- Email: [email protected]
Light mask 500 lux treatment for delayed sleep phase syndrome
Pq.
Nem-Psychopharmacol.
&Bid
Psychiat
Copydght Printed
1999. Vol. 23, pp. 15-24 8 1999 Elsevler Science Inc.
in the USA.
All rights reserved
027%5846/99/$-see
ELSEVIER
front
matter
PI1 !30278-6846(98)00088-8
LIGHT MASK 500 LUX TREATMENT FOR DELiWED SLEEP PHASE SYNDROME KATSUHISA ANDO’, 3, DANIEL F. KRIPKEl, ROGER J. COLE2 and JEFFREY A. ELLIOTT’
l Department
of Psychiatry, University of California, San Diego, San Diego, California, USA 2 Synchrony Applied Health Sciences, San Diego, California, USA
(Final form, November
1998)
Abstract Ando, Katsuhisa, Daniel F. Kripke, Roger J. Cole and Jeffrey A. Elliott: Light Mask 500 Lux Prog. Neuro-Psychopharmacol. & Biol. Treatment for Delayed Sleep Phase Syndrome. Psychiat. 1999. a, pp. 15-24. 01999 Elsevier Science Inc.
Bright light exposure has been demonstrated as an effective treatment for circadian rhythm sleep disorders. Recent studies suggest that more moderate intensities of light A light mask treatment, using light applied through might affect endogenous rhythms. eyelids during sleep, was tested for Delayed Sleep Phase Syndrome. The active light group (n=5) received 500 lux light for 3 hours prior to awakening for 12 days. The placebo light group (n=5) received 0.1 lux light with the same timing. Circadian rhythm phase was assessed from core body temperature and urinary 6 The SIGH-SAD-SR mood scale was administered to sulfatoxymelatonin measurements. assess mood. There were slight trends toward a phase advance of the body temperature rhythm and a phase delay of the melatonin rhythm, and both groups reported anti-depressant benefits. However, no statistically significant effects of 500 lux light mask treatment were demonstrated compared with the placebo-light treatment. More extensive studies will be required to clarify the factors of dose-response and phaseresponse.
circadian, disorder, temperature
Kevwords:
delayed
sleep phase
delayed sleep phase (aMTGs), sleep disorder, temperature
syndrome,
syndrome
3 Present address: Department of Psychiatry of Medicine, Hamamatsu.
light,
(DSPS),
6sulfatoxymelatonin,
urinary
6sulfatoxymelatonin
and Neurology, Hamamatsu Shizuoka, Japan
15
sleep
University
School
K.Ando et al.
16
Introduction
Delayed Sleep Phase Syndrome (DSPS) is a circadian rhythm sleep disorder in which the major sleep episode is delayed in relation to the desired sleep time.
Clinically, the patients
complain of chronic difficulty in falling asleep and difficulty awakening.
Their efforts to
advance sleep timing have little success, and hypnotics give little or no benefit (Weitzman et al., 1981; ASDA Diagnostic Classification
Steering Committee, 1990).
Because light with 3000 lux or more is thought to be effective to shift biological rhythms in humans,
early
Nevertheless,
morning
light treatment
recent studies
endogenous rhythms.
suggest
of several
that much
thousand
lux is applied
lower intensities
of light
for DSPS.
might
affect
Some studies have shown that a few hundred lux or less can suppress
nocturnal plasma melatonin levels (Lewy et al., 1985; Bojkowski et al., 1987; Brainard et al., 1988).
One study demonstrated that 300-500 lux light shifted rectal temperature and plasma
melatonin
rhythms
(Honma et al., 1995).
indicated that phase-shifts
of body temperature
through the eyelids during sleep. simulating
A preliminary
study (Cole and Kripke,
1991)
could be achieved with light masks shining
Moreover, rather dim light administered
late in sleep,
dawn light, might tend to correct circadian phase among patients with phase
delays related to seasonal affective disorder (Terman and Schlager, 1990; Avery et al., 1992; Avery et al., 1993; Avery et al., 1994).
In light mask and dawn simulation studies, the light
reaching the retina was truly dim, because light intensities were reduced to a few percent or less by closed eyelids (Moseley et al., 1988; Robinson et al., 1991; Ando and Kripke, 1996).
This study tested a light mask treatment for DSPS, using 500 lux applied to the eyelids late in sleep.
A low illumination
level, hypothetically
optimal
exposure
time, and a special
illumination pattern were combined.
