The estimated life span of Halimeda from a new recruit to a fertile plant. See Mayakun and Prathep in this issue. Cover picture from: Article link here
Bloom‐forming Raphidophyceae from the Brazilian coast. Chattonella subsalsa (left), C. antiqua (center), and Heterosigma akashiwo (right) were photographed at the same view. See Branco et al. in this issue. The link to the article here
Subaerial miroalgae form conspicuous biofilms on the bark surface of European beech trees (Fagus sylvatica) in temperate deciduous forests. ?tifterová and Neustupa investigated the variation in community structure of these covers on a small spatial scale. See ?tifterová and Neustupa in pages 299–311. Cover picture from: Article link here
Beautiful underwater view of an edible brown alga, Sargassum fusiforme (Fucales, Phaeophyceae) at the rocky shore in Sakurajima, Kagoshima, Japan (Photo by Ryuta Terada). Characteristic responses of the PSII photochemical efficiency on desiccation and salinity gradients in S. fusiforme are reported by Yonemori et al. in this issue.
A novel capsule optoacoustic endoscopy (COE) system is built which provides high‐quality 360‐degree images of the entire lumen, specifically designed for typical dimensions of human esophagus. The pill‐shaped encapsulated probe consists of a novel and highly sensitive ultrasound transducer fitted with an integrated miniature pre‐amplifier. For the first time, ex vivo volumetric vascular network images to a depth of 2 mm in swine esophageal lining using COE are demonstrated. Further details can be found in the article by Hailong He, Antonios Stylogiannis, Parastoo Afshari, et al. ( e201800439 )
CARS microscopy was employed to monitor the reorganization of intracellular lipids and proteins, as well as cellular transformations, after irradiation with near infrared (NIR) light. NIR light was shown to induce apoptosis in HeLa cells in vitro in a dose‐dependent manner. The progression of apoptosis assessed with CARS microscopy is apparently associated with the generation of reactive oxygen species followed by an excessive formation of lipid droplets and their peroxidation. Further details can be found in the article by Svitlana M. Levchenko, Andrey N. Kuzmin, Artem Pliss, et al. ( e201900179 )
Label‐free optical projection tomography technique makes it possible for quantitative whole mouse embryo imaging without any exogenous contrast agent. Further details can be found in the article by Sungbea Ban, Nam Hyun Cho, Eunjung Min, et al. ( e201800481 ).
Cover Image The pollinators of Camellia pubipetala: sunbird Aethopyga christinae (left) and honeybee Apis cerana (right). Both pictures were taken by Sheng-feng Chai, at Longhushan, Jiangxi Province, China.
Front Cover: The cover image is based on the Research Article Transmembrane proteins—Different anchoring systems by Irena Roterman et al., https://doi.org/10.1002/prot.26646
Hyperspectral scanning laser optical tomography is developed to provide spectrally resolved volume data sets with high spectral resolution for large mesoscopic samples. It can be used to resolve largely overlapping fluorophores, as demonstrated by the 3D fluorescence hyperspectral reconstruction of a dual‐labelled mouse thymus gland sample and to distinguish between signals from autofluorescence of diseased and normal tissue without prior knowledge. Further details can be found in the article by Lingling Chen, Guiye Li, Li Tang, et al. ( e201800221 ).
TP‐SAX microscopy images are shown in cyan, cyan hot, red, gray, and orange hot colors; TPFM images are in green color while the LSCM image is in magenta color. Our results show a spatial resolution enhancement for TP‐SAX (cyan image) even at 2.4 mm depth of a mouse brain in comparison with TPFM (green image) where scattering seriously degrades the PSF. Further details can be found in the article by Sandeep Chakraborty, Szu‐Yu Lee, Jye‐Chang Lee, Chen‐Tung Yen, and Chi‐Kuang Sun ( e201800136 ).
Raster Scanning Optoacoustic Mesoscopy (RSOM) is a novel optoacoustic imaging modality that offers non‐invasive, label‐free, high resolution (~7 µm axial, ~30 µm lateral) imaging up to 1–2 mm below the skin. This paper aims to provide quantitative estimation of specific imaging metrics, like total blood volume, vessel diameter, and melanin signal intensity for in vivo skin imaging of human subjects with Fitzpatrick (FP) skin types between II to V. Further details can be found in the article by Xiuting Li, Dinish U. S., Juan Aguirre, et al. ( e201800442 ).
This schematic depicts the classification of multiphoton images with different degrees of HCC differentiation using the VGG‐16 neural network. The convolution layer is further trained based on the original weights. The weights of the fully connected layers are initialized as a random number and the training is restarted to improve its classification accuracy. Further details can be found in the article by Hongxin Lin, Chao Wei, Guangxing Wang, et al. ( e201800435 ).
A new quantitative phase imaging (QPI) modality, coined multi‐ATOM, can now capture and process enormous amount of quantitative phase single‐cell images (>700,000 cells) at a ultrahigh throughput without compromising sub‐cellular resolution. It could empower label‐free single‐cell analysis where large‐scale and cost‐effective screening is necessary. Further details can be found in the article by Kelvin C. M. Lee, Andy K. S. Lau, Anson H. L. Tang, et al. ( e201800479 ).
Cover Image Left: Isodon shikokianus var. occidentalis (Photo by I. Dohzono, Hyogo Prefecture, Japan) Right: Isodon umbrosus var. leucanthus f. kameba (Photo by I. Dohzono, Okutama, Tokyo Metropolitan area, Japan)