Stesura Seveso


Archivio Italiano di Urologia e Andrologia 2013; 85, 4190

INTRODUCTION
Prostatitis is a common urological disorder mainly affect-
ing males 18-35 years of age, but also constitutes a fre-
quent diagnosis in those aged over 65 primarily as a his-
tological finding or in relation to benign prostatic hyper-
trophy symptoms (1-3). Between 1990 and 1994, more
than 2 million outpatient visits in the USA related to
chronic prostatitis cases, whereas currently 15% of men
who visit a doctor due to urinary tract symptoms are
diagnosed with prostatitis (4). 
This particular disease has been characterized as a sig-
nificant and developing clinical enigma given that its
aetiopathogenesis remains to a great extent unclear. Its
presentation is related to an infective focus in the distant
(mainly) prostatic glandular element and ducts involving
Gram-negative uropathogens and less frequently Gram-
positive bacteria (5). It exhibits an array of symptoms,
most notably pelvic pain (at various sites and of varying
intensity), urinary symptoms (obstructive and irritative)

ORIGINAL PAPER

Serenoa repens extract additionally to quinolones 
in the treatment of chronic bacterial prostatitis. 
The preliminary results of a long term observational study

Konstantinos Stamatiou, Nikolaos Pierris

Urology Department, Tzaneio Hospital, Pireas, Greece.

Introduction: Chronic prostatitis displays a variety of symptoms (mainly local pain
exhibiting variability in origin and intensity). The purpose of this article is to briefly
present the preliminary results of our study examining the role of phytotherapeutic
agents in the treatment of chronic prostatitis patients.
Materials and methods: The study included in total fifty-six consecutive patients who vis-

ited the outpatient department. Subjects were randomized into two groups. Subjects in the first
group (28 patients) received prulifloxacin 600 mg for 15 days, while subjects in the second group
(28 patients) received prulifloxacin 600 mg for 15 days and Serenoa repens extract for 8 weeks.
The response was tested using laboratory and clinical criteria. 
Results: We found statistically significant differences between the two groups regarding pain regres-
sion and no statistically significant regarding bacterial eradication. Moreover however while sexu-
al dysfunction improvement was equally achieved in both groups, improvement of urinary symp-
toms was more evident in the 2nd group especially after the completion of the antibiotic treatment. 
Conclusions: Serenoa repens extract for 8 weeks seems to improve prostatitis related pain. Further
randomized, placebo-controlled studies are needed to substantiate safer conclusions.

KEY WORDS: Chronic prostatitis, Phytotherapeutics; Quinolones; Pain; Serenoa repens.

Submitted 6 June 2013; Accepted 20 June 2013 No conflict of interest declared

Summary

as well as erectile and sexual dysfunction. Similar symp-
toms are also encountered in benign prostatic hypertro-
phy and are attributed to both obstruction and second-
ary inflammation. The effectiveness of phytotherapeutic
agents used for symptoms related to benign prostatic
hypertrophy justifies their use in the treatment of chron-
ic prostatitis (6). The best known phytotherapeutic is
Serenoa repens, a constituent of the acid-loving plant saw
palmetto. It contains fatty acids, phytosterols and vita-
mins. Its mechanism of action has not been fully eluci-
dated, however is attributed to hormonally and non-hor-
monally mediated anti-inflammatory activity (6). 
The former is related to the inhibition of conversion of
testosterone to the more potent antiandrogen dihy-
drotestosterone at the level of androgen receptors. This
results in a reduction of the hormonal response of
macrophages and leukocytes and the inhibition of their
migration to the site of inflammation. As a consequence

DOI: 10.4081/aiua.2013.4.190

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 190



191Archivio Italiano di Urologia e Andrologia 2013; 85, 4

Serenoa repens extract additionally to quinolones in the treatment of chronic bacterial prostatitis

there is a reduction in the release of myeloperoxidase
which causes destruction of the inflamed tissue and of
platelet-derived growth factor and growth factor-beta
which induce inflammation. Existing evidence regarding
Serenoa repens’ antiandrogenical antiproliferative and/or
antiapoptotic action through inhibition of 5-alpha reduc-
tase is probably conflicting (7, 8). There is experimental
proof of inhibition of signaling of growth factors such as
IGF-1 (Insulin-like Growth Factor) as well as cytokines such
as MCP-1/CCL2 (monocyte chemotactic protein-
1/chemokine CL2) a fact which interferes with inflamma-
tory activity in human prostate epithelial cells (9, 10). The
aim of the study is to assess the effectiveness of phy-
totherapeutics in the management of these symptoms. 

