Iontophoresis: as a new treatment modality in
the management of acute soft tissue injuries in
the emergency department

Kristopher A. Brickman a, Tomas G. Zaciewski a , Rajiv Bahl a 1, Brian N. Fink a , Maureen P. Gibbons a , Ramzi S. Sidani a
, Anthony N. Audino a , Joseph J. Ryno a , Daniel Z. Adams a , and Austin R. Wellock a

aUniversity of Toledo Health Science Campus, Toledo, OH 43614

Background: Iontophoresis utilizes a transcutaneous process to
deliver charged medication to a localized area of injury via an elec-
trical current to remedy pain symptoms. Although this practice
is largely used in the physical and occupational therapy settings,
there is little evidence showing its use and efficacy in the emer-
gency department as a therapeutic modality.
Methods: Through the voluntary enrollment of 39-participants, 21
in the treatment group and 18 serving as controls, subjects were
treated via iontophoresis using lidocaine-HCl and dexamethasone
or oral NSAID therapy alone. Measurements of pain were numer-
ated in person on the visual-analogue scale (VAS) using a 0-10
range immediately prior to treatment, 30 minutes after treatment,
and via phone at 24 and 72-hours after treatment for both groups.
Results: At the initiation of treatment, average pain scores for
the treatment and control groups were 7.29 and 6.50, respectively.
Greater reduction in pain was seen in the iontophoresis group
compared to the control group; 62% pain reduction in the ion-
tophoresis group and only 8% reduction in the control group at
30-minutes post-treatment (p<0.001). Similar results were seen at
24 and 72-hours with reductions of 71% and 73% in the experimen-
tal group at the respective times versus 18% and 40% reduction in
the control group. Further, participants in the control group con-
sumed over 4-times as many oral NSAIDs 24-hours after visiting
the emergency department and almost 5-times more oral NSAIDs
at 72-hours. At 24-hours the treatment group utilized, on average,
less than 1-tablet while the control group had used over 3. At
72-hours, the control group averaged over 6-tablets compared to
the less than 2-tablets, on average, for the treatment group.
Conclusions: These results are promising in using iontophoresis
as an effective treatment modality in the management of acute soft
tissue injuries in the emergency department. They not only show
greater pain reduction, but iontophoresis reduced the number of
oral NSAIDs required for pain relief, lowering the complications
associated with these medications.

iontophoresis | emergency department | dexamethasone | lidocaine |
NSAID

Iontophoresis is the transcutaneous delivery of charged medicationto a local area of injury via a small electrical current. Since incep-
tion over 30 years ago, iontophoresis has been used as a treatment
modality in many healthcare arenas and has become a standard of
care in both physical and occupational therapy. While many medica-
tions can be delivered via iontophoresis, steroids and anesthetics are
the primary medications used in the healthcare setting. These drugs
are commonly used in the acute care phase of an injury; in partic-
ular, dexamethasone has been shown to be effective within the first
72-hours of injury (1). Although iontophoresis is effective in treat-
ing soft tissue injuries it has not yet been embraced as a common
treatment modality in the emergency department (ED) setting (2).
Potential reasons for this include lack of knowledge or appropriate

equipment, associated costs, and concerns over duration of treatment
in the ED setting.

Expanding the scope of iontophoresis to the ED could prove to
be a cost effective and time efficient treatment modality. The current
ED standard of care for treating acute soft tissue injuries is immobi-
lization and use of non-steroidal anti-inflammatory drugs (NSAIDs).
This pilot study will compare the use of iontophoresis to the use of
ibuprofen in an acute care setting. With increasing concerns regard-
ing the complications from the use of NSAIDs, such as renal failure,
acute gastrointestinal hemorrhage, and cardiovascular complications
to name a few, ongoing efforts to evaluate safer and more effective
methods of pain management are imperative. Since iontophoresis
has been primarily limited to the physical and occupational therapy
settings, iontophoresis as an alternative to the use of oral pain med-
ication could prove to be beneficial and safer than oral NSAIDs for
the treatment of these injuries in the ED. This pilot study evaluates
the effectiveness and practicality of iontophoresis as a trigger modal-
ity in the management of acute soft tissue injuries in the ED setting
versus the use of typical oral anti-inflammatory therapy.

