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Two multicenter, randomized, single-blind, single-dose, crossover studies of specific sensory attributes of budesonide aqueous nasal spray and fluticasone propionate nasal spray
Two Multicenter, Randomized, Single-Blind, Single-Dose, Crossover Studies of Specific Sensory Attributes of Budesonide Aqueous Nasal Spray and Fluticasone Propionate Nasal Spray Shailen R. Shah, MD,l Christopher Thomas Uryniak, MS,2 M. Kathryn and Liza O’Dowd, MD2
Miller, MStat,2 Ned Pethick, C. Jones, MA, MSC,~
BS,’
IAllergy and Asthma Consultants of NJ-PA,PC, Collegeville,Pennsylvania, and 2AstraZeneca Le Wilmington, Delaware
ABSTRACT
Background: Intranasal corticosteroids are effective for the treatment of allergic rhinitis. Sensory attributes associated with these sprays may affect patient preference and adherence to treatment regimens. Objectives: These 2 studies compared patients’ perceptions of and preferences for specific sensory attributes of budesonide aqueous nasal spray (BANS) and fluticasone propionate nasal spray (FPNS). Methods: In 2 multicenter, randomized, single-blind (patient), single-dose, 2-period, l-day crossover studies, adults with mild to moderate allergic rhinitis received single doses of BANS (one 32-pg spray per nostril in both studies, 64yg total dose) and FPNS (two 50-yg sprays per nostril in study 1, 2OO+g total dose; one SO-pg spray per nostril in study 2, 100-pg total dose). Study 1 compared the once-daily recommended starting doses of BANS and FPNS, and study 2 compared BANS with half the once-daily recommended dose of FPNS to balance the number of actuations for delivery of study drug. Patients completed the 23-item Sensory Perceptions Questionnaire and indicated their product preference (if any). Results: A total of 110 women and 71 men in study 1 and 136 women and 54 men in study 2 were randomized to treatment. None had previously used BANS or FPNS. In both studies, fewer patients perceived scent or taste (both P < 0.001 in both studies), forceful spray (P < 0.001 in both studies), and a wet feel in both the nose and throat (study 1, P < 0.004; study 2, P < 0.002) with BANS Accepted for publication June 11, 2003. Printed in the USA. Reproduction in whole or part is not permitted.
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S.R.Shah et al.
than with FPNS. In addition, more patients in both studies liked the spray force (study 1, P < 0.01; study 2, P < 0.001) and moisture content in the throat (study 1, P < 0.001; study 2, P < 0.006) of BANS and indicated a greater overall satisfaction with the sensory features of BANS than those of FPNS (study 1, P c: 0.001; study 2, P < 0.015). In analyses that included all responding patients, 54.4% of patients in study 1 preferred BANS and 37.8% preferred FPNS (P < 0.022). In study 2, 47.4% preferred BANS and 41.1% preferred FPNS (not significant). Of the 92.2% of patients in study 1 and 88.4% in study 2 who specified a product preference, 59.0% preferred BANS and 41.0% preferred FPNS in study 1 (P = 0.021), and 53.6% preferred BANS and 46.4% preferred FPNS in study 2 (not significant). Conclusions: On the basis of perceptions of specific sensory attributes reported after 1 administration in these 2 studies, BANS was rated as more pleasing and preferred over the recommended QD starting dose of FPNS, and was also rated as more pleasing than half the QD recommended starting dose of FPNS. (Chin Tvzev: 2003;25:2198-2214) Copyright 0 2003 Excerpta Medica, Inc. Key words: budesonide aqueous, fluticasone propionate, nasal spray, patient preference, sensory attributes.
INTRODUCTION
Allergic rhinitis is a common medical condition that affects -10% to 15% of the US population.’ Although allergic rhinitis affects both children and adults, it is most prevalent among persons aged 20 to 40 years.’ Therefore, a significant proportion of men and women in the workforce are affected.2 The symptoms of allergic rhinitis (ie, sneezing, rhinorrhea, and nasal congestion) produce physical discomfort and have a detrimental impact on patients’ psychological, social, and vocational lives.3 Furthermore, the discomfort and cognitive impairment associated with allergic rhinitis reduce work productivity4 and account for millions of lost days of work each year.5 Although 70% of patients use prescription medication to treat the symptoms of allergic rhinitis, -25% experience inadequate symptom control.6 This lack of optimal symptom control could be a result of ineffective treatment, poor patient adherence, or both. Medications that are ineffective at relieving symptoms; produce undesirable effects such as drowsiness, headache, or burning and stinging in the nose; or have a disagreeable scent or taste may reduce patients’ willingness to adhere to their treatment regimens. This may in turn, reduce the effectiveness of the prescribed allergy product. Intranasal corticosteroids are an efficacious pharmacologic therapy for the treatment of allergic rhinitis. They successfully reduce nasal congestion, rhinorrhea, sneezing, and itching in most patients, and available data suggest that intranasal corticosteroids are more effective than oral antihistamines7J As a result, topical cor2199
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ticosteroids administered via nasal sprays are being used increasingly as first-line therapy for the relief of symptoms of allergic rhinitis9J0 Moreover, recent guidelines developed by a joint task force on the practice parameters in allergy, asthma, and immunology1 l and by the Allergic Rhinitis and its Impact on Asthma workshop in collaboration with the World Health Organizationlo have recommended the use of nasal corticosteroids in all patients except those with occasional or the mildest of allergic rhinitis symptoms. Intranasal corticosteroids for the treatment of allergic rhinitis were introduced to the market -3 decades ago. l2 Since then, advances in formulations and delivery methods have become important factors when selecting a treatment.13 Early formulations were delivered via pressurized metered-dose inhalers (pMDI$, whereas the present formulations include aqueous products such as budesonide aqueous nasal spray* (BANS) and fluticasone propionate nasal spray+ (FPNS). BANS was designed to provide additional comfort to patients with sensitive mucosa who may have been unable to tolerate the pMD1 formulations.r4 BANS also has a low volume of spray (one 50-uL spray per nostril QD) for treatment delivery and does not contain a chlorofluorocarbon propellant or alcohol, both of which may cause burning or stinging in the nose. Moreover, BANS does not contain benzalkonium chloride, a preservative with antimicrobial properties that is known to have a bitter taste; other corticosteroid nasal sprays, such as FPNS, contain this compound.15 Although subtle differences may exist, intranasal corticosteroids show similar efficacy and safety for treating the symptoms of allergic rhinitis when administered at the recommended daily doses. 16-18 Success or failure of the treatment and proper management of the symptoms depend on patient adherence to an established schedule initiated by the prescribing physician. Sensory attributes are increasingly important to patients and may affect their preference for intranasal products, especially when medications prove to be similar in efficacy Therefore, when patients prefer the specific sensory attributes associated with a particular intranasal corticosteroid formulation or delivery device, they may better adhere to a treatment regimen. The primary objectives of the studies reported here were to compare patients’ perceptions of and preferences for specific sensory attributes of BANS and FPNS. PATIENTS
AND
METHODS
Study Design
Two multicenter, randomized, single-blind (patient), single-dose, 2-period, lday crossover studies were conducted (AstraZeneca studies RAQ-1002 [study 11 and RAQ-1003 [study 21). Study 1 consisted of 12 investigational sites, and study *Trademark: Rhinocort Aqua@ (AstraZeneca LP, Wilmington, Delaware). ‘Trademark: Flonase@ (GlaxoSmithKline, Research Mangle Park, North Carolina)
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2 consisted of 13 sites within the United States. Eligible patients were screened at an initial visit and were enrolled for randomization and treatment on the same day or within 7 days of screening. In study 1, the recommended (labeled) QD starting doses of BANS (one 32-yg spray per nostril, equal to 64-ug total dose) and FPNS (two 50-pg sprays per nostril, equal to 200~pg total dose) were used. Study 2 compared the same dose of BANS with half the recommended once-daily starting dose of FPNS (one 50-pg spray per nostril, equal to 100~ug total dose) to balance the number of actuations for delivery of study drug. To eliminate bias due to order of treatment, we assigned patients to 1 of the 2 possible treatment sequences (BANS followed by FPNS or FPNS followed by BANS) in balanced blocks at each site according to a randomization schedule generated in advance by a centralized computer at AstraZeneca. Investigators at each site assigned numbers (corresponding to randomized assignment to a treatment sequence) to patients sequentially as they qualified for the study, thus ensuring that patients were randomly assigned to a treatment sequence in balanced blocks at each site. This process resulted in the same designated maximum number of patients at each site that could be enrolled in the study but varying total numbers of patients at each site. Before receiving study medication, patients in study 1 briefly rinsed their mouths with a small cup of water. Patients in study 2 chewed unsalted crackers, briefly rinsed their mouths with a small cup of water, and then smelled a swatch of wool. Patients then self-administered the study treatments under supervision from a professional at the investigational site after instructions were given on the proper technique of nasal spray use. Study 1 included a l-hour washout period and study 2 included a 2-hour washout period between dosing. These washout periods between single administrations of each product were chosen based on previous studies investigating patients’ preferences of sensory attributes of nasal products lg and inhaled asthma medications20; results of these studies showed that washout periods of 30 to 45 minutes were sufficient. Although the investigators were not blinded, patients were blinded to the identity of the treatment by removal or covering of the labels on the spray bottles, along with removal of the distinctively colored caps. In addition, patients were eligible for the study only if they had not previously used either medication. Both studies received approval from an independent ethics committee or institutional review board, and all enrolled patients provided written informed consent before treatment. Patient