MATERIALS AND METHODS
The study was designed as a prospective randomized
study and was conducted at “Tzaneio” General Hospital of
Piraeus. Patients enrolled in the study had symptoms and
signs of chronic prostatitis and visited the specialist clinic
between 1 May 2011 and 30 May 2012. Patients suffering
from neurological disorders, those with anatomic abnor-
malities of the urinary tract and immunosuppressed
patients were excluded from the study, as these are all
conditions which can affect the clinical manifestation of
the disease and could alter the outcome of the study.
Patients were randomized into two groups depending on
the date of attendance (odd/even day of the month).
Patients in the first group (Group A) received prulifloxacin
600 mg for 15 days and patients in the second group
(Group B) received prulifloxacin 600 mg for 15 days and
an extract of Serenoa repens for 8 weeks. Urine specimens
from all patients were collected before and after prostatic
massage and were cultured while, depending on the med-
ical history, urethral discharge or urethral swabs were also
sent to the laboratory for examination in a number of
patients. All patients filled in questionnaires relating to
chronic prostatitis (NHI-CPSI), urinary symptoms (IPSS)
and sexual function (IIEF-5). Initial evaluation (1st and 2nd
follow up visit) was performed 15 days after the comple-
tion of antimicrobial therapy and during the course of
treatment with Serenoa repens Microbial response was
assessed by urine culture before and after prostatic mas-
sage and the response to symptoms by questionnaires
NHI-CPSI, IPSS, IIEF-5 at 4 weeks from the beginning of
the study (1st follow up) and 8 weeks from the beginning
of the study (2nd follow up). The final outcome was
assessed 3-6 months later (3rd follow up visit). 

Microbiological assessment: The Stamey-Meares test was
deemed positive if: 1) bacteria were cultured in the pro-
static secretion (EPS) and the VB3 urine specimens (or
PPM) and were not cultured in the VB1 and VB2 (or PM)
specimens, 2) bacterial colony count in the VB3 specimen
was 10 times that in the VB1 and VB2 specimens, 3)
leukocyte numbers in the EPS and VB3 were 10 times
those in the VB1 and VB2. No lower cut-off value for the
number of colonies was set. Cultures for gonococcus,
mycoplasma and ureaplasma and the semi-quantitative
assessment were performed using bioMerieux reagents.
Chlamydia trachomatis was detected using direct immu -
nofluorescence (Kallestad anti-membrane lipopoly -
saccharide monoclonal antibodies). Urine specimens were
centrifuged and cultured in blood and MacConkey agar
for aerobic and anaerobic Gram-positive and negative bac-
teria (bioMerieux culture media). All processing and final
assessment of samples in this study were performed by the
same specialist microbiologist to whom the medical histo-
ry of the patients was not disclosed. 

Questionnaires: The chronic prostatitis NHI-CPSI ques-
tionnaire includes 9 questions in 3 sections (character-site
of pain, urinary symptoms, effect on quality of life). The
resultant sum ranges from 0 to 43 (character-site of pain:
0-21, urinary symptoms: 0-10 and quality of life: 0-12).
The greater the resulting sum the greater the disturbance.
However, questions with the highest scores affect the final
result as they contribute more to the total sum of the NIH-
CPSI. The IPSS questionnaire includes 8 questions in 8
fields (incomplete bladder voiding, frequency, intermit-
tency, urgency, poor urine flow, dribbling, nocturia and
effect on quality of life) each question scoring 0-5 points.
Results from the first 7 questions are used to assess urina-
tion. A final score of less than 7 indicates mild distur-
bance, a score of 8-19 indicates moderate disturbance and
a score of 20-35 severe disturbance. 
Finally, the IIEF-5 questionnaire includes 5 questions
each scoring 0-5 points. A sum score of 1-7 points sug-
gests serious erectile dysfunction, a score of 8-11 moder-
ate dysfunction, a score of 12-16 suggests moderate to
mild dysfunction, a score of 17-21 indicates mild erectile
dysfunction, whereas a score of 22-25 does not indicate
erectile dysfunction. 

