Funhaler spacer: improving adherence withoutcompromising delivery
P M Watt, B Clements, S G Devadason, G M Chaney. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
A novel asthma spacer device, the “Funhaler”, incorpo-
Our standard methodology17 was used for comparison of the
rates incentive toys which are isolated from the main
particle size distribution of salbutamol (100 µg/actuation;
inspiratory circuit by a valve. Here we show that its use
Ventolin, GSK) and beclomethasone dipropionate (BDP) (50
µg/actuation; Becotide, GSK) delivered via pMDI through two
Improved adherence combined with satisfactory delivery
detergent coated small volume polycarbonate spacers (235 ml
characteristics suggest that the Funhaler may be useful for
Breath-A-Tech; 225 ml Funhaler). Particle size distribution
and total drug delivery was measured using a multistage liq-uid impinger (MSLI; Copley, Nottingham, UK) with acalibrated inhalation flow of 60 l/min. The pMDI was shakenvigorously for 30 seconds prior to actuations, and the first two
Poor adherence to prescribed frequency and technique actuationswerewasted.Tensingleactuationswereintroduced
remains a major problem for paediatric asthmatics on
into the MSLI. The pMDI was shaken vigorously for five
inhaled medication. Rates of compliance for offering
seconds between each actuation. The aerosol generated by the
medication regularly to asthmatic children range from 30% to
pMDI was drawn through the MSLI with the entraining air
70%, while paediatric compliance rates for correct pressurised
flow. Droplets were deposited on the actuator, “throat”, or one
metered dose inhaler (pMDI) technique range from 39% to
of four stages of the device. The location of particle deposition
67%.1–6 Unfortunately, adherence does not necessarily improve
was determined by the aerodynamic size of the particle. The
with rising severity of illness,7–9 and physicians do not always
sizes of particles depositing on stages 1, 2, 3, and 4 (absolute
filter) were >13 µm, 6.8–13 µm, 3.1–6.8 µm, and <3.1 µm,
Unfortunately drug deposition studies have shown that
respectively. The actuator, spacer, throat, and stages of the
crying impedes drug delivery to children11 12 and poor
MSLI were washed with HPLC grade methanol (BDP, 50 ml
technique frequently leads to reduced drug delivery to the
methanol; salbutamol, 45 ml methanol + 5 ml 0.1M NaOH).
patient. For example, a study of 55 moderate to severe
The absorbance (salbutamol 246 nm; BDP 238 nm) of each
asthmatic children found that only 73% had technique which
sample was measured in duplicate with a UV spectropho-
would allow any drug delivery.5 Recent studies have confirmed
tometer. Data were taken from three experiments for each
these alarmingly low rates of adherence in children. A video
condition and standard errors (SE) were calculated.
based study found that only half of the children surveyed hadappropriate pMDI technique.6
The consequences of poor adherence are serious. Irregular
treatment and poor inhalation technique are linked to more
The Funhaler toy circuit design: harnessing play for
hospitalisations and increased morbidity. For example, one
study showed 14% compliance to offering medication to chil-
In an attempt to address the adherence problem from a new
dren with asthma exacerbations versus 68% of children with-
perspective (that of the child), a novel low volume spacer
device, the “Funhaler” was designed. This device incorporates
The reasons suggested for such poor compliance are varied,
a number of features to distract the attention of children from
including ignorance, fear, boredom, forgetfulness, and
the drug delivery event itself and to provide a means of self
apathy.9 14 15 Education can significantly improve adherence of
reinforcing the use of effective technique. Figure 1 shows the
asthmatic patients but is decreasingly effective in younger
design of the Funhaler, with an inset showing a 4 year old
children, and a more holistic approach may be necessary to
child using the device. The Funhaler design differs from previ-
tackle this difficult age group.9 Especially in children it is likely
ous efforts to make spacers appealing to children in several
that an interplay of adherence considerations with aerosol
major respects. Firstly, it isolates incentive toys (spinner and
output factors can influence clinical outcomes (see Cole16 for
whistle) in a separate branch to the standard inhalation
circuit, placing them outside the expiratory valve of the spacerto avoid problems of contamination and interference of drug
delivery. Secondly, the design of the toys themselves ensures
sufficient inspiratory resistance to minimise entrainment of
A total of 32 children (10 male, 22 female; age range 1.5–6
inspired air through the toy circuit. Thirdly, the design
years, mean age 3.2 years; average duration of asthma of 2.2
attempts to link the optimal function of the toys to deep tidal
years) prescribed drugs delivered by pMDI and spacer were
breathing pattern conducive to effective medication. Finally,
recruited into the study with informed consent. Matchedquestionnaires were completed with 27–32 valid responses toeach pair of questions being collected after sequential use of
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
the Breath-a-Tech (Scott-Dibben, Australia) and Funhaler
Abbreviations: BDP, beclomethasone dipropionate; MSLI, multistage
(InfaMed, Australia, www.funhaler.com) spacer device for
liquid impinger; pMDI, paediatric metered dose inhaler; SE, standard
the design of the Funhaler anticipates the potential for bore-
are comparable to conventional devices. In addition to helping
dom of children with particular incentive toys in its modular
with problems of breath coordination, spacer devices can help
arrangement which would allow the replacement of the
to minimise oropharyngeal deposition by releasing a higher
incentive toy module with a range of different toys.