Materials and Methods
Study Design. This IRB approved study utilized a randomized con-
trol design to assess a pain management modality in patients who
present to the ED with acute soft tissue injuries. The treated group
received treatment via iontophoresis while the control group received
oral NSAID therapy with ibuprofen. Randomization was conducted
based on odd or even days of the month. NSAID therapy with ibupro-
fen was chosen as the control because it is arguably the most com-
monly used medication for acute soft tissue injuries in the ED set-
ting. Subjects presenting to the ED with acute soft tissue injuries
were placed in one of the two study groups provided they did not
meet exclusion criteria and were willing to participate in this study.
The exclusion criteria included those who were mentally incompe-
tent, less than 13 years of age, women who were pregnant, subjects
with injuries occurring greater than 72-hours prior to ED admission,
those with a pacemaker implant, subjects who currently had a frac-
ture, or those who had compromised skin integrity. Consent forms
were provided to the subjects and were signed prior to inclusion in
1To whom correspondence should be sent: Rajiv.Bahl@utoledo.edu

Author contributions: KAB designed the research protocol; TGZ, MPG, RSS, ANA, JJR, DZA,
and ARW collected study data; BNF supervised the data analysis; KAB, TGZ, and RB con-
tributed to the manuscript and RB takes responsibility for the paper as a whole

The authors declare no conflict of interest

Freely available online through the UTJMS open access option

utdr.utoledo.edu/translation/ UTJMS 2015 Vol. 2 1–3



the study. Consent was provided by a parent or legal guardian
forthose participants under the age of 18. Any subjects with potential
fractures underwent imaging studies prior to enrollment in the study
and were only enrolled if a fracture could be ruled out. Additionally,
participants were screened for all pertinent past medical history and
presence of any contraindications or allergies via interview prior to
treatment.

Iontophoresis. This was performed on the treated group using a 4-
milliamp (mA) current in a two-part procedure. The initial ion-
tophoresis procedure involved the placement of 2-milliliters (ml)
of a 4% lidocaine-HCl, a positively-charged solution, on the active
positively-charged iontophoresis pad and was placed directly over
the area of most intense pain as described by the subject. A sec-
ond pad, the return pad, which is negatively charged, was placed 4 to
6 inches both ipsilateral and proximal to the active positively-charged
pad. Using the 4-mA current, iontophoresis was set for 10-minutes
for a total of 40-mA minutes. This was followed by a similar pro-
cedure for dexamethasone treatment using a 0.4% dexamethasone-
sodium sulfate solution. The dexamethasone procedure was sent at
the same 4-mA run over 20-minutes for a total of 80-mA minutes.
The polarity of the electrodes was reversed for the dexamethasone
treatment as dexamethasone is a negatively charged medication, and
thus placed on a negatively charged pad and delivered toward the
positive electrode. The control group received one 800-mg dose of
ibuprofen upon initial contact (or appropriate dose based on weight).

Patient Care. Subjects in both groups received similar supportive
management for acute soft tissue injuries including ice, immobiliza-
tion/splinting, wrapping, and crutches as needed. Patient demograph-
ics are noted in Table 1. All participants who were discharged from
the ED in both study groups were provided twenty 800-mg ibuprofen
tablets and directed to take this medication up to three times per day
as needed for pain relief.

Table 1. Pain site and participant demographics

Upper Age
Knee Back Extrem Ankle (avg) M F

Treated 5 6 4 3 37 9 12
Control 4 3 11 3 26 11 7

Statistical Analysis. The data collected for the study consisted of
pain scale readings using the visual-analogue scale (VAS), the most
commonly used scale in the ED setting, with a 0-10 range and num-
ber of NSAIDs used as measured by the number of ibuprofen tablets
taken. Pain assessment was made at four different intervals start-
ing prior to initiation of treatment, then at 30-minutes, 24-hours, and
72-hours post-treatment. The total number of NSAID doses was
recorded at both the 24 and 72-hour time intervals. To assess the
data, an independent t-test was used to differentiate and verify values
at each specific time interval, and also to analyze the pain scores over
the entire 72-hour period.

Results
A total of 39 subjects were enrolled in the experiment; 18 in the

control group and 21 in the treated group. Patient demographics are
noted in Table 1. Average pain scores showed a statistically signif-
icant difference (p<0.01) in pain reduction of the treated group at
30-minutes, 24-hours, and at the 72-hour intervals. Table 2 shows
the average pain scores at the corresponding time intervals for both
groups. Pain values at the initiation of this study, 0-minutes, showed
comparable values for both the treated and control group (7.29 and
6.50, respectively).