Statistical analysis: Analysis was performed using the
SPSS 12 program and Fisher’s exact test of significance
was used. The accepted statistical significance cut-off
value was 0.05 (P value < 0.05).

Differences between study groups N Mean p value
Group 2 Group 1 Group 2 Group 1

Age (years) 28 28 41,9643 45,5714 ,223
Prostatitis related history 28 28 ,4643 ,5714 ,415
Baseline NIH-CPSI score 28 28 26,96 26,64 ,843
Baseline IPSS score 27 28 10,6296 14,70 ,140
Baseline IIEF score 28 28 20,57 19,4643 ,172

Table 1.

Difference between groups 1 and 2 with regard to age, prostatitis related history and baseline questionnaire scores.

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 191



Archivio Italiano di Urologia e Andrologia 2013; 85, 4

K. Stamatiou, N. Pierris

192

Age Main symptom Microorganism
28 haemospermia, suprapubic pain Chlamydia Trachomatis
53 dysuria, raised PSA E. Coli
42 perineal pain Proteus
52 suprapubic, perineal pain, LUTS E. Coli
36 scrotal pain CoNS
47 penile pain E. Coli
52 suprapubic, scrotal pain E. Coli
48 perineal pain Proteus, CoNS
51 suprapubic, perineal pain, dysuria Gonococcus
50 irritative LUTS Chlamydia
49 febrile prostatitis, epididymitis Proteus
39 perineal, testicular pain 4 types of Gram + cocci
41 scrotal, penile pain E. Coli
44 perineal pain E. Coli
56 penile pain, erectile dysfunction E. Coli
56 dysuria, irritative symptoms of urination 3 types of  Gram + cocci
35 perineal pain, raised PSA CoNS
52 perineal pain, irritative LUTS E. Coli
45 perineal pain, malaise E. Coli
36 perineal, testicular pain E. Coli
44 perineal pain E. Coli
58 perineal, testicular pain CoNS
56 LUTS, haemospermia, suprapubic pain E. Coli, Proteus
43 testicular pain CoNS
37 scrotal, perineal pain, LUTS Proteus
44 perineal, penile pain E. Coli
44 suprapubic, scrotal pain Klebsiella, Staphylococcus
38 perineal pain, erectile dysfunction E. Coli

Table 2.

Age, main symptoms and pathogens 
of patients of Group 1 

(Prulifloxacin) at baseline.

RESULTS
In 16 of the 72 patients initially
included in the study no pathogen
was cultured and these patients
were excluded from the study. The
remaining 56 patients were equally
assigned to the first group and the
second group. 
The average age in the first group
was 45.5 years and in the second
group was 41.9 years. No statistical-
ly significant difference was noted
between groups 1 and 2 with regard
to mean age (Table 1) and prior his-
tory of prostatitis (Table 1) upon
introduction into the study. 
The primary symptom for patients
in both groups was pain, while uri-
nary disturbances as a primary
symptom were reported by 7
patients in group A and 6 in group
B and erectile dysfunction as a pri-
mary symptom was reported by 2
patients in Group A and 2 patients
in Group B (Tables 2, 3). 
Assessment of the questionnaires
revealed moderate to severe urinary
symptoms (obstructive or irritative)
in more than 50% of patients in
both groups (17 patients in the 1st
group and 14 in the 2nd group) and
erectile or sexual dysfunction in
less than 30% of patients in both
groups (9 patients in the 1st group
and 7 patients in the 2nd group).
No significant difference was noted
between groups 1 and 2 with
regard to individual questionnaire
fields upon introduction into the
study (Table 1).

1st follow up visit: At the first fol-
low-up 16/28 patients in the first
group reported persistence of symp-
toms compared to 10/28 patients in
the second group. Four patients in
group 1 and 3 patients in group 2

