Actinic Keratoses Clinical Trial
Photodynamic therapy (PDT) uses visible light to treat a premalignant condition, called actinic keratosis, which results on chronically sun exposed skin such as on a balding scalp. A cream is applied containing aminolaevulinic acid or methyl aminolaevulinate and this is converted in the cells to the photodegradable product protoporphyrin IX (PpIX). Visible light causes the degradation of PpIX resulting in the production of reactive oxygen species and then cell death in the actinic keratosis. In conventional PDT a lamp is used to supply the visible light. The main draw back to treatment is pain. Recent studies have shown that daylight can be used as the source of visible light and is as effective as conventional PDT. Patients find this form of treatment less painful and therefore preferable. The reduction in pain seen in daylight PDT appears to be related to the fact that no significant quantity of PpIX accumulates prior to exposure to the light source and small quantities of PpIX are activated continuously during daylight exposure. The drawback of performing daylight PDT in Ireland is the climate, both in terms of cloud cover and temperature. The typical daylight treatment times is 2 hours and it would be difficult for patients to stay outside in winter, spring and autumn. This study investigates the use of an artificial white light source, a Maquet PWD 50SF theatre-light, as an alternative.
Study Summary:
Title:
A Randomized Single-blinded, Prospective Study to compare a Maquet PWD 50SF theatre-light as
a light source with natural daylight for the application of photodynamic therapy (PDT) to
treat actinic keratoses.
Photodynamic therapy (PDT) is of proven efficacy for treatment of actinic keratosis (AK) and
is increasingly used internationally. It involves the topical application of
5-aminolaevulinic acid cream (ALA) or its methyl ester methyl 5-aminolaevulinic acid (MAL),
which is absorbed into the AK and converted into a photosensitizing compound protoporphyrin
IX. When the AK is then exposed to visible light an oxygen dependent photochemical reaction
is induced which results in cell death through apoptosis and necrosis.
Pain is the main limiting factor with PDT. Recently researchers have used natural daylight
as the source of visible light for photodynamic therapy, a process called daylight PDT. This
has been found to be equally effective as conventional PDT but less painful. Patients prefer
this treatment option and in fact in Copenhagen, where they routinely offer daylight PDT
from April to October, they have found that patients will frequently opt to defer their
treatment until a time of year when daylight PDT is an option. The drawback of performing
daylight PDT in Ireland is the climate, both in terms of cloud cover and temperature. The
typical daylight treatment time is 2 hours and it would be difficult for patients to stay
outside in winter, spring and autumn. This study investigates the use of an artificial white
light source as an alternative.
It is not known what is the light dose required to effectively treat AK's, but a study on
daylight PDT in Copenhagen found no difference in treatment outcome above 8 J cm-2.
The pain experienced with PDT may relate to the accumulation of PpIX and the short
accumulation time of 30 minutes used in daylight PDT may account for some of the reduction
in pain experienced with daylight PDT. With PpIX photography it can be demonstrated that
with daylight PDT (incubation 30 mins) almost no accumulation of PpIX occurs yet the local
reaction (erythema and erosions) and the clinical response indicate that the photodynamic
reaction is taking place. Perhaps the key to the tolerability and efficacy of daylight PDT
is not allowing so much PpIX to accumulate. The reduction in pain and the efficacy may
result from the continuous activation of small quantities of PpIX. It is known from studies
looking at PpIX accumulation in psoriasis that PpIX can still be identified in the skin up
to 14 days after application of ALA. If the patient spends time outdoors in the days after
PDT it is likely that small quantities of PpIX continue to be activated.
Daylight PDT has to date been studied exclusively in Nordic countries and has proved
effective, despite the fact that these countries have a relatively low daylight irradiance.
Wiegell et al have studied the PpIX light dose at various latitudes between the July and
December months. They found that in Copenhagen, Denmark, a country at similar latitude to
Ireland (55 degrees north in the former versus 53 degrees north in the later) it was
possible to receive a light dose above 8 J cm-2 in 2 hours on nearly every day in July,
August and September. In the first three weeks of October this fell to 16 out of 21 days.
