Emergency. 2017; 5 (1): e54
O RIGINAL R ESEARCH
Nerve Stimulator versus Ultrasound-Guided Femoral
Nerve Block; a Randomized Clinical Trial
Arash Forouzan1 , Kambiz Masoumi1∗ , Hassan Motamed1 , Seyed Mohammad Reza Gousheh2 , Akram Rohani1
1. Department of Emergency Medicine, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran.
2. Department of Anesthesiology, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran.
Received: December 2016; Accepted: January 2017; Published online: 18 January 2017
Abstract:
Introduction: Pain control is the most important issue in emergency department management of patients with
femoral bone fractures. The present study aimed to compare the procedural features of ultrasonography and
nerve stimulator guided femoral nerve block in this regard. Methods: In this randomized clinical trial, patients
with proximal femoral fractures presenting to emergency department were randomly divided into two groups
of ultrasonography or nerve stimulator guided femoral block and compared regarding success rate, procedural
time, block time, and need for rescue doses of morphine sulfate, using SPSS 20. Results: 50 patients were randomly divided into two groups of 25 (60% male). The mean age of studied patients was 35.14 ± 12.95 years (19 –
69). The two groups were similar regarding age (p= 0.788), sex (p = 0.564), and initial pain severity (p = 0.513). In
2 cases of nerve stimulator guided block, loss of pinprick sensation did not happen within 30 minutes of injection (success rate: 92%; p = 0.490). Ultrasonography guided nerve block cases had significantly lower procedural
time (8.06 ± 1.92 vs 13.60 ± 4.56 minutes; p < 0.001) and lower need for rescue doses of opioid (2.68 ± 0.74 vs
5.28 ± 1.88 minutes; p < 0.001). Conclusion: Ultrasonography and nerve stimulator guided femoral block had
the same success rate and block duration. However, the ultrasonography guided group had lower procedure
time and lower need for rescue doses of morphine sulfate. Therefore, ultrasonography guided femoral block
could be considered as an available, safe, rapid, and efficient method for pain management of femoral fracture
in emergency department.
Keywords: Femoral fractures; ultrasonography, interventional; transcutaneous electric nerve stimulation; pain management; emergency service, hospital
© Copyright (2017) Shahid Beheshti University of Medical Sciences
Cite this article as: Forouzan A, Masoumi K, Motamed H, Gousheh SM, Rohani A. Nerve Stimulator versus Ultrasound-Guided Femoral Nerve
Block; a Randomized Clinical Trial. Emergency. 2017; 5(1): e54.
1. Introduction
F
emoral bone fractures are not infrequent and are usually associated with severe pain (1, 2). Pain control
is the most important issue in emergency department
management of these patients. Different methods of pain
management such as administration of intravenous opioids,
tranquilizers and muscle relaxants, and even inhaled drugs
are introduced for this propose (3, 4). However, allergic reactions, airway compromise, respiratory depression, and hy-
∗ Corresponding Author: Kambiz Masoumi; Emergency Department, Imam
Khomeini General Hospital, Azadegan, Ahvaz Jundishapur University of Medical Sciences Ahvaz, Iran. Postal code: 6193673166 Tel: 0098 613 2222085;
Cellphone: 0098 911 343 9637; Fax: 0098 613 2225763 Email: emdajums@yahoo.com
potension are among the most important complications of
the mentioned methods. Regional nerve blocks have shown
benefits over the procedural sedation and analgesia (PSA)
for pain management in emergency settings (5-8). Regional
anesthesia without any important adverse effects on central nervous system or systemic circulation, could be helpful in managing pain and decreasing the volume of narcotic and opioid usage (1, 9). Anatomic landmarks guided
femoral nerve block is an effective method for reducing pain
in adults and children referring to emergency departments
with femoral fractures (6). However, injection of drug in
the femoral artery is the most undesirable complication of
this method. Nowadays, nerve stimulator and ultrasonography guided methods of block have increased the safety
level of the procedure (5, 10). Ultrasonography allows physicians to observe the nerves directly so that the needle can
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�A. Forouzan et al.
be kept away from sensitive organs and distribution of regional anesthetic can be monitored. Also, using transcutaneous electric nerve stimulation could be helpful in localizing the nerve and increasing the effectiveness of block (11,
12). However, emergency physicians are more familiar with
ultrasonography than nerve stimulator, and ultrasonography
as a noninvasive tool is more available in emergency departments. Based on the above mentioned points, the present
study aimed to compare the characteristics of ultrasonography and nerve stimulator guided femoral nerve block in pain
management of femoral fractures in emergency department.
