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Targets, Tracers and Translation – Novel Radiopharmaceuticals Boost Nuclear Medicine

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ISBN: 9783039213139 / 9783039213146 Year: Pages: 214 DOI: 10.3390/books978-3-03921-314-6 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General) --- Therapeutics
Added to DOAB on : 2019-12-09 11:49:15
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This is the fourth Special Issue in Pharmaceuticals within the last six years dealing with aspects of radiopharmaceutical sciences. It demonstrates the significant interest and increasing relevance to ameliorate nuclear medicine imaging with PET or SPECT, and also radiotherapeutical procedures.Numerous targets and mechanisms have been identified and have been under investigation over the previous years, covering many fields of medical and clinical research. This development is well illustrated by the articles in the present issue, including 13 original research papers and one review, covering a broad range of actual research topics in the field of radiopharmaceutical sciences.

Keywords

breast cancer --- 68Ga --- GRPR --- NPY(Y1)R --- peptide heterodimers --- PET/CT imaging --- sentinel lymph node --- dextran --- mannose --- 99mTc-radiopharmaceuticals --- glutamate --- metabotropic glutamate receptor subtype 5 --- [18F]PSS232 --- ketamine --- ceftriaxone --- positron emission tomography --- allosteric modulator --- MMPEP --- ABP688 --- pretargeting --- Fusarinine C --- rituximab --- click chemistry --- multimerization --- PET --- gallium-68 --- carbonic anhydrase IX --- girentuximab --- renal cell carcinomas --- 177Lu-radiopharmaceuticals --- radioimmunotherapy --- neuroinflammation --- microglia --- carbon-11 --- radiochemistry --- positron emission tomography --- hypoxia --- radiosensitizer --- benzotriazine-1,4-dioxide (BTDO), benzotriazine-1-monoxide (BTMO), tirapazamine (TPZ), SR 4317 --- radioiodination --- tropomyosin receptor kinase --- positron emission tomography --- neurodegeneration --- oncogenic fusions --- [11C]meta-hydroxyephedrine --- radiosynthesis --- separation --- apparent molar activity --- cholecystokinin-2 receptor --- minigastrin --- molecular imaging --- radiometals --- technetium-99m --- hydrazinonicotinic acid (HYNIC) --- PSMA-617 --- salivary gland uptake --- prostate cancer --- endoradiotherapy --- Chloramine T --- electrophilic radioiodination --- iodine-131 --- Iodo-Gen® --- oxidizing agent --- ?-CIT. --- tumor hypoxia --- PET --- small animal imaging --- azomycin nucleosides --- [18F]FMISO --- bombesin --- gastrin-releasing peptide --- gastrin-releasing peptide receptor --- tumor targeting --- 99mTc-radioligand --- metabolic stability --- neprilysin-inhibition --- phosphoramidon --- n/a --- n/a

The Interplay of Microbiome and Immune Response in Health and Diseases

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ISBN: 9783039216468 / 9783039216475 Year: Pages: 206 DOI: 10.3390/books978-3-03921-647-5 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General) --- Internal medicine
Added to DOAB on : 2019-12-09 11:49:16
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[Increasing evidence suggests that microbiota and especially the gut microbiota (the microbes inhabiting the gut including bacteria, archaea, viruses, and fungi) plays a key role in human physiology and pathology. Recent findings indicate how dysbiosis—an imbalance in the composition and organization of microbial populations—could severely impact the development of different medical conditions (from metabolic to mood disorders), providing new insights into the comprehension of diverse diseases, such as IBD, obesity, asthma, autism, stroke, diabetes, and cancer. Given that microbial cells in the gut outnumber host cells, microbiota influences human physiology both functionally and structurally. Microbial metabolites bridge various—even distant—areas of the organism by way of the immune and hormone system. For instance, it is now clear that the mutual interaction between the gastrointestinal tract and the brain (gut–brain axis), often involves gut microbiota, indicating that the crosstalk between the organism and its microbial residents represents a fundamental aspect of both the establishment and maintenance of healthy conditions. Moreover, it is crucial to recognize that beyond the intestinal tract, microbiota populates other host organs and tissues (e.g., skin and oral mucosa). We have edited this eBook with the aim of publishing manuscripts focusing on the impact of microbiota in the development of different diseases and their associated treatments.]