proportion of fine aerosol droplets (<6.8 mm), particles whichwe refer to here as the “respirable dose”. For this study we
Funhaler use associated with improved measures of
used prototypes of the Funhaler which were made of polycar-
bonate, the material intended for the production units of the
We have recently completed a study of the effect of the
Funhaler on measures of paediatric adherence in the home
Overall no significant differences were observed between
setting. In this survey, the details of which are to be reported
the Funhaler and the Breath-a-tech spacer for delivery of the
elsewhere, use of the Funhaler was associated with improved
respirable particle fractions (compare percentage delivered
parental and child compliance. For example, when surveyed at
dose of 3.1–6.8 µm and <3.1 µm between the two devices; see
random, 38% more parents were found to have medicated
table 1). The apparently slightly higher ex-spacer output of
their children the previous day when using the Funhaler,
particles of the smaller size range (particularly <3.1 µm)
compared to their existing small volume spacer device (22/27
observed with the Funhaler was compensated by lower losses
versus 16/27, respectively; p = 0.016), and 60% more children
overall from within the conventional spacer device itself (data
took the recommended four or more cycles per aerosol deliv-
not shown), resulting in a comparable percentage of the
ery (24/30 versus 15/30; p = 0.02) when using the Funhaler
ex-actuator dose being delivered from both devices.
Given the large variance in compliance of children to the
prescribed frequency and technique for asthma medication, it
No significant difference in aerosol output from
is likely that compliance to prescribed use may be more influ-
ential than minor variations in the delivery characteristics of
Here we describe a complementary comparison of the
the spacer per se. Indeed in two recent studies, the variation in
performance of the Funhaler (InfaMed Ltd, Australia) with
delivery from spacer devices in daily life is considerably
the most prevalent small volume spacer device in Australia,
greater than that predicted from in vitro studies,6 18 and some
the Breath-a-tech (Scott-Dibben, Australia; analogous in
of this variability may be attributed to problems of adherence.
design to the Optichamber device, Respironics, USA) to assess
Based on the results presented here and proven effects of
whether the aerosol delivery characteristics of the Funhaler
spacer use on morbidity of children,19 we hypothesise that use
Extrafine particle fraction (<3.1 µm)
Extrafine particle fraction (<3.1 µm)
No significant differences between spacers for either salbutamol or BDP (p>0.05).
of the Funhaler could be translated to improved measures of
6 Janssens HM. Aerosol delivery from spacers in wheezy infants: a daily
clinical outcome. Therefore the work presented here provides
life study. Eur Respir J 2000;16:850–6.
7 Walsh LJ, Wong CA, Cooper S, et al. Morbidity from asthma in relation
a basis for future efficacy studies to test the hypothesis that
to adherence. Thorax 1999;54:296–300.
use of functional incentive devices such as the Funhaler may
8 Kamps AW, Ewijk B, Roorda RJ, et al. Poor inhalation technique, even
after inhalation instructions in children with asthma. Pediatr Pulmonol2000;29:39–42.
. . . . . . . . . . . . . . . . . . . . .
9 Chapman KR, Walker L, Cluley S, et al. Improving patient compliance
with asthma therapy. Respir Med 2000;94:2–9.
10 Bauman A, Cooper C, Bridges-Webb C, et al. Asthma management
P M Watt, TVW Telethon Institute for Child Health Research and Centre
and morbidity in Australian general practice: the relationship between
for Child Health, University of Western Australia
patient and doctor estimates. Respir Med 1995;89:665–72.
B Clements, G M Chaney, Princess Margaret Hospital for Children,
11 Tal A, Golan H, Grauer N, et al. Deposition pattern of radiolabelled
Western Australia GPO, Box D184, Perth, WA, 6840 Australia
salbutamol inhaled from a metered-dose inhaler by means of a spacer
S G Devadason, Department of Paediatrics, University of Western
with mask in young children with airway obstruction. J Pediatr
Australia, Princess Margaret Hospital, Roberts Road, Subiaco, WA
12 Iles R, Lister P, Edmunds AT. Crying significantly reduces absorption of
aerosolised drug in infants. Arch Dis Child 1999;81:163–5.
Correspondence to:Dr P Watt, TVW Telethon Institute for Child Health Research, 100 Roberts
13 Milgrom H, Bender B, Ackerson L, et al. Noncompliance and treatment
Road, Subiaco, WA 6008, PO Box 855, West Perth, WA 6872;
failure in children with asthma. J Allergy Clin Immunol 1996;98;1051–7.
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there a solution to the problem? Ann Allergy Asthma Immunol
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16 Cole CH. Special problems in aerosol delivery: neonatal and pediatric
1 Smith NA, Seale JP, Shaw S. Medication compliance in children with
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17 Wildhaber JH, Devadason SG, Eber E, et al. Effect of electrostatic
2 Gibson NA, Ferguson AE, Aitchison TC, et al. Compliance with inhaled
asthma medication in preschool children. Thorax 1995;
charge, flow, delay and multiple actuations on the in vitro delivery of
3 Dekker FW, Dieleman FE, Kaptein AA, et al. Compliance with
salbutamol from different small volume spacers for infants. Thorax
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4 Rand CS, Wise RA. Measuring adherence to asthma medication
18 Janssens HM. Variability of aerosol delivery via spacer devices in
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young asthmatic children in daily life. Eur Respir J 1999;13:787–91.
5 Celano M, Geller RJ, Phillips KM, et al. Treatment adherence among
19 Cunningham SJ, Crain EF. Reduction of morbidity in asthmatic children
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