Magnetic wire active microrheology of human respiratory mucus

Abstract: Mucus is a viscoelastic gel secreted by the pulmonary epithelium in the tracheobronchial region of the lungs. The coordinated beating of cilia in contact with the gel layer moves mucus upwards towards pharynx, removing inhaled pathogens and particles from the airways. The efficacy of this clearance mechanism depends primarily on the rheological properties of mucus. Here we use a magnetic wire-based microrheology technique to study the viscoelastic properties of human mucus collected from human bronchus tubes. … Show more

“…During the past years, our group has studied a number of complex fluids with the MRS method. These fluids are to date 7 in number (Table 2), and they comprise water-glycerol mixtures [18,21,29], surfactant wormlike micelles [30], polysaccharide gels [23], the cytoplasm of living mammalian cells [19,25], a pulmonary surfactant mimetic having been exposed to nanoparticles [31], human pulmonary mucus [32] and the system discussed in this chapter, DNA and Hfq-CTR proteins [4]. In all these cases, a complete description of the wire rotation has been provided, and was found to agree with the continuum mechanics predictions of Table 1.…”

“…Table 2: List of synthetic and biological complex fluids studied in our group using the Magnetic Rotational Spectroscopy (MRS) method. These fluids comprise water-glycerol mixtures [21], surfactant wormlike micelles [30], polysaccharide gels [23], the cytoplasm of living mammalian cells [19], a pulmonary surfactant mimetic having been exposed to nanoparticles [31], human pulmonary mucus [32] and the system discussed in this chapter, DNA and Hfq-CTR proteins [4].…”

Probing DNA-Amyloid Interaction and Gel Formation by Active Magnetic Wire Microrheology

“…During the past years, our group has studied a number of complex fluids with the MRS method. These fluids are to date 7 in number (Table 2), and they comprise water-glycerol mixtures [18,21,29], surfactant wormlike micelles [30], polysaccharide gels [23], the cytoplasm of living mammalian cells [19,25], a pulmonary surfactant mimetic having been exposed to nanoparticles [31], human pulmonary mucus [32] and the system discussed in this chapter, DNA and Hfq-CTR proteins [4]. In all these cases, a complete description of the wire rotation has been provided, and was found to agree with the continuum mechanics predictions of Table 1.…”

“…Table 2: List of synthetic and biological complex fluids studied in our group using the Magnetic Rotational Spectroscopy (MRS) method. These fluids comprise water-glycerol mixtures [21], surfactant wormlike micelles [30], polysaccharide gels [23], the cytoplasm of living mammalian cells [19], a pulmonary surfactant mimetic having been exposed to nanoparticles [31], human pulmonary mucus [32] and the system discussed in this chapter, DNA and Hfq-CTR proteins [4].…”

Probing DNA-Amyloid Interaction and Gel Formation by Active Magnetic Wire Microrheology

Models using native tracheobronchial mucus in the context of pulmonary drug delivery research: Composition, structure and barrier properties