Keywords

microbiota --- rheumatoid arthritis --- anti-TNF-? --- methotrexate --- etanercept --- disease activity --- microbiome --- health --- precision medicine --- genomics --- bacteriocins --- bacteriophages --- antibiotics --- gastrointestinal diseases --- dysbiosis --- gut barrier --- gut microbiota --- virus --- vaginal microbiota --- HIV --- HPV --- HSV2 --- cytokines --- chemokines --- innate immunity --- adaptive immunity --- microbiota --- autoimmunity --- etiopathogenesis --- Candida albicans --- 2,3-dihydroxy-4-methoxyBenzaldehyde --- melanin --- colitis --- anaerobic bacteria --- aerobic bacteria --- gut microbiota --- gut-liver axis --- chronic liver diseases --- fecal transplantation --- probiotics --- gut microbiota --- immunological niche --- dysbiosis --- cancer --- immune system --- cutaneous immunity --- microbiome --- Staphylococcus spp., T cells --- Staphylococcus aureus --- Staphylococcus epidermis --- commensals --- atopic dermatitis --- intravenous immunoglobulin G --- colitis --- dextran sulfate sodium --- mice --- inflammation --- cytokines --- Candida albicans --- Escherichia coli --- Enterococcus faecalis --- gut microbiota --- chemo free treatment --- lymphoid malignancies --- 16S rRNA gene --- chondroitin sulfate disaccharide --- co-occurrence network --- global network --- microbial interactions --- microbiome --- modularity --- superoxide dismutase --- gut microbiota --- macrophages --- TLR mimicry --- immune epigenetics --- metabolism --- sterile inflammation --- microbiota --- microbiome --- immunotherapy --- adoptive cell transfer (ACT) --- CAR T-cell --- TCR --- TIL --- checkpoint inhibitors --- immuno-oncology --- cancer --- diet --- n/a

Advancements in Gel Science—A Special Issue in Memory of Toyoichi Tanaka

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ISBN: 9783039213436 / 9783039213443 Year: Pages: 178 DOI: 10.3390/books978-3-03921-344-3 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- Chemical Technology
Added to DOAB on : 2019-12-09 11:49:15
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A gel is a state of matter that consists of a three-dimensional cross-linked polymer network and a large amount of solvent. Because of their structural characteristics, gels play important roles in science and technology. The science of gels has attracted much attention since the discovery of the volume phase transition by Professor Toyoichi Tanala at MIT in 1978. MDPI planned to publish a Special Issue in Gels to celebrate the 40th anniversary of this discovery, which received submissions of 13 original papers and one review from various areas of science. We believe that readers will find this Special Issue informative as to the recent advancements of gel research and the broad background of gel science.

Keywords

gel --- thermoresponsive property --- monomer sequence --- co-crosslinking --- copolymerization --- acrylamide derivative --- swelling --- volume phase transition --- agarose gel --- compression --- solvent transport --- sucrose --- xylitol --- volume phase transition --- effects of electric charge --- swelling of thermosensitive gels --- sol-gel transition --- site-bond correlated-percolation model for polymer gelation --- gelation temperature --- cloud point temperature --- spinodal temperature --- spinodal decomposition --- janus particle --- anisotropic shape --- phase separation --- wetting --- micrometric confinement --- micropipette aspiration --- PVA gel --- gamma ray sterilization --- artificial hydrogel cartilage --- frictional property --- wear --- xerogel --- Brunauer-Emmett-Teller theory --- Barrett-Joyner-Halenda analysis --- temperature --- solids content --- drying --- solvent exchange --- microgel --- electrophoresis --- light scattering --- paint coating --- wrinkle --- swelling --- buckling --- Sephadex® (crosslinked dextran) --- crosslink density (density of crosslinks) --- ice grain --- ice crystallization during rewarming --- glassy water --- X-ray CT --- XRD --- poly(vinyl alcohol) --- chemical gel --- microcrystallite --- hydrogen bond --- swelling behavior --- hysteresis --- hydrogel --- friction --- fatigue --- wear --- fracture --- crack --- adhesion --- delamination --- poly (acryl amide) gel --- time domain reflectometry (TDR) of dielectric spectroscopy --- pulse field gradient spin echo method of nuclear magnetic resonance (PFG-NMR) --- scaling analysis --- fractal analysis --- heterogeneous gelation dynamics --- moving boundary picture --- phase transition dynamics --- kinetic coefficient --- blood coagulation --- n/a

