Reconfigurable elastic neuromorphic metasurfaces towards mechanical intelligence and cognitive wave-based computing

The ability of mechanical systems to perform basic computations has gained traction over recent years, providing an unconventional alternative to digital computing in off grid, low power, and severe thermal environments which render the majority of electronic components inoperable. However, much of the work in mechanical computing has focused on logic operations via quasi-static prescribed displacements in origami, bistable, and soft deformable matter. In here, we present a first attempt to describe the fundamental framework of an elastic neuromorphic metasurface that performs distinct classification tasks, providing a new set of challenges given the complex nature of elastic waves with respect to scattering and manipulation. Multiple layers of reconfigurable waveguides are phase-trained via constant weights and trainable activation functions in a manner that enables the resultant wave scattering at the readout location to focus on the correct class within the detection plane. We demonstrate the neuromorphic system's ability to exhibit high accuracy in two distinct tasks owing to a fully reconfigurable design, eliminating the need for costly remanufacturing

Exploring the relationship between adolescent biological maturation, physical activity, and sedentary behaviour: A systematic review and narrative synthesis

Context: Across adolescence, there is a notable decline in physical activity in boys and girls. Maturational timing may be a risk factor for disengagement from physical activity and increased sedentary behaviours during adolescence. Objective: This systematic review aimed to summarise literature that examined the relationship between maturational timing, physical activity and sedentary behaviour in adolescents. Methods: Six electronic databases were searched for articles that assessed biological maturation and physical activity (including sports participation and active transportation) or sedentary behaviours in adolescents. Two reviewers conducted title, abstract, and full-text screening, reference and forward citation searches. Included articles were evaluated for quality using a standardised tool. A narrative synthesis was used to analyse the findings due to the heterogeneity of the studies. Results: Searches yielded 78 articles (64 unique studies) that met the inclusion criteria, representing 242,316 participants (153,179 unique). Studies ranged from 30.0% (low) to 91.7% (high) in quality. An inverse relationship between maturational timing and physical activity (in 50 and 60% of studies in boys and girls, respectively) and a positive relationship between maturational timing and sedentary behaviour (in 100% and 53% of studies in boys and girls, respectively) was most commonly reported. Evidence supporting an association between maturational timing, sports participation, and active transportation was inconsistent. Conclusions: While this review demonstrates some evidence for early maturational timing as a risk factor for disengagement from physical activity and increase in sedentary behaviours, the reviewed literature also demonstrates that this relationship is complex. Future research that tracks maturity-related variations in physical activity and sedentary behaviours over adolescence is warranted

Shared Ancestry and Signatures of Recent Selection in Gotland Sheep

Gotland sheep, a breed native to Gotland, Sweden (an island in the Baltic Sea), split from the Gute sheep breed approximately 100 years ago, and since, has probably been crossed with other breeds. This breed has recently gained popularity, due to its pelt quality. This study estimates the shared ancestors and identifies recent selection signatures in Gotland sheep using 600 K single nucleotide polymorphism (SNP) genotype data. Admixture analysis shows that the Gotland sheep is a distinct breed, but also has shared ancestral genomic components with Gute (similar to 50%), Karakul (similar to 30%), Romanov (similar to 20%), and Fjallnas (similar to 10%) sheep breeds. Two complementary methods were applied to detect selection signatures: A Bayesian population differentiation F-ST and an integrated haplotype homozygosity score (iHS). Our results find that seven significant SNPs (q-value < 0.05) using the F-ST analysis and 55 significant SNPs (p-value < 0.0001) using the iHS analysis. Of the candidate genes that contain significant markers, or are in proximity to them, we identify several belongings to the keratin genes, RXFP2, ADCY1, ENOX1, USF2, COX7A1, ARHGAP28, CRYBB2, CAPNS1, FMO3, and GREB1. These genes are involved in wool quality, polled and horned phenotypes, fertility, twining rate, meat quality, and growth traits. In summary, our results provide shared founders of Gotland sheep and insight into genomic regions maintained under selection after the breed was formed. These results contribute to the detection of candidate genes and QTLs underlying economic traits in sheep

Artificial testis: A testicular tissue extracellular matrix as a potential bio-ink for 3D printing

Testicular scaffolds may be an option for fertility preservation. The aim was to develop various procedures for the decellularization of testicular tissue and to design a bio-ink to construct a bioartificial testis. Ram testicular tissue fragments were decellularized using NaCl buffer, NaCl buffer-Triton, SDS and SDS-Triton. The removal of the cells from the tissues was confirmed by DAPI and H & E staining, as well as the evaluation of the DNA content. Alcian blue, Orcein and Masson's trichrome staining methods were also used to confirm that T-ECM was preserved intact. Then, the optimal decellularization protocol was selected to determine the parameters of the bio-ink and printing of the scaffold. The extracted T-ECM was used to print the hydrogel scaffold in combination with alginate-gelatin. The printability, morphological, mechanical and biological properties of the printed hydrogels were characterized. Decellularization of testicular tissue fragments using the NaCl buffer-Triton protocol was significantly more efficient than other decellularization methods in removing the cellular debris and preserving the T-ECM compounds. The 3D printed scaffold with 5 T-ECM showed a uniform surface morphology with high cell attachment and cyto-biocompatibility properties for spermatogonia stem cells in vitro and in vivo compared to other groups. It is concluded that T-ECM can be used as a biomimetic material to make an artificial testis with possible in vitro sperm production. © 2021 The Royal Society of Chemistry