '''Redundant pelvic tissue reduced'''
******* Main steps of the Anderson-Hynes dismembered pyeloplasty:
**** Main steps of the Anderson-Hynes dismembered pyeloplasty:
******** After opening the Gerota fascia, the anterior or posterior aspect of the UPJ is dissected (depending on the access used). The lower pole of the kidney is freed to avoid overlooking an accessory vessel. Electrocautery should be used with caution to minimize damage to the blood supply of both the pelvis and the ureter, with preference given to bipolar diathermy.
***** After opening the Gerota fascia, the anterior or posterior aspect of the UPJ is dissected (depending on the access used). The lower pole of the kidney is freed to avoid overlooking an accessory vessel. Electrocautery should be used with caution to minimize damage to the blood supply of both the pelvis and the ureter, with preference given to bipolar diathermy.
******** A stay suture is placed in the pelvis proximal to the anticipated line of dismemberment; another stay suture can be placed in the ureter at the level of the stenosis.
***** A stay suture is placed in the pelvis proximal to the anticipated line of dismemberment; another stay suture can be placed in the ureter at the level of the stenosis.
******** The UPJ is dismembered, and the pelvis reduced if indicated. A tensely dilated pelvis should be decompressed with a 21-gauge needle before dismembering, to avoid excessive pelvic reduction.
***** The UPJ is dismembered, and the pelvis reduced if indicated. A tensely dilated pelvis should be decompressed with a 21-gauge needle before dismembering, to avoid excessive pelvic reduction.
******** The ureter is then spatulated along its lateral border, well beyond the dysplastic stenotic segment and carried through adequately into healthy ureteral tissue. At this stage, the stenotic part of the ureter should not be removed, because it can serve as a handle that minimizes ureteral tissue manipulation while performing the anastomosis, reducing the risk for mucosal edema.
***** The ureter is then spatulated along its lateral border, well beyond the dysplastic stenotic segment and carried through adequately into healthy ureteral tissue. At this stage, the stenotic part of the ureter should not be removed, because it can serve as a handle that minimizes ureteral tissue manipulation while performing the anastomosis, reducing the risk for mucosal edema.
******** The anastomosis can be completed with interrupted or continuous suturing. Suture size depends on the prevailing anatomy, but most often a 6-0 or 5-0 resorbable monofilament suture on a round needle is used. Care should be taken at the tip of the V of the anastomosis, which has to be assembled precisely and in a tension-free manner. Placing inadvertent excessive tension on the stay sutures while aligning the anastomosis should be avoided because it can lead to kinking of the ureter once tension is relieved.
***** The anastomosis can be completed with interrupted or continuous suturing. Suture size depends on the prevailing anatomy, but most often a 6-0 or 5-0 resorbable monofilament suture on a round needle is used. Care should be taken at the tip of the V of the anastomosis, which has to be assembled precisely and in a tension-free manner. Placing inadvertent excessive tension on the stay sutures while aligning the anastomosis should be avoided because it can lead to kinking of the ureter once tension is relieved.
******** Just before completing the anastomosis, the stenotic part of the ureter is removed and the pelvis is irrigated with saline to avoid blood clots obstructing the ureter.
***** Just before completing the anastomosis, the stenotic part of the ureter is removed and the pelvis is irrigated with saline to avoid blood clots obstructing the ureter.
******** Stenting the anastomosis is a matter of choice
***** Stenting the anastomosis is a matter of choice
******** The kidney is brought back to its native position, and the anastomosis can be covered with perinephric fat if available.
***** The kidney is brought back to its native position, and the anastomosis can be covered with perinephric fat if available.
******** Usually the use of external drainage in the form of a Penrose is not indicated
***** Usually the use of external drainage in the form of a Penrose is not indicated
**** '''Non-dismembered Pyeloplasty'''
* '''Non-dismembered Pyeloplasty'''
