Authentic Tibetan Tantric Buddhism and its Controversial Terma Tradition: A Review

This short commentary reviews, on the one hand, the authentic formation and development of Tibetan Tantric Buddhism, an innovative branch that is featured by the transformation of negative emotions (NEs) to a valuable vehicle to reach the enlightenment of consciousness via achieving three different levels of kayas by experiencing three-stage practices; on the other hand, its problematic Terma tradition that claims to make use of six different ways in the transmissions of Buddhist teachings generation after generation. Both religious and scientific critiques are presented to this tradition in view of several aspects like the religious doctrine authenticity, historical veracity, and the formation of the tradition

Comparison between Hegel’s Being-Nothing-Becoming and I-Ching’s Yin-Yang-I (Change)

This article introduces a cross-cultural comparative study on Hegel’s Western triad of Being-Nothing-Becoming and I-Ching (including Tao-Teh-Ching, TTK)’s Eastern triad of Yin-Yang-I (Change). The study exposes the similarities and differences between the two triads in three aspects: concept, internal motivation, and external manifestation. Results include: (1) Hegel’s “Tao” is not identical to that of the Yin-Yang paradigm; (2) Hegel’s envision of Becoming is intrinsically far away from the essence of I-Ching’s I

Electrical Coupling Between Micropatterned Cardiomyocytes and Stem Cells

To understand how stem cells functionally couple with native cardiomyocytes is crucial for cell-based therapies to restore the loss of cardiomyocytes that occurs during heart infarction and other cardiac diseases. Due to the complexity of the in vivo environment, our knowledge of cell coupling is heavily dependent on cell-culture models. However, conventional in vitro studies involve undefined cell shapes and random length of cell-cell contacts in addition to the presence of multiple homotypic and heterotypic contacts between interacting cells. Thus, it has not been feasible to study electrical coupling corresponding to isolated specific types of cell contact modes. To address this issue, we used microfabrication techniques to develop different geometrically-defined stem cell-cardiomyocyte contact assays to comparatively and quantitatively study functional stem cell-cardiomyocyte electrical coupling. Through geometric confinements, we will construct a matrix of identical microwells, and each was constructed as a specific microenvironment. Using laser-guided cell micropatterning technique, individual stem cells or cardiomyocytes can be deposited into the microwells to form certain contact mode. In this research, we firstly constructed an in-vivo like cardiac muscle fiber microenvironment, and the electrical conductivity of stem cells was investigated by inserting stem cells as cellular bridges. Then, the electrical coupling between cardiomyocytes and stem cells was studied at single-cell level by constructing contact-promotive/-preventive microenvironments

Learning a Dilated Residual Network for SAR Image Despeckling

In this paper, to break the limit of the traditional linear models for synthetic aperture radar (SAR) image despeckling, we propose a novel deep learning approach by learning a non-linear end-to-end mapping between the noisy and clean SAR images with a dilated residual network (SAR-DRN). SAR-DRN is based on dilated convolutions, which can both enlarge the receptive field and maintain the filter size and layer depth with a lightweight structure. In addition, skip connections and residual learning strategy are added to the despeckling model to maintain the image details and reduce the vanishing gradient problem. Compared with the traditional despeckling methods, the proposed method shows superior performance over the state-of-the-art methods on both quantitative and visual assessments, especially for strong speckle noise.Comment: 18 pages, 13 figures, 7 table