1135Vol. 10    |    No. 4    |    Autumn 2013    |U R O LO G Y   J O U R N A L

Step-by-Step Illustrated Endoscopic Extra-
peritoneal Radical Prostatectomy (EERP): 
Tips and Tricks to Trifecta Outcomes
Leonardo O. Reis,1,2 Eduardo S. Starling,2 Antonio C. L. Pompeo,2 Rodolfo B. dos Reis,3 Lucas Nogueira,4 Eliney  F. 
Faria,5 Gustavo F. Carvalhal,6 Marcos Tobias-Machado2

INTRODUCTION

Laparoscopic prostatectomy has become a widely accepted and applied surgical method of localized prostate cancer treatment. The pearls of critical anatomical and technical features to optimal oncological and functional outcomes on radical pros-
tatectomy are illustrated. Several aspects with respect to that must be recognized in the early 

phases of training to optimize trifecta outcomes: disease recurrence free, urinary continence 

and sexual functions preservation. 

TECHNIQUE
A-Surgical Steps of Retrograde Technique

1. Patient is positioned in horizontal dorsal decubitus, with Y-shaped abduction of lower 

limbs on the table.

2. Display of the surgical team. The surgeon operates on the left side; the camera is positioned 

at the upper end of the table, and the assistant stand at the patient's right side. During suture, 

for improved comfort, the surgeon and the camera switch places.

3. Umbilical incision measuring 1.5 cm up to the Retzius space. 

4. Creation of extra-peritoneal space through digital dissection and modified balloon dilator 

(handicraft). 

5. Hasson trocar (10 mm) through the umbilical incision for the 0-grade optics. 

6. Making of pneumo-retroperitonium with CO2 tension of 15 mmHg; 

7. Introduction of another 4 working trocars (2 Para-rectal external measuring 10 mm, and 2 

in iliac fosse measuring 5 mm) under direct view, in an arciform shape, taking care in order 

to avoid peritoneal lesion (Figure 1). 

 8. Exercises of pre-prostatic fat with monopolar cautery for proper identification of prostate, 

bladder and pubo-prostatic ligaments.  

Corresponding author:

Leonardo Oliveira Reis, MD, MSc, 
PhD
Faculty of Medical Sciences, Uni-
versity of Campinas, Unicamp Rua: 
Tessália Vieira de Camargo, 126 
Cidade Universitária "Zeferino Vaz" 
Campinas - SP- CEP: 13083-887, 
Brazil.

Tel/Fax: +55 019 352 17481

E-mail: reisleo@unicamp.br; 
reisleo.l@gmail.com

Received November 2011
Accepted April 2012

1
Urologic Oncology Division, 

Department of Urology, University 
of Campinas, UNICAMP, São Paulo, 
Brazil and Faculty of Medicine (Urol-
ogy) Center for Life Sciences Pontifi-
cal Catholic University of Campinas 
PUC-Campinas, Brazil.
2

Urologic Oncology and Lapa-
roscopy Section, Department of 
Urology, ABC School of Medicine, 
São Paulo, Brazil.
3

Urologic Division, Department 
of Surgery, Ribeirão Preto Medical 
School, Sao Paulo University (USP), 
Brazil.
4

Federal University of Minas Gerais - 
UFMG, Brazil.
5

Barretos Cancer Hospital, Pio XII 
Foundation, Barretos, Brazil.
6

Catholic University, Rio Grande do 
Sul, Brazil.

POINT OF TECHNIQUE



1136 |

9. Bilateral opening of endo-pelvic fascia with scissors, fol-

lowing previous contra-lateral traction of the prostate.

10. Identification and sectioning of pubo-prostatic liga-

ments. 

11. Vascular control of dorsal vein complex of the penis 

with a X-stitch using 2-0 polyglactine suture with circle ta-

per (CT)-1 needle, and control of the retrograde blood flow 

with harmonic or bipolar scalpel, or polymer clip (Hem-o-

lok). Applying the clip makes the subsequent identification 

of the bladder neck easier for reconstruction, a surgical step 

that is often arduous when we choose to preserve the blad-

der neck 

12. Apical dissection with preservation of the sphincter ap-

paratus. 

13. Sectioning of the dorsal vein complex of the penis 

with electrocautery or harmonic scalpel, until the urethra 

is viewed.

14. Opening of the urethral anterior wall with scissors. Sec-

tion is performed after perfectly identifying the limits of the 

prostate apex and urethra, thus avoiding positive margins. 