***** '''Techniques: Heineke-Mikulicz, Foley Y-V plasty'''
** '''Techniques: Heineke-Mikulicz, Foley Y-V plasty'''
**** '''Laparoscopic vs. open pyeloplasties'''
* '''Laparoscopic vs. open pyeloplasties'''
***** Laparoscopic pyeloplasties provide excellent visualization of the anatomy, enhance cosmesis, and duplicate the results of open pyeloplasties with short-term follow-up.
** Laparoscopic pyeloplasties provide excellent visualization of the anatomy, enhance cosmesis, and duplicate the results of open pyeloplasties with short-term follow-up.
****** During laparoscopy monopolar cautery increases the risk of unrecognized lesions to intra-abdominal organs, particularly the bowel.
*** During laparoscopy monopolar cautery increases the risk of unrecognized lesions to intra-abdominal organs, particularly the bowel.
****** The technical challenges of this approach have been facilitated by the use of a robotic-assisted procedure that improves the anastomotic repair
*** The technical challenges of this approach have been facilitated by the use of a robotic-assisted procedure that improves the anastomotic repair
****** Trocars should not be removed before the intra-abdominal pressure is close to normal. Lowering the pressure before removing the trocars will reveal that the hemostasis is under control and prevents intra-abdominal (bowel, omentum) content from entering the port holes.
*** Trocars should not be removed before the intra-abdominal pressure is close to normal. Lowering the pressure before removing the trocars will reveal that the hemostasis is under control and prevents intra-abdominal (bowel, omentum) content from entering the port holes.
****** The peritoneal lining mirrors the light from the telescope, giving the transperitoneal approach better visibility than in the retroperitoneal route.
*** The peritoneal lining mirrors the light from the telescope, giving the transperitoneal approach better visibility than in the retroperitoneal route.
****** Horseshoe kidneys are a relative contraindication to the retroperitoneal approach as access to the UPJ from the posterior aspect is extremely difficult
*** Horseshoe kidneys are a relative contraindication to the retroperitoneal approach as access to the UPJ from the posterior aspect is extremely difficult
****** Hypothermia during laparoscopy in all infants is caused by insufflation of a large amount of CO2 due to port leakage.
*** Hypothermia during laparoscopy in all infants is caused by insufflation of a large amount of CO2 due to port leakage.
****** Bladeless optical trocars or open access for the camera port might be helpful for pediatric minimally invasive surgery in obese patients
*** Bladeless optical trocars or open access for the camera port might be helpful for pediatric minimally invasive surgery in obese patients
***** '''Newborns may be more suitable for open pyeloplasty since access to the ureteropelvic junction (UPJ) requires only a very small incision.'''
** '''Newborns may be more suitable for open pyeloplasty since access to the ureteropelvic junction (UPJ) requires only a very small incision.'''
**** '''Complications (3):'''
* '''Complications (3):'''
****# '''Prolonged urinary drainage postoperatively'''
*# '''Prolonged urinary drainage postoperatively'''
****# '''Lack of improvement in renal function or improvement in washout'''
*# '''Lack of improvement in renal function or improvement in washout'''
****# '''Occasionally, worsening hydronephrosis and diminished renal function post-operatively'''
*# '''Occasionally, worsening hydronephrosis and diminished renal function post-operatively'''
****#* '''Such a situation may lend itself to a repair using endoscopic procedures or a repeat dismembered pyeloplasty'''
*#* '''Such a situation may lend itself to a repair using endoscopic procedures or a repeat dismembered pyeloplasty'''
*** '''Endoscopic'''
 