Methods
The study protocol was approved by an Institutional
Review Board of the University
of
Light mask 500 Iux treatment California,
Diagnoses of delayed sleep phase syndrome were made according to
San Diego.
the criteria
of the
Classification
Steering Committee, 1990).
International
Classification
of Sleep
Disorders
Paid volunteers were recruited by newspaper advertisements interviews with responders (N=llS),
drug users were excluded.
An oral explanation
(ASDA
and fliers.
Diagnostic
After telephone
those who described delayed sleep-wake patterns were Shift workers or psychotropic
asked to record sleep logs for two weeks at home for screening.
obtained.
17
for DSPS
All selected volunteers were in good general health.
of the procedure was provided
and written informed
consent was
To balance severity of syndromes. volunteers were stratified into two groups by
bedtime before or after OZOOh,based on the Z-week screening sleep log data.
Then, subjects
were randomly
within strata.
assigned
to the active light or the placebo
Studies were performed throughout the year. experimental
instructions,
and general compliance
light condition
Volunteers were well-motivated
to follow the
because they had been suffering severely from sleep disturbance, was excellent.
However,
one volunteer
influenza, and one was dropped due to insufficient compliance.
dropped out because
of
Of 12 volunteers who met
DSPS criteria, data from 10 volunteers (5 active and 5 placebo) were available.
EcWment
A fiber-optic system was integrated into sleep eyeshades to deliver cool and diffuse light through closed eyelids.
A white halogen light, a power control and a timing unit were
mounted in a remote box to control illumination standardize illumination
intensities.
The system was designed to
striking the eyelids independent of body position in bed.
Study Design
The
study
randomization
employed
a
baseline-vs-treatment
within-subject
between active and placebo light. treatments.
design
with
parallel
Studies were performed in the
homes of volunteers between October, 1994 and October, 1995.
The start days of the study
schedule were fixed on weekends. Subjects’ retiring times and awakening times were not fixed, and their activity and light exposures
during the daytime were not restricted,
to permit
K.Ando et al.
18
customary activities,
For one week prior to light treatment, data were collected while volunteers were encouraged to maintain
their typical sleep/wake
schedule (day(D) -7 to D 0; baseline).
baseline, volunteers received 12 nights light treatment (D 1 to D 12). when going to bed, and was removed after awakening. hours of 500 lux light during late sleep. linear pattern over 30 minutes,
starting
Illuminance
Following the
The mask was put on
The active light group received 3
was gradually increased in an almost
3.5 hours before projected
wake-up
placebo light group received 0.1 lux light for 3 hours with the same timing.
time.
The
Light intensities
were calibrated prior to each light treatment period, by placing the photo sensor of a lux meter where the eyelids overlying the cornea would be positioned when the mask is worn.
Data Collection
Core Body Tern::
For rectal temperature
probes (Yellow Springs Instrument
recording,
thin flexible
temperature
4400 series) were inserted into the rectum for about 48
hours at the end of baseline (D -2 to D 0) and after the treatment periods (D 12 to D 14). probes were connected to a wrist-mounted every minute.
The
recording device, which stored core temperature
The time of the minimum temperature (BTmin) was defined as the time when
the minimal temperature value of the 24-hour period was recorded. nights were calculated for baseline and post-treatment,
6Sulfatoxvmelatonin:
The averages of the 2
respectively.
Urine specimens were collected for two periods of
two nights each during body temperature monitoring (D -2 to D 0 and D 12 to D 14).
For each
night, urines were collected at one-hour intervals from 2 hours before projected bed time to 2 hours after awakening. awakening.
The sleep interval was represented by a single urine collection at
When urination was necessary during sleep, the extra specimens were collected.
Five or more specimens were sampled per overnight. each sample were recorded.
The time of collection and volume of
A 2-ml aliquot from each sample was frozen.
During the period
of urine collection, between 2 hours before and 2 hours after sleep, subjects stayed indoors and wore dark goggles if the light indoors or outdoors was bright.
Urinary aMT6s concentrations
were determined
by radioimmunoassay
(Aldous, Arendt,
Light mask 500 Iux treatment for DSPS 1988) with reagents supplied by Stockgrand LTD, Guildford,
19
UK.
The amount of urinary
aMT6s per hour (hourly excretion rate) was calculated from the concentration
Data points were set at the
volume of each voiding and the elapsed time between samples. mid time of each urine sampling period. the interpolated
of aMTGs, the
The aMT6s excretion mid-rise (MT50) was defined as
time of rising to 50% of the maximum excretion value of the night.
Single-
night data were used for each estimation, and results of two nights were averaged for baseline and post-treatment,
SleeD
respectively.
