Improved Outcomes in Colon and Rectal Surgery part 41 ppsx

Intraperitoneal injury can be treated with primary repair in a manner analogous to colon injury.. Table 35.8 Traditional steps in the management of rectal injury.20 Perineolithotomy posi

(96, 108) Given the relative ease of the procedure and

subse-quent reversal, a loop colostomy is recommended (100, 102, 103)

if solely for the purpose of diversion in rectal injury, while an

end colostomy is performed if there are other indications, such as

associated colonic injury Extraperitoneal injuries can be treated

without repair, unless they are easily accessible or uncovered in

the course of treating other injuries.(96, 102, 103, 108) There is

some evidence to support this principle Gonzalez et al (111),

implemented a protocol for the management of extraperitoneal

rectal injury without fecal diversion, presacral drainage, or

dis-tal irrigation in patients with nondestructive penetrating injury

Although they had no mortality or infectious complications, the

series included only 14 patients, making these results difficult to

generalize Interestingly, in all 14 patients a barium enema was

performed and demonstrated complete healing by postinjury

day 10, demonstrating the rapid healing capacity of the rectum,

likely due to its rich blood supply Abdominoperineal

resec-tion has been described in the setting of traumatic rectal injury

(102), but should be regarded as an extraordinary measure under

extremely rare circumstances The steps in the classic,

conserva-tive management of rectal injury have been described by Stewart

and Rosenthal (20) and are summarized in Table 35.8 A

modi-fication to these steps as suggested by modern series is presented

in Table 35.9

summary

Rectal injury is uncommon and often accompanied by significant

associated injury, most commonly genitourinary Data is scarce,

and is mostly limited to retrospective reviews Diagnosis is

chal-lenging, and is most often made by clinical suspicion, digital exam,

and proctoscopy or sigmoidoscopy Intraperitoneal injury can be treated with primary repair in a manner analogous to colon injury Extensive destructive injury can be diverted with lower expected complication rates than colon injury Extraperitoneal injury can be treated with diversion alone, although selected cases of partial or nondestructive injury can be treated with nonoperative manage-ment Presacral drainage is sometimes recommended in these cases

in order to prevent pelvic sepsis Presacral drainage and distal rectal washout are more appropriate in high-velocity injuries similar to combat injuries but have less efficacy in civilian settings

Foreign bodies

Anorectal foreign bodies are almost always inserted during sexual conduct.(113–117) The most common objects found are sexual implements such as vibrators and dildos (115, 116) (Figure 35.2) Other, less common causes are ingested material, most often bones, or iatrogenic causes such as thermometers and enema tips (113) A case of a live eel inserted into the anus as a folk remedy for constipation has been reported, in which the eel migrated proxi-mally and was found biting the perforated splenic flexure.(118) The patient presented with peritonitis, which led the clinicians to note “the shadow of an eel on abdominal radiograph”, confirming the diagnosis There is a predominance of males, ranging from 93–100% in the largest series.(114–116, 119)

Goals of initial assessment are to create an atmosphere that allows the patient to give a detailed history, to recognize the potential of rape or assault, and to recognize signs of perfora-tion that require more urgent therapy Multiple-view plain radio-graphs should be obtained Plain films will help localize the object, although rubber will not be apparent on radiography Free air or obvious perforation can be ruled out Patients with signs and symptoms of obstruction or perforation should have basic labs drawn, intravenous fluids initiated, antibiotics started and proceed to urgent laparotomy with no further attempt at removal

of the object.(117) A perforation should be treated as any trau-matic rectal injury, with removal of the foreign body, which will

be discussed subsequently

Table 35.8 Traditional steps in the management of rectal injury.(20)

Perineolithotomy position

Management of concomitant injuries

Debridement

Proximal diversion

Remove foreign bodies

Presacral drainage

Distal rectal washout

Repair injury if possible

Repair sphincters if possible

External wound drainage

Broad spectrum antibiotics

Skin left open

Figure 35.2 Foreign body requiring operative extraction This patient sustained a

full-thickness rectal injury from the foreign body placement.