Table 2 demonstrates the percentage of reduction in pain in the
treated group versus the control group. At 30 minutes there was a

62% pain reduction in the treated group compared to 8% reduction
in the NSAID group (p<0.001). Similar results were observed at 24
and 72-hours showing pain reductions of 71% and 73%

Table 2. Average pain score with treatment1 vs. control

Time
0 min 30 min 24 hrs 72 hrs

Treated 7.29±1.87∗ 2.76±2.84 2.14±2.03 1.95±2.11
Control 6.50±1.89 6.00±2.03 5.33±2.45 3,89±2.14
p-value 0.20 <0.001 <0.001 <0.001

*mean±SD
1Treatment = Iontophoresis, 4 mA two part procedure

in the treated group at the respective times versus 18% and 40% re-
duction in the control study group.

In addition to the pain reduction, ibuprofen tablet use was also
analyzed in this study (Table 3). Differences in the amount of NSAID
taken at 24 and 72-hours were significantly different in the control
versus treated group. Table 3 shows on average at 24-hours that 0.76
ibuprofen tablets were taken by the treated group versus 3.22 tablets
used in the control group (<0.001). At 72-hours the treated group
used an average of 1.38 tablets versus 6.61 tablets by the control
group (p<0.001). Table 3 further illustrates nearly a 5 fold increase
in NSAID utilization by the control group compared to the treated
group (p< 0.001) over the 72-hour period.

Table 3. Ibuprofen (800 mg) usage by treated subjects vs controls

Time post discharge
24 hrs 72 hrs

Treated 0.76±1.41∗ 1.38±2.43
Control 3.22±1.26 6.61±3.24
p-value <0.001 <0.001

*mean±SD
1Treatment = Iontophoresis, 4 mA two part procedure

The average number of ibuprofen tablets consumed was signif-
icantly different at each time interval (p<0.001), as well as over the
entire study period (p<0.001). At 24-hours the control group took
more than 4 times (average of 3.22 doses) the amount of 800 mg
ibuprofen doses as the treated group (average of 0.76 doses). After
a 72-hour period, the control group took nearly 5 times (average of
6.61 doses) as many of the 800 mg ibuprofen as the treated group
(average of 1.38 doses).

Discussion
In this pilot study, iontophoresis proved to be a statistically and

clinically more effective treatment modality in the management of
acute soft tissue injuries in the ED as compared to oral NSAID
(ibuprofen tablets) therapy alone. The efficacy of iontophoresis was
demonstrated by increased pain relief experienced by subjects en-
rolled in the treated group as compared to the control group. The
treated group also utilized less total doses of ibuprofen over time in
relation to the control group. Comparatively, the control group used
on average 5 times as many ibuprofen tablets with limited pain con-
trol. By a single 30-minute treatment in the ED with iontophore-
sis, acute soft tissue injury subjects were effectively treated for a pe-
riod of up to 72-hours post-treatment with less overall NSAID use.
Subjects, therefore, could be discharged without additional medi-
cations, minimizing the potential side effects commonly seen with
widespread NSAID therapy. The only reported side effects known
in the use of iontophoresis is mild redness at the site of pad place-
ment (3). In this study, no adverse effects from iontophoresis were
reported.

2 utdr.utoledo.edu/translation/ Brickman et al.



Iontophoresis, aside from improved subject comfort, can be man-
aged efficiently in the emergency department setting for acute soft
tissue injuries. Using in department equipment, the treatment can
be completed in 30-minutes and with almost immediate pain control.
This gives subjects significant improvement in functional ability and
mobilization of these injuries allowing for an overall better outcome
and earlier recovery.

Iontophoresis is also a cost effective management option. The
cost of a permanent in-hospital electricity transmitting device ranges
between $300 and $500 with disposable pads for these transmitters
and the medication costing between $10 and $20. These devices
are handheld requiring little maintenance except battery replace-
ment, and the low cost of the pads create a cost-effective means of
pain-relief. Recent technologies have created advancements in ion-
tophoresis allowing for disposable and cost-effective means of medi-
cation delivery. All-in-one units including a medication chamber, dis-
persive electrode, and delivery device are also available. These units
can be used for both short and longer treatments with 40-mA/min
dose taking 75-minutes while an 80-mA/min takes 150-minutes (4).
The cost of these disposable units range between $10 and $30.

