Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

We have entered a new era where some concepts of the complex community of microorganisms (microbiota comprising bacteria, fungi, viruses, bacteriophages and helminths) are being re-discovered and re-visited. Microbiota and human interaction is not new; they have shared a long history of co-existence. Nevertheless, the opportunities to understand the role of these microorganisms in human diseases and to design a potential treatment were limited. At present, thanks to development of innovative and cutting-edge molecular biological and microbiological technologies as well as clinical informatics and bioinformatics skills, microbiome application is moving into clinics. Approaches to therapy based on prebiotics, probiotics and lately on fecal microbiota transplantation has revolutionized medicine. Microbiota outnumbers our genes and is now regarded as another organ of the body. The gastrointestinal tract and gut microbiota display a well-documented symbiotic relationship. Disruption of intestinal microbiota homeostasis—called dysbiosis—has been associated with several diseases. Whether dysbiosis is a cause or consequence of disease initiation and progression still needs to be investigated in more depth. The aim of this book is to highlight recent advances in the field of microbiome research, which are now shaping medicine, and current approaches to microbiome-oriented therapy for gastrointestinal diseases. Dr. Rinaldo Pellicano Dr. Sharmila Fagoonee Guest Editors

Public health & preventive medicine --- Bacteroides ovatus --- Bifidobacterium adolescentis --- Dysbiosis --- Faecalibacterium prausnitzii --- Ruminococcus gnavus --- type 1 diabetes --- microbiota --- microbiome --- auto-immunity --- gut permeability --- gut --- IBS --- celiac disease --- enteropathy --- gluten --- therapy --- gut microbiota --- precision medicine --- Clostridium difficile --- inflammatory bowel disease --- ulcerative colitis --- irritable bowel disease --- metabolic syndrome --- gastric microbiota --- transient --- persistent --- culture --- sequencing --- Helicobacter pylori --- fecal microbiota transplantation --- feces donor --- fecal microbiota --- flow cytometry --- viability of bacteria --- next-generation sequencing --- culturing of fecal microbiota --- Alzheimer’s disease --- microbiota–gut–brain axis --- neurodegenerative disease --- intestinal flora --- necrotizing enterocolitis --- intestinal microbiology --- infant gut --- metabolomics --- IL-6 --- IL-8 --- IL-12p70 --- intestinal permeability --- zonulin --- gut virome --- steatosis --- cirrhosis --- hepatocellular carcinoma --- gastrointestinal --- technology --- high-throughput --- crohn’s disease --- mononuclear cells --- transient receptor potential channel --- pancreatic diseases --- acute pancreatitis --- chronic pancreatitis --- diabetes mellitus --- pancreatic ductal adenocarcinoma --- pancreatic cystic neoplasms

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book is a compilation of articles by experts on the prevention and treatment of periodontal disease, many of which are full of data-based evidence from basic research perspectives or patient data.

70-kDa heat shock proteins --- gingival crevicular fluid --- heat shock protein --- periodontitis --- periodontal disease --- diabetes --- diabetic retinopathy --- bleeding on probing --- probing pocket depth --- fasting blood sugar --- carotid artery calcification --- alveolar bone loss --- computed tomography --- panoramic radiographs --- aspiration pneumonia --- chronic periodontitis --- Porphyromonas gingivalis --- proinflammatory cytokines --- TLR2 --- epidemiological index --- item response theory --- oral examination --- diagnosis --- Mfa1 --- Toll-like receptors --- gingival fibroblast --- azithromycin --- human gingival fibroblast --- human periodontal ligament fibroblast --- IL-6 --- IL-8 --- MMP-1 --- MMP-2 --- chewing ability --- infection --- inflammation --- periodontal medicine --- Gan-Lu-Yin --- herbal medicine --- osteoclastogenesis --- periodontal diseases --- periodontal pocket --- health status indicators --- periodontal inflamed surface area (PISA) --- rheumatoid arthritis --- tocilizumab --- periodontal inflamed surface area --- periodontal pathogen --- mixed effect modeling --- follow-up study --- Low reactive Level Laser Therapy (LLLT) --- human gingival fibroblasts (HGF) --- microarray --- differentially gene expression (DEGs) --- gene ontology --- biological processes (BP) --- protein–protein interaction (PPI)