Table 35.9 Modified steps in management of rectal injury.

Perineolithotomy position

Management of concomitant injuries

Debridement

Intraperitoneal injury Extraperitoneal injury

Primary repair Diversion

Diversion if destructive injury (Loop colostomy

preferred)

Selective presacral drainage Repair if easily accessible Repair sphincters if possible

Selective external wound drainage

Broad spectrum antibiotics

Skin left open

The majority of rectal foreign bodies can be removed at the

bedside, which is successful in 60–75% of cases.(114, 115, 119)

An attempt at bedside extraction is reasonable in patients without

signs of peritonitis.(113–115, 119) Sedation and local anesthesia

can assist with relaxation and extraction, and an awake patient

can be asked to perform a valsalva maneuver If these maneuvers

are unsuccessful, a stable patient can be admitted and observed

for 12 hours; during this time the object will often descend into

the rectum.(114) Foreign bodies removed nonoperatively require

a postprocedure sigmoidoscopy to assess the viability of the

rec-tum and rule out perforation.(113–117, 119)

Operative removal can be accomplished with local, regional,

or general anesthesia Either the lithotomy or prone position

can be used, but one advantage of lithotomy is that pressure

can be applied to the abdomen to move the object distally.(117)

Retractors can be placed and the anus dilated Obstetric forceps

and balloon-tipped catheters are commonly employed.(113–117,

119) Balloon-tipped catheters are useful in the case of jars or

containers that are positioned with the mouth facing proximally,

where the suction generated can prevent removal The passage of

a Foley catheter past the object can serve to break the suction and

can be used to aid in extraction.(113)

Rarely, laparotomy is required (0–6% of cases).(114, 115, 119)

Attempts should be made at distally displacing the object

with-out entering the bowel If this is unsuccessful, an enterotomy

can be made through which the object can be removed.(117,

119) Even more uncommonly, a lateral sphincterotomy may be

required Lake and colleagues (119) performed a recent review of

93 retained colorectal foreign bodies in 87 patients to determine

predictors of operative intervention Two patients (2%) presented

with signs of peritonitis and were taken to the operating room

Seventy five percent of attempts at bedside extraction were

suc-cessful Of 23 cases requiring operative management, 6 required

laparotomy and 5 (6%) required creation of a colotomy Size of

object (greater than 10 cm) and time to presentation (greater

than 48 hours) were not associated with an increase in

opera-tive intervention Only location in the sigmoid was predicopera-tive of

failure of nonoperative management (55% versus 24%, p = 0.04),

with an associated OR of 2.25

Anal sphincter and perineal injury

Anal sphincter injury

Anal sphincter function is extremely complex, and a full

dis-cussion is outside the scope of this disdis-cussion Anal sphincter

trauma is highly unusual due to its protected anatomic location

and abundant blood supply (113) The most common cause of

anal sphincter injury is obstetric trauma, followed by sequelae of

anorectal operations, and uncommonly by etiologies similar to

those causing rectal injuries.(113, 120) Stapling procedures such

as for hemorrhoidectomy have been shown to cause anal

sphinc-ter injuries as well.(113)

Life-threatening injuries should be addressed first in trauma

patients, particularly massive, complex perineal injury (discussed

subsequently) In a comprehensive review, Hellinger (113)

out-lines the initial management of anal sphincter injury As

men-tioned, documentation of the extent and nature of the sphincter

injury is imperative Superficial injuries can be debrided and repaired without proximal diversion and minimal injury iso-lated to the internal sphincter can be left unrepaired Destructive injury requires diversion following the same principles as rectal injury In most cases primary repair should be undertaken, com-monly in an end-to-end or overlapping fashion Overlapping repair is accomplished by dissecting out the sphincter muscles and wrapping them anteriorly around the anus Although over-lapping repair increases the surface area of muscular apposition, this repair is difficult to achieve without tension in the acute setting, and thus end-to-end repair may be the principal option

in the setting of acute trauma.(113, 120) Other techniques for repair include muscle transpositions (e.g gracilis or gluteal) and artificial sphincters.(113,120) However, these procedures are best undertaken in the delayed setting and should be performed by surgeons with extensive experience For example, graciloplasty for fecal incontinence has been shown in several large series to have success rates of 60–66% by various measures (121–123), but infectious complications in 34–39%

of patients and donor-site morbidity (pain, paresthesias) have been reported in 22–72%.(121, 123) Artificial anal sphincters have been associated with success rates of 75–98% by vari-ous measures, but infection rates range from 13–34%, erosions from 8–21%, explants in 19–37%, and revisionary procedures in 26–45%.(124, 125)

