Previously it was observed that individuals with tetraplegia have reduced baseline airway caliber and exhibit non-specific airway hyperresponsiveness (AHR). In persons with tetraplegia we have suggested that this is due to overriding cholinergic airway tone. In asthma, the mechanisms underlying bronchoconstriction and AHR are more closely tied to airway inflammation. Whether AHR in tetraplegia is also related to chronic airway inflammation is unknown. Recently, a non-invasive technique for assessing airway inflammation has been established in asthma that involves measurement of nitric oxide (NO) concentrations (FeNO) in expired air. FeNO is elevated in asthma likely due to excess NO production by inflammatory cells within the airway Measurement of FeNO in persons with tetraplegia would help in assessing the role of airway inflammation in this population. This may have therapeutic significance in such individuals. NO in the lung is felt to be the principal inhibitory neurotransmitter of the non-adrenergic, non-cholinergic (NANC) system. It is thought that inhalation of NO has no effect on airway tone in healthy individuals but reduces methacholine responsiveness while having weak direct bronchodilatory effect in asthmatics. The primary purpose of this study is to determine the levels of exhaled NO (FeNO) in individuals with chronic cervical spinal cord injury (SCI), and to compare them with those obtained in age and sex matched able-bodied individuals and subjects with stable mild to moderate asthma. If the FeNO levels are high and comparable to those found in asthmatic subjects, this will imply the role of chronic inflammation in reduced baseline airway caliber and non-specific airway hyper-responsiveness (AHR) exhibited by individuals with chronic cervical SCI. If the FeNO levels are comparable with those found in able-bodied controls, this will support our previous statement that unopposed cholinergic innervation is responsible for low baseline airway caliber and AHR in individuals with chronic tetraplegia. Further scientific conclusions about NO and its role in control of airway tone, pulmonary resistances and blood pressure will be drawn upon intravenous and inhaled administration of L-NAME. This compound has been shown promising results for the treatment and prevention of orthostatic hypotension in individuals with tetraplegia. Knowing its effects on airways and potential of easier mode of delivery (inhalation vs. intravenous) is of utmost importance.
The study requires a maximum of five study visits in the following order: 1. nebulized normal saline, 2. nebulized 1mg/kg of L-NAME (see below), 3. intravenous normal saline, 4. intravenous 1 mg/kg L-NAME, 5. intravenous 2 mg/kg L-Name.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
23
A non-specific inhibitor of the nitric oxide synthase enzyme.
VA Medical Center, Bronx
The Bronx, New York, United States
Exhaled Levels of Nitric Oxide
Nitric Oxide was measured applying a real time technique for measurement of Nitric Oxide in Exhaled Breath Condensate. Elevated Nitric Oxide in exhalate is a measure of elevated production of NO in conditions such as underlying inflammation and/or oxidative stress. Exhaled NO was reported as the mean of three values within 10% of each other.
Time frame: Exhaled NO reported during visit, before intervention at baseline, post intervention at 60 minutes and 120 minutes
Specific Airway Conductance (sGaw) as Measured by Plethysmography
Specific airway conductance (sGaw) is the airway conductance relative to lung volume because it takes into account the important effect of lung volume on airway resistance, it is a useful index of bronchomotor tone.
Time frame: Specific airway conductance reported during visit, before intervention at baseline, post intervention at 60 minutes and 120 minutes
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.