During the baseline period (D -7 to D 0) and after the treatment period (D 12 to
D 20), sleep logs were completed to indicate bedtimes and out-of-bed times.
Mood S&:
The SIGH-SAD-SR
treatment, and immediately
(Williams et al., 1990) was completed at baseline, during
after treatment (D -2, D 5 and D 12).
It is a self-administration
form including the standard Hamilton Depression Rating items plus 8 items associated with Seasonal Affective Disorder.
The comparisons for variables between active and placebo light treatments within baseline and post-treatment
were statistically
analyzed by ANCOVA
with the baseline data as the
covariate.
In the active light group, the mean age was 34.41S.D. 13.8 years (4 males and 1 female). the placebo light group, the mean age was 32.6hS.D. 8.1 years (3 males and 2 females). bedtime
based on the sleep log during screening
minutes,
respectively.
bedtime
after 0200h.
was 0239h*60
In the active group 3 and in the placebo No significant
found in age or in screening bedtime.
differences
between
minutes,
In
Mean
and 0207hh43
group 4 volunteers
the two treatment
had
groups were
K. Ando et al.
20
Four pairs of rectal temperature data were available in active and placebo light conditions, because two post-treatment
recordings were not completed.
For urine melatonin,
sleep log,
and mood scale, 5 subjects were available in each treatment condition.
The time of the minimum
temperature
(BTmin) advanced by 54iS.D.
063711 (baseline) to 054311 (post-treatment)
69 minutes
from
in the active light group, and delayed by 1sS.D.
171 minutes from 072311 to 074211 in the placebo light group.
ANCOVA with the baseline
BTmin as the covariate showed no significant treatment effect.
(Table 1)
Urinary aMT6s excretion
was analyzed
considering
(Table 1) suggested that the timing of melatonin receiving min.).
excretion
mid-rise
@ITso).
Results
secretion delayed more among volunteers
500 lux (86rtS.D. 117 min.) than among those receiving placebo light (5hS.D. 66
ANCOVA with the baseline MT50 as the covariate was not significant.
Table 1 Circadian Phase of Core Temperature
Core body temperature (BTmin) Baseline Post-treatment. Urinary 6-sulfatoxymelatonin @ITso) Baseline Post-treatment
and Urinary Melatonin
Active Light Group
Placebo Light Group
0637h f 34.9min 0543h f 43.4min
0723h f 46.2min 0742h f 117.8min
0242h f 77.6min 0408h f 15l.lmin
0350h f 96.9min 0355h f 61.5min
Both into-bed time and out-of-bed time on sleep log advanced in active light group (by 67 minutes and 71 minutes respectively), placebo
light
ANCOVA.
group.
However,
whereas only several minute changes were shown in
analyses
showed
no significant
treatment
effect
with
Total sleep period showed no significant change by treatment (Table 2).
The mean 29-item SIGH-SAD
scores declined
from 21.4 to 15.2 from baseline
to post-
treatment among subjects receiving 500 lux, and from 14.2 to 8.6 among subjects receiving placebo.
ANCOVA showed no significant treatment effects in total scores (Table 2).
Light mask 500 Iw treatment for DSPS
21
Table 2 Sleep Log and Mood Scale
Sleep log Into-bed time Baseline Post-treatment Out-of-bed time Baseline Post-treatment Total Sleep Period Baseline Post-treatment SAD 29-item Baseline Post-treatment
Active Light Group
Placebo Light Group
0233h f 85.3min 0126h f 886min
0145h f 25.0min 0155h f 43.lmin
095411 f 89.2min 0843h f 100.5min
0927h f 70.7min 0928h f 14.6min
442min f 14min 437min f 34min
462min f 66min 453min f 39min
21.4 f 14.3 15.2 f 15.0
14.2 f 5.6 8.6 f 5.2
Discussion
There was a slight trend for temperature
phases in the 500-1~~ treated group to advance
during treatment, as compared to placebo, whereas the phase of melatonin rise was delayed in the treated group. Sleep log data suggested that, by the volunteers’ perception, light treatment was effective in advancing sleep periods. benefit.
Both groups reported considerable anti-depressant
However, no statistically significant benefits of 500 lux light mask treatment were
demonstrated as contrasted to the 0.1 lux placebo-treated
group in this small sample.
Even with a small number of subjects in each group, the experimental had sufficient power to demonstrate
design would have
large treatment benefits of clinical value, but it would
appear that any advantage of active treatment on circadian phase or sleep timing was not large for most volunteers.
