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This Special Issue “Applications of Stable Isotopes and Tritium in Hydrology” addresses the current state-of-the-art applications of stable isotopes and tritium in studies of hydrological process and the whole water cycle. The six scientific papers belonging to this SI show a wide variety of isotope applications in various studies performed locally or regionally, but the conclusions obtained may be valid worldwide. Precipitation, groundwater, and surface waters belong to classical water bodies, while evapotranspiration, effects of farming, and drip water in karst caves seldom present applications of water isotopes.

Research & information: general --- Salmonella --- biofilm --- innate immunity --- extracellular polymeric substances --- S. Typhi --- S. Typhimurium --- S. diarizonae --- PagN --- adhesin --- invasin --- alleles --- allelic variants --- organoids --- enteroids --- host-pathogen interactions --- model systems --- infectious diseases --- organotypic culture system --- genomic island --- SPI-1 --- pathogenicity island --- comparative genomics --- type III secretion system --- host adaptation --- convergent evolution --- genome degradation --- genomic lesions --- Salmonella Typhi --- two-component system --- cpxR --- CsgD --- curli --- cellulose --- CpxR --- plasmid --- Salmonella enterica --- antimicrobial resistance --- long-read sequencing --- hybrid assembly --- iron homeostasis and regulation --- chicken --- pathogenicity --- iron transport --- Salmonella --- biofilm --- innate immunity --- extracellular polymeric substances --- S. Typhi --- S. Typhimurium --- S. diarizonae --- PagN --- adhesin --- invasin --- alleles --- allelic variants --- organoids --- enteroids --- host-pathogen interactions --- model systems --- infectious diseases --- organotypic culture system --- genomic island --- SPI-1 --- pathogenicity island --- comparative genomics --- type III secretion system --- host adaptation --- convergent evolution --- genome degradation --- genomic lesions --- Salmonella Typhi --- two-component system --- cpxR --- CsgD --- curli --- cellulose --- CpxR --- plasmid --- Salmonella enterica --- antimicrobial resistance --- long-read sequencing --- hybrid assembly --- iron homeostasis and regulation --- chicken --- pathogenicity --- iron transport

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Lab-on-PCB devices can be considered an emerging technology. In fact, most of the contributions have been published during the last 5 years. It is mainly focussed on both biomedical and electronic applications. The book includes an interesting guide for using the different layers of the Printed Circuit Boards for developing new devices; guidelines for fabricating PCB-based electrochemical biosensors, and an overview of fluid manipulation devices fabricated using Printed Circuit Boards. In addition, current PCB-based devices are reported, and studies for several aspects of research and development of lab-on-PCB devices are described.

Technology: general issues --- History of engineering & technology --- lab-on-PCB --- microfluidics --- flow driving --- actuators --- biomedical applications --- MEA --- brain cells --- electrical recordings --- Organ-on-Chip --- Brain-on-Chip --- printed circuit boards --- electrochemical biosensors --- Lab-on-PCB --- electrode pre-treatment --- electrophoresis --- agarose --- PCB technology --- DNA amplification --- RPA --- microheaters --- E. coli --- molecular diagnostics --- printed circuit board --- organotypic culture --- microchip electrophoresis --- stray capacitance --- capacitively coupled contactless conductivity detection --- planar grounded electrode --- Printed Circuit Board (PCB) --- biomedical --- electronic --- engineering --- PCB --- rapid prototyping --- 3D printing --- PCB-MEMS --- PCB reliability --- embedded components --- finite element analysis --- thermal analysis --- electronics --- sensors --- biosensors --- lab-on-chip

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Lab-on-PCB devices can be considered an emerging technology. In fact, most of the contributions have been published during the last 5 years. It is mainly focussed on both biomedical and electronic applications. The book includes an interesting guide for using the different layers of the Printed Circuit Boards for developing new devices; guidelines for fabricating PCB-based electrochemical biosensors, and an overview of fluid manipulation devices fabricated using Printed Circuit Boards. In addition, current PCB-based devices are reported, and studies for several aspects of research and development of lab-on-PCB devices are described.

lab-on-PCB --- microfluidics --- flow driving --- actuators --- biomedical applications --- MEA --- brain cells --- electrical recordings --- Organ-on-Chip --- Brain-on-Chip --- printed circuit boards --- electrochemical biosensors --- Lab-on-PCB --- electrode pre-treatment --- electrophoresis --- agarose --- PCB technology --- DNA amplification --- RPA --- microheaters --- E. coli --- molecular diagnostics --- printed circuit board --- organotypic culture --- microchip electrophoresis --- stray capacitance --- capacitively coupled contactless conductivity detection --- planar grounded electrode --- Printed Circuit Board (PCB) --- biomedical --- electronic --- engineering --- PCB --- rapid prototyping --- 3D printing --- PCB-MEMS --- PCB reliability --- embedded components --- finite element analysis --- thermal analysis --- electronics --- sensors --- biosensors --- lab-on-chip

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Biomedical engineering --- Tissue engineering --- Bioengineering. --- Bio engineering --- Biological Engineering --- Bio-Engineering --- Bio engineerings --- Bioengineerings --- Engineering, Biological --- engineering, Bio --- engineerings, Bio --- Regenerative medicine --- Tissue culture --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- organoid applications --- organs-on-a-chip --- tissues-on-a-chip --- microfluidics --- fabrication technology --- microphysiological systems --- Génie biomédical --- Génie tissulaire --- Microphysiological Systems --- Tissue Engineering --- Biomedical Engineering --- Engineering, Biomedical --- Clinical Engineering --- Engineering, Clinical --- Biomedical Technology --- Engineering, Tissue --- Organ Culture Techniques --- Tissue Expansion --- Regenerative Medicine --- Guided Tissue Regeneration --- Cell- and Tissue-Based Therapy --- Organ Chips --- Organ-on-a-Chip --- Organ-on-a-Chip Devices --- Organoids-on-a-Chip --- Organotypic Cell Cultures --- Organotypic Cultures --- Organotypic Models --- Cell Culture, Organotypic --- Culture, Organotypic --- Device, Organ-on-a-Chip --- Microphysiological System --- Model, Organotypic --- Organ Chip --- Organ on a Chip --- Organ on a Chip Devices --- Organ-on-a-Chip Device --- Organ-on-a-Chips --- Organoids on a Chip --- Organoids-on-a-Chips --- Organotypic Cell Culture --- Organotypic Culture --- Organotypic Model