Point of Technique

Figure 1. The sites for trocar placement.
Figure 2. The bladder neck is opening. Preservation is desired, but 
in case of suspicious invasion, a resection with free margins must 
be performed.

Figure 3. Opening posterior Denonvilliers fascia with identifica-
tion of prostate. No energy dissection between prostate capsule 
and prostatic visceral fascia in medial to lateral direction.

Figure 4. The prostatic pedicles are identified and clipped with 
Hem-o-lok near to prostate. 



1137Vol. 10    |    No. 4    |    Autumn 2013    |U R O LO G Y   J O U R N A L

15. The catheter balloon is filled with 20 mL of distilled wa-

ter. The Foley catheter is externally pulled for subsequent 

knot application with 0-cotton suture including drainage 

and balloon routes. 

16. Cutting the catheter close to the previously applied knot. 

17. Removing of the remaining stump of the Foley catheter, 

through endoscopic view in the extra peritoneal space.

18. Posterior dissection of the urethra and recto-urethral 

muscle following cranial traction of the catheter by the as-

sistant. 

19. Blunt retro prostatic dissection up to the most proximal 

point as feasible. 

20. Identification and opening of the posterior layer of the 

Denonvilliers fascia. At this time it is possible to identify 

the pre-rectal fat. The neurovascular bundle lies laterally 

and under the fascia, which makes nervous preservation 

easier during ligation of the prostatic pedicle, which is per-

formed by posterior access.

21. Sectioning of the bladder neck, with preservation of 

muscular fibers whenever possible. The dissection is started 

with harmonic or bipolar scalpel and upon reaching the ure-

thral mucosa; it is sectioned with scissors.

22. Identification and opening of the anterior layer of De-

nonvilliers fascia, posterior to the prostate with visualiza-

tion of vasa deferentia. 

23. Identification and sectioning of vasa deferentia with 

harmonic or monopolar scalpel. 

24. Superior traction of the vasa deferentia by the assistant 

in order to release the seminal vesicles. At this time, we pre-

ferred to use harmonic or bipolar scalpel in order to avoid 

dissipation of thermal energy that could damage the nervi 

erigentes. 

25. The assistant performs the lateral and superior traction 

of previously mobilized (released) prostate, enabling the 

clear identification of the prostatic pedicles and the pros-

tate capsular limits. The control of the prostatic pedicles is 

performed with harmonic or bipolar scalpel. Alternatively 

polymer clips (Hem-o-lok) can be used.  

26. Exercise and entrapment of the specimen that is located 

in right iliac fossa. 

27. Vesicourethral anastomosis is initiated with the patient 

in Trendelemburg position in order to improve the visuali-

zation of the urethra. The surgeon works with the pararectal 

10-mm trocars at the upper end of the table. We perform 

a continuous 3-0 polyglecaprone (monocryl) suture with 

small half (SH) circle needle. We use two 13-cm sutures, 

one colorless and the other one violet, externally tied by the 

distal end. A modified van Velthoven suture(1) begins at 4 

o'clock position in the bladder directed inwards and each of 

the sutures rises toward 8 o'clock position, where a single 

internal knot is made.

28. Drainage with Penrose though one of the 5-mm ports. 

Figure 5. Vertical opening of anterior aspect of prostatic visceral fascia from puboprostatic ligament to bladder neck. Athermal retrograde 
blunt and sharp dissection of neurovascular bundle between capsule and prostatic visceral fascia. A: Apical view, B: Proximal view. 

Illustrated Endoscopic Extraperitoneal Radical Prostatectomy   |  Reis et al



1138 |

29. Removal of the specimen by enlargement of the umbili-

cal port and closure of the incisions.

B-Surgical Steps of Antegrade Technique

The theoretical advantage of this technique is to perform 

the division of dorsal venous plexus in the last step of sur-

gery. In this way, less bleeding occurs in the initial steps of 

dissection. The same surgical steps are performed to access 

the extra-peritoneal cavity. Actually we open the endopel-

vic fascia only if intra-fascial dissection was not elected and 

control the venous plexus as the same manner exposed on 

retrograde technique. We tie the knot but we do not section 

the plexus, and at that moment we start a dissection from 

the bladder neck to the prostate apex.  

1. After Santorini’s plexus knot, the back bleeding suture 

was placed on the anterior surface of the prostate. Traction 

is placed in this knot to push the prostate and the bladder 

through the sixth trocar. Beniquet can aid to find the transi-

tion between the bladder and prostate. At this moment we 

open the bladder neck with harmonic scalpel (Figure 2).

