- •Table of Contents
- •Copyright
- •Contributors
- •How to Use this Study Guide
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •4: Outcomes Research
- •Questions
- •Answers
- •5: Core Principles of Perioperative Care
- •Questions
- •Answers
- •Questions
- •Answers
- •7: Principles of Urologic Endoscopy
- •Questions
- •Answers
- •8: Percutaneous Approaches to the Upper Urinary Tract Collecting System
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •12: Infections of the Urinary Tract
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •15: Sexually Transmitted Diseases
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •20: Principles of Tissue Engineering
- •Questions
- •Answers
- •Questions
- •Answers
- •22: Male Reproductive Physiology
- •Questions
- •Answers
- •Questions
- •Answers
- •24: Male Infertility
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •28: Priapism
- •Questions
- •Answers
- •Questions
- •Answers
- •30: Surgery for Erectile Dysfunction
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •34: Neoplasms of the Testis
- •Questions
- •Answers
- •35: Surgery of Testicular Tumors
- •Questions
- •Answers
- •36: Laparoscopic and Robotic-Assisted Retroperitoneal Lymphadenectomy for Testicular Tumors
- •Questions
- •Answers
- •37: Tumors of the Penis
- •Questions
- •Answers
- •38: Tumors of the Urethra
- •Questions
- •Answers
- •39: Inguinal Node Dissection
- •Questions
- •Answers
- •40: Surgery of the Penis and Urethra
- •Questions
- •Answers
- •Questions
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- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •47: Renal Transplantation
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •50: Upper Urinary Tract Trauma
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •53: Strategies for Nonmedical Management of Upper Urinary Tract Calculi
- •Questions
- •Answers
- •54: Surgical Management for Upper Urinary Tract Calculi
- •Questions
- •Answers
- •55: Lower Urinary Tract Calculi
- •Questions
- •Answers
- •56: Benign Renal Tumors
- •Questions
- •Answers
- •57: Malignant Renal Tumors
- •Questions
- •Answers
- •Questions
- •Answers
- •59: Retroperitoneal Tumors
- •Questions
- •Answers
- •60: Open Surgery of the Kidney
- •Questions
- •Answers
- •Questions
- •Answers
- •62: Nonsurgical Focal Therapy for Renal Tumors
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •66: Surgery of the Adrenal Glands
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •71: Evaluation and Management of Women with Urinary Incontinence and Pelvic Prolapse
- •Questions
- •Answers
- •72: Evaluation and Management of Men with Urinary Incontinence
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •76: Overactive Bladder
- •Questions
- •Answers
- •77: Underactive Detrusor
- •Questions
- •Answers
- •78: Nocturia
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •82: Retropubic Suspension Surgery for Incontinence in Women
- •Questions
- •Answers
- •83: Vaginal and Abdominal Reconstructive Surgery for Pelvic Organ Prolapse
- •Questions
- •Answers
- •Questions
- •Answers
- •85: Complications Related to the Use of Mesh and Their Repair
- •Questions
- •Answers
- •86: Injection Therapy for Urinary Incontinence
- •Questions
- •Answers
- •87: Additional Therapies for Storage and Emptying Failure
- •Questions
- •Answers
- •88: Aging and Geriatric Urology
- •Questions
- •Answers
- •89: Urinary Tract Fistulae
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •92: Tumors of the Bladder
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •95: Transurethral and Open Surgery for Bladder Cancer
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •99: Orthotopic Urinary Diversion
- •Questions
- •Answers
- •Questions
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- •Questions
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- •Questions
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- •Questions
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- •Questions
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- •Questions
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- •Questions
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- •108: Prostate Cancer Tumor Markers
- •Questions
- •Answers
- •Questions
- •110: Pathology of Prostatic Neoplasia
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •114: Open Radical Prostatectomy
- •Questions
- •Answers
- •Questions
- •Answers
- •116: Radiation Therapy for Prostate Cancer
- •Questions
- •Answers
- •117: Focal Therapy for Prostate Cancer
- •Questions
- •Answers
- •Questions
- •Answers
- •119: Management of Biomedical Recurrence Following Definitive Therapy for Prostate Cancer
- •Questions
- •Answers
- •120: Hormone Therapy for Prostate Cancer
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •124: Perinatal Urology
- •Questions
- •Answers
- •Questions
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- •126: Pediatric Urogenital Imaging
- •Questions
- •Answers
- •Questions
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- •Questions
- •Answers
- •Questions
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- •Questions
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- •Questions
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- •Questions
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- •133: Surgery of the Ureter in Children
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •137: Vesicoureteral Reflux
- •Questions
- •Answers
- •138: Bladder Anomalies in Children
- •Questions
- •Answers
- •139: Exstrophy-Epispadias Complex
- •Questions
- •Answers
- •140: Prune-Belly Syndrome
- •Questions
- •Answers
- •Questions
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- •Questions
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- •Questions
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- •144: Management of Defecation Disorders
- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •147: Hypospadias
- •Questions
- •Answers
- •Questions
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- •Questions
- •Answers
- •Questions
- •Answers
- •Questions
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- •152: Adolescent and Transitional Urology
- •Questions
- •Answers
- •Questions
- •Answers
- •154: Pediatric Genitourinary Trauma
- •Answers
- •Questions
- •Answers
- •Questions
- •Answers
133
Surgery of the Ureter in Children
L. Henning Olsen; Yazan F.H. Rawashdeh
Questions
1.Which of the following statements is NOT correct concerning laparoscopic pyeloplasty?
