1289Vol. 11    |    No. 01    |    Jan-Feb 2014    |U R O LO G Y   J O U R N A L

Success Rate and Patients' Satisfaction 
Following Intradetrusor Dysport Injec-
tion in Patients with Detrusor Overac-
tivity: A Comparative Study of Idiopath-
ic and Neurogenic Types of Detrusor 
Overactivity
Saeed Shakeri,1 Reza Mohammadian,1 Alireza Aminsharifi,1 Ali Ariafar,1 Jalal Vaghedashti,1 Maryam Yazdani,2 
Mahnza Yadollahi,3 Vahid Emadmarvasti,1 Amir Baharikhoob1

Purpose: To evaluate the efficacy of intradetrusor Dysport (a type of botulinum toxin type A) 
injection in patients with idiopathic or neurogenic detrusor overactivity, who were refractory to 
antimuscarinic drugs, and to compare the efficacy of Dysport injection in both groups.

Materials and Methods: Twelve patients with neurogenic detrusor overactivity (NDO) and 18 
patients with idiopathic detrusor overactivity (IDO) participated in this study. All the patients 
received intravesical injection of 500 units of Dysport. They were followed up for 3 months 
after injection with maximum cystometric capacity, maximum detrusor filling pressure, and 
number of catheterization or pad usage. 

Results: After 3 months, the mean maximum cystometric capacity increased from 109.36 ± 
24.11 mL to 266.81 ± 97.18 mL (P = .000) in the NDO group and from 192.24 ± 36.21 mL to 
272.61 ± 63.37 mL (P = .000) in the IDO group. The mean maximum detrusor filling pressure 
decreased from 48.14 ± 26.51 cmH2O to 28.91 ± 9.01 cmH2O (P = .005) in the NDO group and 
from 39.22 ± 9.92 cmH2O to 29.64 ± 10.14 cmH2O (P = .003) in the IDO group. 

Conclusion: Intradetrusor Dysport injection improved urodynamic parameters and quality of 
life (QoL) in both groups significantly. We did not find significant difference in QoL or urody-
namic parameters between both groups.

Keywords: botulinum toxins, type A; administratin and dosage; urinary bladder, overactive; 
drug therapy; adverse effects.

Corresponding Author:

Reza Mohammadian, MD
Department of Urology, Faghi-
hi Hospital, Shiraz University of 
Medical Sciences, Shiraz, Iran.

Tel: +98 917 713 7302
E-mail: reza_mohammadian@
yahoo.com

Received November 2012
Accepted June 2013

1 Urology and Nephrology 
Research Center, Shiraz Univer-
sity of Medical Sciences, Shiraz, 
Iran.
2 Department of Obstetrics 
and Gynecology, Shiraz 
University of Medical Sciences, 
Shiraz, Iran.
3 Trauma Research Center, 
Shiraz University of Medical 
Sciences, Shiraz, Iran.

MISCELLANEOUS



1290 |

INTRODUCTION

Overactive bladder (OAB) is a clinical syndrome characterized by urgency with or without urge in-continence, frequency, and nocturia(1) with a prev-
alence of 11.8% worldwide.(2) OAB has a significant effect 
on the quality of life in men and women suffering from this 
syndrome.(3-5) Detrusor overactivity (DO) is one of the main 
causes of OAB and is classified into idiopathic DO (IDO) and 
neurogenic DO (NDO) according to the International Conti-
nence Society classification.(6) Oral antimuscarinic agents are 
the first line treatment modality for patients with DO; how-
ever, its usage has been limited due to the adverse effects 
such as dry mouth or headache and their decreased efficacy 
in long term period as the result of up-regulation phenom-
enon.(7) More invasive procedures such as bladder augmenta-
tion and urinary diversion pose a significant risk of morbid-
ity and complications to the patient.(8) Botulinum toxin type 
A (BTX-A) which is produced by clostridium botulinum, a 
gram positive bacteria, inhibits the release of acetylcholine at 
the neuromuscular junction and subsequently paralyses the 
muscle. The effects of BTX-A on parasympathetic nervous 
system was first investigated in the 1920s by Dickson and 
colleagues.(9) Although several studies also revealed the ef-
ficacy of intradetrusor injection of BTX-A in the treatment 
of both types of DO which were intractable to antimuscarinic 
therapy,(10,11) the data comparing the efficacy of intradetrusor 
injection of BTX-A in patients suffering either IDO or NDO 
are lacking.(12,13) In this study, we evaluated the efficacy of 
intradetrusor injection of Dysport ((Reloxin/BoNT-A, Ipsen 
Biopharm Ltd., Wrexham, UK) in patients with IDO and 
NDO, and the resulting improvement in the quality of life 
(QoL) in both groups.

