Diabetes Mellitus, Type 2 Clinical Trial
Official title:
Evaluating the Effectiveness of Laser Treatment for Onychomycosis of the Hallux in Patients With Diabetes: A Randomized Controlled Trial
Fungal infections of the toe affect one in three people with diabetes. Current treatments for fungal toe infections include oral medications, but these drugs often interact with other common medications. We are studying a new treatment for fungal toe infections involving the use of a laser device. We will compare to the standard treatment which is a type of antifungal medication. This laser has been tested in small numbers of patients with minimal side effects. There will be 60 participants selected for our study, of which 30 will receive standard treatment and the rest will receive laser treatment.
Onychomycosis is a fungal infection of the nail unit which affects one third of people with
diabetes.1,2 Risk factors for onychomycosis in diabetes include age, male sex, poor glycemic
control, longer duration of diabetes, use of immunosuppressive agents, and poor peripheral
circulation.2-5 Etiology of onychomycosis varies across populations, but the most common
causes in diabetic patients are yeasts and dermatophytes. In particular, Candida spp.
(31-48.1%) are the most common yeasts, while Rhodotorula spp. (21.7%) have been reported as
well.4,6-8 Trichophyton rubrum (31.7-46%) is the most common dermatophyte observed, while
nondermatophytic molds are less common.
Individuals with diabetes complicated by peripheral neuropathy are at risk of developing
particularly severe complications of onychomycosis. Infected nails can become brittle and
sharp, injuring and compromising the adjacent skin. This breakdown allows a portal of entry
for bacteria, causing cellulitis and paronychia.9 Because the nail bed is in close proximity
to the underlying nail, paronychia can develop into osteomyelitis if adequate foot care is
neglected.
Given the significant morbidity of onychomycosis including the potential for limb
amputation, prompt and effective treatment is imperative. Currently available treatments
include topical and systemic options, and each of these has significant limitations.
Topical antifungal therapies have been tested in patients with mild onychomycosis. Cure
rates of 29-85% have been observed with ciclopirox 8% nail lacquer in non-diabetic
populations with mild disease;10 in diabetic populations using open label methodology cure
rates of approximately 54% are reported.11,12 Novel topical forms of terbinafine with
various penetration-enhancing compounds are also under development.13-15 Early studies
report effective nail penetration of these formulations, but there is a lack of data on
clinical efficacy of topical terbinafine. One preliminary study reported 90% mycological
cure after 12 weeks of treatment with a terbinafine spray, but less than half had a
sustained cure at 36 weeks post-treatment.16 Although effective for mild to moderate
superficial onychomycosis, because of poor nail penetration topical agents are generally not
recommended where fungus appears to infect more than 50% of the nail surface.7 One recent
review has suggested that monotherapy with topical agents should be avoided altogether.17
Systemic antifungal agents are often used to treat more severe onychomycosis. Two of the
most common systemic agents are itraconazole and terbinafine. Itraconazole is a newer agent
with the added advantage of covering Candida species in addition to dermatophytes. Both
agents are associated with cure rates of approximately 50% when given for a full three month
course.18 These agents have significant limitations given the potential for drug-drug
interactions via inhibition of cytochrome P450 enzyme subtypes.19 Itraconazole and
terbinafine are associated with increased risk of bleeding with warfarin, itraconazole with
increased risk of rhabdomyolysis with statins and of hypoglycemia with oral agents for
diabetes and terbinafine with metoprolol, propafenone, and tricyclic antidepressants.19 Due
to the significant limitations of topical and systemic treatments for onychomycosis, there
is a critical need for alternative and replacement therapies. While surgical techniques such
as avulsion and nail plate removal can be employed for severe and resistant infections,
these treatments are quite invasive and painful.7,20 Other device-based therapies for
onychomycosis include UV light therapy21-23 and photodynamic therapy.24-27 While these
modalities show evidence of in vitro efficacy, there have been no robust studies conducted
yet that demonstrate any clinical effectiveness.
