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  • The effect of exhalation flow on endogenous particle emission and phospholipid composition.

The effect of exhalation flow on endogenous particle emission and phospholipid composition.

Respiratory physiology & neurobiology (2017-05-16)
Per Larsson, Björn Bake, Anita Wallin, Oscar Hammar, Ann-Charlotte Almstrand, Mona Lärstad, Evert Ljungström, Ekaterina Mirgorodskaya, Anna-Carin Olin
ABSTRACT

Exhaled particles constitute a micro-sample of respiratory tract lining fluid. Inhalations from low lung volumes generate particles in small airways by the airway re-opening mechanism. Forced exhalations are assumed to generate particles in central airways by mechanisms associated with high air velocities. To increase knowledge on how and where particles are formed, different breathing manoeuvres were compared in 11 healthy volunteers. Particles in the 0.41-4.55μm diameter range were characterised and sampled. The surfactant lipid dipalmitoylphosphatidylcholine (DPPC) was quantified by mass spectrometry. The mass of exhaled particles increased by 150% (95% CI 10-470) for the forced exhalation and by 470% (95% CI 150-1190) for the airway re-opening manoeuvre, compared to slow exhalations. DPPC weight percent concentration (wt%) in particles was 2.8wt% (95%CI 1.4-4.2) and 9.4wt% (95%CI 8.0-10.8) for the forced and the airway re-opening manoeuvres, respectively. In conclusion, forced exhalation and airway re-opening manoeuvres generate particles from different airway regions having different DPPC concentration.

MATERIALS
Product Number
Brand
Product Description

Avanti
17:0-14:1 PC, Avanti Research - A Croda Brand LM1004, methanol solution
Avanti
21:0-22:6 PC, Avanti Research - A Croda Brand LM1003, methanol solution