MATERIALS AND METHODS
Study Design
Our prospective cohort study was conducted from September 
2010 to December 2011. Patients with symptoms of OAB 
and urodynamically proven IDO or NDO who were refrac-
tory to oral antimuscarinic medication for at least 3 months 
or those who had discontinued medical therapy due to drug 
side effects participated in this experimental study. Being 
refractory to antimuscarinic treatment was defined as no ef-
fect of antimuscarinic drugs available in Iran, i.e. oxybutynin 

hydrochloride (Iran Darou Co., Tehran-Iran), and Detrusitol 
(Pharmacia & Upjohn SpA, Milan, Italy) during a trial for 
at least 3 months. Patients with history of previous bladder 
surgery or Botox injection, an active urinary tract infection, 
any anatomical anomaly of the urinary system, urinary stone 
or urinary tract tumors and any medical disorder such as 
diabetes mellitus or multiple sclerosis were excluded from 
the study. Besides, all female patients were examined by a 
gynecologist to rule out genital infection or pelvic organ pro-
lapse or relaxation which may induce voiding dysfunction.
Pretreatment Evaluations
All the patients gave their written informed consent and 
were divided into IDO and NDO groups. The patients were 
asked to chart a 3 days voiding diary mentioning the num-
ber of voids and episodes of urge incontinence per day. In 
patients with spinal cord injury and associated NDO, the 
numbers of urethral catheterization, and pad count per day 
were measured. Urodynamic study was performed in both 
groups according to International Continence Society’s rec-
ommendations,(14) measuring parameters such as Maximum 
Cystometric Capacity (MCC), Maximum Detrusor Pressure 
on filling cystometry (MDP), and Post Void Residual (PVR) 
urine  volume in the IDO group during urodynamic study 
or by bladder ultrasonography. QoL was assessed by the In-
continence Impact Questionnaire Short Form 7 (IIQ-7). Oral 
ciprofloxacin 500 mg (Razak Laboratories, Tehran, Iran) was 
administered twice daily one day before operation prophy-
lactically in adult patients and cefexime (Zakaria Pharm. Co., 
Tabriz- Iran) 8 mg/kg/day in children. Patients on antiplatelet 
drugs were asked to stop their medication 7 days before the 
operation.
Injection Technique
The procedure was performed in an outpatient manner un-
der general anesthesia in dorsal lithotomy position with some 
modifications in those patients with chronic spinal cord in-
jury and limitation of hip joint motion. After cleaning and 
draping, 20 mL lidocaine gel 2% (Sina Darou, Tehran-Iran) 
was applied intraurethrally. Dysport was administered with 
an 11.5 French (F) Wolf rigid pediatric nephroscope (Rich-
ard Wolf GmbH, Germany). For each adult patient, 1 vial 
of Dysport (500 units) was administered, and the dosage for 
children was 20 units/kg. Each vial was diluted with 20 mL 
of sterile normal saline solution before injection. The mini-

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1291Vol. 11    |    No. 01    |    Jan-Feb 2014    |U R O LO G Y   J O U R N A L

mally invasive technique involved 20 injections at 25 units/mL 
per injection site into the lateral and posterior walls of the 
bladder while sparing the trigonal area. Then, the bladder 
was drained from irrigation solution and checked for any 
bleeding site. All patients had an indwelling urethral catheter 
which was removed 24 hour after the operation. The patients 
were observed for 2 hours after recovery from general anes-
thesia and then discharged with a 5 day prescription of cipro-
floxacin 500 mg twice daily.
Followup
The patients were followed up 1 week after the injection to 
evaluate early post-operative complications or complaints. In 
the 12th week after operation, urodynamic study was per-
formed to measure MCC and MDP. PVR urine volume was 
measured during urodynamic study or by bladder ultrasonog-
raphy in IDO group. The participants of both groups were 
also asked to chart the 3 days voiding diary and QoL was 
reassessed by the IIQ-7.
Statistical Analysis
Descriptive data were evaluated by epidemiological param-
eters such as prevalence, mean, and standard deviation. Nor-
mality of quantitative variables (IIQ-7, clinical and urody-
namic parameters) was assessed using Kolmogorov-Smirnov 
test. To compare normal variables between (within) IDO and 
NDO groups paired t test and for non-normal Mann-Whitney 
U (Wilcoxon test) were used. To compare categorical vari-
ables (sex, effect of drugs and adverse reactions) between 
groups Chi-Square test was used. P < .05 values was consid-
ered as statistically significant.