It is possible that a longer duration of treatment would have been
more effective, although we had expected 12 days of treatment to produce much of the benefit which might be obtained with long-term experimental
illumination
pattern
treatment.
more closely
There is the possibility
approximated
the rising
that had the light of dawn
(Terman and Schlager, 1990; Avery et al., 1992), that a greater effect might have been derived, though we know of no specific data demonstrating
that dawn simulation patterns are more
K.Ando et al.
22
effective in humans than continuous light at the end of sleep.
Brighter illumination
would
possibly be more effective, as suggested by a subsequent study with 3000 lux performed with similar
light masks
designed
without
(Cole et al., 1996).
first evaluating
sleep/wake rhythm.
Light treatment
endogenous
phase,
schedules
have usually
using the timing
Because, in DSPS patients, the endogenous
reference
been of the
circadian system may be
delayed in reference to the sleep/wake rhythm (Morris et al., 1990) light might not have been presented at the optimal phase of the circadian night (Minors et al., 1991). studies
will
be required
to separate
the factors
of dose-response
More extensive
and phase-response
empirically.
Although no volunteers were suffering from major depression, their self-reported depression scores were above average, and their scores improved quite dramatically The initial SIGH-SAD scores and the degree of improvement
during treatment.
noted in the volunteers receiving
active treatment were similar to what has been reported with light treatment of seasonal affective disorders (Avery et al., 1992; Avery et al., 1993; Avery et al., 1994), however, the problem of distinguishing
active treatment from placebo effects was also similar (Eastman et
al., 1992).
Although this study suggested that moderate light treatment with 500 lux was not effective enough, active and placebo benefits might be distinguished with sufficient numbers of subjects, with more attention
to suggestion
effects in the procedures
(e.g., elimination
of placebo-
responders in a prospective placebo phase), or with lengthier durations of treatment.
AcknowleW
This research was supported by AG123641 and MH001171.
Katharine M. Rex, William J.
Mason, Shawn D. Youngstedt, Melville R. Klauber and Joseph D. Assmus assisted this study.
23
Light mask 500 lux treatment for DSPS
Radioimmunoassay ALDOUS, M. and ARENDT, J. (1988) an iodinated tracer. Ann Clin Biochem 25: 298303. ANDO, K. and KRIPKE, Psychiatry 29: 22-25.
D.F. (1996)
Light attenuation
of 6sulphatoxy
melatonin using
by the human
eyelid.
Biol
ASDA DIAGNOSTIC CLASSIFICATION STEERING COMMITTEE (1990) The International Classification of Sleep Disorders: Diagnostic and Coding Manual, American Sleep Disorders Association, Rochester, pp l-396. Gradual versus AVERY, D.H., BOLTE, M.A.P., COHEN, S.A. and MILLET, M.S. (1992) J Clin Psychiatry a: 359-363. rapid dawn simulation treatment of winter depression. AVERY, D.H., BOLTE, M.A., DAGER, S.R., WILSON, L.G., WEYER, M., COX, G.B., and DUNNER, D.L. (1993) Dawn simulation treatment of winter depression: A controlled study. Am J Psychiatry m: 113-117. AVERY, D.H., BOLTE, M.A., WOLFSON, J.K. and KAZARAS, A.L. (1994) Dawn simulation Biol Psychiatry x6: compared with a dim red signal in the treatment of winter depression. 181-188. BOJKOWSKI, C.J., ALDHOUS, M.E., ENGLISH, J., FRANEY, C., POULTGN, A.L., SKENE, D.J. and ARENDT, J. (1987) Suppression of nocturnal plasma melatonin and 6sulphatoxymelatonin by bright and dim light in man. Horm Metab Res l_$!:437-440. BRAINARD, G.C., LEWY, A.J., MENAKER, M., FREDRICKSON, R.H., MILLER, L.S., WELEBER, R.G., CASSONE, V.M. and HUDSON, D.J. (1988) Dose-response relationship between light irradiance and the suppression of plasma melatonin in human volunteers. Brain Res a: 212-218. COLE, R.J. and KRIPKE, D.F. (1991) Light exposure during sleep with a bright light mask: Sleep Res 2Q: 450. effects on human body temperature rhythm. COLE, R.J., COLE, L.M., KRIPKE, D.F., ANDO, K. and ELLIOTT, J.A. (1996) Light mask 3000 lux treatment for delayed sleep phase syndrome. Sot Light Treatment Biol Rhythms 8: 20. EASTMAN, C.I., LAHMEYER, H.W., WATELL, L.G., GOOD, G.D. and YOUNG, M.A. (1992) A placebo-controlled trial of light treatment for winter depression. J Affect Disord 26: 211-221. HONMA, K., HONMA, S., NAKAMURA, K., SASAKI, M., ENDO, T. and TAKAHASHI, T. (1995) Differential effects of bright light and social cues on reentrainment of human circadian rhythms. Am J Physiol268: R528535. LEWY, A.J., NURNBERGER, J.I., WEHR, T.A., PACK, D., BECKER, L.E., POWELL, R. and NEWSOME, D.A. (1985) Supersensitivity to light: possible trait marker for manicdepressive illness. Am J Psychiatry &Q: 725-728.