They also associated the weather conditions with the light dose and in Copenhagen they found
that the mean light dose in 2 hours in July and August was 10.6 J cm-2 on rainy days, 30.7 J
cm-2 on partly sunny days and 38.3 J cm-2 on sunny days. It was also determined that weekly
mean temperatures need to be 10 degrees or higher for a patient to be comfortably treated
outdoors. Therefore, patients are treated with daylight PDT in Copenhagen from 20th April to
the 24th October.
A large multicenter study of daylight PDT found no difference between 2 hours and 3 hours
daylight exposure.
In Copenhagen they perform daylight PDT from April to October and only reschedule the
treatment if the day is very rainy and overcast.
The investigators propose to study the use of the Maquet PWD 50SF theatre light as an
alternative light source to daylight. This would provide a year-round, well-tolerated
treatment option for patients.
The Maquet PWD 500 theatre light source has been chosen for a number of reasons:-
1. It has a suitable spectrum, i.e., it emits radiation in the wave band that reacts most
efficiently with the PpIX to give the optimum response,
2. It does not emit UV radiation which this patient subgroup is particularly sensitive to.
3. There is no infrared (IR) radiation emitted which can cause heating and therefore
further complications.
4. It has an ideal size and geometry for treating the head.
5. The output and distribution of LEDs is optimal for this application.
Study protocol:
Based on prior studies of similar design, aiming for a significance level of 0.05 and a
power of 0.80 and on the assumption that the smallest clinically important mean difference
is 15% and the standard deviation of the difference in response is 25%, at least 22 patients
need to be enrolled in this study.
The investigators will enrol these patients from the patients who have been referred for
PDT. For inclusion patients must be in generally good health and attending for treatment of
AKs on the scalp or face. Two symmetrical treatment fields will be defined. AKs in each
treatment area will be counted, graded, mapped and photographed. Grading will be according
to Olsen et al ; I, mild (more easily felt than seen), II, moderate (easily felt and seen),
III, severe (thick obvious AK). Sunscreen with a protection factor of 20 will be applied to
all sun exposed areas including the treatment areas (P20; Riemann & Co. A/S, Hilleroed,
Denmark). This sunscreen has been chosen to avoid potential absorption of wavelengths
activating protoporphyrin IX. In all patients hyperkeratotic lesions will be pre-treated
with paraffin gel to remove keratotic debris, carefully avoiding bleeding. No patient will
receive pre-treatment analgesia.
All patients will be randomized to determine which side of the scalp is treated first.
Randomization will be achieved by the patient choosing an envelope with a card marked right
or left. Approximately 1 gram of MAL cream will be applied on the right treatment field.
They will then initially have treatment daylight PDT ,weather permitting. The treatment for
the second side will be PDT using a Maquet PWD 50SF theatre-light as a light source. After
MAL application patients will be instructed to start daylight exposure after 30 minutes or
will be positioned below the Maquet PWD 50SF theatre-light. Exposure to daylight or the
Maquet PWD light will then be discontinued after 2 hours.
The second treatment field will be treated one week later so that each patient will have
daylight PDT to one treatment area and PDT using the Maquet PWD 50SF theatre light as a
light source to the other treatment area.
Prior to treatment in both groups fluorescence will be graded on a scale of 1 -3, using a
Wood's light; one being light/pale, 2 being moderate and 3 being strong.
For daylight PDT patients will record how long they sat outside and what the weather
conditions were like. Any interruption to light exposure must be recorded.
For both treatments patients will rate their pain using a visual analogue score (VAS)
(1-100) at 1, 30, 60, 90 and 120 minutes. To use this patients move a counter along a 100 mm
scale from "no pain" to "worst pain ever". The flip side of the scale indicates the score
numerically. A nurse will record the numerical pain score and patients will not be aware of
this value. If treatment has to be discontinued because of pain the timing of this will be
recorded. Adverse events will be recorded.
Patient will be reviewed between 1 and 3 days following treatment for adverse events.
Patients will be assessed for local reactions such as erythema and erosions and asked to
indicate how long pain persisted. To assess clinical response patients will be assessed 28
days after their last treatment. The investigators will record if patients had a preference
for one treatment modality. The investigators will use the baseline map and categorize
response for AK lesions as complete response or non-complete response. Patients will
similarly be assessed at 3 months, 6 months and 9 months for clinical response.
The primary endpoint will be complete response rates of AKs. Secondary endpoints will be
pain scores, adverse effects and patient preference.
;
Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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