RESULTS

Demographic Data 
Of the 38 initially recruited patients, 8 were excluded from 
the study considering the exclusion criteria mentioned in the 
study design. A total of 30 patients (15 males, 15 females) 
remained in the study who were divided into IDO (18 pa-
tients) and NDO (12 patients) groups. The mean age of the 
participants in the IDO and NDO groups were 58.03 ± 17.16 
years and 43.99 ± 15.21 years, respectively which were com-
parable. The age range of the patients was 18 to 74 years. 
In the IDO group, 14 patients (77.77%) were female, and 4 
(22.23%) were males. In the NDO group, 1 patient (8.33%) 
was female, and 11 (91.67%) were males. The mean duration 
of antimuscarinic consumption was 18.6 ± 14.5 months (4 
to 60 months). The drugs were not effective in 14 (77.77%) 
patients in the IDO group, and in 11 (91.66%) patients of 
the NDO group. Adverse reactions as the causes of medical 
treatment cessation were 27.77% (5 patients) and 16.66% (2 
patients) in the IDO and NDO groups, respectively.
Post-Operation Complications
In the IDO group, one (5.55%) case of urinary tract infection 
was detected who was treated with a course of oral antimi-
crobial agent according to the result of urine culture. Another 
patient (5.55%) developed pelvic pain one week after injec-
tion which resolved spontaneously in 3 days. In the NDO 
group, one patient (8.33%) developed a severe febrile urinary 
tract infection 3 days after injection that was successfully 
treated with intravenous antibiotics. None of the participants 
experienced acute urinary retention or significant PVR urine 
(in the IDO group who void themselves), generalized muscle 
weakness, or significant gross hematuria. 
Urodynamic Parameters 

Intradetrusor Dysport Injection in Detrusor Overactivity   |  Shakeri et al

Table 1. Comparison of clinical and urodynamic parameters before and after treatment in IDO patients.

Variables Before injection After injection P

Mean MCC, mL (n = 18) (n = 18) < .001

Mean Maximum Detrusor Pressure, cmH
2
O 192.24 ± 36.21 272.61 ± 63.37 .003

Mean Frequency 39.22 ± 9.92 29.64 ± 10.14 < .001

Mean FDV 18.13 ± 3.45 13.3 ± 3.74 < .001

Mean IIQ7 60.87 ± 16.71 101.33 ± 45.15 < .001

Key: IDO, idiopathic detrusor overactivity; MCC, Maximum Cystometric Capacity; FDV, Mean First Desire to Void; IIQ7, Incontinence Impact 
Questionnaire Short Form 7.



1292 |

The urodynamic parameters are shown in Tables 1 and 2. 
Twelve weeks after Dysport treatment, the urodynamic study 
revealed a significant decrease in the mean MDP and a sig-
nificant increase in MCC in both groups. Although the mean 
MCC was significantly different between the two groups be-
fore injection (P = .000), the changes in post-injection mean 
MCC did not differ significantly between the two groups (P = 
.700) (Figure 1). Although mean MDP before and after Dys-
port injection decreased significantly in each group, it did not 
differ significantly between the IDO and NDO groups (P = 
.200 and .800, respectively) (Figure 2). The mean PVR was 
significantly increased in IDO patients after Dysport injec-
tion from 31 mL to 82.2 mL (P = 0.021). Mean First Desire 
to Void (FDV) was significantly increased in IDO patients 
following the treatment from 60.87 ± 16.71 mL to 101.33 ± 
45.15 mL (P = .000)
3-Day Voiding Diary
The results were analyzed as a mean of 3 days before treat-
ment and 12 weeks after treatment. In the IDO group before 
the treatment, 6 patients (33.33%) complained of frequency 
and 13 of them (72.22%) complained of both frequency and 
urgency with urge incontinence. The mean frequency rate 
and mean pad count decreased significantly after treatment 
in the IDO and NDO patients, respectively (P < .001 and P = 
.001, respectively) (Tables 1 and 2).
Quality of Life
Quality of life, as assessed using the IIQ-7, improved in both 
groups at 12 weeks when comparing the mean IIQ-7 score 
after the treatment (16.22 ± 1.03) with the mean IIQ-7 score 
before treatment (21.64 ± 0.48), (P = .000). According to the 
IIQ-7, 10 patients (33.33%) did not respond to the treatment, 
and 20 (66.66%) patients responded to the treatment. Of the 

non-responders, 7 patients (48.88%) were in the IDO group 
and 3 patients (25%) were in the NDO group; however, the 
difference between 2 groups was not statistically significant 
(P = .400)
Satisfaction Rate
When all patients asked about their satisfaction following the 
treatments, 76.91% of NDO patients and 57.93% of IDO pa-
tients were satisfied with Dysport treatment. Satisfaction rate 
did not differ significantly between the two groups (P = .600).