Neural Microelectrodes: Design and Applications

Authors: ---
ISBN: 9783039213191 / 9783039213207 Year: Pages: 378 DOI: 10.3390/books978-3-03921-320-7 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2019-12-09 11:49:15
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Neural electrodes enable the recording and stimulation of bioelectrical activity in the nervous system. This technology provides neuroscientists with the means to probe the functionality of neural circuitry in both health and disease. In addition, neural electrodes can deliver therapeutic stimulation for the relief of debilitating symptoms associated with neurological disorders such as Parkinson’s disease and may serve as the basis for the restoration of sensory perception through peripheral nerve and brain regions after disease or injury. Lastly, microscale neural electrodes recording signals associated with volitional movement in paralyzed individuals can be decoded for controlling external devices and prosthetic limbs or driving the stimulation of paralyzed muscles for functional movements. In spite of the promise of neural electrodes for a range of applications, chronic performance remains a goal for long-term basic science studies, as well as clinical applications. New perspectives and opportunities from fields including tissue biomechanics, materials science, and biological mechanisms of inflammation and neurodegeneration are critical to advances in neural electrode technology. This Special Issue will address the state-of-the-art knowledge and emerging opportunities for the development and demonstration of advanced neural electrodes.

Keywords

neural interface --- silicon carbide --- robust microelectrode --- microelectrode array --- liquid crystal elastomer --- neuronal recordings --- neural interfacing --- micro-electromechanical systems (MEMS) technologies --- microelectromechanical systems --- neuroscientific research --- magnetic coupling --- freely-behaving --- microelectrodes --- in vivo electrophysiology --- neural interfaces --- enteric nervous system --- conscious recording --- electrode implantation --- intracranial electrodes --- foreign body reaction --- electrode degradation --- glial encapsulation --- electrode array --- microelectrodes --- neural recording --- silicon probe --- three-dimensional --- electroless plating --- intracortical implant --- microelectrodes --- stiffness --- immunohistochemistry --- immune response --- neural interface response --- neural interface --- micromachine --- neuroscience --- biocompatibility --- training --- education --- diversity --- bias --- BRAIN Initiative --- multi-disciplinary --- micro-electromechanical systems (MEMS) --- n/a --- silicon neural probes --- LED chip --- thermoresistance --- temperature monitoring --- optogenetics --- microfluidic device --- chronic implantation --- gene modification --- neural recording --- neural amplifier --- microelectrode array --- intracortical --- sensor interface --- windowed integration sampling --- mixed-signal feedback --- multiplexing --- amorphous silicon carbide --- neural stimulation and recording --- insertion force --- microelectrodes --- neural interfaces --- intracortical --- microelectrodes --- shape-memory-polymer --- electrophysiology --- electrode --- artifact --- electrophysiology --- electrochemistry --- fast-scan cyclic voltammetry (FSCV) --- neurotechnology --- neural interface --- neuromodulation --- neuroprosthetics --- brain-machine interfaces --- intracortical implant --- microelectrodes --- softening --- immunohistochemistry --- immune response --- neural interface --- shape memory polymer --- deep brain stimulation --- fast scan cyclic voltammetry --- dopamine --- glassy carbon electrode --- magnetic resonance imaging --- system-on-chip --- neuromodulation --- bidirectional --- closed-loop --- sciatic nerve --- vagus nerve --- precision medicine --- neural probe --- intracortical --- microelectrodes --- bio-inspired --- polymer nanocomposite --- cellulose nanocrystals --- photolithography --- Parylene C --- impedance --- Utah electrode arrays --- electrode–tissue interface --- peripheral nerves --- wireless --- implantable --- microstimulators --- neuromodulation --- peripheral nerve stimulation --- neural prostheses --- microelectrode --- neural interfaces --- dextran --- neural probe --- microfabrication --- foreign body reaction --- immunohistochemistry --- polymer --- chronic --- electrocorticography --- ECoG --- micro-electrocorticography --- µECoG --- neural electrode array --- neural interfaces --- electrophysiology --- brain–computer interface --- in vivo imaging --- tissue response --- graphene --- n/a