A promising device-based therapy is laser treatment. The neodymium-doped yttrium aluminum
garnet (Nd:YAG) device emits a laser in a continuous or pulsed fashion, and the 1064 nm
wavelength is thought to be optimal due to its ability to penetrate deeply into the nail bed
to eradicate fungal growth.28 Although this device is approved by the US Food and Drug
Administration for use in patients with onychomycosis for a "temporary increase in clear
nail,"28 there is a lack of research demonstrating effectiveness beyond several pilot
studies. One study demonstrated mycologic cure in 7 out of 8 patients with no major side
effects aside from temporary nail discoloration and occasional pin prick sensation.29 The
parameters for the laser included a 0.65 ms pulse duration, 2 mm spot size and 223 J/cm2
energy fluence, and treatment consisted of 2 to 3 sessions spaced at least 3 weeks apart. A
Chinese study of 33 patients demonstrated a 51% to 53% cure rate in patients treated for
eight and four sessions respectively, spaced at 1 week intervals using a 30 ms pulse
duration and 3 mm spot size laser at 240-324 J/cm2.30 Results from Japan showed a similar
cure rate of 51% in 19 patients treated with 1 to 3 treatments 4 to 8 weeks apart.31 To our
knowledge, no randomized control trials exist to validate these preliminary findings.
Study Objectives The objective of this study is to determine the relative safety and
clinical efficacy of laser treatment using the FOX Nd:YAG 1064 nm device compared to
conventional therapy (topical terbinafine) in diabetics with onychomycosis of the hallux
(great toe). Specifically, the study will test the hypothesis that participants randomized
to the FOX Nd:YAG laser are more likely to be cured 6 months after initiating therapy
compared to those randomized to conventional therapy. A secondary objective will be to
determine the improvement in quality of life with laser treatment versus conventional
therapy.
Subjects Eighty participants will be randomized equally to either the laser treatment group
or the standard care group.
Study overview
This is a prospective, randomized, intention-to-treat, non-blinded comparative group
clinical trial of 80 participants receiving laser or conventional, topical medication,
therapy on a single infected hallux. All participants will have a baseline and 6 month
follow-up visit where photographs of the hallux and repeat KOH and culture will be
performed.
Participants randomized to laser group will undergo laser treatment at baseline and be asked
to return for 2 subsequent visits six weeks apart (at weeks 6 and 12) to undergo further
laser treatment of the hallux. Each visit will last approximately 45 minutes.
At the 6-month visit, participants randomized to the control group will be offered the first
of three laser treatments (the second and third to occur at weeks 30 and 36). Participants
in the laser group with persistent infections after 6 months will be offered standard
therapy. No further data will be collected after the final 6-month visit.
The treatments will be performed at BCDiabetes (400 - 210 West Broadway, Vancouver, V5Y 3W2,
Canada) owned and operated by Dr. Elliott .
Primary outcome measures One primary outcome will be the proportion of participants with
microbiological cure (by KOH and culture) by 6 months post-randomization (i.e.: initiation
of treatment).
Other primary outcomes include safety outcomes. Specifically, safety outcomes of interest
will include the side effects listed below:
Usual side effect:
Feeling of warmth, heat, or tingling at the laser target site (only during treatment)
Rare side effects:
Discoloration/burn marks on surface of the nail Slight or mild pain (only during treatment)
Redness of the treated skin around the nail (lasting 24-72 hours)
Rare laser effect:
Sometimes the laser creates 'sparks' on the surface of the nail - this does not cause any
problems
Extremely rare laser effects Blistering of the treated skin around the nail Scarring of the
treated skin around the nail
Secondary outcome measures Secondary outcomes will include the proportion of participants
experiencing clinical cure by visual assessment (planimetry and photograph) will be
evaluated.
The other secondary outcome will be improvement in quality of life as measured by the
validated "NailQoL" questionnaire which assesses symptom, emotion, and functional domains.
Recruitment Patients ostensibly meeting the study inclusion and exclusion criteria seen in
an outpatient setting by the authors and their associates and staff will be apprised of the
availability of a research treatment for fungal toenail infection. The study will be briefly
described - patients who express an interest will be provided additional information and a
study consent form and be encouraged to ask questions about the study. They may choose to
provide consent at the time or to leave with the consent form and return at a later time to
ask further questions.
The anticipated accrual will be 80 patients in total. Screening Patients will participate in
a screening visit as part of routine care. Informed consent will be obtained before any
screening procedures. During this visit, toenail clippings will be sent for KOH stain and
fungal culture. The results of these tests will be available in approximately 4 weeks. The
results will be reviewed 6 weeks after the clippings are collected, and if the results are
negative the patient will be excluded from study.
Patients positive for both KOH and fungal culture will be eligible for further screening
with both ankle-brachial index evaluation and biothesiometry, and this screening would occur
during the same visit.31-33 Patients with an ankle-brachial index less than 0.6 or
biothesiometry score of less than 20 volts in either lower extremety will be excluded from
participation as described in the exclusion criteria.
Samples will be collected only from the infected hallux, and if the hallux from both feet
appear to be infected, samples from both feet will be taken and sent for analysis. If both
right and left hallux samples are positive, one hallux will be chosen at random to be
treated as part of the study.