In the long-term, sphincter repairs tend to degenerate (120), with rates in the elective population ranging between 2.8–10% (126, 127) It is important to arrange appropriate follow-up for the assessment of anal function in these patients Physical exam, myography, manometry, and contrast studies are all routinely employed to assess sphincter function.(113) In addition, endo-scopic ultrasound has been shown to be a useful adjunct to visu-alizing the anal sphincters and predicting defects A sensitivity of 100% and specificity ranging from 83–100% has been reported when compared to intraoperative findings in elective operations for fecal incontinence.(128, 129) Delayed repair has been shown

to have good results in approximately 70% of patients with fecal incontinence due to nonobstetric trauma.(130)

Complex perineal injury

Kudsk and Hanna (131) have published a complete review of complex perineal injuries, describing a 15-year experience in the comprehensive care of these patients Figures 35.3a–3c illustrate complex perineal injury The authors demonstrate the synthe-sis of the principles of ATLS, damage control, and distal rectal injury required to manage these potentially devastating injuries Their review included only those patients with evidence of severe degloving (25 total) and the reported mortality was 24% during the first 2 hours of admission Two additional patients died for reasons unrelated to their perineal injury, for an overall mortal-ity of 32% Their review of the literature revealed similar mor-tality rates Roughly half of the patients were pedestrians hit by cars, one-third were involved in motor vehicle crashes, and the remainder sustained industrial accidents

The second most common cause of mortality after exsan-guinating hemorrhage is pelvic sepsis The authors’ review of the literature revealed a 21–25% death rate from this cause For

authors emphasize that in complex pelvic injuries, lower extremity central access is contraindicated in that it may contribute to fur-ther hemorrhage by delivering fluids and blood products directly into the abdominal cavity through lacerated vessels Access above the diaphragm is recommended Laparotomy should be performed and intraabdominal injuries addressed Early pelvic fixation and hemorrhage control should proceed by packing, direct ligation

or clamping, and angiography as necessary The lithotomy posi-tion is essential to appropriate exposure Associated genitourinary injuries should be addressed Debridement should continue only

in the absence of refractory hemorrhage and the patient should

be returned to the ICU for further resuscitation before prolonged operative interventions

Following stabilization, fecal diversion should be undertaken early Aggressive debridement and irrigation should be under-taken with frequent return trips to the operating room Kudsk and Hanna report an average of 8 trips to the operating room using pulse-lavage before closure or coverage was attempted These principles are similar to the management of Fournier’s gangrene Enteral feeding should be initiated as early as possible

In the delayed setting, coverage can be achieved with skin grafts and muscle flaps as indicated Using these techniques, the authors were able to discharge 17 of 19 patients (89%) to home Feeding jejunostomies were placed in 6 patients and enteral nutrition was initiated in all 6 within 48 hours

summary

Anal sphincter and complex perineal injuries are uncommon in civilian settings Life-threatening hemorrhage and pelvic fracture are the first concerns Documentation of the extent of sphincter injury is imperative Genitourinary and rectal injuries should be suspected until ruled out by careful investigation Primary repair

of sphincter injury should be undertaken if feasible Referral

is recommended for cases where complex repair is required Follow-up is important for assessment of long-term function, as

Figure 35.3a Complex perineal injury The patient was run over by heavy

road-repair equipment The patient also sustained urethral injury, sigmoid colon injury,

and severe pelvic fracture.

Figure 35.3b CT scan of complex perineal injury Note the large soft-tissue

defect.