24
K. Ando et al.
MINORS, D.S., WATERHOUSE, J.M. and WIRZ-JUSTICE, response curve to light. Neurosci L&t m: 36-40. MORRIS, M., LACK, L. and DAWSON, temperature rhythms. Sleep 13: 1-14.
D. (1990)
A. (1991)
Sleep-onset
A human
insomniacs
phase-
have delayed
MOSELEY, M.J., BAYLISS, S.C. and FIELDER, A.R. (1988) Light transmission through the human eyelid: in vivo measurement. Ophthalmic and Physiological Optics 8: 229-230. ROBINSON, J., BAYLISS, S.C. and FIELDER, A.R. (1991) Transmission adult and neonatal eyelid in vivo. Vision Res a: X337-1840.
of light across the
TERMAN, M. and SCHLAGER, D.S. (1990) Twilight therapeutics, winter depression, melatonin, and sleep. In: Sleep and Biological Rhythms, J. Montplaisir and R. Godbout (Eds), pp 113-128, Oxford University Press, New York. WEITZMAN, E.D., CZEISLER, C.A., COLEMAN, R.M., SPIELMAN, A.J., ZIMMERMAN, J.C. Arch Gen Psychiatry 3: and DEMENT, W.C. (1981) Delayed sleep phase syndrome. 737-746. Seasonal WILLIAMS, J.B.W., LINK, M.J., ROSENTHAL, N.E. and TERMAN, M. (1990) affective disorder assessment tools packet. In: SLBTR 1988-1990: The Complete Works, M. Terman (Ed), pp 207-242, SLBTR, New York.
Inquiries and reprint requests should be addressed to:
Daniel F. Kripke, M.D. Department of Psychiatry University of California, San Diego, 0667 9500 Gilman Drive, La Jolla, CA 92093-0667 U.S.A.
Nem-Psychopharmacol.
&Bid
Psychiat
Copydght Printed
1999. Vol. 23, pp. 15-24 8 1999 Elsevler Science Inc.
in the USA.
All rights reserved
027%5846/99/$-see
ELSEVIER
front
matter
PI1 !30278-6846(98)00088-8
LIGHT MASK 500 LUX TREATMENT FOR DELiWED SLEEP PHASE SYNDROME KATSUHISA ANDO’, 3, DANIEL F. KRIPKEl, ROGER J. COLE2 and JEFFREY A. ELLIOTT’
l Department
of Psychiatry, University of California, San Diego, San Diego, California, USA 2 Synchrony Applied Health Sciences, San Diego, California, USA
(Final form, November
1998)
Abstract Ando, Katsuhisa, Daniel F. Kripke, Roger J. Cole and Jeffrey A. Elliott: Light Mask 500 Lux Prog. Neuro-Psychopharmacol. & Biol. Treatment for Delayed Sleep Phase Syndrome. Psychiat. 1999. a, pp. 15-24. 01999 Elsevier Science Inc.
Bright light exposure has been demonstrated as an effective treatment for circadian rhythm sleep disorders. Recent studies suggest that more moderate intensities of light A light mask treatment, using light applied through might affect endogenous rhythms. eyelids during sleep, was tested for Delayed Sleep Phase Syndrome. The active light group (n=5) received 500 lux light for 3 hours prior to awakening for 12 days. The placebo light group (n=5) received 0.1 lux light with the same timing. Circadian rhythm phase was assessed from core body temperature and urinary 6 The SIGH-SAD-SR mood scale was administered to sulfatoxymelatonin measurements. assess mood. There were slight trends toward a phase advance of the body temperature rhythm and a phase delay of the melatonin rhythm, and both groups reported anti-depressant benefits. However, no statistically significant effects of 500 lux light mask treatment were demonstrated compared with the placebo-light treatment. More extensive studies will be required to clarify the factors of dose-response and phaseresponse.
circadian, disorder, temperature
Kevwords:
delayed
sleep phase
delayed sleep phase (aMTGs), sleep disorder, temperature
syndrome,
syndrome
3 Present address: Department of Psychiatry of Medicine, Hamamatsu.
light,
(DSPS),
6sulfatoxymelatonin,
urinary
6sulfatoxymelatonin
and Neurology, Hamamatsu Shizuoka, Japan
15
sleep
University
School
K.Ando et al.