Age Main symptom Microorganism
27 haemospermia, suprapubic pain 3 types of gram + cocci
62 LUTS, perineal pain, raised PSA CoNS
34 penile, scrotal pain Mycoplasma
58 scrotal pain E. Coli
45 perineal, scrotal pain Mycoplasma
35 suprapubic, perineal pain, dysuria Unknown
47 febrile prostatitis E. Coli
32 febrile prostatitis Proteus
28 febrile prostatitis Enterococcus
34 perineal pain E. Coli
25 perineal pain, irritative LUTS E. Coli
47 penile pain, erectile dysfunction Enterococcus
32 scrotal pain Streptococcus mitis oralis
61 perineal pain CoNS
25 irritative LUTS Enterococcus
52 dysuria, irritative symptoms of urination E. Coli, CoNS
49 suprapubic, perineal pain E. Coli
38 haemospermia E. Coli
48 testicular pain CoNS, Staphylococcus aureus
31 perineal pain E. Coli
21 scrotal, testicular pain Enterococcus
27 penile, scrotal pain E. Coli
56 suprapubic pain Proteus
65 perineal pain, LUTS CoNS, Enterococcus
37 suprapubic, perineal pain E. Coli
61 penile, suprapubic pain, E. Coli erectile dysfunction
64 haemospermia Enterococcus
34 febrile prostatitis E. Coli

Table 3.

Age, main symptoms and pathogens
of patients of Group 2 

(Prulifloxacin and Serenoa Repens) 
at baseline.

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 192



193Archivio Italiano di Urologia e Andrologia 2013; 85, 4

Serenoa repens extract additionally to quinolones in the treatment of chronic bacterial prostatitis

outcome (Table 7). In contrast, symptoms questionnaire
analysis revealed statistically significant differences
between the two groups with regard to symptoms regres-
sion (Table 7).

3rd follow up visit: At the third follow-up, 5/23 patients in
the first group (5 patients did not attend) reported per-
sistence of symptoms (3 of these patients were asympto-
matic at the 2nd follow-up) whereas only 1/22 patients in
the second group (6 patients did not attend) reported per-
sistence of symptoms. Only one patient from the 1st
group had a positive culture (Tables 4, 5). Comparison of
symptoms questionnaire results before and after treatment
analysis revealed statistically significant differences
between the two groups with regard to outcome while
comparison of culture results not (Table 8). 
Notably, in most cases the microorganism grown was
different to that of the initial culture. Comparison of the
IPSS and IIEF-5 questionnaire scores revealed statistical-
ly significant differences with regard to improvement of
urinary symptoms (p < 0.05) and no statistically signifi-
cant differences with regard to erectile and sexual dys-
function (p > 0.05). 

1st 2nd 3rd

1 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic bacterial eradication
2 symptomatic bacterial eradication asymptomatic bacterial eradication Symptomatic bacterial eradication
3 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic bacterial eradication
4 symptomatic bacterial eradication symptomatic bacterial eradication asymptomatic bacterial eradication
5 asymptomatic bacterial eradication asymptomatic bacterial eradication did not attend
6 symptomatic bacterial eradication asymptomatic bacterial eradication Symptomatic morganella
7 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic bacterial eradication
8 symptomatic Proteus asymptomatic bacterial eradication asymptomatic bacterial eradication
9 symptomatic bacterial eradication asymptomatic bacterial eradication symptomatic bacterial eradication
10 symptomatic CoNS symptomatic bacterial eradication symptomatic bacterial eradication
11 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
12 symptomatic bacterial eradication symptomatic bacterial eradication asymptomatic  bacterial eradication
13 asymptomatic bacterial eradication asymptomatic bacterial eradication did not attend
14 symptomatic Proteus symptomatic Enterococcus asymptomatic bacterial eradication
15 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
16 symptomatic bacterial eradication symptomatic bacterial eradication symptomatic bacterial eradication
17 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
18 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
19 asymptomatic bacterial eradication did not attend did not attend
20 symptomatic bacterial eradication symptomatic bacterial eradication asymptomatic  bacterial eradication
21 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
22 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
23 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
24 asymptomatic bacterial eradication asymptomatic bacterial eradication did not attend
25 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication
26 asymptomatic bacterial eradication symptomatic bacterial eradication asymptomatic  bacterial eradication
27 symptomatic Chlamydia asymptomatic bacterial eradication asymptomatic bacterial eradication 
28 asymptomatic bacterial eradication did not attend did not attend

Table 4.

Outcome at follow-up in group 1.

had positive cultures. Bacterial eradication was achieved
in 24 patients in group 1 and 25 patients in the second
group (Tables 4, 5). 
Comparison of culture results before and after treatment
as well as symptoms questionnaire analysis revealed not
statistically significant differences between the two groups
with regard to outcome (Table 6). 
In contrast, symptoms questionnaire analysis revealed sta-
tistically significant differences between the two groups
with regard to symptoms regression (Table 6).