DISCUSSION
OAB is a prevalent condition that affects millions of peo-
ple in the world.(15) OAB symptoms including frequency 
and urgency, with or without urge incontinence significantly 
worsen the patient’s QoL. Most patients and practitioners are 
seeking a therapeutic method which offers appropriate and 
durable treatment responses in addition to minimal adverse 
side effects. BTX relaxes the detrusor muscle by inhibiting 
the release of acetylcholine at the neuromuscular junction. 
There are seven distinct serotypes of BTX (A, B, C, D, E, 
F, G) but only two of them, BTX-A and B, are available for 
clinical use. Several studies have shown the highly beneficial 
effect of intradetrusor injection of BTX-A in the treatment 
of DO.(10,11,16,17) BTX-B has more side effects and a shorter 
duration of action compared with BTX-A; however, the data 
on BTX-B for the treatment of DO and incontinence are lim-
ited(18) and it is too early to determine whether it will have 
similar results to those with BTX-A. It has been proposed 
that BTX-A reduces the level of the nerve growth factor in 
the suburothelium and urine; a factor which can be responsi-
ble for induction of inflammatory processes or bladder over-
activity.(19) Botox and Dysport are the available products of 

Table 2. Comparison of clinical and urodynamic parameters before and after treatment in NDO patients.

Before injection After injection P

Mean MCC (n = 12) (n = 12) < .001

Mean Maximum Detrusor pressure, cmH
2
O 109.36 ± 24.11 266.81 ± 97.18 .005

Mean Pad usage 48.14 ± 26.51 28.91 ± 9.01 .001

Mean IIQ7 6.16 ± 0.86 4.75 ± 1.11 < .001

Key: NDO, neurogenic detrusor overactivity; MCC, Maximum Cystometric Capacity; IIQ7, Incontinence Impact Questionnaire Short Form 7.

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1293Vol. 11    |    No. 01    |    Jan-Feb 2014    |U R O LO G Y   J O U R N A L

BTX-A which are now being used and it is suggested that 
each unit of Botox is equivalent to 3.5 to 5 units of Dysport.
(20) To date according to published studies 100 to 400 units 
of Botox and 500 to 1000 units of Dysport have been used; 
comparison of the results of these studies shows relatively 
similar subjective and objective outcomes.(21) In our study, 
intradetrusor injection of 500 units of Dysport had a signifi-
cant therapeutic effect on both IDO and NDO patients who 
were refractory to oral antimuscarinic medications. In each 
group, a significant increase in MCC and a significant de-
crease in MDP were observed following treatment with Dys-
port. Comparing the urinary frequency rate before and after 
the treatment in IDO patients revealed a significant decrease 
after the treatment. The mean pad count in NDO patients who 
used pads within the intervals of urethral catheterizations was 
significantly decreased after Dysport injection. In IDO pa-
tients FDV was significantly increased following the treat-
ment which is probably due to both increase in cystometric 
capacity and decrease in urgency. According to the IIQ-7, the 
patients’ QoLs were significantly improved in both groups 
following the treatment and in almost all patients; changes 
in the urodynamic parameters were concomitant with the im-
provement in patients’ QoLs and symptoms. Considering the 
mentioned results, our study confirmed the results of previ-
ous studies regarding the beneficial effects of intradetrusor 
injection of Dysport in patients with DO. A systematic re-

view of the role of Botox and Dysport in the management of 
lower urinary tract disease was conducted by Mangera and 
colleagues.(22) They found a high level of evidence for the 
use of Botox in children and adults with NDO or IDO, but 
only level 1 evidence for Dysport in adults with NDO. They 
also concluded that the effective dose of Botox or Dysport 
was different when managing IDO or NDO patients. Simi-
lar results were found in another systematic review done by 
Chancellor and colleagues.(23) However we used Dysport in 
both IDO and NDO adult patients with the same dosage and 
found significant improvements in urodynamic parameters, 
lower urinary tract symptoms and QoL in both groups. Our 
results regarding the effectiveness of Dysport in treating both 
NDO and IDO patients were similar to the Chancellor and 
colleagues review.(23) While most of the surveys recommend 
about two fold dose of Dysport to treat patients with NDO 
than IDO, we managed both groups with the same dose. We 
should keep in mind that we used 500 units of Dysport for 
both groups which might be more than what is necessary for 
treating IDO patients. Although the efficacy of BTX-A injec-
tion in the treatment of DO has been proved in different stud-
ies, the number of studies comparing the effects of BTX-A 
injection in the two subdivisions of DO, i.e. NDO and IDO, 
are lacking. Popat and colleagues followed 24 patients with 
NDO and 31 patients with IDO 4 weeks and 16 weeks after 
Botox injection and found no significant differences regard-
ing improvement in clinical and urodynamical parameters 

Figure 1. Comparison of mean maximum cystometric capacity 
before and after treatment in each group.
Key: NDO, neurogenic detrusor overactivity; IDO, idiopathic 
detrusor overactivity.