**** '''Preoperative screening for accessory vessels is required by CT, MRI, or transluminal US, so as to avoid vascular injury'''
====== Endoscopic ======
**** '''Endopyelotomy may have a place in the management of failed primary open or laparoscopic procedures followed by the placement of a double-pigtail catheter for 6 weeks. A repeat pyeloplasty, either open or laparoscopically, is the best choice in most cases.'''
* '''Preoperative screening for accessory vessels is required by CT, MRI, or transluminal US, so as to avoid vascular injury'''
* '''Endopyelotomy may have a place in the management of failed primary open or laparoscopic procedures followed by the placement of a double-pigtail catheter for 6 weeks. A repeat pyeloplasty, either open or laparoscopically, is the best choice in most cases.'''


== Megaureter ==
== Megaureter ==


* '''Definition of megaureter: dilatation of the ureter irrespective of cause'''
* '''Definition of megaureter: dilatation of the ureter irrespective of cause'''
* '''Classified as primary vs. secondary'''
 
=== Classification ===
*'''Classified as primary vs. secondary'''
** '''Primary obstructed megaureters (POM)'''
** '''Primary obstructed megaureters (POM)'''
*** '''A condition intrinsic to the ureter itself;''' '''obstruction results from the presence of an abnormal adynamic segment at the terminal end of the ureter near or at the ureterovesical junction (UVJ)'''
*** '''A condition intrinsic to the ureter itself;''' '''obstruction results from the presence of an abnormal adynamic segment at the terminal end of the ureter near or at the ureterovesical junction (UVJ)'''
Line 87: Line 90:
*# '''Non-obstructed non-refluxing'''
*# '''Non-obstructed non-refluxing'''
*# '''Refluxing with obstruction'''
*# '''Refluxing with obstruction'''
* '''Management'''
 
** The goal is to prevent renal functional deterioration with either conservative or surgical treatment
=== Management ===
** '''Conservative'''
* The goal is to prevent renal functional deterioration with either conservative or surgical treatment
*** '''> 90% of antenatally detected non-refluxing, non-obstructing megaureters will improve with conservative management within the first few years of life'''
* '''Conservative'''
*** '''Patients with ureteral diameters > 10 mm were more prone to complications'''
** '''> 90% of antenatally detected non-refluxing, non-obstructing megaureters will improve with conservative management within the first few years of life'''
** '''Surgery'''
** '''Patients with ureteral diameters > 10 mm were more prone to complications'''
*** '''Indications for surgery of POM (5):'''
* '''Surgery'''
***# '''Symptoms'''
** '''Indications for surgery of POM (5):'''
***# '''Infections''' (recurring UTIs)
**# '''Symptoms'''
***# '''Increasing hydronephrosis/hydroureter'''
**# '''Infections''' (recurring UTIs)
***# '''< 40% differential renal function'''
**# '''Increasing hydronephrosis/hydroureter'''
***# '''≥ 5% decrease in differential renal function of on sequential “comparable” nuclear functional studies'''
**# '''< 40% differential renal function'''
***#* '''The T 1/2, or Lasix washout time, especially in neonatal megaureters is not a reliable indicator of obstruction'''
**# '''≥ 5% decrease in differential renal function of on sequential “comparable” nuclear functional studies'''
***#** Washout curves in neonates and infants can be affected by many factors other than restriction of flow.
**#* '''The T 1/2, or Lasix washout time, especially in neonatal megaureters is not a reliable indicator of obstruction'''
***#** A normal creatinine and symmetric renal function support initial observation in a child
**#** Washout curves in neonates and infants can be affected by many factors other than restriction of flow.