Figure 35.3c Pelvic fracture associated with complex perineal injury.

example, Maull et al (132), reported a 25% mortality due to

pel-vic sepsis in their series Kudsk and Hanna report a 21% pelpel-vic

sepsis rate but no mortality, which they attribute to their

aggres-sive, multisystem approach as described

Immediate assessment of the ABCs, intravenous access, and

lim-ited radiographic imaging are the initial steps In cases of severe

injury resuscitation should occur in the operating room The most

serious and most common associated injury was severe complex

pelvic fracture, which occurred 74% of the time (Figure 35.3c) The

functional deterioration is common after repair Fecal diversion

may be necessary in cases of massive injury The primary concern

initially is hemorrhage control, while infection and nutrition are

more important in the next several days In the longer-term,

tis-sue coverage and functional istis-sues become more important With

aggressive, comprehensive management, the majority of patients

have good outcomes

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6 Urologic complications of colorectal surgery

Scott Delacroix Jr and J Christian Winters

Challenging Case

A laparoscopic left hemicolectomy was performed for an

asympto-matic 2.0 cm sigmoid adenocarcinoma found on screening

colon-oscopy Due to her previous three cesarean sections and abdominal

hysterectomy with bilateral oopherectomy, she required extensive

lysis of adhesions in order to mobilize the left colon The procedure

was uneventful and the patient was discharged home on

postoper-ative day number three On follow-up at 10 days, patient was doing

well except for a new complaint of left “side pain” rated as a 3 out

of 10 Management was expectant and patient was scheduled for

a follow-up visit She presented to the emergency room one week

later with significant left flank pain and a fever of 102.1 Her WBC

count was 21,000 and serum creatinine was 1.2 (preop 0.9) A CT

scan of the abdomen and pelvis with and without intravenous

con-trast was ordered and left hydroureteronephrosis was seen down to

the level of the mid-ureter

Case ManageMent

The patient was admitted and placed on intravenous antibiotics

Urology was consulted and the patient was taken to the

cystos-copy suite where a cystoscystos-copy and retrograde stent placement was

attempted but unsuccessful No contrast was seen beyond the level of

the mid-ureter The patient was taken to the interventional radiology

suite where a percutaneous nephrostomy tube was placed Patient

improved clinically over the next 48 hours with IV antibiotics An

anterograde nephrostogram was performed and a 2.0 cm stenotic

segment of ureter was visualized in the middle-third of the left

ure-ter Iatrogenic injury was presumed and treatment options were

dis-cussed with the patient After a full treatment course of antibiotics

for her pyelonephritis, the patient underwent a robotic ureteral

reim-plant with Psoas hitch and ureteral stent placement Her

percutane-ous nephrostomy tube was removed 1 week later (as outpatient) The

ureteral stent was removed at 4 weeks postoperatively and patient

remained asymptomatic thereafter At 4 months postreimplantation,

her serum creatinine was 0.9 and renal ultrasound showed a normal

left kidney without evidence of obstruction

Urethral injUries

The most common urologic injury in surgery is the traumatic

foley catheter placement It is essential to adequately lubricate the

entire foley and insert the catheter past the point at which urine

is returned into catheter tubing Inserting the catheter in a male

to the inflation port can help prevent urethral injury The usual

preoperative catheter is either a 16 french or 18 french catheter It

is not necessary to inflate the balloon before placement as this will

increase the size and decrease the rigidity of the distal aspect of the

catheter If catheter placement is unsuccessful, a trial of passage with

an 18 French coude’ tipped foley catheter is appropriate Patient

dehydration secondary to bowel preparation can make it difficult

to determine proper placement if one only looks for urine return

Placement of the entire foley catheter (to port)before inflation will aid in proper placement If still unsure, usage of a 60 cc catheter tipped syringe to irrigate the bladder can confirm placement before inflation of the balloon Intraoperative urologic consultation for cystoscopy and foley catheter placement should be performed if the above measures fail If cystoscopy cannot accurately deline-ate urethral anatomy, a suprapubic catheter can be placed either through a percutaneous or an open technique

