Verruca Vulgaris Clinical Trial
Official title:
Randomized Double Blind Study Comparing Liquid Nitrogen Cryotherapy With Nd:YAG in the Treatment of Verruca Vulgaris
Verruca vulgaris (VV), or the common wart, is a relatively prevalent and often frustrating
cutaneous disease to treat. A single, highly effective therapy for the treatment of VV has
not been found. Liquid nitrogen is considered the standard of care for VV and studies report
a 44% to 47% cure rate. In search of more efficacious and convenient therapeutic options, a
variety of lasers have been reported in the treatment of VV including the Nd:YAG laser
(1064nm). Lasers offer the potential for decreased treatment associated pain, fewer office
visits, higher cure rates and lower recurrence rates. However, many of the available
published studies draw conclusions from case reports and small case series without any
randomized controlled trials. A randomized, controlled study is needed to evaluate the
efficacy of the microsecond Nd:YAG (1064nm) compared to conventional cryotherapy.
This study will use the Cutera CoolGlide Nd:YAG laser that operates in the infrared spectrum
at a wavelength of 1064nm. This a single site, double blind, randomized controlled clinical
trial to evaluate the efficacy of the Nd:YAG laser (Cutera) in the treatment of verruca
vulgaris of the hands and feet versus conventional liquid nitrogen therapy.
The investigators hypothesize that there will be a significantly higher number of warts with
complete resolution at 4 months follow-up in the Nd:YAG treated group versus the liquid
nitrogen therapy group. The investigators also hypothesize that there will be a faster time
to complete resolution of the verruca in the Nd:YAG treated group versus the liquid nitrogen
treated group.
Outcome measures: The primary outcome will be complete resolution of the lesion defined as:
clinical absence of verruca vulgaris with redevelopment of skin lines on the dorsal surface
and dermatoglyphics (ridges of the skin) on the inner surface of the palms and feet, as
determined by a blinded clinician investigator blinded to the treatment will evaluate each
lesion and determine whether the lesion. A secondary outcome will include: time to complete
resolution of the lesion.
2. Objectives and Specific Aims 1.1. Primary objective: To evaluate the efficacy of the
Cutera CoolGlide 1064nm Nd:YAG laser in the treatment of verruca vulgaris of the hands and
feet versus conventional therapy with liquid nitrogen cryotherapy.
2. Research Design and Methods This a single site double blind (faculty observer and patient
blinded; operator/clinician non-blinded), randomized controlled clinical trial to evaluate
the efficacy of the Nd:YAG laser (Cutera) in the treatment of verruca vulgaris of the hands
and feet versus conventional therapy with liquid nitrogen in 52 patients.
2.2 Study Procedures Informed consent A signed informed consent form will be obtained from
each patient prior to entering the study
Physical examination A brief physical examination of the skin including the affected area
will be performed. Photographs will be taken of affected areas, prior to and after each
treatment from baseline through the fifth treatment follow-up. The investigator will document
the number, size and location of each lesion.
Laboratory tests No laboratory testing will be performed for this research project.
Procedure Visit
Initial Visit (DAY 1):
Prior to the clinic visit and treatment:
1. The patient will be screened for inclusion by a study team member using a screening
questionnaire (Appendix A).
2. A sub-investigator will review the screening criteria to validate that the patient meets
eligibility criteria.
3. Written informed consent will be obtained from the patient before participation in the
study (Appendix B).
Treatment 1:
1. The qualifying eligible patient who has consented to participate in the study will be
assigned to receive either Nd:YAG laser treatment or liquid nitrogen therapy using a
previously established block randomization schema prepared by the research statistician.
2. All lesions will be evaluated and pared with a #15 surgical blade if thickness, a
callous, crust or debris is noted, or if hyperkeratosis or other skin thickening is
evident which would impede evaluation of the wart.
3. The attending faculty physician will confirm the diagnosis with use a dermatoscope and
will be blinded to the treatment assignment.
4. Photos will be taken of the lesions, after paring with a #15 blade to remove any crust
or thickened skin above the wart, prior to treatment, and after treatment. A consistent
photography procedure (Appendix C) will be used. Each wart will be numbered; size and
location will be documented on the Dermatology Study Wart Assessment and Treatment
Records (Appendix D). Photographs will be taken before and after treatment.
5. All lesions will be anesthetized with topical lidocaine (LMX 4%) applied under occlusion
for 15minutes prior to treatment.
6. All patients will be prepared for treatment in the same manner. They will wear the
protective goggles used in laser treatment and will use head phones to muffle the sound
of treatment. Both treatment modalities will be turned on prior to the treatment so
sounds may not be predictive of the treatment.
8. The patients that have been randomly selected to receive Nd:YAG laser treatment will be
fully treated with the following parameters for the laser. If the warts are greater than 3mm
the following settings will be used: 20 millisecond pulse width, fluence 180 J/cm2, spot size
5 mm. If warts are 3mm or less in diameter, the laser settings will be: 180 J/cm2, spot size
3mm, pulse width 15 milliseconds. No laser gel will be used during treatment. After each
laser pulse, the treated area can be briefly cooled with the tip of the laser. If more than
one pulse is needed to cover the entire area of the wart, 10% overlap will be used and area
outside of the wart border will not be treated.