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

We have entered a new era where some concepts of the complex community of microorganisms (microbiota comprising bacteria, fungi, viruses, bacteriophages and helminths) are being re-discovered and re-visited. Microbiota and human interaction is not new; they have shared a long history of co-existence. Nevertheless, the opportunities to understand the role of these microorganisms in human diseases and to design a potential treatment were limited. At present, thanks to development of innovative and cutting-edge molecular biological and microbiological technologies as well as clinical informatics and bioinformatics skills, microbiome application is moving into clinics. Approaches to therapy based on prebiotics, probiotics and lately on fecal microbiota transplantation has revolutionized medicine. Microbiota outnumbers our genes and is now regarded as another organ of the body. The gastrointestinal tract and gut microbiota display a well-documented symbiotic relationship. Disruption of intestinal microbiota homeostasis—called dysbiosis—has been associated with several diseases. Whether dysbiosis is a cause or consequence of disease initiation and progression still needs to be investigated in more depth. The aim of this book is to highlight recent advances in the field of microbiome research, which are now shaping medicine, and current approaches to microbiome-oriented therapy for gastrointestinal diseases. Dr. Rinaldo Pellicano Dr. Sharmila Fagoonee Guest Editors

Bacteroides ovatus --- Bifidobacterium adolescentis --- Dysbiosis --- Faecalibacterium prausnitzii --- Ruminococcus gnavus --- type 1 diabetes --- microbiota --- microbiome --- auto-immunity --- gut permeability --- gut --- IBS --- celiac disease --- enteropathy --- gluten --- therapy --- gut microbiota --- precision medicine --- Clostridium difficile --- inflammatory bowel disease --- ulcerative colitis --- irritable bowel disease --- metabolic syndrome --- gastric microbiota --- transient --- persistent --- culture --- sequencing --- Helicobacter pylori --- fecal microbiota transplantation --- feces donor --- fecal microbiota --- flow cytometry --- viability of bacteria --- next-generation sequencing --- culturing of fecal microbiota --- Alzheimer’s disease --- microbiota–gut–brain axis --- neurodegenerative disease --- intestinal flora --- necrotizing enterocolitis --- intestinal microbiology --- infant gut --- metabolomics --- IL-6 --- IL-8 --- IL-12p70 --- intestinal permeability --- zonulin --- gut virome --- steatosis --- cirrhosis --- hepatocellular carcinoma --- gastrointestinal --- technology --- high-throughput --- crohn’s disease --- mononuclear cells --- transient receptor potential channel --- pancreatic diseases --- acute pancreatitis --- chronic pancreatitis --- diabetes mellitus --- pancreatic ductal adenocarcinoma --- pancreatic cystic neoplasms

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Zinc-dependent matrix metalloproteinases (MMPs) belong to metzincins that comprise not only 23 human MMPs but also other metalloproteinases, such as 21 human ADAMs (a disintegrin and metalloproteinase domain) and 19 secreted ADAMTSs (a disintegrin and metalloproteinase thrombospondin domain). The many setbacks from the clinical trials of broad-spectrum MMP inhibitors for cancer indications in the late 1990s emphasized the extreme complexity of the participation of these proteolytic enzymes in biology. This editorial mini-review summarizes the Special Issue, which includes four review articles and 10 original articles that highlight the versatile roles of MMPs, ADAMs, and ADAMTSs, in normal physiology as well as in neoplastic and destructive processes in tissue. In addition, we briefly discuss the unambiguous involvement of MMPs in wound healing.