2nd follow up visit: At the second follow-up 7/26 patients
in the first group and 1/25 in the second group (5 patients
did not attend) reported persistence of symptoms. Of
note, two of these patients (one in each group) reported
recurrence of the symptoms despite being asymptomatic
at the first follow-up. Since, only one patient from each
group had a positive culture, bacterial eradication was
achieved in 25/26 patients of the first group and 24/25
patients of the second group (Tables 4, 5). Comparison of
culture results before and after treatment as well as symp-
toms questionnaire analysis revealed not statistically sig-
nificant differences between the two groups with regard to

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 193



Archivio Italiano di Urologia e Andrologia 2013; 85, 4

K. Stamatiou, N. Pierris

194

1st 2nd 3rd

1 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic bacterial eradication 
2 asymptomatic bacterial eradication asymptomatic bacterial eradication did not attend 
3 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
4 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
5 asymptomatic bacterial eradication asymptomatic  bacterial eradication symptomatic bacterial eradication 
6 symptomatic Proteus asymptomatic bacterial eradication asymptomatic  bacterial eradication 
7 asymptomatic CoNS asymptomatic CoNS asymptomatic  bacterial eradication 
8 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
9 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
10 asymptomatic bacterial eradication did not attend asymptomatic  bacterial eradication 
11 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
12 asymptomatic bacterial eradication asymptomatic bacterial eradication did not attend 
13 symptomatic Enterococcus symptomatic bacterial eradication asymptomatic  bacterial eradication 
14 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
15 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
16 asymptomatic bacterial eradication did not attend did not attend 
17 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
18 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
19 asymptomatic bacterial eradication symptomatic bacterial eradication asymptomatic  bacterial eradication 
20 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
21 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
22 symptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
23 symptomatic bacterial eradication asymptomatic bacterial eradication did not attend 
24 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
25 asymptomatic bacterial eradication asymptomatic bacterial eradication asymptomatic  bacterial eradication 
26 asymptomatic bacterial eradication did not attend asymptomatic  bacterial eradication 
27 symptomatic bacterial eradication asymptomatic bacterial eradication did not attend 
28 symptomatic bacterial eradication asymptomatic bacterial eradication did not attend 

Table 5.

Outcome at follow-up in group 2.

N Mean p value
Group 2 Group 1 Group 2 Group 1

Differences in symptom regression between group 1 and 2 28 28 ,64 ,46 ,022
Differences in bacterial eradication between group 1 and 2 28 28 ,1429 ,1071 ,326

Table 6.

Statistical evaluation of outcomes at 1st follow up.

Ranks N p value
Differences in symptom regression between group 1 and 2 Negative Ranks 5(a) ,025

Positive Ranks 0(b)
Ties 20(c)
Total 25

Differences in bacterial eradication between group 1 and 2 Negative Ranks 0(a) ,317
Positive Ranks 1(b)
Ties 24(c)
Total 25

Table 7.

Statistical evaluation of outcomes at 2nd follow up.

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 194



195Archivio Italiano di Urologia e Andrologia 2013; 85, 4

Serenoa repens extract additionally to quinolones in the treatment of chronic bacterial prostatitis

Ranks N p value
Differences in symptom regression between group 1 and 2 Negative Ranks 4(a) ,046

Positive Ranks 0(b)
Ties 18(c)
Total 22

Differences in bacterial eradication between group 1 and 2 Negative Ranks 1(a) ,317
Positive Ranks 0(b)
Ties 21(c)
Total 22

Table 8.
Statistical evaluation of outcomes at 3rd follow up.