a.It is discounted early as unacceptable due to degree of difficulty.
b.It can be performed after a failed previous pyeloplasty.
c.It has an overall higher success rate than endopyelotomy.
d.It should be performed in patients of all ages.
e.Many different techniques for laparoscopic approach have been described.
2.In regard to closure of trocar sites:
a.closing fascial wounds larger than 3 mm is recommended.
b.fascial closure devices facilitate closure in the obese patient.
c.omentum is the most common herniated intra-abdominal structure.
d.trocars should not be removed before the intra-abdominal pressure is close to normal.
e.all of the above are true.
3.Which is NOT true for transperitoneal procedures?
a.Sutures may be passed through the anterior abdominal wall.
b.For lower abdominal procedures, infants are best positioned across the foot of the bed.
c.Laxity of the infant abdominal wall can limit exposure due to compression.
d.Cannula fixation is a common problem in pediatric laparoscopy.
e.Visibility is usually a problem.
4.A recognized risk of laparoscopy in all infants is:
a.use of monopolar cautery.
b.ventilatory compromise.
c.abdominal adhesions.
d.decreased renal perfusion.
e.compartmental syndrome.
5.Which of the following is a relative contraindication to retroperitoneoscopic surgery in the pediatric population?
a.Abnormalities such as horseshoe kidneys
b.Spinal deformity
c.Previous abdominal surgery
d.Weight
e.Intestinal malrotation
6.Hypothermia during laparoscopy in all infants is caused by:
a.insufflation of a large amount of CO2 due to port leakage.
b.high-frequency ventilation.
c.room-temperature insufflation.
d.evaporation.
e.cold room temperature.
7.Regarding pediatric minimally invasive surgery in obese patients:
a.suture can be placed from the skin at the entry site to the cannula to keep the cannula from sliding off if rapid desufflation is encountered.
b.hitch stitches are helpful.
c.an insufflation needle works well in most children, because the abdominal wall is thin.
d.bladeless optical trocars or open access for the camera port might be helpful.
e.higher insufflation pressures are needed.
8.Which of the following statements is TRUE regarding primary obstructive megaureters?
a.It is caused by a dysfunctional juxtavesical segment that is unable to propagate urine at acceptable rates of flow.
b.It most commonly occurs with neurogenic and non-neurogenic voiding dysfunction or infravesical obstructions such as posterior urethral valves.
c.It may be due to acute infections, nephropathies, or other medical conditions, causing significant increases in urinary output that overwhelm maximal peristalsis.
d.It is diagnosed when reflux, obstruction, and secondary causes of
dilatation are ruled out.
e.None of the above.
9.Which of the following statements is TRUE regarding secondary obstructive megaureters?
a.It is caused by an aperistaltic juxtavesical segment that is unable to propagate urine at acceptable rates of flow.
b.It most commonly occurs with neurogenic and non-neurogenic voiding dysfunction or infravesical obstructions such as posterior urethral valves.
c.It may be due to acute infections, nephropathies, or other medical conditions causing significant increases in urinary output that overwhelm maximal peristalsis.
d.It is diagnosed once reflux, obstruction, and secondary causes of dilatation are ruled out.
e.None of the above.