2. The Foley catheter is grasped to perform the posterior 

bladder neck dissection. 

3. After opening the posterior layer of detrusor muscle, vasa 

deferentia are identified, dissected free and divided. Diago-

nal contra-lateral traction was performed to better expose 

the homo-lateral seminal vesicle. Here there is always a 

small artery and a careful dissection is encouraged. Vessels 

near to the vascular bundle are controlled athermically with 

clips. The dissection of the seminal vesicles is performed.

4. After dissection the seminal vesicle is retracted anteri-

orly, the Denonvilliers fascia is opened behind the prostate 

to identify the peri-rectal fatty and the bundles are dissected 

gently without any thermo source (Figure 3). 

5. Hem-o-lok clips are used to control the pedicles (Figure 

4). At this moment we decide about the level of preserva-

Figure 6. Apical dissection taking care to achieve a good urethral 
length preventing positive margins and lesion of neurovascular 
bundle.

Figure 7. Retroprostatic dissection near to prostate to maintain posterior fibers of urinary sphincter attached to urethra. A: Schematic 
view, B: Endoscopic view.

Point of Technique



1139Vol. 10    |    No. 4    |    Autumn 2013    |U R O LO G Y   J O U R N A L

Illustrated Endoscopic Extraperitoneal Radical Prostatectomy   |  Reis et al

tion of neurovascular bundle (intrafacial, interfascial or ex-

trafascial). The limits between the prostate and the pedicle 

can be perfectly seen. In selected and favorable patients in 

whom preservation is possible we perform the most recent 

refinement of the endoscopic extra-peritoneal radical pros-

tatectomy - the intra-fascial nerve sparing. 

As part of the intrafascial technique, the dissection plane 

is directly on the prostatic capsule, freeing the prostate lat-

erally from its thin surrounding fascia that contains small 

vessels and nerves. The technique enables pubo-prostatic 

ligament preservation, leaving intact endopelvic fascia, 

peri-prostatic fascia, and neurovascular bundles. 

Based on anatomic relationships between investing pros-

tatic fascial layers and the neurovascular bundle, emphasis 

is placed on division of the apical prostatic urethra between 

the anterolateral endopelvic fascia and Denonvilliers fascia 

(intrafascial dissection) in avoidance of the apical nerves 

(Figure 5A). It maintains veil of Aphrodite and open the 

visceral fascia anteriorly just in the moment of pedicle li-

gation. Vertical incision in the fused distal portion of De-

nonvilliers fascia is necessary to make this dissection atrau-

matic regarding the adjacent para-prostatic neurovascular 

bundle (Figure 5B).

 6- A Beniquet is important to complete lateral dissection 

of the prostate. It can push the prostate down to secure a 

good separation between the apical bundle and the prostate 

(Figure 6).

7- At this moment apical dissection is performed. It is ex-

tremely important step because most of the positive margin 

comes from the apex. An excellent visualization permit a 

better preservation of fibers from urinary sphincter main-

taining the urethral stamp attached to pubo-prostatic liga-

ment without jeopardize apical margin. The dorsal venous 

complex is divided with a best length of urethra (Figure 7A 

and 7B); the urethra and recto-urethralis is divided and the 

specimen freed from final adhesions (Figure 8).

8- Pathological specimen is removed in a bag.

9- Running vesico-urethral anastomosis is done similar to 

previous description.

Technique standardization and the recognition of pearls of 

critical anatomical and technical features are fundamental 

to optimal oncological and functional outcomes on radical 

prostatectomy named trifecta: - disease recurrence free, - 

urinary continence and - sexual functions preservation. 

Furthermore, it must be recognized in the early phases of 

training.(2)   

CONFLICT OF INTEREST
None declared.

REFERENCES

1. Van Velthoven RF, Ahlering TE, Peltier A, Skarecky DW, Clay-
man RV. Technique for laparoscopic running urethrovesical 
anastomosis: the single knot method. Urology. 2003;61:699-
702.

2. Starling ES, Reis LO, Vaz Juliano R, et al. Extraperitoneal en-
doscopic radical prostatectomy: How steep is the learning 
curve? Overheads on the personal evolution technique in 
5-years experience. Actas Urol Esp. 2010;34:598-602. 

Figure 8. Aspects of neurovascular bundles after the infra-vesical 
nerve sparing technique.