Population
Patients enrolled were of either sex, were aged 218 years, had H-year history of allergic rhinitis (seasonal or perennial), and were experiencing mild to moderate symptoms of allergic rhinitis as determined by a 24-hour reflective total nasal symptom score on the study day In addition, all participants had a history of ei2201
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ther inadequate control of symptoms with antihistamines, decongestants, and/or immunotherapy, or previous success with intranasal corticosteroids other than budesonide or fluticasone propionate. Exclusion criteria were the following: pregnancy, nursing, or not using an accepted method of birth control; the presence of nasal candidiasis, rhinitis medicamentosa, atrophic rhinitis, acute or chronic rhinitis, and nasal obstructions or abnormalities; a significant disease history or unstable medical condition; the use of topical nasal corticosteroid treatment within 2 weeks before study initiation; a history of hypersensitivity or intolerance to corticosteroids (topical or systemic); use of medications that could mask the symptoms of rhinitis immediately after the study treatment day; use of an experimental drug within 30 days preceding study initiation; or previous use of BANS or FPNS. Sensory Perceptions Questionnaire
Immediately after each treatment session, patients were placed in a predesignated waiting area and instructed not to discuss their impressions of the treatment while completing the 23-item Sensory Perceptions Questionnaire (SPQ).21 The self-administered SPQ was developed and validated in collaboration with 2 healthoutcomes research groups (Avalon Health Solutions, Inc., Philadelphia, Pennsylvania, and Psychometric Technologies, Hillsborough, North Carolina) and was presented in 2 parts. Part I was administered to the patients after the first spray treatment to record their perceptions of specific sensory attributes of the treatment. After a washout period (1-2 hours) and administration of the second treatment, Part I of the SPQ was again administered to record their perceptions of the second spray, followed by Part II to determine their overall (global) preference, if any, for either treatment based on the sensory attributes of the products. Part I of the SPQ consisted of a list of 5 yes/no questions about whether they perceived any scent, taste, aftertaste, medicine rundown into the throat, or runout from the nose. Next, an additional 16 questions were presented, and ?-point Likert scales were used to rate each patient’s degree of perception and like/dislike of each attribute (1 = strongest perception and greatest disliking; 5 = weakest perception and greatest liking). Attributes included the same 5 qualities as for the yes/no questions plus force and liking of the force of spray, and feel and liking of the spray in the nose and throat. The last question in Part I asked the patients, “Overall, how pleased were you with the sensory features of the nasal spray you just used?” on a 5-point Likert scale (1 = very displeased; 5 = very pleased). Part II of the SPQ asked those patients who completed the entire study the following global preference question: “Based on the sensory features of the 2 study sprays you used today, overall, which study spray did you prefer?” Patients responded by indicating either the first or second spray or no preference. The questions in Part I of the SPQ are listed in Table I. 2202
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Table I. Part I of the Sensory Perceptions Questionnaire. Response
Question Preliminary
questions
I. Did the nasal spray have any smell?
Yes/no
2.
Did the nasal spray have any taste?
Yes/no
3.
Did any medicine run down the back of your nose into your throat?
Yes/no
4.
Did any medicine run out of your nostrils?
Yes/no
5.
Did the nasal spray have an aftertaste?
Yes/no
Follow-up
questions*
I a. Strength of the smell
Very strong ( I )-very
I b. Liking of the smell
Disliked a lot (I)-liked
2a. Strength of the taste
Very strong ( I )-very
2b. Liking of the taste
Disliked a lot (I)-liked
3a. Amount
Extreme amount
of medicine that ran into your throat
3b. How much were you bothered
by the medicine
of medicine that ran out of your nostrils
4b. How much were you bothered
a lot (5) weak (5) a lot (5)
(I)-minimal
bothered
(I)-not
amount
(5)
bothered
at all (5)
running into your throat? 4a. Amount
Extremely
weak (5)
by the medicine
Extreme amount Extremely
(I)-minimal
bothered
(I)-not
amount
(5)
bothered
at all (5)
running out of your nostrils?
Very strong ( I )-very
5a. What was the force of the spray?
weak (5)
5b. Extent to which you liked/disliked the force of Disliked a lot (I)-liked
the spray
Very dry (I)-very
6a. How did the spray feel in your nose? 6b. Extent to which you liked/disliked
how the spray Dislilced a lot (I )-liked
felt in your nose 7a. How did the spray feel in your throat 7b. Extent to which you liked/disliked
after use?
Very dry (I)-very
a lot (5)
moist (5)
how the spray Disliked a lot (I)-liked
felt in your throat 8a. Opinion
a lot (5)
moist (5)
Very strong (I )-very
of the strength of the aftertaste
a lot (5) weak (5)
Disliked a lot (I)-liked
8b. Liking of the aftertaste
a lot (5)
Final question* Overall, how pleased were you with the sensory features of the nasal spray you just used? “Patients rated their degree of perception ception
Statistical
Very displeased (I)-very
and like/dislike of each attrlbute
and greatest dislike; 5 = weakest perception
pleased (5)
using Lilcert scales (I = strongest per-
and greatest liking).
Analyses
the design of each study we estimated that - 155 evaluable patients would provide 80% power to detect a treatment difference of 0.125 in the proportion of patients preferring 1 of the treatments with the use of a 2-tailed l-sample test for proportions. In
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In each study, the primary end point was patient preference. Study 1 and study 2 results from the global patient preference question (Part II of the SPQ) were analyzed with the Mainland-Gart test (stratified by site) and also with the Prescott test (stratified by site) to include patients who did not express a preference for 1 product over the other. 22-24 Binary (yes/no) responses for the patients’ perceptions of specific sensory attributes from questions in Part I of the SPQ were analyzed with the Mainland-Gart test, and ordinal responses (Likert scale) with the Wilcoxon signed rank test. All statistical comparisons were performed as 2-sided tests. Statistical significance was set at P I 0.05. Safety
Safety was assessed in each patient who received 21 treatment spray The safety assessment was based on clinical evaluation by the study investigators and by patient self-monitoring of adverse events (AEs). AEs were reported on the study day and in a follow-up telephone call 2 weeks after treatment to inquire about any additional events. RESULTS Patient
Population
A total of 181 patients underwent randomization and received treatment in study 1 (110 women, 71 men); 1 patient was lost to follow-up (safety assessment) but completed the SPQ, and another patient was determined to have a protocol deviation after receiving the study drug and completing the SPQ. In study 2, a total of 190 patients (136 women, 54 men) underwent randomization, received treatment, and completed the entire study Demographic characteristics were well balanced between the 2 studies (Table II). Sensory Perceptions
Questionnaire
Part I
In study 1 (BANS 64 ug vs FPNS 200 ug), patients were significantly less likely to perceive any scent (P < O.OOl>, taste (P < O.OOl>, aftertaste (P < O.OOl), medicine rundown into the back of the nose and into the throat (P < O.OOl), or medicine runout of the nostrils (P < 0.019) when using BANS compared with FPNS (Figure 1A). In study 2 (BANS 64 p.g vs FPNS 100 pg), patients were also significantly less likely to perceive any scent or taste (both P < 0.001) when using BANS compared with FPNS (Figure 1B); no significant differences were found between products for aftertaste, medicine rundown into the back of the nose and into the throat, or medicine runout from the nostrils. Patients rated their sensory perceptions and the degree of their perceptions and their like or dislike of those perceptions using Likert scales (Figures 2 and 3). Study 1 (BANS 64 yg vs FPNS 200 pg) and study 2 (BANS 64 pg vs FPNS 100 ug) both 2204
S.R. Shah et al.
