Allergic Rhinitis Clinical Trial
Official title:
Effect of Red Light Rhinophototherapy on Nasal Patency in Patients With Allergic Rhinitis
To investigate the short-term effects of red light rhinophototherapy on nasal patency in patients with a clinical diagnosis of allergic rhinitis using both active anterior rhinomanometry and acoustic rhinometry.
Patients experiencing moderate to severe symptoms of allergic rhinitis (AR)were collected.
The clinical diagnosis of AR was established when patients presented themselves with a
history and physical examination consistent with an allergic cause. Each candidate possessed
at least one of the following symptoms: nasal congestion, runny nose, itchy nose, or
sneezing. All patients underwent a specific IgE test against the common perennial inhaled
allergens found in Taiwan (house dust mites, molds, cats, dogs and cockroaches) to confirm
the diagnosis of AR. However, these results did not exclude the patients from this study
because only a few allergens were tested. The severity of the rhinitis symptoms was assessed
through use of a standardized score scale (1). A score of 0 (no symptoms), 1 (mild symptoms),
2 (moderate symptoms), to 3 (severe symptoms) was used to evaluate the severity of nasal
congestion, runny nose, itchy nose, and sneezing. Patients receiving a total score of 4 or
more were enrolled in the study. Patients with age below 20 years old, severe nasal septum,
rhinosinusitis and nasal polyposis were excluded from the study. Those who had a history of
immunodeficiency or previous sinus surgery, suffered from an upper respiratory tract
infection, or took oral corticosteroids within a month prior to the study were also excluded.
Eligible patients were randomly divided into 2 groups. Randomization assignments were
generated by an independent statistician. Patients in the study group were treated with one
treatment session of red light rhinophototherapy (RLRPT) (40mW/nostril for 15 minutes) at the
outpatient clinic after completing a nasal patency test using both active anterior
rhinomanometry and acoustic rhinometry. Upon completing RLRPT treatment, patients took a rest
for 30 minutes. They were then asked about the severity of their rhinitis symptoms, and as to
whether the overall level of change in those rhinitis symptoms was worse, unchanged, slightly
improved, much improved or cured. Patients were also questioned about any adverse events of
RLRPT before undergoing another nasal patency test. Finally, medical treatment involving an
intranasal steroid (mometasone furoate nasal spray, 4 sprays, once a day), along with an oral
antihistamine (levocetirizine 5 mg qd) was given for continued management of AR. Questions
regarding the severity of each patient's rhinitis symptoms, the overall change in their
rhinitis symptoms and any adverse events from RLRPT were asked via telephone communication 2
days later. Patients in the active control group were medically treated with an intranasal
steroid (mometasone furoate nasal spray, 4 sprays, once a day), along with an oral
antihistamine (levocetirizine 5 mg qd). Telephone calls were placed 2 days later in order to
evaluate the severity of each patient's rhinitis symptoms, along with any overall change in
rhinitis symptoms.
The device used for RLRPT was the Transverse Many Channels Laser Instrument (Transverse, Ind,
Co., Ltd., Taipei, Taiwan). It uses a red gallium-aluminum-arsenide laser with wavelengths of
660+10 nm as a light source. The laser has a maximum power of 40 mW. The device consists of a
control box and 4 sets of two light-emitting nasal probes. Prior to treatment, each patient
put on a pair of black tinted glasses, and had the nasal probes gently placed into both
nostrils. A turn-on switch on the control box activated the probe and the timer was set at 15
minutes during which time 36 J of light energy was delivered to each nostril.
The nasal patency was objectively measured by both active anterior rhinomanometry and
acoustic rhinometry. Anterior active rhinomanometry was performed according to the guidelines
of the International Committee on Standardization of Rhinomanometry using a NR6
Rhinomanometer (GM Instruments, Ltd., Kilwinning, UK). All patients remained seated for 30
minutes to adapt to the hospital environment prior to testing. A face mask was worn tightly.
The examination was performed during quiet breathing with a closed mouth, while the patient
was in an upright sitting position. For each nostril, inspiratory nasal resistance was
calculated over four inspiratory-expiratory cycles at a fixed pressure of 150 Pascal. Both
the total nasal airflow resistance in Pa/cm3/s, and nasal airflow in cm3/s (sum of left and
right) during inspiration were recorded.
An A1 Acoustic Rhinometer (GM Instruments, Ltd., Kilwinning, UK) was used to measure the
geometry of the nasal cavity. All patients remained seated for at least 20 minutes in order
to acclimatize to the hospital environment before testing. The nose piece was positioned
parallel to the sagittal plane of the head at a 45° angle to the coronal plane, and was
applied to produce an acoustic seal without distorting the outer nose. Patients were asked to
hold their breath and avoid swallowing during the acquisition of the acoustic data. Three
consecutive readings were taken to calculate an average value. An entire average acoustic
rhinometry curve was generated for each nasal cavity. Acoustic data included: 1) the first
minimal cross-sectional area (MCA1, cm2), 2) the second minimal cross sectional area (MCA2,
cm2), 3) the volume between the tip of the nosepiece and 3.0 cm into the nasal cavity (V03,
cm3), and 4) the volume of the nasal cavity between 2.0 and 5.0 cm from the tip of the
nosepiece (V25, cm3). We used the average value of both sides to represent the data.
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