2. Methods
2.1. Study design and setting
This randomized clinical trial was conducted on patients
with proximal femoral fractures (including neck, intertrochanteric, and proximal shaft fractures), admitted to
emergency departments of Imam Khomeini Hospital, Ahvaz, Iran, from January to December 2015, aiming to compare the procedure features of nerve stimulator and ultrasonography guided femoral nerve block techniques. The
protocol of the study was approved by ethical committee of
Ahvaz Jundishapur University of Medical Sciences and registered in Iranian registry of clinical trials under number
IRCT2015030221289N1. Researchers adhered to all principles of Helsinki declaration and confidentiality of patients’
information during the study period. Informed consent was
obtained from the study subjects before enrollment.
2.2. Participants
Patients with proximal femoral fractures, aged 18-80 years,
referred to emergency department were included. The exclusion criteria were hemodynamic instability, loss of consciousness, contraindications of receiving regional anesthesia or opioid administration (hypersensitivity to any variety
of regional anesthetics such as amide and other compounds,
systemic or local infections, abnormal neurological examination, and risk of compartment syndrome), opioid addiction,
severe pulmonary or heart disease, diabetes, and coagulopathy.
2.3. Intervention
Eligible patients were randomly divided into two groups of
nerve stimulator or ultrasonography guided femoral nerve
block, using simple random sampling technique. All patients received 0.1 mg per kg intravenous morphine sulfate
before initiation of procedure. A single dose of 10 mL of lidocaine1% was used for regional anesthesia. Nerve stimulation was done by a 50 gauge needle (with 20 degrees tip angle) using a Pajunk multistim sensor device. The needle was
inserted with a 45 degrees angle just inferior and lateral to
2
where the femoral artery crosses the inguinal ligament. At
first, the flow rate of device was set at 2.5 mV, and then after
an appropriate response from the muscle (quadriceps muscle contraction), the flow rate was reduced to 0.4 mV so that
the muscle response could still be visible. Ultrasonography
guided nerve blocks were done using a high frequency (7 – 12
MHz) linear array probe (The SonoAce-X8 Ultrasound system -Samsung Medison Co., Ltd., South Korea) in a supine
position with totally abducted legs (figure 1 and 2). All patients were under continuous cardiac, pulse rate, respiratory
rate, blood pressure, and O2 saturation monitoring during
the procedure. Pain severity was measured using visual analogue scale (VAS). Considering 30 minutes duration for loss of
pinprick sensation (13), in cases with ≥ 3 pain score, 30 minutes after block, additional rescue doses of morphine sulfate
(0.1 mg/kg) were administered. The sensory (pinprick sensation) and motor response were measured every 5 minutes
during 30 minutes after the injection of lidocaine. Leg extension against gravity and passive hip flexion in 45o were measured for motor nerve block examination. Procedures were
done by a trained senior emergency medicine resident under
supervision of an emergency medicine specialist. Operators
were trained regarding ultrasonography and nerve stimulator guided nerve block during an 8 hour educational course
and by doing the procedure under supervision of an expert
radiologist.
2.4. Data gathering
A predesigned checklist consisting of demographic data (age,
sex), initial pain severity, procedure time, block duration,
success rate, and need for rescue doses of morphine sulfate
was used for data gathering. Procedure time was defined
as interval between lidocaine injection and loss of pinprick
sensation. Also, interval between loss and recovery of pinprick sensation was considered as block duration. A successful block was defined as complete sensory loss in the femoral
nerve distribution by 30 minutes. Data gathering was done
by a blinded observer.
2.5. Statistical Analysis
Considering 1.2 and 0.4 mg rescue doses of morphine sulfate in the two groups (14), 95% confidence interval, and
the power of 80%, the number of samples per arm was estimated to be 25 cases. Analysis was done using SPSS 20.
Data were reported as mean and standard deviation or frequency and percentage. T test was used to compare means
and chi square or Fisher’s exact test for comparing the categorical variables. P-value <0.05 was considered as significant.
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Emergency. 2017; 5 (1): e54
Figure 1: Ultrasonography view of right inguinal structures.
Two groups had the same condition regarding age (p= 0.788),
sex (p = 0.564), and initial pain severity (p = 0.513).
Loss of pinprick sensation within 30 minutes of injection did
not happen in 2 cases of nerve stimulator guided block (success rate: 92%). The success rate, mean procedure time,
block time, and amount of rescue doses of morphine sulfate,
which were used, were compared between two groups in table 2. Ultrasonography guided nerve block cases had significantly lower procedural time (p < 0.001) and lower need for
rescue doses of opioid (p < 0.001).