DISCUSSION
The most widely known phytotherapeutic is saw pal-
metto. Its fruit are rich in fatty acids and phytosterols
and its extract known as Serenoa repens is prescribed in
many countries (mainly in Europe) under different
brand names (Permixin, Prostamol uno, Permixon etc). It
has been the object of intense research into the treatment
of symptoms of benign hypertrophy and (lately) of infec-
tions of the urinary tract, having been used as a sole
agent, in combination with or in comparison to other
phytotherapeutics, combined with antibiotics, with
alpha-blockers, anti-inflammatory agents and 5-alpha
reductase inhibitors. Results are conflicting given that in
these studies the outcomes measured as well as the
materials and methods used differ. On the other hand,
conditions such as chronic bacterial and chronic non-
bacterial prostatitis and prostatic hypertrophy overlap,
many of the symptoms are common, while conditions
and diseases of organs other than the prostate can con-
tribute towards the presentation or deterioration of these
symptoms. 
A prospective multi-centre double-blind randomized trial
by Debruyne et al. compared tamsulosin (0.4 mg/24 h) to
Permixon (320 mg/24 h) in a substantial number of
patients (542) suffering from symptomatic prostatic
hypertrophy (IPSS ! 10). After 12 months of follow-up
no differences in IPSS were noted (average reduction of
4.4 in each group, with a respective improvement in both
irritative and obstructive symptoms) and the improve-
ment in Qmax (1.8 ml/s Permixon vs. 1.9 ml/s tamsulosin)
and PSA fluctuations were similar in both groups. By
contrast, a small reduction in prostate size was noted in
the Permixon group. Both treatments were well tolerated
(11). A multicenter trial by the Italian Society of
Oncological Urology studied the effectiveness of Serenoa
repens in patients with chronic non-bacterial prostatitis
comparing it to a combination of Serenoa repens and
alpha-blocker. After a 6 month follow-up, similar
changes in the uroflowmetry parameters of both groups
were found and no changes were noted in the IIEF-5 sex-
ual function questionnaire (a fact which may be related to
both the lack of antiandrogen activity as well as reduced
effectiveness in erectile dysfunction). A notable improve-
ment in findings relating to inflammation was reported
(on digital rectal examination, ultrasound and prostate
biopsy) (12). Aliaev et al. retrospectively studied the effec-
tiveness of Prostamol uno (320 mg/24 h) as complemen-

tary treatment in the prevention of relapses of chronic
bacterial prostatitis. After 5 years the improvement in
both subjective (IPSS) and objective (reduction in per-
centage of relapse and progression, improvement in sex-
ual function) measures of the study was greater with the
addition of Prostamol uno to the standard therapy con-
sisting of anti-inflammatory and antimicrobial agents
(13). Similar results are reported by Reissigl et al. with
Permixin used for chronic pelvic pain syndrome, while
the safety profile noted was equivalent to studies men-
tioned above (14).
In addition to the findings of the above mentioned stud-
ies, we demonstrated the early onset of the effect of
Serenoa repens on symptoms regression as well as the
maintenance of this effect during the study period. Of
note, Barry et al. researched any potential clinical benefit
in increasing the dose administered to patients with
lower urinary tract symptoms. According to their results
a gradual increase in the dose administered (3 times the
standard dose in 16 months) does not reduce urinary
symptoms more than placebo. Interestingly, no negative
effects were observed which could distinctly be attributed
to Serenoa repens (15).
On the other hand, Kaplan et al. in a prospective study
comparing the extract of saw palmetto against finasteride
found no appreciable long term improvement (at 1 year
follow-up) in type III prostatitis symptoms (16), while
Pavone et al. noted a greater reduction in pain and irrita-
tive symptoms (albeit with no changes in flow rate and
prostate volume) using combinations of phytotherapeutic
agents (Serenoa repens, Urtica dioica and Pinus pinaster)
(17). Based on the above we expect the effectiveness of
Serenoa repens in an array of symptoms related to prosta-
titis to depend on the type of prostatitis, the presence of
prostatic hypertrophy, any preexisting obstruction, co-
administered treatments and the duration of treatment.
This hypothesis explains the differences between the pres-
ent study and what has been discussed above. However,
the small number of patients included in the above men-
tioned studies as well as differences in methodology and
outcomes render the drawing of conclusions problematic. 

CONCLUSIONS
Serenoa repens extract is effective in the treatment of pain
symptoms in chronic bacterial prostatitis. An adminis-

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 195



Archivio Italiano di Urologia e Andrologia 2013; 85, 4

K. Stamatiou, N. Pierris

196

activated protein kinase/c-Jun N-terminal kinase phosphorylation in
human prostate epithelial cells. Endocrinology 2004; 145:3205-3214

10. Latil A, Libon C, Templier M, et al. Hexanic lipidosterolic
extract of Serenoa repens inhibits the expression of two key inflam-
matory mediators, MCP-1/CCL2 and VCAM-1, in vitro. BJU Int.
2012; 110:E301-7.