Artificial urinary sphincters (AUS) must be deactivated before insertion of a foley catheter Deactivation is a different mecha-nism than the normal operating “on” and “off ” cycling It is the author’s experience that most patients do not know how to deactivation their AUS beyond the normal cycling mode This de-activation must be performed before placement of a foley cath-eter Either a device representative or urologist can deactivate the sphincter preoperatively as an outpatient or on the day of surgery

A 12 French foley catheter can then be placed with lubrication and care to ensure placement in the bladder before inflation of balloon Failure to deactivate the AUS can result in erosion of the urinary sphincter by means of pressure necrosis between the foley catheter and sphincter device Removal of the catheter should be done in standard fashion postoperatively If unable to obtain uro-logic consultation before or intraoperatively, a suprapubic cath-eter can be placed either by open or percutaneous methods Care must be taken to avoid intraabdominal prosthetic components, which are normally placed below the rectus muscle suprapubi-cally An inflatable penile prosthesis (IPP) should not pose any additional difficulty in placing a urethral catheter if lubrication and the aforementioned guidelines are adhered

Urethral injuries are associated with extensive rectal neoplasm

or any inflammatory processes that alter surgical planes includ-ing pelvic radiation Urethral injuries are usually identified at the time of surgery secondary to identification of the indwell-ing foley catheter Repair of a small urethral laceration can be performed with absorbable 3–0 or 4–0 synthetic absorbable suture (SAS) on a tapered needle If the patient has had prior radiation or there is poor tissue composition, placement of either an omental flap

or local tissue flap to support coverage of the repair is recommended Injuries not identified at surgery can present postoperatively as urine drainage per rectum, pneumaturia, or fecaluria if fistula is present

It can also present as a delayed urethral stricture with difficult void-ing and bladder outlet obstruction A retrograde urethrogram will confirm the presence of a urethral stricture but must be done in the bilateral oblique as well as anterior-posterior views A retrograde urethrogram (RUG) can be performed by affixing a 14-gauge angi-ocatheter to a 60 cc syringe filled with standard water-soluble con-trast A RUG should be performed around an indwelling catheter

if already in place If a radiographic enema is performed, water- soluble contrast is preferred as it does not form concretions in the bladder Spontaneous closure of a urinary fistula is rare but a trial

of conservative urinary diversion (foley catheter) for low-grade

fis-tulas is recommended for 4–6 weeks

Urinary fistulas are staged according to location, size, and

patient’s history.(1)

Stage 1—low (<4 cm from the anal verge and non-irradiated)

•

Stage 2—high (>4 cm for the anal verge and non-irradiated)

•

Stage 3—small (<2 cm irradiated fistula)

•

Stage 4—large (>2 cm irradiated fistula)

•

Stage 5—large (ischial decubitus fistula)

•

Enteric diversion by means of a diverting colostomy or

ileos-tomy is recommended for Stages 3–5 The choices for repair are

diverse and depend on local tissue integrity and staging It is

rec-ommended to place a suprapubic catheter at the time of repair in

addition to a foley catheter for maximal drainage.(2) Transanal

rectal flap advancement can be used for Stage 1 fistulas or in

com-bination with other techniques for higher stage fistulas.(3) Other

techniques described include:

transanal-transphincteric approach (dorsal lithotomy anterior

•

sphincterotomy).(4)

York Mason/transphincteric with rectal advancement flap (2, 5,

•

6) (jack-knife posterior sphincterotomy)

Perineal approach (Jack knife or dorsal lithotomy).(7, 8)

•

Gracillus and Rectus Abdominus Flaps.(9, 10)

•

Surgical selection is based on fistula stage and the experience of

the reconstructive surgeon Higher stage fistulas and recurrences

normally require regional flaps and possibly even urinary

diver-sion.(11) Outcomes for surgically corrected rectourethral fistulas

are overall favorable with recurrences mostly dependent on stage

and appropriate choice in initial surgical treatment Success rates

vary from >90% for low-grade fistulas to 70% for higher-grade

fistulas.(1–11) A retrograde urethrogram around foley catheter at

4–6 weeks postoperatively should be performed before urethral

catheter removal

Bladder injUries

The location of the bladder within the pelvis and its, close

prox-imity to the sigmoid colon and rectum predisposes the bladder to

injury during surgery of the colon and rectum Iatrogenic injuries

to the bladder can be staged as:(12, 13)