Intervention Group Treatment Procedures
Laser energy (1064 nm Nd:YAG) will be delivered via an optical fibre (300 μm core/320 μm
clad) secured in a hand piece. Laser energy will be delivered by maintaining the tip of the
optical fibre 3 mm from the treatment area to achieve around 1-1.5 mm diameter spot size
(25.5 J/cm2 fluence per pulse; 10-pulse pulse-train to each spot in 0.5 seconds). Multiple
treatment spots will be delivered to cover the entire area of involvement. Treatments cause
no discomfort and are administered as an outpatient service with no anesthesia. If the
subject experiences significant discomfort, the procedure may be interrupted for up to 5
minutes to allow the discomfort to subside.
The FOX laser will be used in accordance with manufacturer recommendations, with output
power, spot size, and proprietary pulse train incorporated into the treatment regimen.
Treatment will take place by traversing the infected hallux in a side to side fashion, with
care being taken to cover the entire surface of each nail, by slightly overlapping the
previous path. In areas where the nail appears to be infected, a second series of passes
perpendicular to the first set will be performed, again slightly overlapping the previous
path, as described above. Even if other toes in addition to the hallux appear to be
infected, only one hallux per participant will be treated and analyzed for the purposes of
the study. The treatment will be performed as an outpatient procedure at St. Paul's Hospital
or Mount St. Joseph's Hospital.
Participants who fail to return for a scheduled treatment will be asked to return for
another treatment as soon as possible. The schedule for subsequent treatments will be
readjusted based on the completion date of the missed visit.
Control Group Treatment Procedures
Participants in the control group will be treated conventionally with terbinafine HCl
external ointment.
Planimetry Procedures
Photographic documentation and assessment of the treated toenails will be done at the
interval visits as listed in the subject follow-up table below. The extent of mycological
involvement will be determined by measuring the mm of clear nail from the cuticle line to
the demarcation of clinically involved nail. This data will be recorded in the case report
form. Nails are scored (grooved) at the initial visit to indicate the most proximal level of
involvement. The distance from the proximal cuticle to the scored mark will be measured at
each visit on any involved hallux nail.
The photograph will be analyzed using ImageJ software version 1.4.1 ( HYPERLINK
"http://rsb.info.nih.gov/ij/docs/intro.html"http://rsb.info.nih.gov/ij/docs/intro.html), a
public domain Java image processing program inspired by NIH Image written by Wayne Rasband (
HYPERLINK "mailto:wayne@codon.nih.gov"wayne@codon.nih.gov), Research Services Branch,
National Institute of Mental Health, Bethesda, Maryland, USA. The software will be used by
an expert PathoLase photo-evaluator to measure the linear distance of non-involved toenail
(e.g., clear of infection) immediately before treatment (baseline) and 6 months.
Withdrawal and End of Participation
A participant is free to withdraw from the study at any time, for any reason without
prejudice to their future medical care by the physician or at the institution. The
Investigator also has the right to withdraw participants from the study in the event of
intercurrent illness, adverse events, administrative, or other reasons unrelated to the
study if such a decision is in the subject's best medical interest.
When a participant withdraws from the study, all assessments required at the 6-month study
visit will be obtained, where possible. All details available will be reported and recorded
for any subject who withdraws from the study. Participants, who wish to withdraw from
treatment, will be encouraged to return for their 6-month study visit to complete the
required examination.
If a participant is lost to follow-up, at least 3 documented attempts must be made to
contact the subject, one of which must include sending a certified letter to the
participant's last known address, which includes a request to return to the study site for
final study evaluations.
Participants who fail to return for their 6-month visit will be considered failures (i.e. no
microbiological cure) unless a nail clippings were obtained from a prior visit and confirmed
as microbiological cure.
Information on whether microbiological cure was achieved during the study will be shared
with subjects as well as their health care providers.
At the completion of study procedures, laser treatment will be offered to control group
participants as well as to intervention group participants who wish to have additional toes
treated.
Risks and Discomforts The following is a list of risks and possible discomforts associated
with the FOX Nd:YAG 1064 nm laser. Precise estimates of the percentage occurrence of these
side effects are not available given the limited number of pilot studies available.
