MODULE 16 Genitourinary Surgery RPN2023.pdf

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MODULE 16: Genitourinary Surgery

Suggested Readings Alexander’s Care of the Patient in Surgery (2022) Chapter 15

Tighe (2015) Instrumentation for the Operating Room Chapter
25, 28, 31, 33

ORNAC Standards 2023

Learning Outcomes Describe the genitourinary (GU) anatomy.

Explain surgical interventions and procedural considerations for
open and closed GU surgeries, scrotal surgery, prostate
surgeries and kidney surgeries.

Advances in genitourinary (GU) surgery, with the use of robotics, laparoscopic techniques,
lasers, lipotripers and MIS approaches has expanded surgical treatment options for the GU
patient.

Anatomy

Kidneys

Kidneys are composed of tissue in the outer part and a renal pelvis (where urine
collects) in the central part.
Located retroperitoneal
The right kidney is several centimeters lower than the left kidney because the liver rests
superior and anterior to the right kidney
Highly vascular organ processing 1/5th of the body’s entire blood volume at one time
Blood supply directly off the aorta, to renal artery drainage is through the renal vein
Kidney transplantation from a live donor – The Left kidney is usually removed
because the left renal vein is longer than the right renal vein. This improves
implantation outcomes. However, in some cases, the right may be removed if there are
anatomical issues in the recipient.

Ureters

The ureters are 25 – 30 cm and 4 – 5mm in diameter (adult)
Extends from the renal pelvis to the base of the bladder
The upper ureter is supplied by the renal artery and by branches from the gonadal artery
and aorta.

Urinary Bladder

A hollow, muscular viscus that acts as a reservoir for urine until voiding occurs

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 Located extraperitoneal
Blood supply to the bladder is by the superior, middle, and inferior vesical arteries,
which arise directly or indirectly from the internal iliac artery.
Venous rich blood supply that drains into the internal iliac vein.

Urethra

Male urethra - 20-25 cm long
Female urethra - 4 cm long – greater risk for urinary tract infection (UTI) due to short
urethra and proximity to anal and vaginal areas
Cystoscopies, Transurethral Resection of Prostate (TURP), and Ureteric stents are
inserted via the urethra

Prostate Gland

It is a donut shaped gland located at the base of the bladder neck and completely
surrounds the urethra
Divided in 4 glandular regions
Referred to as intraurethral lobes (right and left lateral) and extraurethral lobes
(posterior and median)

Male Reproductive Organs

Paired structures: testes, epididymis, seminal ducts (vas deferens), seminal vesicles,
ejaculatory ducts, Cowper’s glands (bulbourethral glands)
Singular structures: penis, scrotum

Adrenal Glands

Retroperitoneally located and made of two main parts: Adrenal Cortex and Adrenal
Medulla
Medulla secretes adrenaline
Cortex secretes steroids and hormones that are influenced by the pituitary gland
Blood supply- same as kidney plus arterial branches of the inferior phrenic artery

Perioperative Nursing Considerations

Nursing Assessment

Urologic procedures frequently require positions that create stress for the patient. Anatomic and
physiologic considerations, such as compression of the vena cava and dependent lung during
lateral positioning need to be considered. In addition, large amounts of irrigating fluids are often
used so a thorough lab and electrolyte assessment is imperative.

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Blood Replacement - Patients may require extensive tissue dissection in highly vascular areas,
resulting in the need for blood transfusion. Orders and availability of blood products must be
confirmed pre-, intra-, and post-operatively. The RPN should be prepared in the scrub role with
hemostatic agents, such as hemoclips, sutures, ties, sponges, Gelfoam, Surgicel, etc to anticipate
any critical surgical needs.
Patient Positioning - The surgical procedure determines the patient’s intraoperative position.
Typically, a patient undergoing GU surgery will be placed one of the four positions: 1) supine
open cases, 2) supine with Trendelenburg tilt to access the urologic organs, 3) lithotomy for
cystoscopy, Trans Urethral, and laparoscopic surgeries, 4) lateral for kidney surgeries. Refer to
the ORNAC Standards and the positioning performance checklist for appropriate practices.
Other positioning devices, such as bean bags and bolsters, may be used for lateral position.
The patient position and the associated positioning devices may vary depending on the
surgeon’s preferences and available institutional resources and policies. It is recommended that
the perioperative nurse collaborates with the surgical team to ensure that the patient is
positioned safely before, during, and after surgery. The perioperative nurse ensures that the
patient return electrode pad is applied and the safety strap secured.