Grade 1 : contusion, intramural hematoma, or partial thickness

•

laceration

Grade 2: extraperitoneal bladder wall laceration <2 cm

•

Grade 3: extraperitoneal >2 cm or intraperitoneal <2 cm

blad-•

der laceration

Grade 4: intraperitoneal bladder wall laceration >2 cm

•

Grade 5: intra or extra peritoneal bladder wall laceration

extend-•

ing into the bladder neck or trigone (near ureteral orifice)

Risk factors for bladder injury include any process that distorts

tissue planes and reduces surgical exposure.(14) This includes

adhe-sions or scarring from prior surgery, radiation, malignant

infiltra-tion, chronic inflammainfiltra-tion, or infection Injuries can be apparent

intraoperatively or present in a delayed fashion Intra operative iden-tification of the injury allows for immediate cystorraphy usually in

a two layer fashion In open surgery, the mucosa is closed in a ning fashion using a 3–0 SAS suture followed by a seromuscular run-ning suture of 2–0 SAS The bladder can then be irrigated to ensure

a watertight closure In the laparoscopic setting, a running one layer closure is performed using a 2–0 SAS to close all three layers of the bladder Care must be taken to ensure closure of the mucosal layer

in the laparoscopic one layer technique Again, the bladder should

be irrigated to ensure a watertight closure Repair can also differ depending on the location of the injury Anterior and dome injuries can be repaired primarily as above Posterior injuries involving the trigone or near the ureteral orifices (possible Grade 5) dictate a more thorough inspection of the bladder and an assurance of ureteral integrity before closure This is done through an anterior cystotomy

in the sagittal plane extending down toward the pubic symphisis This will allow placement of a Balfour or Bookwalter self-retaining retractor and placement of bilateral ureteral open-ended catheters Giving the patient indigo carmine with Lasix can aid in identifica-tion of the ureteral orifices Closure of the posterior bladder injury can then be done from the bladder lumen—closing the muscular layer first using 2–0 SAS followed by closure of the mucosal layer using 3–0 SAS The anterior cystotomy is then closed as described above In cases where neoadjuvant radiotherapy has been used, an interposition of omentum or perivesical fascia is prudent to decrease the risk of fistula formation

A delayed bladder injury will usually manifest in the early postop-erative period, especially after removal of foley catheter The injury can present as drainage from surgical incision; increased output from surgical drain; vaginal leakage; ileus; apparent oliguria; uri-nary ascites with increasing BUN and serum creatinine secondary

to reabsorption of urine through parietal peritoneum—in the case

of an unrecognized intraperitoneal injury; pneumaturia or fecaluria

in the cases of an enterovesical or colovesical fistula Delayed urine leaks can be diagnosed radiographically by fluoroscopic cystogram

or the CT cystogram.(15) It is important when ordering a CT cysto-gram that passive filling of the bladder from the upper tracts is not the sole method of bladder opacification A foley catheter should be placed and the bladder filled in a retrograde fashion with 300–400 cc’s of water-soluble contrast before the scan

The development of a colovesical or enterovesical fistula is a delayed complication of cystotomy.(16–17) Abdominal-pelvic CT scan with oral and/or rectal water-soluble contrast has a greater sensitivity than

cystoscopy in diagnosing an enterovesical fistula (Figure 36.1) The

most sensitive test to diagnose an enterovesical or colovesical fistula

is the poppy seed test.(17) A 1.25-ounce container of poppy seed is mixed into a 12-ounce beverage o r a 6-ounce serving of yogurt and orally ingested by each patient Urine was visually inspected during