4. Discussion
Figure 2: Position of ultrasonography probe in inguinal area.
3. Results
50 patients with proximal femur fracture were randomly divided into two groups of 25 (60% male). The mean age of
studied patients was 35.14 ± 12.95 years (19 – 69). Table
1 compares the baseline characteristics of studied patients.
Based on the main findings of the present trial, ultrasonography and nerve stimulator guided femoral block had the same
success rate and block duration. However, the ultrasonography guided group had lower procedure time and lower need
for rescue doses of morphine sulfate. Kumar et al., comparing these two techniques for axillary brachial plexus block,
also showed the similar success rate (95% versus 93.2; p =
0.35) of both groups (15). In another study by Cataldo et
al., the failure rates after 30 minutes in both groups were
not significant (16). In consistency with our findings, Tran
et al. (17), demonstrated that the procedure time of superficial cervical plexus block was lower in the ultrasonography guided nerve block group (119 vs. 61 seconds, P<0.001).
Duration of procedure did not show any difference between
the two methods. Kumar et al., (15) showed that the duration of sensory axillary nerve blocks in the ultrasonography
guided group was 6.33 minutes versus 6.17 minutes in the
nerve stimulation group. Durations of motor block in the
ultrasound-guided group and the nerve stimulation group
were 23.33 and 23.17 minutes, respectively. Unlike our study,
these differences were not statistically significant. A random-
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4
Table 1: Comparison of baseline characteristics between studied groups
Variable
Ultrasonography
Nerve stimulator
P value
Age (year)
35.64 ± 13.29
34.64 ± 12.86
0.788
Sex
Male
16 (64)
14 (56)
0.564
Female
9 (36)
11 (44)
Pain severity (VAS)*
8.88 ± 0.72
8.52 ± 2.63
0.513
*VAS: visual analogue scale at the initiation of procedure. Data were presented as mean ± standard deviation or frequency and percentage.
Table 2: Comparison of success rate, procedure time, block duration, and amount of morphine sulfate rescue doses between two groups
Variable
Ultrasonography
Success rate (30 minute)
25 (100)
Procedure time (minute)
8.06 ± 1.92
Block duration (minute)
61.56 ± 16.50
Rescue dose (mg)
2.68 ± 0.74
Data were presented as mean ± standard deviation or frequency and percentage.
ized clinical trial performed by Perlas et al., comparing the
success rate of the sciatic nerve block with ultrasonography
and nerve stimulator techniques, showed that the duration
of the procedure was similar in both groups (18). Rubin et al.,
showed that duration of the procedure and the time of onset for nerve block in the ultrasound-guided group were significantly lower than the nerve stimulation group (19). In a
meta-analysis by Choi et al., reporting seven studies in which
opioid consumption was reported, the reduction was mentioned in the ultrasound-guided method in three studies (20).
In the three studies that evaluated the time of onset of analgesia, the ultrasonography guided approach was preferred.
Oberndorfe et al. (21) showed that the amount of drug administration for regional anesthesia in the ultrasonography
guided group was less than the nerve stimulation group (P
<0.001). In contrast, Maalouf et al. showed that the mean
amount of oral morphine equivalents used in ultrasonography and nerve stimulator guided groups were similar (22).
It seems that using ultrasonography guided femoral nerve
block could be considered as an available, safe, rapid, and efficient method for pain management of patients presenting
to emergency department following femoral fracture.
5. Limitation
Low sample size and not performing the study in a double
blind manner are among the most important limitations of
this study. However, data gathering by a blinded observer can
decrease the bias.
6. Conclusion
Based on the main findings of the present trial, ultrasonography and nerve stimulator guided femoral block had the same
success rate and block duration. However, the ultrasonography guided group had lower procedure time and lower need
Nerve stimulator
23 (92)
13.60 ± 4.56
57.64 ± 23.85
5.28 ± 1.88
P value
0.490
< 0.001
0.502
< 0.001
for rescue doses of morphine sulfate.
7. Appendix
7.1. Acknowledgements:
We gratefully acknowledge the dedicated efforts of the investigators, the coordinators, the volunteer patients who participated in this study, and the Clinical Research Development
Unit (CRDU) of the hospital.
7.2. Author’s contribution:
All authors passed four criteria for authorship contribution
based on recommendations of the International Committee
of Medical Journal Editors.
7.3. Funding:
This study was financially supported by Ahvaz Jundishapur
University of Medical Sciences.
7.4. Conflict of interest:
The authors have indicated that they have no conflicts of interests regarding the content of this article.
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