16
Introduction
Delayed Sleep Phase Syndrome (DSPS) is a circadian rhythm sleep disorder in which the major sleep episode is delayed in relation to the desired sleep time.
Clinically, the patients
complain of chronic difficulty in falling asleep and difficulty awakening.
Their efforts to
advance sleep timing have little success, and hypnotics give little or no benefit (Weitzman et al., 1981; ASDA Diagnostic Classification
Steering Committee, 1990).
Because light with 3000 lux or more is thought to be effective to shift biological rhythms in humans,
early
Nevertheless,
morning
light treatment
recent studies
endogenous rhythms.
suggest
of several
that much
thousand
lux is applied
lower intensities
of light
for DSPS.
might
affect
Some studies have shown that a few hundred lux or less can suppress
nocturnal plasma melatonin levels (Lewy et al., 1985; Bojkowski et al., 1987; Brainard et al., 1988).
One study demonstrated that 300-500 lux light shifted rectal temperature and plasma
melatonin
rhythms
(Honma et al., 1995).
indicated that phase-shifts
of body temperature
through the eyelids during sleep. simulating
A preliminary
study (Cole and Kripke,
1991)
could be achieved with light masks shining
Moreover, rather dim light administered
late in sleep,
dawn light, might tend to correct circadian phase among patients with phase
delays related to seasonal affective disorder (Terman and Schlager, 1990; Avery et al., 1992; Avery et al., 1993; Avery et al., 1994).
In light mask and dawn simulation studies, the light
reaching the retina was truly dim, because light intensities were reduced to a few percent or less by closed eyelids (Moseley et al., 1988; Robinson et al., 1991; Ando and Kripke, 1996).
This study tested a light mask treatment for DSPS, using 500 lux applied to the eyelids late in sleep.
A low illumination
level, hypothetically
optimal
exposure
time, and a special
illumination pattern were combined.
Methods
The study protocol was approved by an Institutional
Review Board of the University
of
Light mask 500 Iux treatment California,
Diagnoses of delayed sleep phase syndrome were made according to
San Diego.
the criteria
of the
Classification
Steering Committee, 1990).
International
Classification
of Sleep
Disorders
Paid volunteers were recruited by newspaper advertisements interviews with responders (N=llS),
drug users were excluded.
An oral explanation
(ASDA
and fliers.
Diagnostic
After telephone
those who described delayed sleep-wake patterns were Shift workers or psychotropic
asked to record sleep logs for two weeks at home for screening.
obtained.
17
for DSPS
All selected volunteers were in good general health.
of the procedure was provided
and written informed
consent was
To balance severity of syndromes. volunteers were stratified into two groups by
bedtime before or after OZOOh,based on the Z-week screening sleep log data.
Then, subjects
were randomly
within strata.
assigned
to the active light or the placebo
Studies were performed throughout the year. experimental
instructions,
and general compliance
light condition
Volunteers were well-motivated
to follow the
because they had been suffering severely from sleep disturbance, was excellent.
However,
one volunteer
influenza, and one was dropped due to insufficient compliance.
dropped out because
of
Of 12 volunteers who met
DSPS criteria, data from 10 volunteers (5 active and 5 placebo) were available.
EcWment
A fiber-optic system was integrated into sleep eyeshades to deliver cool and diffuse light through closed eyelids.
A white halogen light, a power control and a timing unit were
mounted in a remote box to control illumination standardize illumination
intensities.
The system was designed to
striking the eyelids independent of body position in bed.
Study Design
The
study
randomization
employed
a
baseline-vs-treatment
within-subject
between active and placebo light. treatments.
design
with
parallel
Studies were performed in the
homes of volunteers between October, 1994 and October, 1995.
The start days of the study
schedule were fixed on weekends. Subjects’ retiring times and awakening times were not fixed, and their activity and light exposures
during the daytime were not restricted,
to permit
K.Ando et al.
18
customary activities,
For one week prior to light treatment, data were collected while volunteers were encouraged to maintain
their typical sleep/wake
schedule (day(D) -7 to D 0; baseline).
baseline, volunteers received 12 nights light treatment (D 1 to D 12). when going to bed, and was removed after awakening. hours of 500 lux light during late sleep. linear pattern over 30 minutes,
starting
Illuminance
Following the
The mask was put on
The active light group received 3
was gradually increased in an almost
3.5 hours before projected
wake-up
placebo light group received 0.1 lux light for 3 hours with the same timing.
time.
