In from SCIREQ Team

Dr. Waters Dynamic in-vivo imaging

Airway hyperresponsiveness (AHR) is a very complex relationship between smooth muscle and localized inflammation with little known about the exact physiology behind a response. It is typically measured by using stimuli to act directly on the airway smooth muscle to induce bronchonstriction, such as methacholine.  It is also measured indirectly using exercise, hypertonic saline, various allergens which cause bronchoconstriction by releasing of upstream mediators1.

Imaging studies in humans and animals have previously shown that bronchoconstriction causes patchy ventilation defects within the lungs2. In a recent publication, Dr. Waters utilized a specialized imaging technique, microfocus X-ray computer tomography, which provides high resolution imaging in small subjects. The imaging allowed for investigation into the airway narrowing in response to methacholine challenges to compliment the lung mechanics measurements3.

Figure 1: Subject paced on rotating stage between X-ray source and detector– much like clinical CT systems, alternatively can have the stage fixed and imaging device rotate around subject (Pinar & Jones 2018).

In-vivo imaging with the flexiVent allowed Dr. Waters and his group to visualize the physiological heterogeneity observed within the lungs in response to a methacholine challenge.

Dynamic in-vivo imaging

In addition, they show that employing multiple (3-7) deep inflations affects resistance outcomes by significantly increasing the diameter of the airways.

Dynamic in-vivo imaging

Read more about Dr. Waters’ publication or request a literature search for another research application.

References :

1Champan & Irvin (2015). Mechanisms of airway hyperresponsiveness in asthma: the past, present and yet to come. Clin Exp. Allergy. 45(4):706-719

2Pinar & Jones (2018). Novel imaging approaches for small animal models of lung disease (2017 grover conference series). Pulmonary Circulation. 8(2).

3Waters et. al. (2019). Dynamic airway constriction in rats: heterogeneity and response to deep inspiration. Physiology Journal.

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