Table II. Demographics and baseline characteristics of patients randomized to treatment in studies I and 2. Study Characteristic
I
Study 2
(N = 181)
(N = 190)
I IO (60.8)
I36 (7 I .6)
71 (39.2)
54 (28.4)
Sex, no. (%) Women Men Agel Y Mean Range
40
38
I 8-73
I 8-80
125 (69.1)
I44 (75.8)
(I 6.0) 2 I (I I .6)
33 (I 7.4)
Race, no. (%) White
29
Blacl< Hispanic
8 (4.2)
Asian
6 (3.3)
2 (Ll)
Other
0 (0.0)
3 (1.6)
Baseline total nasal symptom Mean Range
score* 7
7 3-12
4-l
I
Allergic rhinitis duration, y Seasonal and perennial Mean
I9
I8
Range
l-58
I-62
Perennial Mean
I6
I3
Range
3-49
2-30
Seasonal Mean Range
I4
18
I47
l-50
‘Based on the sum of patient-reported individual nasal symptom scores of rhinorrhea, sneezrng,nasal congestion, and nasal itching (O-l 2 total scale). Higher scores indicate more severe symptoms.
showed that more patients perceived the feel of spray in the throat as less wet with BANS than with FPNS (Figure 2; study 1, P < 0.004; study 2, P < 0.002), and more patients preferred the feel of the spray in the throat with BANS than with FPNS (Figure 3; study 1, P < 0.001; study 2, P < 0.006). In addition, more patients in both studies perceived the feel of spray in the nose as less wet with BANS than with FPNS (Figure 2; study 1, P < 0.001; study 2, P < O.OOl), and more patients preferred the feel of spray in the nose with BANS than with FPNS (Figure 3; study 1, P < 0.001; study 2, P < 0.001). More patients in both studies perceived a less force2205
CLINICAL THERAPEUTICS@
W BANS 0 FPNS
* -
t
Scent
Taste (n = 179)
(n = 181)
Aftertaste
Throat
(n = 181)
Rundown
II. Nose
(n = 181)
Runout
(n = 181)
W BANS 0 FPNS
r
*
!..I. :
Scent
Taste (n = 189)
(n = 190)
Figure
I. Percentages sensory
of patients
attributes
propionate
responding
of budesonide
Aftertaste (n = 187)
Throat
Nose
Rundown
Runout
(n = 190)
(n = 190)
yes when asked if they perceived
specific
aqueous nasal spray (BANS) and fluticasone
nasal spray (FPNS) in (A) study
I (BANS 64 wg vs FPNS 200 kg)
and (B) study 2 (BANS 64 Fg vs FPNS IO0 pg). *P < 0.00 I; tP C 0.0 19. 2206
S.R. Shah et al.
0
Very moist or very weak (5) Somewhat moist or somewhat weak (4)
m
Neither
dry nor moist: neither strong nor weak (3)
?? Somewhat dry or somewhat strong (2) 0
Very dry or very strong (I)
A Mean Score
3.1
3.4+
2.7
BANS
FPNS
3.3*
80 60 40 20 0 BANS
BANS
FPNS
FPNS
Feel in Nose
Feel in Throat
Spray Force
6 Mean Score
3.2
3.4*
100 80 60 40 20 0 BANS
FPNS
Feel in Throat
BANS
FPNS
BANS
Feel in Nose
FPNS
Spray Force
Figure 2. Mean Likert scores for degree of perception of specific sensory attributes of budesonide aqueous nasal spray (BANS) and fluticasone propionate nasal spray (FPNS) in (A) study I (BANS 64 pg vs FPNS 200 Fg) and (B) study 2 (BANS 64 p,g vs FPNS 100 Fg). *P < 0.004; l’p C 0.001; *P < 0.002.
ful spray with BANS than with FPNS (Figure 2; study 1, P < 0.001; study 2, P < O.OOl>, and more patients preferred the force of spray with BANS than with FPNS (Figure 3; study 1, P < 0.002; study 2, P < 0.001). Finally, when patients were asked, “Overall, how pleased were you with the sensory features of the nasal spray you just used?” a greater majority of patients in both studies were very pleased or somewhat pleased with BANS than with FPNS (Figure 4; study 1, P < 0.001; study 2, P < 0.015).
The remaining questions in Part I of the SPQ were follow-up items to the preliminary questions. As a result, if a patient responded no to a preliminary question, he or she would be instructed not to answer the corresponding follow-up 2207
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THERAPEUTICS@
0 Like a lot (5) Like somewhat (4) Neither like nor dislike (3) ?? Dislike somewhat (2) 0 Dislike a lot (I) A
Mean Score
3.4*
3.1
3.6*
3.3
Y
100
100
‘52
80
80
;
60
60
%I :!
40
40
$
20
20
2
0
BANS
FPNS
Feel in Throat
BANS
FPNS
0
Feel in Nose
BANS
FPNS
Spray Force
B Mean Score 3
3.2+
3.0*
3.5*
3.1
100
80
80
60
60
4Oi
40
20
20
01
BANS
FPNS
Feel in Throat
Figure 3.
3.5*
100
Mean
Likert
BANS
FPNS
Feel in Nose
0
3.1
1
BANS
FPNS
Spray Force
scores for like/dislike of specific sensory attributes of budesonide
aqueous nasal spray (BANS) and fluticasone propionate nasal spray (FPNS) for (A) study I (BANS 64 pg vs FPNS 200 pg) and (B) study 2 (BANS 64 pg vs FPNS IO0 pg).*P < 0.00I ; l-P < 0.002; *P c 0.006.
questions, Because the number of evaluable patients for these follow-up questions was relatively small compared with the total number of all randomized patients in each study, and because this population was biased (ie, selected based on the answer to a preliminary question), formal statistical analyses of these data were not performed. However, the responses to these questions favored BANS, as did the preliminary yes/no questions for these items.
Part II of the SPQ asked patients the global preference question, “Based on the sensory features of the 2 sprays you used today, overall, which study spray did 2208
S.R.Shah et al.
A H BANS ? ?FPNS
100 90 80
IO 0
I
Very Pleased or Somewhat Pleased
Very Displeased or Somewhat Displeased
Neither Pleased nor Displeased
B ?? BANS
100
0
FPNS
90 80 $ c .$ c?
70
z a,
50
3 c $ [Lfz
60
II
40 30 20 IO 01-
Very Pleased or Somewhat Pleased
Figure 4. Patients’ overall
satisfaction
Neither Pleased nor Displeased
based on the sensory
aqueous nasal spray (BANS) and fluticasone (A) study
Very Displeased or Somewhat Displeased
propionate
features
of budesonide
nasal spray (FPNS) in
I (BANS 64 kg vs FPNS 200 pg [mean scores, 3.9 BANS vs 3.5
FPNS; P < 0.00 I]) and (B) study 2 (BANS 64 pg vs FPNS IO0 pg [mean scores, 3.8 BANS vs 3.5 FPNS; P 4 0.0) 51). 2209
CLINICALTHERAPEUTICS@
you prefer?” Of the 181 randomized patients in study 1, 180 (99.4%) completed this question and were therefore considered evaluable for the analysis of preference. Of this group, 166 (92.2%) expressed a preference for 1 of the 2 randomized treatments and were included in the primary analysis of preference. Significantly more patients preferred BANS (98 patients, 59.0%) than FPNS (68 patients, 41.0%) (P = 0.021; Figure SA). When the analysis included patients who completed the global preference question but did not express a preference for either product (14 patients, 7.8%), significantly more patients preferred BANS over FPNS (54.4% vs 37.8%; P <: 0.022; Figure 5B). Patients preferred BANS to FPNS regardless of the order of administration of the 2 study drugs. However, the patients who were randomized to receive BANS first indicated a stronger preference for BANS over FPNS than those patients who received BANS second, although this difference was not assessed for statistical significance. Patients who received the study drugs in the BANS-FPNS sequence preferred BANS to FPNS 61.1% to 34.4% (4.4% had no preference). Patients who received the FPNS-BANS sequence preferred BANS to FPNS 47.8% to 41.1% (11.1% had no preference). In study 2, all 190 randomized patients were considered evaluable for the analysis of preference. Of this group, 168 (88.4%) expressed a preference for 1 of the 2 randomized treatments and were included in the primary analysis of preference. Ninety patients (53.6%) preferred BANS compared with 78 (46.4%) who preferred FPNS, but these values were not significantly different (Figure SC). When patients were included who did not express a preference for either product (22 patients, 11.6%), these values remained nonsignificant (Figure 5D). Patients who received the study drugs in the BANS-FPNS sequence preferred BANS to FPNS 52.6% to 35.1% (12.4% had no preference; statistical significance not assessed). Those who received the FPNS-BANS sequence preferred FPNS to BANS 47.3% to 41.9% (10.8% had no preference; statistical significance not assessed). Variation among sites was observed in both studies with respect to patients’ responses to the global preference question (Part II of the SPQ). In study 1, at 5 of the 11 sites, >50% of patients preferred BANS; at 3 sites, equal numbers of patients preferred BANS or FPNS; and at the remaining 3 sites, >50% of patients preferred FPNS. In study 2, 7 of the 13 sites had more patients who preferred BANS, and 6 sites had more patients who preferred FPNS. Safety Profile
BANS and FPNS were well tolerated in both studies. Overall, AEs were few, mild to moderate in severity, and similarly distributed across treatment sequences. Nine patients in study 1 (5.0%) and 11 patients in study 2 (5.8%) reported an AE. In study 1, no AEs were judged to be causally related to the study treatment. In study 2, 7 AEs were judged to be treatment related (rhinitis [n = 41, dry mouth [n = 11, nausea [n = 11, and headache [n = 11). No serious or significant AEs were 2210
S.R.Shah et al.