The
Light intensities
were calibrated prior to each light treatment period, by placing the photo sensor of a lux meter where the eyelids overlying the cornea would be positioned when the mask is worn.
Data Collection
Core Body Tern::
For rectal temperature
probes (Yellow Springs Instrument
recording,
thin flexible
temperature
4400 series) were inserted into the rectum for about 48
hours at the end of baseline (D -2 to D 0) and after the treatment periods (D 12 to D 14). probes were connected to a wrist-mounted every minute.
The
recording device, which stored core temperature
The time of the minimum temperature (BTmin) was defined as the time when
the minimal temperature value of the 24-hour period was recorded. nights were calculated for baseline and post-treatment,
6Sulfatoxvmelatonin:
The averages of the 2
respectively.
Urine specimens were collected for two periods of
two nights each during body temperature monitoring (D -2 to D 0 and D 12 to D 14).
For each
night, urines were collected at one-hour intervals from 2 hours before projected bed time to 2 hours after awakening. awakening.
The sleep interval was represented by a single urine collection at
When urination was necessary during sleep, the extra specimens were collected.
Five or more specimens were sampled per overnight. each sample were recorded.
The time of collection and volume of
A 2-ml aliquot from each sample was frozen.
During the period
of urine collection, between 2 hours before and 2 hours after sleep, subjects stayed indoors and wore dark goggles if the light indoors or outdoors was bright.
Urinary aMT6s concentrations
were determined
by radioimmunoassay
(Aldous, Arendt,
Light mask 500 Iux treatment for DSPS 1988) with reagents supplied by Stockgrand LTD, Guildford,
19
UK.
The amount of urinary
aMT6s per hour (hourly excretion rate) was calculated from the concentration
Data points were set at the
volume of each voiding and the elapsed time between samples. mid time of each urine sampling period. the interpolated
of aMTGs, the
The aMT6s excretion mid-rise (MT50) was defined as
time of rising to 50% of the maximum excretion value of the night.
Single-
night data were used for each estimation, and results of two nights were averaged for baseline and post-treatment,
SleeD
respectively.
During the baseline period (D -7 to D 0) and after the treatment period (D 12 to
D 20), sleep logs were completed to indicate bedtimes and out-of-bed times.
Mood S&:
The SIGH-SAD-SR
treatment, and immediately
(Williams et al., 1990) was completed at baseline, during
after treatment (D -2, D 5 and D 12).
It is a self-administration
form including the standard Hamilton Depression Rating items plus 8 items associated with Seasonal Affective Disorder.
The comparisons for variables between active and placebo light treatments within baseline and post-treatment
were statistically
analyzed by ANCOVA
with the baseline data as the
covariate.
In the active light group, the mean age was 34.41S.D. 13.8 years (4 males and 1 female). the placebo light group, the mean age was 32.6hS.D. 8.1 years (3 males and 2 females). bedtime
based on the sleep log during screening
minutes,
respectively.
bedtime
after 0200h.
was 0239h*60
In the active group 3 and in the placebo No significant
found in age or in screening bedtime.
differences
between
minutes,
In
Mean
and 0207hh43
group 4 volunteers
the two treatment
had
groups were
K. Ando et al.
20
Four pairs of rectal temperature data were available in active and placebo light conditions, because two post-treatment
recordings were not completed.
For urine melatonin,
sleep log,
and mood scale, 5 subjects were available in each treatment condition.
The time of the minimum
temperature
(BTmin) advanced by 54iS.D.
063711 (baseline) to 054311 (post-treatment)
69 minutes
from
in the active light group, and delayed by 1sS.D.
171 minutes from 072311 to 074211 in the placebo light group.
ANCOVA with the baseline
BTmin as the covariate showed no significant treatment effect.
(Table 1)
Urinary aMT6s excretion
was analyzed
considering
(Table 1) suggested that the timing of melatonin receiving min.).
excretion
mid-rise
@ITso).
Results
secretion delayed more among volunteers
500 lux (86rtS.D. 117 min.) than among those receiving placebo light (5hS.D. 66
ANCOVA with the baseline MT50 as the covariate was not significant.
