Human lung extracellular matrix hydrogels resemble the stiffness and viscoelasticity of native lung tissue

Chronic lung diseases such as idiopathic pulmonary fibrosis (IPF) and chronic obstructive pulmonary disease (COPD) are associated with changes in extracellular matrix (ECM) composition and abundance affecting the mechanical properties of the lung. This study aimed to generate ECM hydrogels from control, severe COPD [Global Initiative for Chronic Obstructive Lung Disease (GOLD) IV], and fibrotic human lung tissue and evaluate whether their stiffness and viscoelastic properties were reflective of native tissue. For hydrogel generation, control, COPD GOLD IV, and fibrotic human lung tissues were decellularized, lyophilized, ground into powder, porcine pepsin solubilized, buffered with PBS, and gelled at 37°C. Rheological properties from tissues and hydrogels were assessed with a low-load compression tester measuring the stiffness and viscoelastic properties in terms of a generalized Maxwell model representing phases of viscoelastic relaxation. The ECM hydrogels had a greater stress relaxation than tissues. ECM hydrogels required three Maxwell elements with slightly faster relaxation times (τ) than that of native tissue, which required four elements. The relative importance (Ri) of the first Maxwell element contributed the most in ECM hydrogels, whereas for tissue the contribution was spread over all four elements. IPF tissue had a longer-lasting fourth element with a higher Ri than the other tissues, and IPF ECM hydrogels did require a fourth Maxwell element, in contrast to all other ECM hydrogels. This study shows that hydrogels composed of native human lung ECM can be generated. Stiffness of ECM hydrogels resembled that of whole tissue, while viscoelasticity differed

De ene oudere is de ander niet: praktijkpopulatie aanpak verbetert medische zorg in eerste lijn.

De heterogeniteit van de populatie ouderen vraagt om een geïnvidiualiseerde en proactieve benadering. Dit is te realiseren door ouderen in drie groepen in te delen op grond van zelfredzaamheid en beperkingen. De indeling helpt de huisarts om de zorg af te stemmen op de eigen regievoerign van de patiënt. (aut.ref.

NHG-Standaard bemoeilijkte mictie bij oudere mannen (tweede herziening).

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Naked (C5Me5)2M Cations (M = Sc, Ti, and V) and Their Fluoroarene Complexes

The ionic metallocene complexes [Cp*2M][BPh4] (Cp* = C5Me5) of the trivalent 3d metals Sc, Ti, and V were synthesized and structurally characterized. For M = Sc, the anion interacts weakly with the metal center through one of the phenyl groups, but for M = Ti and V, the cations are naked. They each contain one strongly distorted Cp* ligand, with one (V) or two (Ti) agostic C-H···M interactions involving the Cp*Me groups. For Sc and Ti, these Lewis acidic species react with fluorobenzene and 1,2-difluorobenzene to yield [Cp*2M(κF-FC6H5)n][BPh4] (M = Sc, n = 2; M = Ti, n = 1) and [Cp*2M(κ2F-1,2-F2C6H4)][BPh4], the first examples of κF-fluorobenzene and κ2F-1,2-difluorobenzene adducts of transition metals. With the perfluorinated anion [B(C6F5)4]-, both Sc and Ti form [Cp*2M(κ2F-C6F5)B(C6F5)3] contact ion pairs. The nature of the metal-fluoroarene interaction was studied by density functional theory (DFT) calculations and by comparison with the corresponding tetrahydrofuran (THF) adducts and was found to be predominantly electrostatic for all metals studied.