Figure 5. Percentages
of patients
expressing
aqueous nasal spray (BANS) neither, based on sensory
a global preference
or fluticasone
features, in study
propionate
for either
budesonide
nasal spray (FPNS), or
I (BANS 64 kg vs FPNS 200 kg)
and study 2 (BANS 64 p,g vs FPNS IO0 kg). (A) Study I results, based on I66 evaluable
patients
all 180 patients who expressed responded.
who expressed who
responded.
a preference.
a preference.
(B) Study I results, based on
(C) Study 2 results, based on I68 patients
(D) Study 2 results, based on all I90 patients who
*P = 0.02 I ; tP -z 0.022.
reported in either study and no significant noted in any patient.
clinical changes in vital signs were
DISCUSSION
These 2 multicenter, randomized, single-blind (patient) studies found that these patients were significantly less likely to perceive any scent, taste, aftertaste, or 2211
CLINICAL THERAPEUTICS@
medicine rundown into the throat or out of the nostrils with the recommended QD starting dose of BANS than with FPNS. These studies also showed that BANS was associated with a significantly less forceful and more likable force of spray, a drier and more likable feel of spray in the nose and throat, and overall a more pleasant assessment of sensory features than FPNS in the population studied. In support of the present findings, another aqueous intranasal corticosteroid, triamcinolone acetonide nasal spray, was also preferred over FPNS and mometasone furoate in a multicenter study using a nasal spray evaluation questionnaire.25 In the present studies, we did not attempt to assess patients’ preference for 1 product over another based on differences in efficacy or safety profile, nor did we attempt to assess overall patient satisfaction with BANS as compared with FPNS. These attributes cannot be adequately assessed in a single-exposure treatment design. These studies were designed to assess overall preference based on the patients’ perceptions of all relevant sensory attributes associated with the use of a nasal corticosteroid spray By design, the SPQ did not include items to assess AEs such as nasal irritation or epistaxis because these events would not be expected to occur immediately after a single exposure. These studies were also not designed to compare the safety of the 2 treatments, although we determined the incidence of AEs as reported by the patients. Very few of the reported AEs were judged to be treatment related; however, the physicians evaluating these reported AEs were not blinded to treatment, so there was a possibility of bias. The overall incidence of AEs reported by the blinded patients was low and similar across treatment sequences. Patient adherence to a prescribed treatment regimen is essential for adequate management of disease symptoms. Adherence is especially important for treating the symptoms of allergic rhinitis, for which preventive administration of intranasal corticosteroids is recommended to achieve successful long-term symptom management.lO Previous reports have shown that patients’ perceptions of the sensory attributes and ease of administration of intranasal corticosteroids are important considerations when prescribing a specific treatment regimen, along with the traditional factors of effectiveness and safety 19,25,26For example, FPNS contains benzalkonium chloride, a preservative known to have a bitter taste, and phenylethyl alcohol, an additive known to have a floral scent, whereas BANS does not contain either additive. The presence of these compounds may have contributed to the larger number of patients in both study 1 and study 2 who described only FPNS as having a taste or scent. The recommended starting dose of BANS requires only one SO-pL spray per nostril QD, whereas both recommended daily doses of FPNS consist of two lOOpL sprays per nostril daily (2 sprays per nostril QD or 1 spray per nostril BID).27 The lower spray volume of BANS may have contributed to the significant differences in study 1 (but not study 2) seen between BANS and FPNS in the perception of medicine rundown into the throat and medicine runout from the nostrils. 2212
S.R. Shahet al.
CONCLUSIONS On the basis
of perceptions
of specific
sensory
attributes
reported
after 1 admin-
istration in these 2 studies, BANS was rated as more pleasing and preferred over the recommended QD starting dose of FPNS, and was also rated as more pleasing than
half the QD recommended
starting
dose of FPNS.
ACKNOWLEDGMENTS This
study
was
Christopher Media,
supported
Tobias,
PhD,
Pennsylvania),
by a financial and
Stella
contributed
grant
Chow,
provided
PhD
by AstraZeneca
(Tri-Med
to the preparation
LP.
Communications,
of the manuscript.
REFERENCES 1. Juniper
EE Measuring
health-related
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1997;99:5742-s749. 2. Malone DC, Lawson KA, Smith DH, et al. A cost of illness study of allergic rhinitis in the United States. J Allergy Clin Immunol. 1997;99:22-27. 3. Blaiss MS. Cognitive,
social, and economic
costs of allergic rhinitis.
Allergy Asthma
Proc. 2000;21:7-13.
4. Crystal-Peters J, Crown WH, Goetzel RZ, Schutt DC. The cost of productivity associated with allergic rhinitis. AmJ Manag Cure. 2000;6:373-378. 5. Fireman
I? Treatment
of allergic rhinitis:
Effect on occupation
productivity
losses
and work
force costs. Allergy Asthma Proc. 1997;18:63-67. 6. Ricard N, Kind P Christian S, et al. Link between patient preferences and treatment outcomes in seasonal allergic rhinitis: An empiric investigation. 7. Yanez A, Rodrigo GJ. Intranasal
corticosteroids
for the treatment of allergic rhinitis: A systematic lergy Asthma Immunol. 2002;89:479-484. 8. Weiner JM, Abramson antagonists
MJ, Puy RM. Intranasal
Chin Ther: 1999;21:268-277.
versus topical Hi receptor antagonists review with meta-analysis.
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Ann AI-
versus oral Hi receptor controlled
trials. BMJ.
1998;317:1624-1629, 9. van Cauwenberge
P Bachert C, Passalacqua
treatment
of allergic
rhinitis.
European
munology
Allergy. 2000;55:116-134.
G, et al. Consensus
Academy
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statement
on the
and Clinical
Im-
10. Bousquet J, van Cauwenberge P, Khaltaev N. Allergic rhinitis and its impact on asthma. J Allergy Clin Imrn~nol. 2001;108(Suppl 5):S147-S334. Il. Dykewicz MS, Fineman S. Executive summary of joint task force practice parameters on diagnosis and management of rhinitis. Ann Allergy Asthma Irnmunol. 1998;81:463-468. 12. Mygind N. Local effect of intranasal beclomethasone dipropionate aerosol in hay fever, BMJ. 1973;4:464-466. 13. Durham SR. The inflammatory nature of allergic disease. Clin Exp Allergy 1998;28 (Suppl 6):20-24. 2213
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14. Creticos P, Fireman (Rhinocort
P, Settipane
G, et al. Intranasal
Aqua) for the treatment
budesonide
aqueous pump spray
of seasonal allergic rhinitis. Rhinocort Aqua Study
Group. Allergy Asthma PYOC. 1998;19:285-294. 15. Budavari S, O’Neil M, Smith A, et al, eds. The Merck Index: An Encyclopedia of Drugs, Chemicals, and Biologic&. 12th ed. Whitehouse 16. Corren J. Intranasal
corticosteroids
Station, NJ: Merck &I Co, Inc; 1996.
for allergic rhinitis: How do different agents com-
pare? J Allergy Clin Immunol. 1999;104:S144-S149. 17. McArthur JG. A comparison in the treatment
of budesonide
and beclomethasone
of seasonal allergic rhinitis.