*** '''Options (3):'''
**#** A normal creatinine and symmetric renal function support initial observation in a child
***# '''Decompression'''
** '''Options (3):'''
***#* '''Indications for prompt decompression:'''
**# '''Decompression'''
***#*# '''Neonate with a megaureter and sepsis'''
**#* '''Indications for prompt decompression:'''
***#*# Ipsilateral reduced function (< 35% in a neonate)
**#*# '''Neonate with a megaureter and sepsis'''
***#*# Marked or increasing hydroureteronephrosis
**#*# Ipsilateral reduced function (< 35% in a neonate)
***#* '''Options (2):'''
**#*# Marked or increasing hydroureteronephrosis
***#*# '''Distal cutaneous ureterostomy (preferred)'''
**#* '''Options (2):'''
***#*# Nephrostomy tube
**#*# '''Distal cutaneous ureterostomy (preferred)'''
***#*#* Nephrostomy tubes are difficult to keep in place
**#*# Nephrostomy tube
***# '''Endoscopic'''
**#*#* Nephrostomy tubes are difficult to keep in place
***#* '''Endoscopic dilatation and stenting of the UVJ in POM is an alternative''' that is less invasive than formal open or laparoscopic surgical intervention, with short- to medium-term success rates ≈70%
**# '''Endoscopic'''
***# '''Surgical repair'''
**#* '''Endoscopic dilatation and stenting of the UVJ in POM is an alternative''' that is less invasive than formal open or laparoscopic surgical intervention, with short- to medium-term success rates ≈70%
***#* '''Excision and tapered re-implant'''
**# '''Surgical repair'''
***#** The stenotic distal part of the ureter is excised
**#* '''Excision and tapered re-implant'''
***#** The megaureter is straightened and then tapered to facilitate reimplantation in a nonrefluxing fashion with '''adequate ratio of length to diameter of 5:1 to improve coaptation of the ureteral lumen''', whereby effective peristalsis and urine transportation are achieved
**#** The stenotic distal part of the ureter is excised
***#*** '''Ureteral tailoring is usually necessary''' to achieve the proper length-to-diameter ratio required of successful reimplants. Especially in small children, the reimplant can be otherwise impossible.
**#** The megaureter is straightened and then tapered to facilitate reimplantation in a nonrefluxing fashion with '''adequate ratio of length to diameter of 5:1 to improve coaptation of the ureteral lumen''', whereby effective peristalsis and urine transportation are achieved
***#*** '''Folding techniques for ureteral tailoring are not applicable in ureters >1.75 cm in diameter.'''
**#*** '''Ureteral tailoring is usually necessary''' to achieve the proper length-to-diameter ratio required of successful reimplants. Especially in small children, the reimplant can be otherwise impossible.
***#*** The most serious complication to ureteral tailoring is compromise of the distal vasculature of the ureter with subsequent fibrosis.
**#*** '''Folding techniques for ureteral tailoring are not applicable in ureters >1.75 cm in diameter.'''
***#**** Fibrosis can lead to recurrent obstruction and require a redo. However, when performed with care, the risk of vascular compromise should be minimal
**#*** The most serious complication to ureteral tailoring is compromise of the distal vasculature of the ureter with subsequent fibrosis.
***#** Most surgeons advocate temporary postoperative stenting
**#**** Fibrosis can lead to recurrent obstruction and require a redo. However, when performed with care, the risk of vascular compromise should be minimal
***#* '''Complications: obstruction, vesicoureteric reflux, and persistent dilatation'''
**#** Most surgeons advocate temporary postoperative stenting
***#* A concomitant reimplantation and dismembered pyeloplasty should be discouraged, as the ureteral blood supply may be compromised.
**#* '''Complications: obstruction, vesicoureteric reflux, and persistent dilatation'''
**#* A concomitant reimplantation and dismembered pyeloplasty should be discouraged, as the ureteral blood supply may be compromised.