9. The patients that have been randomly selected to receive liquid nitrogen treatment will
receive liquid nitrogen spray gun for 5-7 seconds creating and maintaining a 1-2 mm freeze
halo around lesion for the duration of the application. Use nozzle extender for warts less
than 3 mm.
10. Patients will be instructed to avoid treating the warts at home, but they may use
vaseline, aquaphor, or plain petrolatum and a band aid as needed for comfort until the next
visit .
11. Patients will schedule a return visit in two weeks for assessment of the effects of
treatment.
12. Patient treatments will be documented on the appropriate Dermatology Study Wart Treatment
Record (Appendix D). Revision of the Dermatology Study Wart Treatment Record is attached with
the Request for Revision.
12.1 Document the patient's medications on the Master Medication Record 12.2 Document the
patient's warts on the Master Record of Warts
1. Treatments #2, 3, 4, 5 (DAY 14, 28, 42, 56; +/- 7 days) Patient will return at 2week
intervals for evaluation and documentation of lesions.
2. An objective faculty observer blinded to treatment, will evaluate wart persistence or
clearance at treatments #2, 3, 4, and 5, after the lesion is pared. Faculty will
document findings on the Wart Study Attending Faculty Observer Assessment Tool Appendix
E).
3. Photos will be taken after paring lesions with a #15 blade; number, size, and location
of lesions will be documented, as well as occurrence of any new warts.
1. If the patient has no clinical lesions present as determined by a blinded faculty
clinician, the patient will move on to follow up phase, see below.
2. If there is still clinical evidence of persisting lesions the patient will be
retreated with the same randomized modality as in treatment #1.
3. If new warts are identified, the investigators will document the number, size, and
location of the warts, and photograph the new warts before and after treatment.
4. Treatment of new warts will be with the same randomized treatment modality to avoid
patient un-blinding.
4. All lesions will be anesthetized with topical lidocaine (LMX 4%) applied under occlusion
for 15 minutes prior to treatment.
5. All patients will be prepared for treatment in the same manner. They will wear the
protective goggles used in laser treatment and will use head phones to muffle the sound
of treatment. Both treatment modalities will be turned on prior to the treatment so
sounds may not be predictive of the treatment.
6. Proceed with treatment of warts in the same manner as randomization. Complete steps 9-
11 as listed under the initial treatment.
Follow-Up Phase: Clinical Clearance Once a lesion is clinically clear, the patient will move
on to the follow up phase. No lesion will be treated more than 5 times. Patients who do not
clear after the evaluation of the 5th treatment will be considered treatment failure and will
be removed from the study. Patients who fail study treatment will be offered continuing
treatment outside of the study through Dermatology Clinic. The patient will be responsible
for standard charges for any additional treatment through Dermatology Clinic.
Patients who clear will return to the clinic for evaluation at 1 and 2 months after clinical
clearance to determine continued clearance or recurrence. Recurrence will be defined as a new
clinical evident lesion that appear in the same location(s) as the previously treated wart(s)
up to 2 months post treatment.
1 and 2 Month Follow Up
1. Clinician will perform an examination of the treated areas as in previous visits.
2. Photos will be taken.
3. Size and location of new lesions, if any, will be documented.
4. Recurrence of previously treated lesions will be documented.
4 Month Follow-up
At 4 months following the clearance date, a structured telephone interview will investigate
the status of the lesion(s). If the patient is unsure of the status of clearance, the patient
will be asked to return for evaluation by the sub-investigator. If the wart recurs or
persists, the patient will be offered additional treatment using other options and will be
billed for any post-study treatment.
3. Data management and statistical analysis Data Collection and management Data will be
collected on paper Case Report forms by the resident physician treating the subject. See data
collection tools (Appendix D) and rules in the Procedure Book. Double data entry will be
provided by data entry staff into two separate excel spread sheets. Data comparison will be
completed by the research statistician. Any discrepancies will be reviewed by the study team.
Issues in need of adjudication will be decided by the PI.
Sample size determination: Sample size was calculated based on a formula for effective sample
size in a randomized clustered design with binary outcomes. On average, patients will present
with approximately three lesions (usually between 1 and 5) requiring treatment. An estimate
of a 50% cure rate, using cryotherapy for plantar warts, was drawn from a Cochrane review
published in 2006 [10, 11]. We will consider a clinically significant improvement, if at
least 80% of the warts treated by Nd:Yag laser are completely resolved at the 6 month visit.
We will assume a moderate intra-cluster correlation coefficient of 0.3. Given the cluster
design, enrolling 52 patients with, on average, 3 warts each, randomized to one of two
treatments, will be needed to provide 84% power to show a statistically significant
difference in cure rate. Significance will be set at p<0.05.
Data Management and Analysis All analyses will be done using SAS® 9.2. Demographic and
clinical variables will be summarized using means, medians and percentages, as appropriate.
To determine whether the primary outcome, complete resolution of each lesion at 2 and 4
months follow-up, is different between treatment groups, we will use a generalized linear
mixed model with a binomial distribution, and with initial lesion size and duration, as
covariates in the model. The correlation of outcomes within patient will be modeled using a
random effect. The secondary outcome, time to complete resolution will be analyzed using a
using a multilevel survival model with patient as a random effect and initial lesion size and
duration as covariates in the model. To see whether the results are sensitive to missing
data, both models will be analyzed with and without the self-reported 4-month outcomes.
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