Enhancement of Bone Regeneration Through the Converse Piezoelectric Effect, A Novel Approach for Applying Mechanical Stimulation [0.03%]
一种新型的利用逆压电效应施加力学刺激促进骨再生的方法
Amber Carter,Kristen Popowski,Ke Cheng et al.
Amber Carter et al.
Serious bone injuries have devastating effects on the lives of patients including limiting working ability and high cost. Orthopedic implants can aid in healing injuries to an extent that exceeds the natural regenerative capabilities of bon...
Lung Ablation with Irreversible Electroporation Promotes Immune Cell Infiltration by Sparing Extracellular Matrix Proteins and Vasculature: Implications for Immunotherapy [0.03%]
通过不可逆电穿孔肺消融促进免疫细胞浸润,通过保存细胞外基质蛋白和血管:对免疫治疗的影响
Masashi Fujimori,Yasushi Kimura,Eisuke Ueshima et al.
Masashi Fujimori et al.
Background: This study investigated the sparing of the extracellular matrix (ECM) and blood vessels at the site of lung irreversible electroporation (IRE), and its impact on postablation T cell and macrophage populations. Materials and Meth...
Optical Estimation of Absolute Membrane Potential Using One- and Two-Photon Fluorescence Lifetime Imaging Microscopy [0.03%]
利用一和二维荧光寿命成像显微镜对绝对膜电位进行光学估计
Julia R Lazzari-Dean,Evan W Miller
Julia R Lazzari-Dean
Background: Membrane potential (V mem) exerts physiological influence across a wide range of time and space scales. To study V mem in these diverse contexts, it is essential to accurately record absolute values of V mem, rather than solely ...
Myocardial Edema Revisited in a New Paradigm of Cardiac Electrical Microcurrent Application in Heart Failure [0.03%]
心力衰竭中心肌水肿在心脏电微电流应用新机制中的再认识
Jesus Eduardo Rame,Johannes Müller
Jesus Eduardo Rame
Undisturbed bioelectricity is a prerequisite for normal organ function. This is especially true for organs with high electrical activity such as the heart and the nervous system. Under clinical conditions, however, this can hardly be determ...
Finding the Spark [0.03%]
寻找火花
Joel M Kralj
Joel M Kralj
It began, as with many good things, at a happy hour. Adam Cohen, a young assistant professor asked whether rhodopsins could be used to optically sense voltage. In the heady days of 2009, channel rhodopsin had just been unveiled as a voltage...
Bringing Microbiology to Light: Toward All-Optical Electrophysiology in Bacteria [0.03%]
使微生物照亮:朝向细菌中全光学膜片钳技术的发展
Giuseppe Maria Paternò,Gaia Bondelli,Guglielmo Lanzani
Giuseppe Maria Paternò
The observation of neuron-like behavior in bacteria, such as the occurrence of electric spiking and extended bioelectric signaling, points to the role of membrane dynamics in prokaryotes. Electrophysiology of bacteria, however, has been ove...
Engineering Biological Electron Transfer and Redox Pathways for Nanoparticle Synthesis [0.03%]
工程化生物电子转移和氧化还原途径用于合成纳米粒子
James Q Boedicker,Manasi Gangan,Kyle Naughton et al.
James Q Boedicker et al.
Many species of bacteria are naturally capable of types of electron transport not observed in eukaryotic cells. Some species live in environments containing heavy metals not typically encountered by cells of multicellular organisms, such as...
Potential Roles for Gamma-Aminobutyric Acid Signaling in Bacterial Communities [0.03%]
细菌群落中γ-氨基丁酸信号的潜在作用
Sarah J Quillin,Peter Tran,Arthur Prindle
Sarah J Quillin
It is now established that the gut microbiome influences human neurology and behavior, and vice versa. Distinct mechanisms underlying this bidirectional communication pathway, termed the gut-brain axis, are becoming increasingly uncovered. ...
Joshua M Jones,Joseph W Larkin
Joshua M Jones
Bacteria are electrically powered organisms; cells maintain an electrical potential across their plasma membrane as a source of free energy to drive essential processes. In recent years, however, bacterial membrane potential has been increa...