== Congenital ureteral strictures ==
== Congenital ureteral strictures ==

Latest revision as of 15:17, 17 March 2024

Ureteropelvic Junction Obstruction (UJPO)[edit | edit source]

Differential Diagnosis of Hydronephrosis in Child[edit | edit source]

  1. Ureteropelvic junction obstruction
  2. Multicyclic dysplastic kidney
  3. Ureteral stone
  4. Extrarenal pelvis
  5. Malignant ureteral obstruction
  6. Megaureter
  7. Peripelvic cyst
  8. Retrocaval ureter
  9. Vesicoureteral reflux (VUR)
  10. Fibroepithelial polyp
  11. Calyceal diverticulum

Management[edit | edit source]

Options (2):[edit | edit source]

  1. Observation
  2. Surgical intervention
    1. Endoscopic
    2. Pyeloplasty
Observation[edit | edit source]
  • Only ≈1/3 of affected children will need surgical intervention
Intervention[edit | edit source]
Indications (4):[edit | edit source]
  1. Symptoms
  2. Infections while on prophylactic antibiotics
  3. Increasing hydronephrosis
  4. Low or decreasing differential renal function
Pyeloplasty[edit | edit source]
  • Dismembered Pyeloplasty
    • Improved outcomes over non-dismemembered approach in the repair of a UPJO
      • Anderson-Hynes dismembered pyeloplasty is the preferred technique  
      • Advantages of dismembering the UPJ (3):
        1. A vessel crossing the lower pole can be preserved
        2. The adynamic part of the ureter excised
        3. Redundant pelvic tissue reduced
        • Main steps of the Anderson-Hynes dismembered pyeloplasty:
          • After opening the Gerota fascia, the anterior or posterior aspect of the UPJ is dissected (depending on the access used). The lower pole of the kidney is freed to avoid overlooking an accessory vessel. Electrocautery should be used with caution to minimize damage to the blood supply of both the pelvis and the ureter, with preference given to bipolar diathermy.
          • A stay suture is placed in the pelvis proximal to the anticipated line of dismemberment; another stay suture can be placed in the ureter at the level of the stenosis.
          • The UPJ is dismembered, and the pelvis reduced if indicated. A tensely dilated pelvis should be decompressed with a 21-gauge needle before dismembering, to avoid excessive pelvic reduction.
          • The ureter is then spatulated along its lateral border, well beyond the dysplastic stenotic segment and carried through adequately into healthy ureteral tissue. At this stage, the stenotic part of the ureter should not be removed, because it can serve as a handle that minimizes ureteral tissue manipulation while performing the anastomosis, reducing the risk for mucosal edema.
          • The anastomosis can be completed with interrupted or continuous suturing. Suture size depends on the prevailing anatomy, but most often a 6-0 or 5-0 resorbable monofilament suture on a round needle is used. Care should be taken at the tip of the V of the anastomosis, which has to be assembled precisely and in a tension-free manner. Placing inadvertent excessive tension on the stay sutures while aligning the anastomosis should be avoided because it can lead to kinking of the ureter once tension is relieved.
          • Just before completing the anastomosis, the stenotic part of the ureter is removed and the pelvis is irrigated with saline to avoid blood clots obstructing the ureter.
          • Stenting the anastomosis is a matter of choice
          • The kidney is brought back to its native position, and the anastomosis can be covered with perinephric fat if available.
          • Usually the use of external drainage in the form of a Penrose is not indicated
  • Non-dismembered Pyeloplasty
    • Techniques: Heineke-Mikulicz, Foley Y-V plasty
  • Laparoscopic vs. open pyeloplasties
    • Laparoscopic pyeloplasties provide excellent visualization of the anatomy, enhance cosmesis, and duplicate the results of open pyeloplasties with short-term follow-up.
      • During laparoscopy monopolar cautery increases the risk of unrecognized lesions to intra-abdominal organs, particularly the bowel.
      • The technical challenges of this approach have been facilitated by the use of a robotic-assisted procedure that improves the anastomotic repair
      • Trocars should not be removed before the intra-abdominal pressure is close to normal. Lowering the pressure before removing the trocars will reveal that the hemostasis is under control and prevents intra-abdominal (bowel, omentum) content from entering the port holes.
      • The peritoneal lining mirrors the light from the telescope, giving the transperitoneal approach better visibility than in the retroperitoneal route.
      • Horseshoe kidneys are a relative contraindication to the retroperitoneal approach as access to the UPJ from the posterior aspect is extremely difficult
      • Hypothermia during laparoscopy in all infants is caused by insufflation of a large amount of CO2 due to port leakage.
      • Bladeless optical trocars or open access for the camera port might be helpful for pediatric minimally invasive surgery in obese patients
    • Newborns may be more suitable for open pyeloplasty since access to the ureteropelvic junction (UPJ) requires only a very small incision.
  • Complications (3):
    1. Prolonged urinary drainage postoperatively
    2. Lack of improvement in renal function or improvement in washout
    3. Occasionally, worsening hydronephrosis and diminished renal function post-operatively
      • Such a situation may lend itself to a repair using endoscopic procedures or a repeat dismembered pyeloplasty
Endoscopic[edit | edit source]
  • Preoperative screening for accessory vessels is required by CT, MRI, or transluminal US, so as to avoid vascular injury
  • Endopyelotomy may have a place in the management of failed primary open or laparoscopic procedures followed by the placement of a double-pigtail catheter for 6 weeks. A repeat pyeloplasty, either open or laparoscopically, is the best choice in most cases.

Megaureter[edit | edit source]

  • Definition of megaureter: dilatation of the ureter irrespective of cause

Classification[edit | edit source]

  • Classified as primary vs. secondary
    • Primary obstructed megaureters (POM)
      • A condition intrinsic to the ureter itself; obstruction results from the presence of an abnormal adynamic segment at the terminal end of the ureter near or at the ureterovesical junction (UVJ)
        • Insufficient peristalsis at the UVJ leads to obstruction and upstream dilatation
    • Secondary to bladder pathologic processes, such as neurogenic bladder dysfunction, bladder outlet obstruction, and/or infection
  • Subclassified based on cause (4):
    1. Obstructed
    2. Refluxing
    3. Non-obstructed non-refluxing
    4. Refluxing with obstruction

Management[edit | edit source]

