Adi Gross scite author profile

Human skin, our most environmentally exposed organ, is colonized by a vast array of microorganisms constituting its microbiome. These bacterial communities are crucial for the fulfillment of human physiological functions such as immune system modulation and epidermal development and differentiation. The structure of the human skin microbiome is established during the early life stages, starting even before birth, and continues to be modulated throughout the entire life cycle, by multiple host-related and environmental factors. This review focuses on extrinsic factors, ranging from cosmetics to the environment and antibacterial agents, as forces that impact the human skin microbiome and well-being. Assessing the impact of these factors on the skin microbiome will help elucidate the forces that shape the microbial populations we coexist with. Furthermore, we will gain additional insight into their tendency to stimulate a healthy environment or to increase the propensity for skin disorder development.

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Toll‐like receptor 3 deficiency decreases epileptogenesis in a pilocarpine model of SE‐induced epilepsy in mice

Gross

Benninger

Madar

et al. 2017

Epilepsia

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Advanced human-relevant in vitro pulmonary platforms for respiratory therapeutics

Artzy‐Schnirman

Raviv

Flikshtain

et al. 2021

Advanced Drug Delivery Reviews

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Over the past years, advanced in vitro pulmonary platforms have witnessed exciting developments that are pushing beyond traditional preclinical cell culture methods. Here, we discuss ongoing efforts in bridging the gap between in vivo and in vitro interfaces and identify some of the bioengineering challenges that lie ahead in delivering new generations of human-relevant in vitro pulmonary platforms. Notably, in vitro strategies using foremost lung-on-chips and biocompatible "soft" membranes have focused on platforms that emphasize phenotypical endpoints recapitulating key physiological and cellular functions. We review some of the most recent in vitro studies underlining seminal therapeutic screens and translational applications and open our discussion to promising avenues of pulmonary therapeutic exploration focusing on liposomes. Undeniably, there still remains a recognized trade-off between the physiological and biological complexity of these novel in vitro lung models and their ability to deliver assays with throughput capabilities. The upcoming years are thus anticipated to see further developments in broadening the applicability of such in vitro systems and accelerating therapeutic exploration for drug discovery and translational medicine in treating respiratory disorders.

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High-resolution VSDI retinotopic mapping via a DLP-based projection system

Gross¹,

Ivzan²,

Farah³

et al. 2019

Biomed. Opt. Express

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High-resolution recording of visual cortex activity is an important tool for vision research. Using a customized digital mirror device (DMD)-based system equipped with retinal imaging, we projected visual stimuli directly on the rat retina and recorded cortical responses by voltage-sensitive dye imaging. We obtained robust cortical responses and generated high-resolution retinotopic maps at an unprecedented retinal resolution of 4.6 degrees in the field of view, while further distinguishing between normal and pathological retinal areas. This system is a useful tool for studying the cortical response to localized retinal stimulation and may shed light on various cortical plasticity processes.

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Adi Gross

Extrinsic Factors Shaping the Skin Microbiome

Toll‐like receptor 3 deficiency decreases epileptogenesis in a pilocarpine model of SE‐induced epilepsy in mice

Advanced human-relevant in vitro pulmonary platforms for respiratory therapeutics

High-resolution VSDI retinotopic mapping via a DLP-based projection system

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