Results 271 to 280 of about 11,507,104 (364)

Studies on the Pathologic Physiology of Pulmonary Hypertension in Mitral Valvular Disease : Part 1. The Role of Sympathetic Nervous System on the Increment of Pulmonary Vascular Resistance

, 1969
Yutaka Yoshida
openalex   +2 more sources

Cell Calcification Models and Their Implications for Medicine and Biomaterial Research

Advanced Healthcare Materials, EarlyView.
Calcification, is the process by which the tissues containing minerals are formed, occurring during normal physiological processes, or in pathological conditions. Here, it is aimed to give a comprehensive overview of the range of cell models available, and the approaches taken by these models, highlighting when and how methodological divergences arise,
Luke Hunter, Caterina Vanelli Coralli, Robert Dzhanaev, Aaron Morgan, Willi Jahnen‐Dechent, Sergio Bertazzo   +5 more
wiley   +1 more source

A novel approach to enhance resistance to vascular disease by expressing cell-death-inducing fungal elicitors in the xylem tissue. [PDF]

Plant Biotechnol J
Negi S, Tak H, Bhakta S, Tiwari M, Ganapathi TR, Singh S, Ballal A.   +6 more
europepmc   +1 more source

S11. The Rehabilitation of the Patients with Cerebro-Vascular Diseases

, 1963
S Katsuki, Yoshigoro Kuroiwa, Tsunoru Miyazaki, Motohiro Kato   +3 more
openalex   +2 more sources

Facile Deep Brain Electrode Coating with MXene for Improved Electrode Performance

Advanced Healthcare Materials, EarlyView.
Facile dip‐coating of commercial carbon fiber electrodes with Ti3C2Tx MXene improves electrical conductivity, reduces impedance, and enables single‐neuron recordings in the rat hippocampus over four weeks. The coating maintains biocompatibility, minimizes inflammation, and remains MRI‐compatible.
Laura Kondrataviciute, Taufik A. Valiante, Luka Milosevic, Lorraine V. Kalia, Dong Wook Kim, Suneil K. Kalia   +5 more
wiley   +1 more source

Adventitial fibroblasts direct smooth muscle cell-state transition in pulmonary vascular disease. [PDF]

Elife
Crnkovic S, Thekkekara Puthenparampil H, Mulch S, Biasin V, Radic N, Wilhelm J, Bartkuhn M, Bonyadi Rad E, Wawrzen A, Matzer I, Mitra A, Leib RD, Nagy BM, Sahu-Osen A, Valzano F, Bordag N, Evermann M, Hoetzenecker K, Olschewski A, Ljubojevic-Holzer S, Wygrecka M, Stenmark K, Marsh LM, de Jesus Perez V, Kwapiszewska G.   +24 more
europepmc   +1 more source

Guided Bone Regeneration Membrane Materials Loaded with Chimeric Nanovesicles Promote Early Bone Defect Regeneration

Advanced Healthcare Materials, EarlyView.
Early bone regeneration is challenged by poor osteogenic microenvironments. We developed a novel guided bone regeneration (GBR) membrane: a plasma‐treated polycaprolactone (PT‐PCL) electrospun nanofiber functionalized with ultrasound sequentially extruded stromal vascular fraction chimeric vesicles (USE‐SCNVs). USE‐SCNVs require less equipment, enhance
Yufan Zhang, Yaqiong Wang, Xiaona Ning, Guichu Yue, Wenhui Zhang, Yicheng Chen, Xuelian Jia, Yu Zhang, Xiao Zhang, Zihan Lu, Simin Zhu, Fuwei Liu, Yong Zhao, Liang Kong   +13 more
wiley   +1 more source

Chronic Thromboembolic Pulmonary Hypertension as RNF213-Associated Vascular Disease. [PDF]

JACC Asia
Momoi M, Katsumata Y, Hiraide T, Shinya Y, Goto S, Inami T, Kosaki K, Kataoka M.   +7 more
europepmc   +1 more source

Bone‐Derived dECM Hydrogels Support Tunable Microenvironments for In Vitro Osteogenic Differentiation

Advanced Healthcare Materials, EarlyView.
A tunable methacrylated decellularized bone matrix hydrogel (dECM‐MA) is developed to support 3D culture of human osteoblasts. The hydrogel preserves bone‐specific ECM cues and allows precise control over mechanical properties. This system provides a customizable platform for studying osteogenic differentiation and modeling bone tissue environments for
Minne Dekker, Luke Hipwood, Akhilandeshwari Ravichandran, Dietmar W. Hutmacher, Christoph Meinert, Jacqui McGovern   +5 more
wiley   +1 more source

Translational Considerations for Injectable Biomaterials and Bioscaffolds to Repair and Regenerate Brain Tissue

Advanced Healthcare Materials, EarlyView.
The repair and regeneration of brain tissue faces both biological and technical challenges. Injectable bioscaffolds offer new opportunities to stimulate tissue regrowth in the brain by recruiting neural stem cells. Here, the translational issues are reviewed that need to be address to advance this promising new therapeutic approach from the bench to ...
Michel Modo, Alena Kisel
wiley   +1 more source