  • The goal is to prevent renal functional deterioration with either conservative or surgical treatment
  • Conservative
    • > 90% of antenatally detected non-refluxing, non-obstructing megaureters will improve with conservative management within the first few years of life
    • Patients with ureteral diameters > 10 mm were more prone to complications
  • Surgery
    • Indications for surgery of POM (5):
      1. Symptoms
      2. Infections (recurring UTIs)
      3. Increasing hydronephrosis/hydroureter
      4. < 40% differential renal function
      5. ≥ 5% decrease in differential renal function of on sequential “comparable” nuclear functional studies
        • The T 1/2, or Lasix washout time, especially in neonatal megaureters is not a reliable indicator of obstruction
          • Washout curves in neonates and infants can be affected by many factors other than restriction of flow.
          • A normal creatinine and symmetric renal function support initial observation in a child
    • Options (3):
      1. Decompression
        • Indications for prompt decompression:
          1. Neonate with a megaureter and sepsis
          2. Ipsilateral reduced function (< 35% in a neonate)
          3. Marked or increasing hydroureteronephrosis
        • Options (2):
          1. Distal cutaneous ureterostomy (preferred)
          2. Nephrostomy tube
            • Nephrostomy tubes are difficult to keep in place
      2. Endoscopic
        • Endoscopic dilatation and stenting of the UVJ in POM is an alternative that is less invasive than formal open or laparoscopic surgical intervention, with short- to medium-term success rates ≈70%
      3. Surgical repair
        • Excision and tapered re-implant
          • The stenotic distal part of the ureter is excised
          • The megaureter is straightened and then tapered to facilitate reimplantation in a nonrefluxing fashion with adequate ratio of length to diameter of 5:1 to improve coaptation of the ureteral lumen, whereby effective peristalsis and urine transportation are achieved
            • Ureteral tailoring is usually necessary to achieve the proper length-to-diameter ratio required of successful reimplants. Especially in small children, the reimplant can be otherwise impossible.
            • Folding techniques for ureteral tailoring are not applicable in ureters >1.75 cm in diameter.
            • The most serious complication to ureteral tailoring is compromise of the distal vasculature of the ureter with subsequent fibrosis.
              • Fibrosis can lead to recurrent obstruction and require a redo. However, when performed with care, the risk of vascular compromise should be minimal
          • Most surgeons advocate temporary postoperative stenting
        • Complications: obstruction, vesicoureteric reflux, and persistent dilatation
        • A concomitant reimplantation and dismembered pyeloplasty should be discouraged, as the ureteral blood supply may be compromised.

Congenital ureteral strictures[edit | edit source]

  • Rare anomalies causing hydroureteronephrosis
  • Management entails excision of the stenotic ureteral segment and reanastomosis by ureteroureterostomy
  • Excised segments range in length from 1-3 cm and histologically are characterized by increased collagen deposition and muscular hypertrophy

Ureteral Polyps[edit | edit source]

  • Rare anomaly that may lead to obstruction and dilatation
  • Most often found in the proximal third of the ureter.
  • Management options include dismembered pyeloplasty with resection of the afflicted part of the ureter when polyps are near the UPJ or ureteral resection and ureteroureterostomy by open and even laparoscopic surgery. In cases of smaller polyps, ureteroscopic excision might be a feasible alternative

Questions[edit | edit source]

  1. List congenital renal malformations common seen with UPJO. Which is most common?
  2. What are indications for surgical intervention of UPJO?
  3. What is the natural history of antenatally detected megaureter?
  4. What are indications for surgery of primary obstructive megaureter?

Answers[edit | edit source]

  1. List congenital renal malformations common seen with UPJO. Which is most common?
    1. Contralateral UPJO (most common anomalyv)
    2. Renal dysplasia
    3. Multicystic dysplastic kidneys
    4. Renal agenesis
    5. Horseshoe kidneys
    6. VUR
    7. Ectopic kidney
    8. Duplex kidney
  2. What are indications for surgical intervention of UPJO?
    1. Symptoms
    2. Infections while on prophylactic antibiotics
    3. Increasing hydronephrosis
    4. Low or decreasing differential renal function
  3. What is the natural history of antenatally detected megaureter?
    • > 90% of antenatally detected megaureters will improve with conservative management within the first few years of life
  4. What are indications for surgery of primary obstructive megaureter?
    1. Symptoms
    2. Infections
    3. Increasing hydronephrosis/hydroureter
    4. < 40% differential renal function
    5. ≥ 5% decrease in differential renal function of on sequential “comparable” nuclear functional studies

References[edit | edit source]

  • Wein AJ, Kavoussi LR, Partin AW, Peters CA (eds): CAMPBELL-WALSH UROLOGY, ed 11. Philadelphia, Elsevier, 2015, chap 133