18. Stern MA, Dahl R, Nielsen LP, et al. A comparison onide nasal spray (128 micrograms propionate
of aqueous suspensions
and 256 micrograms
nasal spray (200 micrograms
dipropionate
sprays
Clin Otolaryngol. 1994;19:537-542. of budes-
once daily) and fluticasone
once daily) in the treatment
of adult patients
with seasonal allergic rhinitis. Am J Rhinol. 1997;11:323-330. 19. Gerson I, Green L, Fishken D. Patient preference and sensory comparisons spray allergy medications. J Sens Stud. 1999;14:491-496. 20. Silvers WS, Cohen R, D’Alonzo G, et al. Comparative formulations
of triamcinolone
acetonide,
flunisolide,
of nasal
taste evaluation
of aerosolized
and flunisolide
with menthol.
Clin The% 1993;15:988-993. 21. Lennox RD, Fowler I, Gore M, et al. Psychometric erence instrument: The Sensory Perceptions munol. 2003;111:S141. Abstract 288. 22. Gart J. An exact test for comparing metrika. 1969;56:75-80. 23. Jones B, Kenward
24. Prescott RJ. The comparison
matched
proportions
corticosteroids
of a patient-based
pref-
(SPQ). J Allergy Clin Imin crossover
and categorical
UK: Chapman
designs. Bio-
data. In: Design and
and Hall; 1989:89-105.
of success rates in cross-over trials in the presence of an
order effect. App1 Stat. 1981;30:9-15. 25. Bachert C, El-Akkad T. Patient preferences tranasal
Questionnaire
MG. The analysis of binary
Analysis of Cross-Over Trials. London,
validation
for the treatment
and sensory
of allergic rhinitis.
comparisons
of three in-
Ann Allergy Asthma Im-
munol. 2002;89:292-297. 26. LaForce C, Hampel life enhance
F, Kiechel F, et al. Patient convenience,
efficacy and safety of triamcinolone
acetonide
comfort, aqueous
and quality of vs beclometha-
sone aqueous nasal sprays for treatment of ragweed seasonal allergic rhinitis Allergy. 1997;52(Suppl):169. Abstract 530. 27. Physicians’ Desk Reference. 57th ed. Montvale, NJ: Thomson PDR; 2003.
Address correspondence Consultants of NJ-PA, PC, 19426. 2214
to: 555
Shailen Second
(SAR).
R. Shah, MD, Allergy and Asthma Avenue, Suite C-750, Collegeville, PA
Miller, MStat,2 Ned Pethick, C. Jones, MA, MSC,~
BS,’
IAllergy and Asthma Consultants of NJ-PA,PC, Collegeville,Pennsylvania, and 2AstraZeneca Le Wilmington, Delaware
ABSTRACT
Background: Intranasal corticosteroids are effective for the treatment of allergic rhinitis. Sensory attributes associated with these sprays may affect patient preference and adherence to treatment regimens. Objectives: These 2 studies compared patients’ perceptions of and preferences for specific sensory attributes of budesonide aqueous nasal spray (BANS) and fluticasone propionate nasal spray (FPNS). Methods: In 2 multicenter, randomized, single-blind (patient), single-dose, 2-period, l-day crossover studies, adults with mild to moderate allergic rhinitis received single doses of BANS (one 32-pg spray per nostril in both studies, 64yg total dose) and FPNS (two 50-yg sprays per nostril in study 1, 2OO+g total dose; one SO-pg spray per nostril in study 2, 100-pg total dose). Study 1 compared the once-daily recommended starting doses of BANS and FPNS, and study 2 compared BANS with half the once-daily recommended dose of FPNS to balance the number of actuations for delivery of study drug. Patients completed the 23-item Sensory Perceptions Questionnaire and indicated their product preference (if any). Results: A total of 110 women and 71 men in study 1 and 136 women and 54 men in study 2 were randomized to treatment. None had previously used BANS or FPNS. In both studies, fewer patients perceived scent or taste (both P < 0.001 in both studies), forceful spray (P < 0.001 in both studies), and a wet feel in both the nose and throat (study 1, P < 0.004; study 2, P < 0.002) with BANS Accepted for publication June 11, 2003. Printed in the USA. Reproduction in whole or part is not permitted.
2198
0 149.29 IE/03/$19.00
Copyright
0
2003
Excerpta
Medica, Inc.
S.R.Shah et al.
than with FPNS. In addition, more patients in both studies liked the spray force (study 1, P < 0.01; study 2, P < 0.001) and moisture content in the throat (study 1, P < 0.001; study 2, P < 0.006) of BANS and indicated a greater overall satisfaction with the sensory features of BANS than those of FPNS (study 1, P c: 0.001; study 2, P < 0.015). In analyses that included all responding patients, 54.4% of patients in study 1 preferred BANS and 37.8% preferred FPNS (P < 0.022). In study 2, 47.4% preferred BANS and 41.1% preferred FPNS (not significant). Of the 92.2% of patients in study 1 and 88.4% in study 2 who specified a product preference, 59.0% preferred BANS and 41.0% preferred FPNS in study 1 (P = 0.021), and 53.6% preferred BANS and 46.4% preferred FPNS in study 2 (not significant). Conclusions: On the basis of perceptions of specific sensory attributes reported after 1 administration in these 2 studies, BANS was rated as more pleasing and preferred over the recommended QD starting dose of FPNS, and was also rated as more pleasing than half the QD recommended starting dose of FPNS. (Chin Tvzev: 2003;25:2198-2214) Copyright 0 2003 Excerpta Medica, Inc. Key words: budesonide aqueous, fluticasone propionate, nasal spray, patient preference, sensory attributes.
INTRODUCTION
Allergic rhinitis is a common medical condition that affects -10% to 15% of the US population.’ Although allergic rhinitis affects both children and adults, it is most prevalent among persons aged 20 to 40 years.’ Therefore, a significant proportion of men and women in the workforce are affected.2 The symptoms of allergic rhinitis (ie, sneezing, rhinorrhea, and nasal congestion) produce physical discomfort and have a detrimental impact on patients’ psychological, social, and vocational lives.3 Furthermore, the discomfort and cognitive impairment associated with allergic rhinitis reduce work productivity4 and account for millions of lost days of work each year.5 Although 70% of patients use prescription medication to treat the symptoms of allergic rhinitis, -25% experience inadequate symptom control.6 This lack of optimal symptom control could be a result of ineffective treatment, poor patient adherence, or both. Medications that are ineffective at relieving symptoms; produce undesirable effects such as drowsiness, headache, or burning and stinging in the nose; or have a disagreeable scent or taste may reduce patients’ willingness to adhere to their treatment regimens. This may in turn, reduce the effectiveness of the prescribed allergy product. Intranasal corticosteroids are an efficacious pharmacologic therapy for the treatment of allergic rhinitis. They successfully reduce nasal congestion, rhinorrhea, sneezing, and itching in most patients, and available data suggest that intranasal corticosteroids are more effective than oral antihistamines7J As a result, topical cor2199
CLINICAL THERAPEUTICS@
ticosteroids administered via nasal sprays are being used increasingly as first-line therapy for the relief of symptoms of allergic rhinitis9J0 Moreover, recent guidelines developed by a joint task force on the practice parameters in allergy, asthma, and immunology1 l and by the Allergic Rhinitis and its Impact on Asthma workshop in collaboration with the World Health Organizationlo have recommended the use of nasal corticosteroids in all patients except those with occasional or the mildest of allergic rhinitis symptoms. Intranasal corticosteroids for the treatment of allergic rhinitis were introduced to the market -3 decades ago. l2 Since then, advances in formulations and delivery methods have become important factors when selecting a treatment.13 Early formulations were delivered via pressurized metered-dose inhalers (pMDI$, whereas the present formulations include aqueous products such as budesonide aqueous nasal spray* (BANS) and fluticasone propionate nasal spray+ (FPNS). BANS was designed to provide additional comfort to patients with sensitive mucosa who may have been unable to tolerate the pMD1 formulations.r4 BANS also has a low volume of spray (one 50-uL spray per nostril QD) for treatment delivery and does not contain a chlorofluorocarbon propellant or alcohol, both of which may cause burning or stinging in the nose. Moreover, BANS does not contain benzalkonium chloride, a preservative with antimicrobial properties that is known to have a bitter taste; other corticosteroid nasal sprays, such as FPNS, contain this compound.15 Although subtle differences may exist, intranasal corticosteroids show similar efficacy and safety for treating the symptoms of allergic rhinitis when administered at the recommended daily doses. 16-18 Success or failure of the treatment and proper management of the symptoms depend on patient adherence to an established schedule initiated by the prescribing physician. Sensory attributes are increasingly important to patients and may affect their preference for intranasal products, especially when medications prove to be similar in efficacy Therefore, when patients prefer the specific sensory attributes associated with a particular intranasal corticosteroid formulation or delivery device, they may better adhere to a treatment regimen. The primary objectives of the studies reported here were to compare patients’ perceptions of and preferences for specific sensory attributes of BANS and FPNS. PATIENTS
AND
METHODS
Study Design
Two multicenter, randomized, single-blind (patient), single-dose, 2-period, lday crossover studies were conducted (AstraZeneca studies RAQ-1002 [study 11 and RAQ-1003 [study 21). Study 1 consisted of 12 investigational sites, and study *Trademark: Rhinocort Aqua@ (AstraZeneca LP, Wilmington, Delaware). ‘Trademark: Flonase@ (GlaxoSmithKline, Research Mangle Park, North Carolina)
2200
S.R. Shah et al.