Usual side effect:
Feeling of warmth, heat, or tingling at the laser target site (only during treatment
Rare side effects:
Discoloration/burn marks on surface of the nail Slight or mild pain (only during treatment)
Redness of the treated skin around the nail (lasting 24-72 hours)
Rare laser effect:
Sometimes the laser creates 'sparks' on the surface of the nail - this does not cause any
problems
Extremely rare laser effects (did not occur during clinical studies):
Blistering of the treated skin around the nail Scarring of the treated skin around the nail
Significant side effects were not reported in several small pilot studies of the Nd:YAG 1064
nm laser. We will minimize the risk of side effects by using the laser strictly according to
the manufacturer-recommended protocol described in the intervention section above. We would
consider stopping the study early if severe side effects such as blistering and scarring are
unexpectedly observed in a significant proportion of study participants.
Side effects for the control group receiving topical terbinafine are to be expected as part
of the current standard of care. The known side effects of this conventional treatment are
detailed as below:
Dermatologic side effects (1-10%): Burning, contact dermatitis, dryness, exfoliation,
irritation, pruritus, rash Local side effects (1-10%): Irritation, stinging Statistical
Analysis
Analysis Supporting the Primary Objective
The primary outcome measure is the proportion of participants with microbiological cure (by
KOH and culture) by 6 months post-baseline treatment. The null and research hypotheses
supporting the primary objective of investigating the impact of whether laser treatment,
using the FOX Nd:YAG 1064 nm device, is more effective in the treatment onychomycosis in
comparison to conventional therapy (topical terbinafine) is then:
H0: pc ≥ ptr vs. H1: pc < ptr where pc and ptr are the proportion of subjects with
microbiological cure (by KOH and culture) by 6 months post-baseline treatment, within the
control group, and the laser group respectively. Here, rejecting the null hypothesis implies
that the proportion of participants achieving microbiological cure is higher in the laser
group. A 1-sided, 0.05 alpha-level Fisher's exact test for proportions will be used.34
The rate of each safety outcome (feeling of warmth/heat/tingling, discolouration or burn
marks, pain, redness, sparks, blistering, scarring), and accompanying 95% exact binomial
confidence interval, will be calculated.
Sample Size Considerations
Based on previous studies, terbinafine may be associated with cure rates of approximately
50% (when given for a full three month course).18 The success rate of the FOX laser group
has not been thoroughly investigated. Table 2 provides the power to detect various true
differences between the control and laser groups where the control group is assumed to have
a success rate between 40% and 60%. A sample size of 80 subjects in a 1:1 randomization to
the control and laser arm will provide a power of 80% to reject the null hypothesis if the
laser arm true cure rate in the control arm is 79% and the control arm is achieves a cure
rate of 50%. If the success rate in the control group is as high as 60%, a difference of 26%
between the groups will be detectable with 80%. If the true difference is 34% or greater, it
will be detected with at least 90% power. For a total sample size of 100, a true difference
of at least 31% will be detectable with at least 90% power, a reduction of only 3%.
Similarly, for a total sample size of 60, the difference must be at least 39% to be detected
with at least 90% power, an increase of 4%.
Human Subjects Protection This study will be conducted in accordance with the ethical
principles originating from the Declaration of Helsinki and Good Clinical Practices (GCP)
defined in ICH E6 and in compliance with provincial and national regulatory requirements.
Justification for exclusion of children
Justification for exclusion of other vulnerable subjects (Vulnerable subjects include who
lack consent capacity, mentally ill, prisoners, cognitively impaired subjects, pregnant
women, etc.
Justification of sensitive procedures Our study does not involve the use of placebo,
medication withdrawal, provocative testing, or deception.
Safeguards for vulnerable populations:Females of childbearing potential must agree to
practice sexual abstinence or use a medically acceptable method of contraception for the
duration of the study and for at least 1 month after the last day of test article
administration Anticipated Benefit Study participants randomized to the medication group
will receive the current best available treatment for onychomycosis. Participants who fail
to be cured by this treatment will have the option to undergo treatment with the laser
following the 6 month study visit. It is possible that participants randomized to the laser
treatment will be more likely to be cured than the standard treatment.
Consent documents and process All subjects for this study will be provided with a consent
form describing this study and providing sufficient information for subjects to make an
informed decision about their participation in this study. This consent form will be
submitted with the protocol for review and approval by the REB for the study. The formal
consent of a subject, using the REB approved consent form, must be obtained before that
subject undergoes any study procedure. The consent form must be signed by the subject or by
a legally acceptable surrogate, and the Investigator and/or designated research professional
obtaining the consent. A copy of the signed and dated informed consent form must be given to
the subject and the consent process must be documented.
Quality Assurance Before enrolling any subjects in this study, the Investigator and other
staff will review the protocol, the source documents and instructions for their completion,
the procedure for obtaining informed consent, and the procedure for reporting AEs and SAEs.
Collected data will be reviewed for completeness on a monthly basis and include a review of
missing data elements, missing or out-of-window visits, and any other anomalies.