.Which of the following is TRUE regarding the surgical management of megaureters?
a.Ureteral tailoring is usually necessary to achieve the proper length-to- diameter ratio required of successful reimplants.
b.Plication or infolding is useful for the more severely dilated ureter.
c.Excisional tapering is preferred for the moderately dilated ureter.
d.Narrowing the ureter may theoretically lead to less effective peristalsis.
e.Patients usually have such massively dilated and tortuous ureters that straightening with removal of excess length and proximal revision becomes necessary.
.Which of the following is the most serious complication to ureteral tailoring?
a.Gradual tapering can cause an abrupt change of the ureteral caliber and subsequent kinking.
b.A too-short intravesical tunnel can cause vesicoureteral reflux.
c.Compromise of the distal vasculature of the ureter with subsequent fibrosis
d.Secondary stenosis of the ureteral orifice
e.Bladder dysfunction after intravesical dissection
Answers
1. d. Should be performed in patients of all ages. In newborns, access to the
ureteropelvic junction (UPJ) requires only a very small incision.
2.d. 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.
3.e. Visibility is usually a problem. The peritoneal lining mirrors the light from the telescope, giving better visibility than in the retroperitoneal route.
4.a. Use of monopolar cautery. Monopolar cautery increases the risk of unrecognized lesions to intra-abdominal organs, particularly the bowel.
5.a. Abnormalities such as horseshoe kidneys. Access to the UPJ from the posterior aspect is extremely difficult in horseshoe kidneys.
6.a. Insufflation of a large amount of CO2 due to port leakage. The large
amount of gas exchange lowers the intra-abdominal temperature significantly.
7.d. Bladeless optical trocars or open access for the camera port might be helpful. Blind access to the peritoneal cavity imposes and inherent risk of organ damage.
8.a. It is caused by a dysfunctional juxtavesical segment that is unable to propagate urine at acceptable rates of flow. Obstruction results from the presence of an abnormal adynamic segment at the terminal end of the ureter near or at the ureterovesical junction (UVJ).
9.b. It most commonly occurs with neurogenic and non-neurogenic voiding dysfunction or infravesical obstructions such as posterior urethral valves.
High bladder pressure might result in secondary reflux.
.a. 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.
.c. 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.
Chapter Review
1.Congenital UPJ obstruction is due to an abnormal development of the musculature of the UPJ.
2.UPJ obstruction occurs more commonly in boys and on the left side.
3.UPJ obstruction may be seen with vesicoureteral reflux.
4.Dismembered pyeloplasty for the repair of a UPJ is favored by many
because of its broad applicability, the removal of the pathologic segment of ureter, and the ease with which a reduction pyeloplasty may be incorporated into the procedure.
5.Megaureters may be caused by an intrinsic abnormality of the distal ureter, reflux, or obstruction; they are classified as: (1) obstructing, (2) refluxing, (3) nonobstructing nonrefluxing, and (4) obstructed refluxing.
6.The majority of nonrefluxing, nonobstructed megaureters discovered in infancy will resolve spontaneously in the first few years of life; patients with a ureter diameter less than 10 mm are highly likely to never require surgery.
7.Acute management of an obstructed megaureter in the neonatal period may be by percutaneous nephrostomy; however, the nephrostomies are difficult to keep in place. A more manageable temporizing procedure may be accomplished by an end-cutaneous ureterostomy or refluxing vesicoureteral anastomosis.
8.Folding techniques for ureteral tailoring are not applicable in ureters greater than 1.75 cm in diameter.
9.Indications for surgical therapy in UPJ obstruction or megaureter are symptoms from the obstruction, a progressive decrease in renal function, and a sequential increase in renal pelvic diameter.
10.A concomitant reimplantation and dismembered pyeloplasty should be discouraged, as the ureteral blood supply may be compromised.
11.Ureteral polyps are most often found in the proximal third of the ureter.
12.During laparoscopy monopolar cautery increases the risk of unrecognized lesions to intra-abdominal organs, particularly the bowel.
13.Primary obstructive megaureter is thought to be caused by a dysfunctional juxtavesical segment that is unable to propagate urine at acceptable rates of flow.
14.Secondary obstructive megaureter most commonly occurs with neurogenic and non-neurogenic voiding dysfunction or infravesical obstructions such as posterior urethral valves.