Research & information: general --- Biology, life sciences --- hemagglutinin-B --- transwell co-cultures --- matrix metalloproteinases --- TNF-α --- matrix metalloproteinase --- peritoneal mesothelial cell --- gastric cancer --- metastatic dissemination --- MT4-MMP --- cancer --- diseases --- aggrecan --- aggrecanase --- ADAMTS --- cartilage --- arthritis --- MMP-2 --- MMP-9 --- inhibitor --- allodynia --- caspase-3 --- neuropathic --- pain --- dorsal root ganglion --- spinal nerve ligation --- tuberculosis --- tuberculous meningitis --- HIV-TB-associated IRIS --- extracellular matrix breakdown --- adult --- pediatric --- lung --- central nervous system --- matrix-metalloproteinase --- monocytes --- inflammation --- phagocytosis --- apoptosis --- blood sampling --- anticoagulants --- high-molecular-weight heparin --- IL-16 --- sICAM-1 --- IL-8 --- T cells --- a disintegrin and metalloproteinase --- EMMPRIN --- CD147 --- ectodomain shedding --- MMPs --- PTMs --- glycosylation --- phosphorylation --- glycosaminoglycans --- interleukin --- IL-6 --- IL-11 --- trans-signaling --- metalloproteases --- ADAM --- MMP --- meprin --- matrix metalloproteinases (MMPs) --- protease --- signaling --- invasion --- chemokine --- cytokine --- proteomics --- interferon --- Agkistrodon venom --- metalloproteinase --- fibrinogen --- antithrombotic --- metabolomics --- extracellular matrix --- cytokines --- proteinases --- interstitial collagens --- wound healing

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

We have entered a new era where some concepts of the complex community of microorganisms (microbiota comprising bacteria, fungi, viruses, bacteriophages and helminths) are being re-discovered and re-visited. Microbiota and human interaction is not new; they have shared a long history of co-existence. Nevertheless, the opportunities to understand the role of these microorganisms in human diseases and to design a potential treatment were limited. At present, thanks to development of innovative and cutting-edge molecular biological and microbiological technologies as well as clinical informatics and bioinformatics skills, microbiome application is moving into clinics. Approaches to therapy based on prebiotics, probiotics and lately on fecal microbiota transplantation has revolutionized medicine. Microbiota outnumbers our genes and is now regarded as another organ of the body. The gastrointestinal tract and gut microbiota display a well-documented symbiotic relationship. Disruption of intestinal microbiota homeostasis—called dysbiosis—has been associated with several diseases. Whether dysbiosis is a cause or consequence of disease initiation and progression still needs to be investigated in more depth. The aim of this book is to highlight recent advances in the field of microbiome research, which are now shaping medicine, and current approaches to microbiome-oriented therapy for gastrointestinal diseases. Dr. Rinaldo Pellicano Dr. Sharmila Fagoonee Guest Editors

Public health & preventive medicine --- Bacteroides ovatus --- Bifidobacterium adolescentis --- Dysbiosis --- Faecalibacterium prausnitzii --- Ruminococcus gnavus --- type 1 diabetes --- microbiota --- microbiome --- auto-immunity --- gut permeability --- gut --- IBS --- celiac disease --- enteropathy --- gluten --- therapy --- gut microbiota --- precision medicine --- Clostridium difficile --- inflammatory bowel disease --- ulcerative colitis --- irritable bowel disease --- metabolic syndrome --- gastric microbiota --- transient --- persistent --- culture --- sequencing --- Helicobacter pylori --- fecal microbiota transplantation --- feces donor --- fecal microbiota --- flow cytometry --- viability of bacteria --- next-generation sequencing --- culturing of fecal microbiota --- Alzheimer’s disease --- microbiota–gut–brain axis --- neurodegenerative disease --- intestinal flora --- necrotizing enterocolitis --- intestinal microbiology --- infant gut --- metabolomics --- IL-6 --- IL-8 --- IL-12p70 --- intestinal permeability --- zonulin --- gut virome --- steatosis --- cirrhosis --- hepatocellular carcinoma --- gastrointestinal --- technology --- high-throughput --- crohn’s disease --- mononuclear cells --- transient receptor potential channel --- pancreatic diseases --- acute pancreatitis --- chronic pancreatitis --- diabetes mellitus --- pancreatic ductal adenocarcinoma --- pancreatic cystic neoplasms