41 research outputs found
Electrically conductive nanomaterials for cardiac tissue engineering
© 2019 Elsevier B.V. Patient deaths resulting from cardiovascular diseases are increasing across the globe, posing the greatest risk to patients in developed countries. Myocardial infarction, as a result of inadequate blood flow to the myocardium, results in irreversible loss of cardiomyocytes which can lead to heart failure. A sequela of myocardial infarction is scar formation that can alter the normal myocardial architecture and result in arrhythmias. Over the past decade, a myriad of tissue engineering approaches has been developed to fabricate engineered scaffolds for repairing cardiac tissue. This paper highlights the recent application of electrically conductive nanomaterials (carbon and gold-based nanomaterials, and electroactive polymers) to the development of scaffolds for cardiac tissue engineering. Moreover, this work summarizes the effects of these nanomaterials on cardiac cell behavior such as proliferation and migration, as well as cardiomyogenic differentiation in stem cells
Squeezed tensor non-Gaussianity in non-attractor inflation
We investigate primordial tensor non-Gaussianity in single field inflation,
during a phase of non-attractor evolution when the spectrum of primordial
tensor modes can be enhanced to a level detectable at interferometer scales.
Making use of a tensor duality we introduced in arXiv:1808.10475, we
analytically compute the full bispectrum of primordial tensor fluctuations
during the non-attractor era. During this epoch the shape of the tensor
bispectrum is enhanced in the squeezed limit, its amplitude can be amplified
with respect to slow-roll models, and tensor non-Gaussianity can exhibit a
scale dependence distinctive of our set-up. We prove that our results do not
depend on the frame used for the calculations. Squeezed tensor non-Gaussianity
induces a characteristic quadrupolar anisotropy on the power spectrum of the
stochastic background of primordial tensor perturbations. As a step to make
contact with gravitational wave experiments, we discuss the response function
of a ground based Michelson interferometer to a gravitational wave background
with such a feature.Comment: 34 pages, 4 figure
Science with the space-based interferometer LISA. IV: probing inflation with gravitational waves
We investigate the potential for the LISA space-based interferometer to
detect the stochastic gravitational wave background produced from different
mechanisms during inflation. Focusing on well-motivated scenarios, we study the
resulting contributions from particle production during inflation, inflationary
spectator fields with varying speed of sound, effective field theories of
inflation with specific patterns of symmetry breaking and models leading to the
formation of primordial black holes. The projected sensitivities of LISA are
used in a model-independent way for various detector designs and
configurations. We demonstrate that LISA is able to probe these well-motivated
inflationary scenarios beyond the irreducible vacuum tensor modes expected from
any inflationary background.Comment: 53 pages, 18 figures; v2: minor changes to match published versio
Fabrication of a microfluidic device for probiotic drug’s dosage screening:precision medicine for breast cancer treatment
Abstract
Breast cancer is the most common cancer in women; it has been affecting the lives of millions each year globally and microfluidic devices seem to be a promising method for the future advancements in this field. This research uses a dynamic cell culture condition in a microfluidic concentration gradient device, helping us to assess breast anticancer activities of probiotic strains against MCF-7 cells. It has been shown that MCF-7 cells could grow and proliferate for at least 24 h; however, a specific concentration of probiotic supernatant could induce more cell death signaling population after 48 h. One of our key findings was that our evaluated optimum dose (7.8 mg/L) was less than the conventional static cell culture treatment dose (12 mg/L). To determine the most effective dose over time and the percentage of apoptosis versus necrosis, flowcytometric assessment was performed. Exposing the MCF-7 cells to probiotic supernatant after 6, 24 and 48 h, confirmed that the apoptotic and necrotic cell death signaling were concentration and time dependent. We have shown a case that these types of microfluidics platforms performing dynamic cell culture could be beneficial in personalized medicine and cancer therapy