2 consisted of 13 sites within the United States. Eligible patients were screened at an initial visit and were enrolled for randomization and treatment on the same day or within 7 days of screening. In study 1, the recommended (labeled) QD starting doses of BANS (one 32-yg spray per nostril, equal to 64-ug total dose) and FPNS (two 50-pg sprays per nostril, equal to 200~pg total dose) were used. Study 2 compared the same dose of BANS with half the recommended once-daily starting dose of FPNS (one 50-pg spray per nostril, equal to 100~ug total dose) to balance the number of actuations for delivery of study drug. To eliminate bias due to order of treatment, we assigned patients to 1 of the 2 possible treatment sequences (BANS followed by FPNS or FPNS followed by BANS) in balanced blocks at each site according to a randomization schedule generated in advance by a centralized computer at AstraZeneca. Investigators at each site assigned numbers (corresponding to randomized assignment to a treatment sequence) to patients sequentially as they qualified for the study, thus ensuring that patients were randomly assigned to a treatment sequence in balanced blocks at each site. This process resulted in the same designated maximum number of patients at each site that could be enrolled in the study but varying total numbers of patients at each site. Before receiving study medication, patients in study 1 briefly rinsed their mouths with a small cup of water. Patients in study 2 chewed unsalted crackers, briefly rinsed their mouths with a small cup of water, and then smelled a swatch of wool. Patients then self-administered the study treatments under supervision from a professional at the investigational site after instructions were given on the proper technique of nasal spray use. Study 1 included a l-hour washout period and study 2 included a 2-hour washout period between dosing. These washout periods between single administrations of each product were chosen based on previous studies investigating patients’ preferences of sensory attributes of nasal products lg and inhaled asthma medications20; results of these studies showed that washout periods of 30 to 45 minutes were sufficient. Although the investigators were not blinded, patients were blinded to the identity of the treatment by removal or covering of the labels on the spray bottles, along with removal of the distinctively colored caps. In addition, patients were eligible for the study only if they had not previously used either medication. Both studies received approval from an independent ethics committee or institutional review board, and all enrolled patients provided written informed consent before treatment. Patient
Population
Patients enrolled were of either sex, were aged 218 years, had H-year history of allergic rhinitis (seasonal or perennial), and were experiencing mild to moderate symptoms of allergic rhinitis as determined by a 24-hour reflective total nasal symptom score on the study day In addition, all participants had a history of ei2201
CLINICAL THERAPEUTIC?
ther inadequate control of symptoms with antihistamines, decongestants, and/or immunotherapy, or previous success with intranasal corticosteroids other than budesonide or fluticasone propionate. Exclusion criteria were the following: pregnancy, nursing, or not using an accepted method of birth control; the presence of nasal candidiasis, rhinitis medicamentosa, atrophic rhinitis, acute or chronic rhinitis, and nasal obstructions or abnormalities; a significant disease history or unstable medical condition; the use of topical nasal corticosteroid treatment within 2 weeks before study initiation; a history of hypersensitivity or intolerance to corticosteroids (topical or systemic); use of medications that could mask the symptoms of rhinitis immediately after the study treatment day; use of an experimental drug within 30 days preceding study initiation; or previous use of BANS or FPNS. Sensory Perceptions Questionnaire
Immediately after each treatment session, patients were placed in a predesignated waiting area and instructed not to discuss their impressions of the treatment while completing the 23-item Sensory Perceptions Questionnaire (SPQ).21 The self-administered SPQ was developed and validated in collaboration with 2 healthoutcomes research groups (Avalon Health Solutions, Inc., Philadelphia, Pennsylvania, and Psychometric Technologies, Hillsborough, North Carolina) and was presented in 2 parts. Part I was administered to the patients after the first spray treatment to record their perceptions of specific sensory attributes of the treatment. After a washout period (1-2 hours) and administration of the second treatment, Part I of the SPQ was again administered to record their perceptions of the second spray, followed by Part II to determine their overall (global) preference, if any, for either treatment based on the sensory attributes of the products. Part I of the SPQ consisted of a list of 5 yes/no questions about whether they perceived any scent, taste, aftertaste, medicine rundown into the throat, or runout from the nose. Next, an additional 16 questions were presented, and ?-point Likert scales were used to rate each patient’s degree of perception and like/dislike of each attribute (1 = strongest perception and greatest disliking; 5 = weakest perception and greatest liking). Attributes included the same 5 qualities as for the yes/no questions plus force and liking of the force of spray, and feel and liking of the spray in the nose and throat. The last question in Part I asked the patients, “Overall, how pleased were you with the sensory features of the nasal spray you just used?” on a 5-point Likert scale (1 = very displeased; 5 = very pleased). Part II of the SPQ asked those patients who completed the entire study the following global preference question: “Based on the sensory features of the 2 study sprays you used today, overall, which study spray did you prefer?” Patients responded by indicating either the first or second spray or no preference. The questions in Part I of the SPQ are listed in Table I. 2202
S.R. Shah et al.
Table I. Part I of the Sensory Perceptions Questionnaire. Response
Question Preliminary
questions
I. Did the nasal spray have any smell?
Yes/no
2.
Did the nasal spray have any taste?
Yes/no
3.
Did any medicine run down the back of your nose into your throat?
Yes/no
4.
Did any medicine run out of your nostrils?
Yes/no
5.
Did the nasal spray have an aftertaste?
Yes/no
Follow-up
questions*
I a. Strength of the smell
Very strong ( I )-very
I b. Liking of the smell
Disliked a lot (I)-liked
2a. Strength of the taste
Very strong ( I )-very
2b. Liking of the taste
Disliked a lot (I)-liked
3a. Amount
Extreme amount
of medicine that ran into your throat
3b. How much were you bothered
by the medicine
of medicine that ran out of your nostrils
4b. How much were you bothered
a lot (5) weak (5) a lot (5)
(I)-minimal
bothered
(I)-not
amount
(5)
bothered
at all (5)
running into your throat? 4a. Amount
Extremely
weak (5)
by the medicine
Extreme amount Extremely
(I)-minimal
bothered
(I)-not
amount
(5)
bothered
at all (5)
running out of your nostrils?
Very strong ( I )-very
5a. What was the force of the spray?
weak (5)
5b. Extent to which you liked/disliked the force of Disliked a lot (I)-liked
the spray
Very dry (I)-very
6a. How did the spray feel in your nose? 6b. Extent to which you liked/disliked
how the spray Dislilced a lot (I )-liked
felt in your nose 7a. How did the spray feel in your throat 7b. Extent to which you liked/disliked
after use?
Very dry (I)-very
a lot (5)
moist (5)
how the spray Disliked a lot (I)-liked
felt in your throat 8a. Opinion
a lot (5)
moist (5)
Very strong (I )-very
of the strength of the aftertaste
a lot (5) weak (5)
Disliked a lot (I)-liked
8b. Liking of the aftertaste
a lot (5)
Final question* Overall, how pleased were you with the sensory features of the nasal spray you just used? “Patients rated their degree of perception ception
Statistical
Very displeased (I)-very
and like/dislike of each attrlbute
and greatest dislike; 5 = weakest perception
pleased (5)
using Lilcert scales (I = strongest per-
and greatest liking).