Transmucosal Absorption Enhancers in the Drug Delivery Field

Authors: --- ---
ISBN: 9783039218486 / 9783039218493 Year: Pages: 406 DOI: 10.3390/books978-3-03921-849-3 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Therapeutics --- Medicine (General)
Added to DOAB on : 2020-01-30 16:39:46
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Development of strategies to assist the movement of poorly permeable molecules across biological barriers has long been the goal of drug delivery science. In the last three decades, there has been an exponential increase in advanced drug delivery systems that aim to address this issue. However, most proprietary delivery technologies that have progressed to clinical development are based on permeation enhancers (PEs) that have a history of safe use in man. This Special Issue entitled “Transmucosal Absorption Enhancers in the Drug Delivery Field” aims to present the current state-of-the-art in the application of PEs to improve drug absorption. Emphasis is placed on identification of novel permeation enhancers, mechanisms of barrier alteration, physicochemical properties of PEs that contribute to optimal enhancement action, new delivery models to assess PEs, studies assessing safety of PEs, approaches to assist translation of PEs into effective oral, nasal, ocular and vaginal dosage forms and combining PEs with other delivery strategies.

Keywords

absorption enhancers --- sugar-based surfactants --- biocompatibility studies --- transmucosal drug delivery --- intestinal permeation enhancers --- sodium cholate (NaC) --- N-dodecyl-?-D-maltoside (DDM) --- small intestine --- enterocyte --- brush border --- tryptophan --- oral delivery --- insulin --- GLP-1 --- intestinal absorption --- amino acid --- cell-penetrating peptide --- combined microsphere --- chitosan --- cyclodextrin --- nasal delivery --- nose to brain transport --- penetration enhancer --- nasal formulation --- in vivo studies --- nose to brain delivery --- antiepileptic drug --- drug delivery --- block copolymers --- thermogel system --- chitosan derivatives --- amphiphilic polymers --- polymeric micelles --- quaternization --- curcumin --- intestinal delivery --- mucoadhesiveness --- cervicovaginal tumors --- cationic functionalization --- imatinib --- nanocrystals --- in situ hydrogel --- bioenhancer --- cytochrome P450 --- drug absorption enhancer --- efflux --- metabolism --- P-glycoprotein --- pharmacokinetic interaction --- tight junction --- Aloe vera --- gel --- whole leaf --- absorption enhancement --- Caco-2 --- confocal laser scanning microscopy --- F-actin --- FITC-dextran --- tight junctions --- transepithelial electrical resistance --- permeation enhancer --- oral delivery --- formulation --- permeability --- safety --- simulated intestinal fluid --- hydrophobization --- epithelium --- compound 48/80 --- chitosan --- nanoparticles --- mast cell activator --- vaccine adjuvant --- nasal vaccination --- absorption enhancer --- antimicrobial peptide --- Caco-2 --- claudin --- cell-penetrating peptide (CPP) --- drug delivery --- intestinal epithelial cells --- KLAL --- PN159 --- tight junction modulator --- oral macromolecule delivery --- oral peptides --- sodium caprate --- salcaprozate sodium --- epithelial permeability --- epithelial transport --- nasal permeability --- nose-to-brain --- simvastatin --- nanocapsules --- mucoadhesion --- CNS disorders --- chitosan --- nasal --- pulmonary --- drug administration --- absorption enhancers --- nanoparticle --- and liposome --- absorption enhancer --- gemini surfactant --- intestinal absorption --- poorly absorbed drug --- Caco-2 cells --- PTH 1-34 --- teriparatide --- nasal delivery --- pharmacokinetics --- osteoporosis --- man --- sheep --- clinical trial --- preclinical --- Caco-2 --- intestinal absorption --- nanomedicine --- nanoparticle --- oral delivery --- transferrin --- ocular drug delivery --- cornea --- penetration enhancers --- ocular conditions --- ophthalmology --- permeation enhancers --- absorption modifying excipients --- oral delivery --- nasal delivery --- ocular delivery --- vaginal delivery --- transmucosal permeation

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