48 hours, during which identification of poppy seed in the urine was

a positive confirmatory test for gastrointestinal fistula to the urinary tract The sensitivity and specificity was 100%.(17) This test does not provide anatomical information as in the case of the abdominal-pelvic CT scan but it is a much more cost effective screening test in patients with equivocal symptoms (5 dollars vs over 600 dollars) (17) When using Barium contrast, it is the authors recommendation

to empty the bladder after a fistulae is diagnosed as there have been reports of Barium concretions within the bladder

Ureteral injUries

Injury to the ureter is one of the most common intraoperative

urologic injuries in colorectal surgery The incidence of

iatro-genic injury to the ureter is reportedly from 1 to 10%.(18–22)

Iatrogenic ureteral injuries are of 4 types: laceration, ligation,

devascularization, and thermal or energy related Optimal

treat-ment is early recognition and repair of any ureteral injury

Anatomy

Iatrogenic ureteral injuries in colorectal surgery usually occur in

three distinct locations: at the takeoff of the inferior mesenteric

artery, where the infundibulopelvic ligament/uterine vessels crosses

the pelvic brim, and between the lateral rectal ligaments (Figure

36.2).(23) The course of the ureter begins posterior to the renal

artery and continues along the anterior edge of the psoas muscle

The gonadal vessels cross the ureter from lateral to medial in this

region The ureter next passes over the iliac vessels, generally

marking the bifurcation of the common iliac into internal and

external iliac arteries.(24) Of greatest importance to the surgeon

is that arterial branches to the abdominal ureter approach from

the medial direction whereas arterial branches to the pelvic ureter

approach from the lateral direction.(24) For the abdominal

ure-ter, these branches originate from the renal artery, gonadal artery,

abdominal aorta, and common iliac artery After entering the

pel-vis, additional small arterial branches may arise from the internal

iliac artery or its branches, and also from the middle rectal and

vaginal arteries.(24)

The ureter will tend to adhere to the peritoneum during its

reflection rather than staying adherent to the Psoas muscle and

underlying tissue The ureter can be identified by visualization

and by its peristaltic activity Gentle pressure applied to the ureter

will frequently cause peristalsis—termed the Kelly sign The right

ureter is adjacent to the cecum, terminal ileum, and the appendix

The left ureter is related to the descending and sigmoid colon and

their mesenteries

Prevention

Ureteral catheterization is used to aid in identification of the ureters and to help identify ureteral injury, but catheters do not prevent ureteral injury

The clinical value of prophylactic ureteral catheter placement before 162 laparoscopic segmental left and right colectomies was assessed by Nam et al There were no complications from place-ment of ureteral catheters.(18) Postoperative urinary tract infec-tion was not increased Total operative time was increased by 11.3 minutes The ureteral catheter group included more difficult cases including patients with Crohn’s disease and diverticulitis There were no ureteral injuries in any of the one hundred sixty two patients.(18) An earlier study deemed ureteral catheteriza-tion necessary in 27.5% of patients when assessed in a stand-ardized retrospective fashion.(22) There were 4 complications presumably due to ureteral catheterization which included renal colic, oliguria, and one case of anuria attributed to ureteral edema after removal of the ureteral catheters.(20, 25) Chahin et al stud-ied lighted ureteral stents/catheters placed before laparoscopic colectomy in 66 patients.(20) The most common complication was self-limiting hematuria in 98.4% of patients with an aver-age duration of 2.5 days for unilateral stenting and 3.3 days with bilateral stenting

It is the authors’ opinion that the choice for ureteral stenting is

a surgeon preference and depends on multiple variables includ-ing complexity of case, anatomy, and experience—especially with the laparoscopic approach in a hostile abdomen With greater experience, iatrogenic injury decreases In a study by Larach et al., the incidence of conversions due to iatrogenic injuries showed a decline from 7.3% in the early group to 1.4% in the latter expe-rience group.(26) Once again ureteral catheters have not been shown to decrease ureteral injuries but aid in identification of the ureters and any iatrogenic ureteral injury Ureteral catheters

Figure 36.1 Enterovesical fistula (arrow).

Figure 36.2 Anatomy of the ureter.