11. Debruyne F, Koch G, Boyle P, et al. (Groupe d'étude PERMAL).
Comparison of a phytotherapeutic agent (Permixon) with an alpha-
blocker (Tamsulosin) in the treatment of benign prostatic hyperplasia:
a 1-year randomized international study. Prog Urol. 2002; 12:384-92.

12. Bertaccini A, Giampaoli M, Cividini R, et al. Observational
database serenoa repens (DOSSER): overview, analysis and results.
A multicentric SIUrO (Italian Society of Oncological Urology) proj-
ect. Arch Ital Urol Androl. 2012; 84:117-22.

13. Aliaev IuG, Vinarov AZ, et al. Treatment of chronic prostatitis
in prophylaxis of prostatic adenoma. Urologiia. 2012; 39-40, 42-3.

14. Reissigl A, Djavan B, Pointner J. Prospective placebo-controlled
multicenter trial on safety and efficacy of phytotherapy in the treat-
ment of chronic prostatitis/chronic pelvic pain syndrome. Program
and abstracts of the American Urological Association 2004 Annual
Meeting; May 8-13, 2004; San Francisco, CA. Abstract 233. 

15. Barry MJ, Meleth S, Lee JY, et al. (Complementary and
Alternative Medicine for Urological Symptoms Study Group). Effect
of increasing doses of saw palmetto extract on lower urinary tract
symptoms: a randomized trial. JAMA. 2011; 306:1344-51.

16. Kaplan SA, Volpe MA, Te AE. A prospective, 1-year trial using
saw palmetto versus finasteride in the treatment of category III pro-
statitis/chronic pelvic pain syndrome. J Urol. 2004; 171:284-8.

17. Pavone C, Abbadessa D, Tarantino ML, et al. Associating
Serenoa repens, Urtica dioica and Pinus pinaster. Safety and effica-
cy in the treatment of lower urinary tract symptoms. Prospective
study on 320 patients. Urologia. 2010; 77:43-51.

tration period of 8 weeks appears to improve the effect
of antibacterial therapy on pain while a longer duration
of administration possibly alleviates the remaining
symptoms. More randomized placebo-controlled studies
are required to substantiate safer conclusions. 

REFERENCES
1. Cheah PY, Liong ML, Yuen KH, et al. Chronic prostatitis: symptom
survey with follow-up clinical evaluation. Urology. 2003; 61:60-64.

2. Nickel JC, Elhilali M, Vallancien G. ALF-ONE Study Group. Benign
prostatic hyperplasia (BPH) and prostatitis: prevalence of painful ejac-
ulation in men with clinical BPH. BJU Int. 2005; 95:571-574.

3. de la Rosette JJ, Hubregtse MR, Karthaus HF, Debruyne FM.
Results of a questionnaire among Dutch urologists and general prac-
titioners concerning diagnostics and treatment of patients with pro-
statitis syndromes. Eur Urol. 1992; 22:14-19.

4. Collins MM, Stafford RS, O'Leary MP, Barry MJ. How common
is prostatitis? A national survey of physician visits. J Urol. 1998;
159:1224-1228.

5. Nickel JC, Moon T. Chronic bacterial prostatitis: an evolving clin-
ical enigma. Urology. 2005; 66:2-8.

6. Levin RM, Das AK. A scientific basis for the therapeutic effects of
Pygeum africanum and Serenoa repens. Urol Res. 2000; 28:201-9.

7. Hill B, Kyprianou N. Effect of Permixon on human prostate cell
growth: lack of apoptotic action. Prostate. 2004; 61:73-80.

8. Marks LS, Hess DL, Dorey FJ, et al. Tissue effects of saw palmetto
and finasteride: use of biopsy cores for in situ quantification of pro-
static androgens. Urology. 2001; 57:999-1005.

9. Wadsworth T, Carroll J, Mallinson R, et al. Saw Palmetto extract
suppresses Insulin-Like Growth Factor-I signaling and induces stress-

Correspondence
Konstantinos Stamatiou, MD (Corresponding Author)
Urology Department, Tzaneio Hospital, Pireas, Greece 
stamatiouk@gmail.com

Nikolaos Pierris, MD
Urology Department, Tzaneio Hospital, Pireas, Greece

Stamatiou_Stesura Seveso  20/12/13  11:04  Pagina 196