The use of NSAIDs alone is associated with a significant risk of
complications such as peptic ulcer disease, gastroesophageal reflux
disease, bleeding complications, renal insufficiency, and renal failure
(5-8). The use of COX-2 inhibitors has not been shown to minimize
these risks and has in fact, led to the additional risk of myocardial
infarction and stroke (9). Currently, the cost of complications from
the use of NSAIDs ranges in the hundreds of millions of dollars per
year in the United States alone (10). Minimizing the complications
from these outpatient medications alone would show iontophoresis to
be a cost effective alternative to management of soft tissue injuries.
In addition to these complications, there are also many subjects with
contraindications to NSAIDs and/or narcotics making iontophoresis
an excellent alternative for this population.

Study Limitations.This study involved comparing iontophoresis
treatment with medications to a control NSAID group. Ibuprofen
was chosen because it is the currently accepted standard of care for
soft tissue injuries. Further studies should look at comparing ion-
tophoresis using saline versus dexamethasone and lidocaine to assess
the iontophoresis procedure itself and its ability to manage pain for
these soft tissue injuries. Any placebo effect though from the ion-
tophoresis procedure should have clearly dissipated by the 72-hour
time frame but this cannot be conclusively determined in this pilot
study.

Future studies in evaluating a new disposable device that allows
the subject to leave with the iontophoresis patch in place could fur-
ther decrease the ED length of stay while still obtaining the benefits
from iontophoresis in the acute care setting. Studies can also evaluate
various other medications that could be used in the acute care setting.
Differing levels of electrical stimulation may provide additional ben-
efits in the ED environment as well.

Summary. In this study, iontophoresis proved to be an effective and
efficient treatment modality in the management of acute soft tissue
injuries presenting to the emergency department. Subjects in the
treated group using iontophoresis had significantly better pain con-
trol at 30-minutes, 24-hours, and 72-hours post-treatment compared
to standard management of oral NSAID treatment for similar soft
tissue injuries. In addition to improved pain control, the subjects in
the iontophoresis group took significantly less oral ibuprofen then the
control group up to 72-hours after arriving to the emergency depart-
ment. Iontophoresis may prove to significantly improve the func-
tional ability and pain management of subjects presenting to the ED
with acute soft tissue injuries. By significantly reducing the reliance
on outpatient medications, iontophoresis may also be found to be a
much safer and cost-effective outpatient treatment option as well.

1. Runeson L, et al. (2002) Iontophoresis with cortisone in the treatment of lateral
epicondylalgia (tennis elbow) ? a double blind study. Scand J Med Sci Sports
12(3):136-142.

2. Cormier M, et al. (1999) Effect of transdermal iontophoresis codelivery of hydro-
cortisone on metochlopramide pharmacokinetics and skin-induced reactions in
human subjects. J Pharm Sci 88(10):1030-1035.

3. Li GL, et al. (2005) Cutaneous Side-effects of Transdermal Iontophoresis with and
without Surfactant Pretreatment: A Single-blinded, Randomized Controlled Trial.
Br J Derm 153(2):404-412.

4. ActivaTek Inc. "The ActivaPatch." ActivaPatch. ActivaTek Inc., n.d. Web.
www.activapatch.com.

5. Gudeman S, et al. (1997) Treatment of plantar fasciitis by iontophoresis 0.4% dex-
ametasone. A randomized, double-blind, placebo-controlled study. Am J Sports
Med 25(3):312-316.

6. Bender T, et al. (2001) Etofenamate levels in human serum and synovial fluid fol-
lowing iontophoresis. Arzneimittelforschung 51(6):489-492.

7. Schutl A, et al. (2002) Safety, tolerability, and efficacy of iontophoresis with lido-
caine for dermal anesthesia in ED pediatric patients. J Emerg Nurs 28(4):289-296.

8. Galinkin J, et al. (2002) Lidocaine iontophoresis verses eutectic mixture of local
anesthetics (EMLA) for IV placement in children. Anes Analg 94(6):1484-1488.

9. Lanza F, et al. (2009) Guidelines for Prevention of NSAID-Related Ulcer Complica-
tions. Am J Gastroenterol 104:728-738.

10. Singh G, et al. (1996) Gastrointestinal tract complications of nonsteroidal anti-
inflammatory drug treatment in rheumatoid arthritis. A prospective observational
cohort study. Arch Intern Med 156(4):1530-1536.

Brickman et al. UTJMS 2015 Vol. 2 3

http://www.activapatch.com/

	Materials and Methods
	Study Design
	Iontophoresis
	Patient Care
	Statistical Analysis

	Results
	Discussion
	Study Limitations
	Summary