Adverse event and unanticipated problem reporting
Adverse Events
An adverse event (AE) can be any unfavourable and unintended sign, symptom, or disease
temporally associated with the use of an investigational product. The event does not need to
be causally related to the test article or clinical study. An AE includes, but is not
limited to, the following:
Any clinically significant worsening of a pre-existing condition. An AE occurring from
overdose of a test article, whether accidental or intentional. Overdose is a dose greater
than the dose (i.e. laser intensity) specified for each test article in section 4.2.
An AE occurring from abuse (e.g., use for nonclinical reasons) of a test article.
An AE that has been associated with the discontinuation of the use of a test article.
The severity of all adverse events is graded as follows:
Mild
Signs or symptoms, usually transient, requiring no special treatment and generally not
interfering with usual activities
Moderate
Signs or symptoms, which may be ameliorated by simple therapeutic measures, may interfere
with usual activity.
Severe
Signs or symptoms that are intense or debilitating and that interfere with usual activities.
Recovery is usually aided by therapeutic measures and the discontinuation of the study
device may be required.
The relationship of each adverse event to the study was defined as follows:
Probable
An adverse event has a strong temporal relationship to study device, and another etiology is
unlikely or significantly less likely.
Possibly
An adverse event has a strong temporal relationship to the study device, and an alternative
etiology is equally or less likely compared to the potential relationship to study device.
Not related
An adverse event has no temporal relationship to study device or has a much more likely
alternative etiology.
Serious Adverse Events
A serious adverse event (SAE) is an AE that:
Results in death; Is life-threatening, i.e., an event that places the subject, in the view
of the Investigator, at immediate risk of death from the event as it occurred (does not
include an event that, had it occurred in a more severe form, might have caused death);
Requires inpatient hospitalization or prolongation of an existing hospitalization; Results
in persistent or significant disability or incapacity; Results in cancer; Results in a
congenital anomaly or birth defect; Other medically important events that in the opinion of
the Investigator may jeopardize the subject or may require intervention to prevent one of
the other outcomes listed in the definition above; Any serious problem associated with the
device that relates to the rights, safety or welfare of study subjects.
Reportable Incidents
According to the Canadian Medical Devices Regulations (Sections 59 and 81), a reportable
incident is any incident that:
Is related to a failure of the device or a deterioration in its effectiveness, or any
inadequacy in its labeling or in its directions for use; and Has led to the death or a
serious deterioration in the state of health of a participant, user or other person, or
could do so were it to recur.
Efficacy Endpoints and Disease Progression Event
In general, an event of treatment failure or lack of treatment efficacy is not considered an
SAE. If, however, it results in a situation that qualifies as an SAE as defined above, it
should be reported. Treatment failure/lack of efficacy will be captured on the clinical
evaluation source documents and, if it results in discontinuation of test article or
withdrawal from the study, should be captured on those source documents as well.
Recording of Adverse Events
At each contact with the subject, the Investigator will seek information on adverse events
by specific questioning and, as appropriate, by examination of the subject. Information on
all adverse events should be recorded immediately. All clearly related signs, symptoms, and
abnormal diagnostic procedure results should be recorded, though should be grouped under one
diagnosis.
All adverse events occurring during the study period must be recorded. The clinical course
of each event should be followed until resolution, stabilization, or until it has been
determined that the study treatment or participation is not the cause.
Confidentiality
Information about study subjects will be kept confidential and managed according to the
requirements of the Federal and Provincial Data Protection regulations, including the
Personal Information Protection and Electronic Documents Act (PIPEDA 2000). Those
regulations require signed subject authorization, informing the subject of the following:
What protected health information (PHI) will be collected from subjects in this study; Who
will have access to that information and why; Who will use or disclose that information; The
rights of a research subject to revoke their authorization for use of their PHI.
In the event that a subject revokes authorization to collect or use PHI, the Investigator,
by regulation, retains the ability to use all information collected prior to the revocation
of subject authorization. For subjects that have revoked authorization to collect or use
PHI, attempts should be made to obtain permission to collect at least vital status (i.e.
that the subject is alive) at the end of their scheduled study period.
Data Access
Data will be stored in electronic medical records within the clinical practice. Data will be
accessed only by study investigators or the study statisticians. Individual level data will
be identified only with study registration numbers.
Records Retention
The Investigator shall retain and preserve electronically all data generated in the course
of the study, specifically including but not limited to those defined by GCP as essential
for 25 years from the date of the completion of the study.
Conflict of Interest Study investigators have no financial interests relating to the laser
or medication arms of these studies.
;
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