Table 1 Circadian Phase of Core Temperature
Core body temperature (BTmin) Baseline Post-treatment. Urinary 6-sulfatoxymelatonin @ITso) Baseline Post-treatment
and Urinary Melatonin
Active Light Group
Placebo Light Group
0637h f 34.9min 0543h f 43.4min
0723h f 46.2min 0742h f 117.8min
0242h f 77.6min 0408h f 15l.lmin
0350h f 96.9min 0355h f 61.5min
Both into-bed time and out-of-bed time on sleep log advanced in active light group (by 67 minutes and 71 minutes respectively), placebo
light
ANCOVA.
group.
However,
whereas only several minute changes were shown in
analyses
showed
no significant
treatment
effect
with
Total sleep period showed no significant change by treatment (Table 2).
The mean 29-item SIGH-SAD
scores declined
from 21.4 to 15.2 from baseline
to post-
treatment among subjects receiving 500 lux, and from 14.2 to 8.6 among subjects receiving placebo.
ANCOVA showed no significant treatment effects in total scores (Table 2).
Light mask 500 Iw treatment for DSPS
21
Table 2 Sleep Log and Mood Scale
Sleep log Into-bed time Baseline Post-treatment Out-of-bed time Baseline Post-treatment Total Sleep Period Baseline Post-treatment SAD 29-item Baseline Post-treatment
Active Light Group
Placebo Light Group
0233h f 85.3min 0126h f 886min
0145h f 25.0min 0155h f 43.lmin
095411 f 89.2min 0843h f 100.5min
0927h f 70.7min 0928h f 14.6min
442min f 14min 437min f 34min
462min f 66min 453min f 39min
21.4 f 14.3 15.2 f 15.0
14.2 f 5.6 8.6 f 5.2
Discussion
There was a slight trend for temperature
phases in the 500-1~~ treated group to advance
during treatment, as compared to placebo, whereas the phase of melatonin rise was delayed in the treated group. Sleep log data suggested that, by the volunteers’ perception, light treatment was effective in advancing sleep periods. benefit.
Both groups reported considerable anti-depressant
However, no statistically significant benefits of 500 lux light mask treatment were
demonstrated as contrasted to the 0.1 lux placebo-treated
group in this small sample.
Even with a small number of subjects in each group, the experimental had sufficient power to demonstrate
design would have
large treatment benefits of clinical value, but it would
appear that any advantage of active treatment on circadian phase or sleep timing was not large for most volunteers.
It is possible that a longer duration of treatment would have been
more effective, although we had expected 12 days of treatment to produce much of the benefit which might be obtained with long-term experimental
illumination
pattern
treatment.
more closely
There is the possibility
approximated
the rising
that had the light of dawn
(Terman and Schlager, 1990; Avery et al., 1992), that a greater effect might have been derived, though we know of no specific data demonstrating
that dawn simulation patterns are more
K.Ando et al.
22
effective in humans than continuous light at the end of sleep.
Brighter illumination
would
possibly be more effective, as suggested by a subsequent study with 3000 lux performed with similar
light masks
designed
without
(Cole et al., 1996).
first evaluating
sleep/wake rhythm.
Light treatment
endogenous
phase,
schedules
have usually
using the timing
Because, in DSPS patients, the endogenous
reference
been of the
circadian system may be
delayed in reference to the sleep/wake rhythm (Morris et al., 1990) light might not have been presented at the optimal phase of the circadian night (Minors et al., 1991). studies
will
be required
to separate
the factors
of dose-response
More extensive
and phase-response
empirically.
Although no volunteers were suffering from major depression, their self-reported depression scores were above average, and their scores improved quite dramatically The initial SIGH-SAD scores and the degree of improvement
during treatment.
noted in the volunteers receiving
active treatment were similar to what has been reported with light treatment of seasonal affective disorders (Avery et al., 1992; Avery et al., 1993; Avery et al., 1994), however, the problem of distinguishing
active treatment from placebo effects was also similar (Eastman et
al., 1992).
Although this study suggested that moderate light treatment with 500 lux was not effective enough, active and placebo benefits might be distinguished with sufficient numbers of subjects, with more attention
to suggestion
effects in the procedures
(e.g., elimination
of placebo-
responders in a prospective placebo phase), or with lengthier durations of treatment.
AcknowleW
This research was supported by AG123641 and MH001171.
Katharine M. Rex, William J.
Mason, Shawn D. Youngstedt, Melville R. Klauber and Joseph D. Assmus assisted this study.
23
Light mask 500 lux treatment for DSPS
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Inquiries and reprint requests should be addressed to:
Daniel F. Kripke, M.D. Department of Psychiatry University of California, San Diego, 0667 9500 Gilman Drive, La Jolla, CA 92093-0667 U.S.A.