Analyses
the design of each study we estimated that - 155 evaluable patients would provide 80% power to detect a treatment difference of 0.125 in the proportion of patients preferring 1 of the treatments with the use of a 2-tailed l-sample test for proportions. In
2203
CLINICALTHERAPEUTICS@
In each study, the primary end point was patient preference. Study 1 and study 2 results from the global patient preference question (Part II of the SPQ) were analyzed with the Mainland-Gart test (stratified by site) and also with the Prescott test (stratified by site) to include patients who did not express a preference for 1 product over the other. 22-24 Binary (yes/no) responses for the patients’ perceptions of specific sensory attributes from questions in Part I of the SPQ were analyzed with the Mainland-Gart test, and ordinal responses (Likert scale) with the Wilcoxon signed rank test. All statistical comparisons were performed as 2-sided tests. Statistical significance was set at P I 0.05. Safety
Safety was assessed in each patient who received 21 treatment spray The safety assessment was based on clinical evaluation by the study investigators and by patient self-monitoring of adverse events (AEs). AEs were reported on the study day and in a follow-up telephone call 2 weeks after treatment to inquire about any additional events. RESULTS Patient
Population
A total of 181 patients underwent randomization and received treatment in study 1 (110 women, 71 men); 1 patient was lost to follow-up (safety assessment) but completed the SPQ, and another patient was determined to have a protocol deviation after receiving the study drug and completing the SPQ. In study 2, a total of 190 patients (136 women, 54 men) underwent randomization, received treatment, and completed the entire study Demographic characteristics were well balanced between the 2 studies (Table II). Sensory Perceptions
Questionnaire
Part I
In study 1 (BANS 64 ug vs FPNS 200 ug), patients were significantly less likely to perceive any scent (P < O.OOl>, taste (P < O.OOl>, aftertaste (P < O.OOl), medicine rundown into the back of the nose and into the throat (P < O.OOl), or medicine runout of the nostrils (P < 0.019) when using BANS compared with FPNS (Figure 1A). In study 2 (BANS 64 p.g vs FPNS 100 pg), patients were also significantly less likely to perceive any scent or taste (both P < 0.001) when using BANS compared with FPNS (Figure 1B); no significant differences were found between products for aftertaste, medicine rundown into the back of the nose and into the throat, or medicine runout from the nostrils. Patients rated their sensory perceptions and the degree of their perceptions and their like or dislike of those perceptions using Likert scales (Figures 2 and 3). Study 1 (BANS 64 yg vs FPNS 200 pg) and study 2 (BANS 64 pg vs FPNS 100 ug) both 2204
S.R. Shah et al.
Table II. Demographics and baseline characteristics of patients randomized to treatment in studies I and 2. Study Characteristic
I
Study 2
(N = 181)
(N = 190)
I IO (60.8)
I36 (7 I .6)
71 (39.2)
54 (28.4)
Sex, no. (%) Women Men Agel Y Mean Range
40
38
I 8-73
I 8-80
125 (69.1)
I44 (75.8)
(I 6.0) 2 I (I I .6)
33 (I 7.4)
Race, no. (%) White
29
Blacl< Hispanic
8 (4.2)
Asian
6 (3.3)
2 (Ll)
Other
0 (0.0)
3 (1.6)
Baseline total nasal symptom Mean Range
score* 7
7 3-12
4-l
I
Allergic rhinitis duration, y Seasonal and perennial Mean
I9
I8
Range
l-58
I-62
Perennial Mean
I6
I3
Range
3-49
2-30
Seasonal Mean Range
I4
18
I47
l-50
‘Based on the sum of patient-reported individual nasal symptom scores of rhinorrhea, sneezrng,nasal congestion, and nasal itching (O-l 2 total scale). Higher scores indicate more severe symptoms.
showed that more patients perceived the feel of spray in the throat as less wet with BANS than with FPNS (Figure 2; study 1, P < 0.004; study 2, P < 0.002), and more patients preferred the feel of the spray in the throat with BANS than with FPNS (Figure 3; study 1, P < 0.001; study 2, P < 0.006). In addition, more patients in both studies perceived the feel of spray in the nose as less wet with BANS than with FPNS (Figure 2; study 1, P < 0.001; study 2, P < O.OOl), and more patients preferred the feel of spray in the nose with BANS than with FPNS (Figure 3; study 1, P < 0.001; study 2, P < 0.001). More patients in both studies perceived a less force2205
CLINICAL THERAPEUTICS@
W BANS 0 FPNS
* -
t
Scent
Taste (n = 179)
(n = 181)
Aftertaste
Throat
(n = 181)
Rundown
II. Nose
(n = 181)
Runout
(n = 181)
W BANS 0 FPNS
r
*
!..I. :
Scent
Taste (n = 189)
(n = 190)
Figure
I. Percentages sensory
of patients
attributes
propionate
responding
of budesonide
Aftertaste (n = 187)
Throat
Nose
Rundown
Runout
(n = 190)
(n = 190)
yes when asked if they perceived
specific
aqueous nasal spray (BANS) and fluticasone
nasal spray (FPNS) in (A) study
I (BANS 64 wg vs FPNS 200 kg)
and (B) study 2 (BANS 64 Fg vs FPNS IO0 pg). *P < 0.00 I; tP C 0.0 19. 2206
S.R. Shah et al.
0
Very moist or very weak (5) Somewhat moist or somewhat weak (4)
m
Neither
dry nor moist: neither strong nor weak (3)
?? Somewhat dry or somewhat strong (2) 0
Very dry or very strong (I)
A Mean Score
3.1
3.4+
2.7
BANS
FPNS
3.3*
80 60 40 20 0 BANS
BANS
FPNS
FPNS
Feel in Nose
Feel in Throat
Spray Force
6 Mean Score
3.2
3.4*
100 80 60 40 20 0 BANS
FPNS
Feel in Throat
BANS
FPNS
BANS
Feel in Nose
FPNS
Spray Force
Figure 2. Mean Likert scores for degree of perception of specific sensory attributes of budesonide aqueous nasal spray (BANS) and fluticasone propionate nasal spray (FPNS) in (A) study I (BANS 64 pg vs FPNS 200 Fg) and (B) study 2 (BANS 64 p,g vs FPNS 100 Fg). *P < 0.004; l’p C 0.001; *P < 0.002.
ful spray with BANS than with FPNS (Figure 2; study 1, P < 0.001; study 2, P < O.OOl>, and more patients preferred the force of spray with BANS than with FPNS (Figure 3; study 1, P < 0.002; study 2, P < 0.001). Finally, when patients were asked, “Overall, how pleased were you with the sensory features of the nasal spray you just used?” a greater majority of patients in both studies were very pleased or somewhat pleased with BANS than with FPNS (Figure 4; study 1, P < 0.001; study 2, P < 0.015).
The remaining questions in Part I of the SPQ were follow-up items to the preliminary questions. As a result, if a patient responded no to a preliminary question, he or she would be instructed not to answer the corresponding follow-up 2207
CLINICAL
THERAPEUTICS@
0 Like a lot (5) Like somewhat (4) Neither like nor dislike (3) ?? Dislike somewhat (2) 0 Dislike a lot (I) A
Mean Score
3.4*
3.1
3.6*
3.3
Y
100
100
‘52
80
80
;
60
60
%I :!
40
40
$
20
20
2
0
BANS
FPNS
Feel in Throat
BANS
FPNS
0
Feel in Nose
BANS
FPNS
Spray Force
B Mean Score 3
3.2+
3.0*
3.5*
3.1
100
80
80
60
60
4Oi
40
20
20
01
BANS
FPNS
Feel in Throat
Figure 3.
3.5*
100
Mean
Likert
BANS
FPNS
Feel in Nose
0
3.1
1
BANS
FPNS
Spray Force
scores for like/dislike of specific sensory attributes of budesonide
aqueous nasal spray (BANS) and fluticasone propionate nasal spray (FPNS) for (A) study I (BANS 64 pg vs FPNS 200 pg) and (B) study 2 (BANS 64 pg vs FPNS IO0 pg).*P < 0.00I ; l-P < 0.002; *P c 0.006.
questions, Because the number of evaluable patients for these follow-up questions was relatively small compared with the total number of all randomized patients in each study, and because this population was biased (ie, selected based on the answer to a preliminary question), formal statistical analyses of these data were not performed. However, the responses to these questions favored BANS, as did the preliminary yes/no questions for these items.
