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1. Vibrational two‐photon microscopy for tissue imaging: Short‐wave infrared surface‐enhanced resonance hyper‐Raman scattering

   https://doi.org/10.1002/jbio.202100158  

   Olson, Jacob E.; Yu, Jung Ho; Thimes, Rebekah L.; Camden, Jon P. (January 2021, Journal of Biophotonics)

   null (Ed.)
2. Data‐driven variational multiscale reduced order modeling of vaginal tissue inflation

   https://doi.org/10.1002/cnm.3660  

   Snyder, William; McGuire, Jeffrey A.; Mou, Changhong; Dillard, David A.; Iliescu, Traian; De Vita, Raffaella (November 2022, International Journal for Numerical Methods in Biomedical Engineering)

   Abstract The vagina undergoes large finite deformations and has complex geometry and microstructure, resulting in material and geometric nonlinearities, complicated boundary conditions, and nonhomogeneities within finite element (FE) simulations. These nonlinearities pose a significant challenge for numerical solvers, increasing the computational time by several orders of magnitude. Simplifying assumptions can reduce the computational time significantly, but this usually comes at the expense of simulation accuracy. This study proposed the use of reduced order modeling (ROM) techniques to capture experimentally measured displacement fields of rat vaginal tissue during inflation testing in order to attain both the accuracy of higher‐fidelity models and the speed of simpler simulations. The proper orthogonal decomposition (POD) method was used to extract the significant information from FE simulations generated by varying the luminal pressure and the parameters that introduce the anisotropy in the selected constitutive model. A new data‐driven (DD) variational multiscale (VMS) ROM framework was extended to obtain the displacement fields of rat vaginal tissue under pressure. For comparison purposes, we also investigated the classical Galerkin ROM (G‐ROM). In our numerical study, both the G‐ROM and the DD‐VMS‐ROM decreased the FE computational cost by orders of magnitude without a significant decrease in numerical accuracy. Furthermore, the DD‐VMS‐ROM improved the G‐ROM accuracy at a modest computational overhead. Our numerical investigation showed that ROM has the potential to provide efficient and accurate computational tools to describe vaginal deformations, with the ultimate goal of improving maternal health. 

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3. Controlling collagen gelation pH to enhance biochemical, structural, and biomechanical properties of tissue‐engineered menisci

   https://doi.org/10.1002/jbm.a.37464  

   Kim, Jongkil; Bonassar, Lawrence J. (April 2023, Journal of Biomedical Materials Research Part A)
4. FLN ‐1/filamin is required to anchor the actomyosin cytoskeleton and for global organization of sub‐cellular organelles in a contractile tissue

   https://doi.org/10.1002/cm.21633  

   Kelley, Charlotte_A; Triplett, Olivia; Mallick, Samyukta; Burkewitz, Kristopher; Mair, William_B; Cram, Erin_J (October 2020, Cytoskeleton)

   Abstract Actomyosin networks are organized in space, direction, size, and connectivity to produce coordinated contractions across cells. We use theC. elegansspermatheca, a tube composed of contractile myoepithelial cells, to study how actomyosin structures are organized. FLN‐1/filamin is required for the formation and stabilization of a regular array of parallel, contractile, actomyosin fibers in this tissue. Loss offln‐1results in the detachment of actin fibers from the basal surface, which then accumulate along the cell junctions and are stabilized by spectrin. In addition, actin and myosin are captured at the nucleus by the linker of nucleoskeleton and cytoskeleton complex (LINC) complex, where they form large foci. Nuclear positioning and morphology, distribution of the endoplasmic reticulum and the mitochondrial network are also disrupted. These results demonstrate that filamin is required to prevent large actin bundle formation and detachment, to prevent excess nuclear localization of actin and myosin, and to ensure correct positioning of organelles. 

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5. Long‐term seedling and small sapling census data from the B arro C olorado I sland 50 ha F orest D ynamics P lot, P anama

   https://doi.org/10.1002/ecy.4140  

   Comita, Liza S.; Aguilar, Salomón; Hubbell, Stephen P.; Pérez, Rolando (July 2023, Ecology)

   Abstract Tropical forests are well known for their high woody plant diversity. Processes occurring at early life stages are thought to play a critical role in maintaining this high diversity and shaping the composition of tropical tree communities. To evaluate hypothesized mechanisms promoting tropical tree species coexistence and influencing composition, we initiated a census of woody seedlings and small saplings in the permanent 50 ha Forest Dynamics Plot (FDP) on Barro Colorado Island (BCI), Panama. Situated in old‐growth, lowland tropical moist forest, the BCI FDP was originally established in 1980 to monitor trees and shrubs ≥1 cm diameter at 1.3 m above ground (dbh) at ca. 5‐year intervals. However, critical data on the dynamics occurring at earlier life stages were initially lacking. Therefore, in 2001 we established a 1‐m²seedling plot in the center of every 5 × 5 m section of the BCI FDP. All freestanding woody individuals ≥20 cm tall and <1 cm dbh (hereafter referred to as seedlings) were tagged, mapped, measured, and identified to species in 19,313 1‐m²seedling plots. Because seedling dynamics are rapid, we censused these seedling plots every 1–2 years. Here, we present data from the 14 censuses of these seedling plots conducted between the initial census in 2001 to the most recent census, in 2018. This data set includes nearly 1 M observations of ~185,000 individuals of >400 tree, shrub, and liana species. These data will permit spatially‐explicit analyses of seedling distributions, recruitment, growth, and survival for hundreds of woody plant species. In addition, the data presented here can be linked to openly‐available, long‐term data on the dynamics of trees and shrubs ≥1 cm dbh in the BCI FDP, as well as existing data sets from the site on climate, canopy structure, phylogenetic relatedness, functional traits, soil nutrients, and topography. This data set can be freely used for non‐commercial purposes; we request that users of these data cite this data paper in all publications resulting from the use of this data set. 

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