When patients are placed in lithotomy position, stirrups are used. The perioperative nurse must
ensure the stirrups are fastened to the bed to support the patient’s legs. Hips should not be flexed
greater than 90 degrees to prevent injuries to the sciatic and obturator nerves as well as hip joint
and muscle strains. Removing the legs from the stirrups after surgery is a slow and coordinated
process requiring adequate support from others. Lower the legs slowly to facilitate hemodynamic
adjustment when blood shifts to lower extremities. This also prevents lumbosacral muscle
strains.

Instrumentation and Counting

GU surgeries can be open, MIS, or a combination

Cystoscopy, Ureteroscopy, Urethoscopy (MIS):
Cystoscopy set up
Single tubing for irrigation (1000ml Saline Bag) – Closed system
Light cord
Two main types of scopes:
o Cystoscopes
o Resectoscopes
No count required

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Nephrectomy (Open and Laparoscopic), Prostatectomy (Open and Laparoscopic), Cystectomy
(Open), Pyeloplasty (Open)

Basic laparotomy set, including short and long instruments
Prostate and bladder instrument extras
Kidney Instruments and Rib resection specialty instruments
A large abdominal retractor eg. bookwalter retractor
Foley catheters on sterile set up

A major count is conducted at the beginning of all cases, and a small or minor count
for final count

Initial Count (major) → Closing Count (major) → Final Count (minor)

Equipment

Intra-operative Fluroscopy (C-arm) – Ensure patient is placed on a OR bed compatible with
fluoroscopy. Whenever possible, the patient should be protected from undue radiation exposure
to the thyroid and chest areas by using small leaded shields. Shielding reproductive organs in GU
surgeries is not feasible.

Lasers (Holmium Yag, Yag KTP Green Light) – Apply appropriate safety precautions and
knowledge of laser Protocols.

Ureteral and Urethral Catheters - will be used for specific surgeries. The most commonly
used catheters include the open-ended, whistle tip, cone tip, and olive tip.

In some surgeries, not just urologic, ureter catheters may be inserted as stents so that the
structures can be identified during pelvic dissections and prevent accidental cutting.

Operating Room Table – Urological tables have special equipment, allowing for X- ray
capability, photographic ability, and drainage screens to catch specimens and still let the
irrigating fluid run through.

Irrigation Fluids – When the bladder is entered, sterile distilled irrigation fluid is administered
to distend it for effective visualization. Irrigating fluids should be used with closed systems to
prevent the inherent risks of cross-contamination, such as “Cysto-tubing” and looks similar to IV
lubing with a much larger diameter. Large volumes will be used for more extensive MIS
surgeries. The fluid should be warmed through a warming unit to reduce the risk of hypothermia
(cold fluids entering the patient’s warm body).

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 Normal Saline is a safe fluid for simple observational cystoscopy, bladder tumour
fulgurations (a light superficial burning) and retrograde pyelography.

Sterile Water is used for simple procedure that require the use of monopolar cautery
where high absorption into the bloodstream is not anticipated.

A clear, nonelectrolytic, and iso-osmotic solution, such as Sorbitol, Cystosol, and
Glycine should be used for transurethral resection of the prostate (TURP), as venous
sinuses may be opened and varying amounts of irrigants are invariably absorbed into the
bloodstream. Studies indicate that the use of sterile water during TURP may result in
hemolysis of erythrocytes and possible renal failure. **Also dilutional hyponatremia and
potential cardiac decompensation.

Cystoscopes – Used for simple observational diagnoses, but with accessories, can do many other
procedures such as retrograde pyelography, retrieve stones in the bladder/ureters, insert stents,
and fulgurate bladder tumours.

Flexible Cystoscope Rigid Cystoscope

Resectoscopes are special scopes that have cutting loops inside them that are electrically-
powered (similar to the hysteroscope resectoscope for endometrial ablations).

Surgical Interventions

Cystoscopy (Flexible and Rigid) - An endoscopic examination for direct vision of the urethra
into the bladder. If a stricture is detected in the urethra, then a dilation or an internal urethrotomy
may be done along with a cystoscopy.

Retrograde Pyelogram - An imaging test that uses X-rays to look at the bladder, ureters, and
kidneys. Usually done during a cystoscopy and can be done with local anesthetic injected into
the urethra eg. xylocaine gel. Catheter will be inserted in one or both ureters and the dye solution
will be injected through the catheter for visualization.

Prostate Surgery

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Transurethral Resection of the Prostate (TURP) – Performed for benign prostatic conditions -
very common in elderly men. Only the prostate tissue is taken, not the capsule. A nonelectrolytic
ionic medium (Cystosol, Mannitol, Glycine) is used with the monopolar cautery. These solutions
are kept cold in the fridge, therefore require careful monitoring of the patient for signs of
hypothermia when used. The return of irrigation fluid must be monitored because intravasion and
absorption of fluid into open prostatic venous sinuses (or bladder perforation with TUR of
Bladder tumour) may occur.

