Asthma Clinical Trial
Official title:
Using Exhaled Nitric Oxide to Step Down Inhaled Corticosteroid Therapy in Asthma
Asthma affects 6% of the UK population and costs the NHS 1 billion pounds per year. £473
million alone is spent on inhaled steroid treatment which is designed to reduce inflammation
in the breathing tubes.
Unfortunately knowing whether a patient is on just the right amount of steroid treatment is
difficult, as asthma is a variable disease and the measures currently used to decide on
increasing or decreasing steroid treatment bare little resemblance to the actual amount of
inflammation present. Doctors may not reduce treatment as swiftly as necessary if a
patient's asthma is well controlled because of concern over asthma attacks; this can result
in potential over treatment with inhaled steroids. Although steroid treatment is safe, side
effects can occur, and costs are large, so a strategy helping avoid over treatment would be
beneficial both to patients and to the NHS.
As the investigators can more accurately measure airway inflammation present in the
breathing tubes, using a chemical called nitric oxide present in a patient's breath, the
investigators might be able to more accurately predict which patients could safely reduce
their steroid treatment. Measuring nitric oxide is simple, and involves breathing into a
special machine (similar to a roadside breathalyser). In this study the investigators will
measure nitric oxide in patients with well controlled asthma, and reduce their asthma
treatment by 50%. The investigators will then follow up the patients and remeasure their
nitric oxide. At the end of the study the investigators will see if measurements of nitric
oxide predicted which patients could safely step down their treatment. If successful this
could help reduce the overall cost to the NHS of inhaled steroids and reduce steroid
associated side effects.
The principal objective is to establish whether a baseline measurement of airway
inflammation, as measured in exhaled breath, or a variation in this measurement over time,
can predict which patients can safely step down their asthma treatment without experiencing
a loss of asthma control.
This study is designed to show whether a policy utilising measurements of exhaled nitric
oxide (present in the breath) in guiding asthma treatment will be feasible, and is worth
testing in a future prospective study.
The secondary objectives are to establish if this approach is feasible, safe and cost
effective, when compared to current clinical guidelines.
Asthma is defined by the presence of symptoms associated with variable airflow obstruction,
airway inflammation and airway hyperresponsiveness. Inhaled corticosteroids are one of the
most commonly used treatments in asthma, currently £473 million per year is spent on these
medications alone in the UK. Guidelines recommend that treatment decisions are based on
assessment of symptoms and airflow obstruction. However, as there is no clear relationship
between symptom control, airflow obstruction and airway inflammation, there is a risk that
patients can be over treated. In the U.K. 80% of patients with asthma are managed in primary
care; assessment of airway inflammation is not applicable in this setting, and management
relies on the assessment of peak flow and symptoms.
Recently the concentration of nitric oxide present in exhaled breath (FENO) has been
evaluated as a tool for assessing asthma. FENO is elevated in patients with asthma, is
reduced by treatment with inhaled corticosteroids(8) and correlates with airway inflammation
measured using bronchial biopsies and induced sputum. It is particularly applicable for
monitoring asthma in primary care as the test is easy to perform, provides an immediate
result, and inexpensive portable monitors are now available. FENO appears to be a very
specific, but not sensitive, marker of airway inflammation and using a low level of FENO to
predict lack of treatable airway inflammation may be successful. Evidence from a study in
children suggests that this strategy may be successful. However, most studies using FENO to
guide ICS dose have not adopted this approach and have instead been randomised controlled
trials using a step up/ down protocol whereby a high FENO leads to a step up in ICS dose,
and a low FENO leads to a step down in dose. They have attempted to both reduce asthma
exacerbations despite also trying to reduce steroid dose. These studies have not met their
primary endpoints and have been reviewed in a Cochrane report. In the study by Shaw et al. a
similar amount of ICS was used over the duration of the study in both the group managed by
FENO and the control group; there was however a difference at the end of the study, with the
FENO group using significantly less ICS. In the study by Smith et al. the daily dose of ICS
was significantly lower at all time points, however the study results are not applicable as
patients did not receive long acting β2 agonists, and the ICS dose in the control group was
artificially inflated. These trials lend weight to the idea that utilising a step down
approach to FENO and ICS may be successful. Importantly there was no significant difference
in asthma exacerbation rates between control or treatment group in either study, suggesting
that an approach utilising by FENO is inherently safe. Other studies support this
supposition; one study suggested a close correlation between loss of asthma control and ICS
reduction, and another study demonstrated that within 2 weeks of a reduction in ICS, FENO
rises back to baseline, however exact cut off values for a simple step down strategy have
never been sought, despite evidence that this would constitute the best approach.
Most patients are at step 2-3 of the asthma guidelines, receiving ICS doses of between
200-800mcgs, and are managed in primary care; guidelines for a 50% reduction in ICS at 3
months are based on sparse evidence. If a low FENO can identify patients who can step down
their ICS treatment without a risk of worsening asthma, a strategy using FENO is likely to
be adopted into current guidelines.
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Endpoint Classification: Safety Study, Intervention Model: Single Group Assignment, Masking: Double Blind (Subject, Caregiver), Primary Purpose: Treatment
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