Part II of the SPQ asked patients the global preference question, “Based on the sensory features of the 2 sprays you used today, overall, which study spray did 2208
S.R.Shah et al.
A H BANS ? ?FPNS
100 90 80
IO 0
I
Very Pleased or Somewhat Pleased
Very Displeased or Somewhat Displeased
Neither Pleased nor Displeased
B ?? BANS
100
0
FPNS
90 80 $ c .$ c?
70
z a,
50
3 c $ [Lfz
60
II
40 30 20 IO 01-
Very Pleased or Somewhat Pleased
Figure 4. Patients’ overall
satisfaction
Neither Pleased nor Displeased
based on the sensory
aqueous nasal spray (BANS) and fluticasone (A) study
Very Displeased or Somewhat Displeased
propionate
features
of budesonide
nasal spray (FPNS) in
I (BANS 64 kg vs FPNS 200 pg [mean scores, 3.9 BANS vs 3.5
FPNS; P < 0.00 I]) and (B) study 2 (BANS 64 pg vs FPNS IO0 pg [mean scores, 3.8 BANS vs 3.5 FPNS; P 4 0.0) 51). 2209
CLINICALTHERAPEUTICS@
you prefer?” Of the 181 randomized patients in study 1, 180 (99.4%) completed this question and were therefore considered evaluable for the analysis of preference. Of this group, 166 (92.2%) expressed a preference for 1 of the 2 randomized treatments and were included in the primary analysis of preference. Significantly more patients preferred BANS (98 patients, 59.0%) than FPNS (68 patients, 41.0%) (P = 0.021; Figure SA). When the analysis included patients who completed the global preference question but did not express a preference for either product (14 patients, 7.8%), significantly more patients preferred BANS over FPNS (54.4% vs 37.8%; P <: 0.022; Figure 5B). Patients preferred BANS to FPNS regardless of the order of administration of the 2 study drugs. However, the patients who were randomized to receive BANS first indicated a stronger preference for BANS over FPNS than those patients who received BANS second, although this difference was not assessed for statistical significance. Patients who received the study drugs in the BANS-FPNS sequence preferred BANS to FPNS 61.1% to 34.4% (4.4% had no preference). Patients who received the FPNS-BANS sequence preferred BANS to FPNS 47.8% to 41.1% (11.1% had no preference). In study 2, all 190 randomized patients were considered evaluable for the analysis of preference. Of this group, 168 (88.4%) expressed a preference for 1 of the 2 randomized treatments and were included in the primary analysis of preference. Ninety patients (53.6%) preferred BANS compared with 78 (46.4%) who preferred FPNS, but these values were not significantly different (Figure SC). When patients were included who did not express a preference for either product (22 patients, 11.6%), these values remained nonsignificant (Figure 5D). Patients who received the study drugs in the BANS-FPNS sequence preferred BANS to FPNS 52.6% to 35.1% (12.4% had no preference; statistical significance not assessed). Those who received the FPNS-BANS sequence preferred FPNS to BANS 47.3% to 41.9% (10.8% had no preference; statistical significance not assessed). Variation among sites was observed in both studies with respect to patients’ responses to the global preference question (Part II of the SPQ). In study 1, at 5 of the 11 sites, >50% of patients preferred BANS; at 3 sites, equal numbers of patients preferred BANS or FPNS; and at the remaining 3 sites, >50% of patients preferred FPNS. In study 2, 7 of the 13 sites had more patients who preferred BANS, and 6 sites had more patients who preferred FPNS. Safety Profile
BANS and FPNS were well tolerated in both studies. Overall, AEs were few, mild to moderate in severity, and similarly distributed across treatment sequences. Nine patients in study 1 (5.0%) and 11 patients in study 2 (5.8%) reported an AE. In study 1, no AEs were judged to be causally related to the study treatment. In study 2, 7 AEs were judged to be treatment related (rhinitis [n = 41, dry mouth [n = 11, nausea [n = 11, and headache [n = 11). No serious or significant AEs were 2210
S.R.Shah et al.
Figure 5. Percentages
of patients
expressing
aqueous nasal spray (BANS) neither, based on sensory
a global preference
or fluticasone
features, in study
propionate
for either
budesonide
nasal spray (FPNS), or
I (BANS 64 kg vs FPNS 200 kg)
and study 2 (BANS 64 p,g vs FPNS IO0 kg). (A) Study I results, based on I66 evaluable
patients
all 180 patients who expressed responded.
who expressed who
responded.
a preference.
a preference.
(B) Study I results, based on
(C) Study 2 results, based on I68 patients
(D) Study 2 results, based on all I90 patients who
*P = 0.02 I ; tP -z 0.022.
reported in either study and no significant noted in any patient.
clinical changes in vital signs were
DISCUSSION
These 2 multicenter, randomized, single-blind (patient) studies found that these patients were significantly less likely to perceive any scent, taste, aftertaste, or 2211
CLINICAL THERAPEUTICS@
medicine rundown into the throat or out of the nostrils with the recommended QD starting dose of BANS than with FPNS. These studies also showed that BANS was associated with a significantly less forceful and more likable force of spray, a drier and more likable feel of spray in the nose and throat, and overall a more pleasant assessment of sensory features than FPNS in the population studied. In support of the present findings, another aqueous intranasal corticosteroid, triamcinolone acetonide nasal spray, was also preferred over FPNS and mometasone furoate in a multicenter study using a nasal spray evaluation questionnaire.25 In the present studies, we did not attempt to assess patients’ preference for 1 product over another based on differences in efficacy or safety profile, nor did we attempt to assess overall patient satisfaction with BANS as compared with FPNS. These attributes cannot be adequately assessed in a single-exposure treatment design. These studies were designed to assess overall preference based on the patients’ perceptions of all relevant sensory attributes associated with the use of a nasal corticosteroid spray By design, the SPQ did not include items to assess AEs such as nasal irritation or epistaxis because these events would not be expected to occur immediately after a single exposure. These studies were also not designed to compare the safety of the 2 treatments, although we determined the incidence of AEs as reported by the patients. Very few of the reported AEs were judged to be treatment related; however, the physicians evaluating these reported AEs were not blinded to treatment, so there was a possibility of bias. The overall incidence of AEs reported by the blinded patients was low and similar across treatment sequences. Patient adherence to a prescribed treatment regimen is essential for adequate management of disease symptoms. Adherence is especially important for treating the symptoms of allergic rhinitis, for which preventive administration of intranasal corticosteroids is recommended to achieve successful long-term symptom management.lO Previous reports have shown that patients’ perceptions of the sensory attributes and ease of administration of intranasal corticosteroids are important considerations when prescribing a specific treatment regimen, along with the traditional factors of effectiveness and safety 19,25,26For example, FPNS contains benzalkonium chloride, a preservative known to have a bitter taste, and phenylethyl alcohol, an additive known to have a floral scent, whereas BANS does not contain either additive. The presence of these compounds may have contributed to the larger number of patients in both study 1 and study 2 who described only FPNS as having a taste or scent. The recommended starting dose of BANS requires only one SO-pL spray per nostril QD, whereas both recommended daily doses of FPNS consist of two lOOpL sprays per nostril daily (2 sprays per nostril QD or 1 spray per nostril BID).27 The lower spray volume of BANS may have contributed to the significant differences in study 1 (but not study 2) seen between BANS and FPNS in the perception of medicine rundown into the throat and medicine runout from the nostrils. 2212
S.R. Shahet al.
CONCLUSIONS On the basis
of perceptions
of specific
sensory
attributes
reported
after 1 admin-
istration in these 2 studies, BANS was rated as more pleasing and preferred over the recommended QD starting dose of FPNS, and was also rated as more pleasing than
half the QD recommended
starting
dose of FPNS.
ACKNOWLEDGMENTS This
study
was
Christopher Media,
supported
Tobias,
PhD,
Pennsylvania),
by a financial and
Stella
contributed
grant
Chow,
provided
PhD
by AstraZeneca
(Tri-Med
to the preparation
LP.
Communications,
of the manuscript.
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Address correspondence Consultants of NJ-PA, PC, 19426. 2214
to: 555
Shailen Second
(SAR).
R. Shah, MD, Allergy and Asthma Avenue, Suite C-750, Collegeville, PA