Figure 2. Comparison of mean maximum detrusor pressure 
before and after treatment in each group.    
Key: NDO, neurogenic detrusor overactivity; IDO, idiopathic 
detrusor overactivity.

Intradetrusor Dysport Injection in Detrusor Overactivity   |  Shakeri et al



1294 |

between the mentioned groups.(12) Kalsi and colleagues 
compared the QoL following intradetrusor Botox injections 
in IDO and NDO patients and found a similar percent im-
provement in QoL score for both NDO and IDO groups at 4 
and 16 weeks.(13) Evaluating the patients’ satisfaction rates 
following the treatment in our study revealed that the patients 
with NDO were more satisfied with their treatment than 
those with IDO (76.91% vs. 57.93%). Although this finding 
was not statistically significant (P = .600). There are several 
factors which could be explain the achievement of such re-
sults. First, the mean age of the patients with NDO was less 
than that of IDO patients (43.99 years vs. 58.03 years) which 
might be an explanation for a better satisfaction rate. Like-
wise, in a study held by Brian and colleagues evaluating the 
predictors of response to intradetrusor BTX-A injection in 
patients with IDO, it was found that younger patients with in-
continence were more likely to respond.(24) The second point 
that should be taken into account is that the patients with 
NDO in our study had a higher mean MDP and a lesser mean 
MCC before treatment as compared to the patients with IDO 
(39.1 cmH2O vs. 47.4 cmH2O) and (101.3 mL vs. 197.4 mL). 
It seems that these more abnormal urodynamic parameters in 
NDO groups responded better to Dysport injection, causing 
more satisfactory results. Similarly, Sahai and colleagues in 
their survey found that poor responders to BTX-A injection 
had significantly higher MDP during DO;(25) however, a con-
founding factor in their study was that patients participating 
in that study continued antimuscarinic consumption even af-
ter BTX-A injection. With respect to the urodynamic param-
eters in our study, although the improvements in mean MDP 
and mean MCC in each group were statistically significant, 
comparing both groups changes did not differ significantly. 
Voiding dysfunction and especially urinary retention can be 
one of the complications after BTX-A injection which is due 
to the muscle paralysis caused by this substance. In a study 
by Stephen Jeffery and colleagues a high incidence of void-
ing dysfunction was reported following injection of 500 units 
of Dysport in IDO patients which 36% of them required cath-
eterization in 6 weeks and 36 months after injection.(26) The 
incidence of retention following Dysport injection was 19% 
in the study held by Popat and colleagues.(12) In our study, the 
mean PVR urine was significantly increased in IDO patients 
after Dysport injection from 31 mL to 82.2 mL; however, 

we did not notice any episodes of urinary retention in our 
IDO group following the treatment and all the IDO patients 
voided successfully. Transient muscle weakness is another 
complication after Dysport injection mentioned in some 
studies,(26,27,28) but this complication also was not detected in 
our patients. According to these results, although intradetru-
sor injection of Dysport was an effective treatment modality 
for both groups, we did not find any priority for Dysport in-
jection between NDO and IDO patients. 
Our study is not without limitations. Although neurogenic 
and idiopathic detrusor overactivity can cause the same clini-
cal symptoms, their pathophysiology and severity of symp-
toms are different which make the comparison of both groups 
difficult. In our study the gender and severity of symptoms 
in both groups were not statistically comparable which can 
cause a selection bias while comparing both groups. We are 
also aware that some insignificant findings in our results can 
be due to small sample which resulted in low study power.

CONCLUSION 
Considering our results and also previous studies, there is no 
doubt about the valuable effects of BTX-A and especially 
Dysport in our study in alleviating the signs and symptoms of 
patients suffering from DO by improving their urodynamic 
parameters; however, more studies are needed to compare 
the effects of BTX-A in NDO and IDO patients.

ACKNOWLEDGEMENT
The authors would like to thank Dr. Abdolreza Haghpanah, 
for his support, time and consideration.

CONFLICT OF INTEREST
None declared.

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