Signs and Symptoms of Irrigation Fluid Overload

Respiratory changes, bradycardia, hypertension followed by hypotension, abdominal discomfort,
nausea and vomiting, and severe agitation. This could lead to hypervolemia and hyponatremia. If
these signs and symptoms occur the procedure is stopped, followed by a cystogram to determine
if there is a bladder perforation. A Foley catheter will be inserted and the patient is further
monitored in the recovery room area. A 3-way Foley with a 30cc balloon is inserted and pulled
taut to make the balloon compress the resected prostatic tissue for hemostasis.

Transurethral Ureteropyeloscopy (TUR) for Bladder Tumour – Endoscopic examination of
the ureters and renal pelvis. Signs and Symptoms of irrigation fluid overload are monitored. The
irrigation fluid for TUR of bladder tumours is sterile water. The rational for this is few vessels
are uncovered during this short resection procedure. Water absorption issues does not occur.

Open Prostate Surgery - For enlarged benign prostate or cancer, common in men age 50 years
and up. Prostatectomies includes the excising of the prostate gland, capsule and seminal
vesicles. The surgeon determines the appropriate approach (open versus minimally invasive)
depending where the cancer is located.

Suprapubic Prostatectomy - Prostate is removed through a transvesicle approach as the
tissue is obstructing the outlet of the urinary tract. This direct approach allows the
surgeon access to fix any existing bladder conditions at the same time as removing the
prostate. Bleeding is a major concern for all open prostatectomies. The prostate lies
behind the symphysis pubis and ligating bleeding vessels can be difficult.

Simple Retropubic Prostatectomy - Allows excellent exposure of the prostate bed and
vesicle neck. Intraoperative bleeding is easily controlled with this approach and the one of
choice, if possible. Prostate gland is removed and prostatic capsule is closed (absorbable
sutures).

Nerve Sparing Radical Retropubic Prostatectomy with Pelvic Lymphadenectomy -
Preferred treatment for patients with organ-confined carcinoma of the prostate. It removes
the entire gland, the capsule, and the seminal vesicles. Important structure involving
erectile function are within the surgical field and thus the title “nerve sparing” as the
surgeon does the best possible for the patient to prevent damage to these vessels and
nerves. Additional considerations will include removal of pelvic lymph nodes to
determine how advanced the cancer is. If cancer is too advanced, the surgeon will close and
adjunct therapy will be considered.

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Minimally Invasive Radical Prostatectomies

Robotic Laparoscopic Radical Prostatectomy – Uses robotic equipment to imitate the
surgeon’s movements, allowing for operative access through five small portal incisions,
resulting in shorter recovery time. Enhances the surgeon’s range of motion and precision,
allowing the preservation of nerves crucial to urinary continence and erectile function.

Laparoscopic Radical Prostatectomy – Preferred approach compared to open
procedure due to decreased intraoperative blood loss, shorter hospital stays, and
decreased post-operative pain. Abdominal insufflation is achieved with the verres
needle, and a 10mm trocar is inserted. Additional 5mm ports (x3) are inserted. Bladder
filling occurs through Foley to distend and show contours of the bladder

Bladder Surgery

Bladder surgeries can be done through an open abdominal or transurethral approach.
Diagnostic testing is usually transurethral, while bladder tumours, congenital defects, and
trauma may necessitate an open abdominal approach.

Supra Pubic Cystostomy – An opening made into the urinary bladder through a low abdominal
incision and a drainage tube is inserted into the bladder.

TUR (transurethral resection) of Bladder Tumours – Removal of lesions using a standard
resectoscope, which is passed through the urethra into the bladder.

Radical Cystectomy with Pelvic Lymphadenectomy - Cystectomy is the total excision of the
urinary bladder and adjacent structures along with pelvic lymph nodes. This procedure is
indicated when the tumour has invaded the muscular wall of the bladder. When a cystectomy is
done, another receptacle is required to act as the bladder with an opening or stoma that acts as the
urethra. The reservoir created is called an “Ileal Conduit”. Once the bladder is removed, the
urine flow is permanently diverted into a new bladder created in an isolated loop of the bowel (a
piece of ileum). The ureters are then transplanted into the piece of bowel. A section of the ileum
proximal to the ileocecal valve is used to create a stoma. This one-way valve will keep the urine
in the bladder until the patient does a self-catheterization to remove the urine. This is called a
continent ileostomy or a “Kock Pouch”. The total excision of the bladder includes adjacent
structures, pelvic lymph nodes, a prostatectomy in men, and a hysterectomy in women.

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 Ureteral Surgery

Stones, infections, and tumours are the most common cause of urinary tract obstruction,
necessitating surgery to prevent renal obstruction and subsequent renal failure.

MIS approach for stone removal - A lithotripsy probe (stone basket) is inserted through a cystoscope
into the bladder and up the ureter where the stone is lodged where the probe activates the laser to remove
the stone. This is done under x-ray control. If the stone cannot be removed this way, a lithotripsy
may be done.

Ureterostomy/ Ureterotomy- Opening the ureter for continued drainage into another body part.
This open surgery is done to excise stones in the ureter that cannot be excised through MIS.

Ureterectomy - Removal of the complete ureter. May be part of a nephrectomy or for a
cancerous tumour.

Ureteroureterostomy - Removal of a segment of/or a diseased portion of the ureter with
reconstruction in continuity of the two normal segments. This is often seen in pediatrics when a
congenital defect is present.

Ureteroentersotomy - A diversion of the ureter into a segment of the ileum (commonly referred
to as ileal conduit) in urinary diversion surgery.

Ureterolithotomy - Opening the ureter to remove an obstructing stone/calculus.

Kidney Surgery

Nephrostomy - Creation of an opening into the kidney to maintain temporary or permanent
urinary drainage.

Nephrotomy – Incision into the kidney.

Pyelolithotomy - Removal of a calculus through an opening in the renal pelvis.

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Pyelostomy - Making an opening into the renal pelvis for temporary or permanent diversion of
the flow of urine.

Pyelotomy - Incision into the renal pelvis usually to remove a stone.

Percutaneous Nephrolithotomy with Lithotripsy - Removal or disintegration of renal stones
using a rigid or flexible nephroscope under x-ray control. May require use of ultrasound,
lithotripter probe, or laser

Open Nephrectomy – The surgical removal of a kidney. It is performed for congenital
hydronephrosis, renal tumour, renal trauma, calculi disease or renovascular hypertension. If
necessary, the 11th or 12 rib will be resected. The kidney is isolated and major vessels are double
clamped, triple ligated, divided, and tied with heavy non absorbable ties (silk).

*Radical nephrectomy is usually for cancer and the entire kidney, adrenal gland, perirenal fat, Gerota
capsule, and para-aortic nodes are removed.

Laparoscopic Nephrectomy – The surgical removal of a kidney using a laparoscopic approach
for benign disease. The procedure always includes a cystoscopy with placement of a renal balloon
catheter, a ureteral catheter, and a foley urethral catheter under fluoroscopy (Patient and staff must
wear x-ray protective coverings).

Kidney Transplantation

Kidney transplant entails transplantation of a living-related or cadaveric donor kidney into the
recipient’s iliac fossa. It is performed in an effort to restore renal function and thus maintain life
in a patient who has end-stage renal disease.

Transplant from a Living Donor (Nephrectomy)

Two adjacent ORs are used: the donor surgery is a nephrectomy and begins before that of
the recipient’s so that the suitability of the vessels can be verified.
Often done Laparoscopically
The Left kidney is usually removed because the left renal vein is longer than the right
renal vein. This improves implantation outcomes.

Transplant from a Cadaveric Donor

Potential donors are young, free from infection and cancer, normotensive until a sort time before
death, and under hospital observation several hours before death. These donor patients include
trauma where the patient came to the ER with signs of life. The patient is then intubated and put
on a ventilator where they are monitored to see if they’ve suffered ‘brain death.’ It must be
known that the oxygenation of the donor was not interrupted for more than 5 minutes. The text
only mentions brain death (neurological death) but now in Ontario there is another criterion
called Donation after Cardiac Death (DCD).

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Transplant into Live Recipient

The transplant recipient requires optimal nutritional support and dialysis. During surgery, the
patient’s native kidneys are often NOT removed. An extra table is required with a sterile set up
for the kidney. It will be in a large basin of iced saline and University of Wisconsin solution
compatible for preserving the kidney. The surgeon performs the anastomosis of the donor kidney
renal vein to the side of the recipient’s iliac vein, and the donor renal artery to the recipient
internal iliac artery.

Testicular Surgeries

Hydrocelectomy – An excision of the tunica vaginalis of the testis to remove an abnormal
accumulation of fluid. The procedure is performed via a scrotal incision. The cause is usually an
infection or trauma.

Orchidopexy - Surgical placement and fixation of the testicle in a normal anatomical position in
the scrotal sac for an undescended testicle in the pediatric patient.

Orchiectomy - Removal of a testis or testes. This can be done unilateral or bilateral for trauma,
cancer or infection. The approach can be scrotal or inguinal depending on the patient, and may
also be performed laparoscopically.

Radical Lymphadenectomy (Retroperitoneal Lymph Node Dissection) – Bilateral resection
of retroperitoneal lymph nodes, includes: lymph nodes, channels, and fat around both renal
pedicles; the vena cava; and the aorta.

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