Pondělí, 13. Květen 2019, Prague, 9th World Congress on Chemistry and Medicinal Chemistry (AAC)

Od 13. Květen 2019 - 8:00
Do 14. Květen 2019 - 17:00
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9th World Congress on Chemistry and Medicinal Chemistry
About conferenceThe 9th World Congress on Chemistry & Medicinal Chemistry on Current Advancements in Chemistry and its Applications in Medicinal Chemistry is a global event being held at Prague, Czech Republic in May 13-14, conference provides an international forum for researchers, scientists, engineers and practitioners who are involved in real time projects that provide solutions to exchange their valuable ideas and showcase the ongoing works which may lead to path breaking foundation of Chemistry.We are introducing 20 tracks at the chemistry conference, which are, Medicinal Chemistry, Pharmaceutical Chemistry, Chemistry in Drug Designing, Clinical Chemistry, Nano science and Materials Chemistry, Organic and Inorganic Chemistry, Neurochemistry, Molecular Biology and Biochemistry, Agricultural and Food Chemistry, Environmental and Green Chemistry, Natural Product Chemistry, Analytical & Bio analytical Chemistry, Physical Chemistry and Theoretical Chemistry, Synthetic Chemistry, Polymer Chemistry, Nuclear Chemistry, Electrochemistry, Forensic Chemistry, Geochemistry and Quantum Chemistry.The aim is to provide an international open forum for ventures and technocrats in academia as well as in industries from different parts of the world to interact, exchange concepts and share the results of their research work which could especially contribute to the academic arena and further benefit the business and industrial community.New frontiers of technology and its collective use has an answer of future challenge in the field of chemistry health and medicine.
Session on Medicinal ChemistryThe discipline of chemistry that is involved with chemical synthesis, design and development of pharmaceutical agents or drugs, falls under Medicinal chemistry. Medicinal compounds are organic in nature and are classified into small organic molecules and biologics. In many cases Inorganic and organometallic compounds are also useful as drugs. The most common practice of medicinal chemistry, is aiming to discover and develop new therapeutic agents by involving synthetic organic chemistry and computational chemistry in a close knit combination with chemical biology, enzymology and structural biology. All relevant aspects of medicinal chemistry research are covered in Medicinal Chemistry, such as structural biology, drug design approaches, pathobiochemistry of diseases, synthetic chemistry, chemogenomics, toxicology, pharmacogenomics, in vitro and in vivo investigations, drugability of targets and bioorganic chemistry. The interdisciplinary team-work at the interface between chemistry, biology and medicine is required for Drug research. The discipline of Medicinal chemistry is both science and an art. The former offers humankind its best hopes for improving the living quality and the latter, still challenges its researchers with the need for both intuition and experience to discover new drugs. Session on Pharmaceutical ChemistryThe discipline that focuses on the quality aspects of medicines and aims to assure fitness for purpose of medicinal products is Pharmaceutical chemistry. It is the study of drugs, and also involves its development in various stages such as drug discovery, delivery, absorption, metabolism, and more. Pharmaceutical chemistry usually has its work in a lab which has elements of medical analysis, pharmacology, pharmacokinetics, and pharmacodynamics. It is the chemistry which involves cures and remedies for disease, analytical techniques, pharmacology, metabolism, quality assurance, and drug chemistry. The development of this field will enable us to contribute to life-saving remedies and enhance the speed of delivery of new medications. The other branches of study that are important for understanding the effects that drugs have on the body are pharmacokinetics, pharmacodynamics and drug on Chemistry in Drug DesigningMedicinal Chemistry is changing from its root in age-old/traditional medicine through Drug designing and development. An important aspect of drug designing is to understand the principal component in the natural product that is having the therapeutic benefit.The important role that medicinal chemistry plays is in developing a drug with therapeutic benefits. The process of traditionally modifying a chemical molecule which has therapeutic value, to intervene a disease is done by Medicinal chemistry. Identification of a chemical molecule of potential, altering its chemical structure, synthesizing the organic molecule in the laboratory, and testing of its properties and biological activities are all included in the process. The market of pharmaceutical industry is driven by Medicinal chemistry. At present, the primary aim of drug designing is to design a drug for a known target and develop a molecule by completely understanding the active principle with therapeutic potential, which is then approved by the Food and Drug Administration (FDA). This process of designing a new molecule to the established target is done using Computer Assisted Drug Designing (CADD).Session on Clinical ChemistryThe area of clinical pathology, that is concerned with analysis of urine, blood (whole blood, serum, plasma), body fluids for screening, diagnosis and monitoring of different diseases. Clinical chemistry tests are diverse and largely used for endocrine disorders like diabetes, thyroids, kidney disorders, cardiovascular disorders, infertility, pregnancy, nutritional disorders (vitamins, heavy and trace metals), cancers, new born screening, autoimmunity and allergy, infections, etc. Clinical tests are taken to identify the changes when compared to the biological reference interval of human beings. A wide range of techniques like chemiluminescence, Immunoassays, radioimmunoassay, Biochemical methods like colorimetry, enzymatic reactions, spectrophotometry, nephelometry, electrophoresis, enzyme linked flourescence, Analytical chemistry methods like high performance liquid chromatography, atomic absorption, mass spectrometry, infrared spectrometry, etc are used by Clinical pathologists and biochemists to detect and control diseases. Session on Nano science and Materials ChemistryThe emerging science of objects that are intermediate in size between a few nanometers to less than 100 nanometers, that can be fabricated by current photolithography is Nanoscience. Particularly interesting classes of nanostructures in chemistry includes colloids, polymer molecules, buckytubes, silicon nanorods, compound semiconductor quantum dots and micelles. Chemists not so soon ago realized that chemistry is already playing a leading role in nanotechnology and that, it is the ultimate nanotechnology. New forms of matter are made by chemical synthesis with remarkable economy and safety, by joining atoms and groups of atoms together with bonds. Although nanoelectronics gained initial interest in nanotechnology, the first new and potentially commercial technologies to emerge from revolutionary nanoscience seem, in fact, to be in materials science, produced from chemical processes. The invention and development of materials whose properties depend on nanoscale structure was contributed by Chemistry. Ultimately Chemistry and chemical engineering will be important in producing materials productively, economically, and in on Organic and Inorganic ChemistryThe two main sub disciplines within chemistry are Organic and inorganic chemistry. In the former, the scientific study is concentrated towards carbon compounds and other carbon-based compounds such as hydrocarbons and their derivatives. Inorganic chemistry on the other hand deals with the rest of the chemical compounds except carbon. The scientific study of the composition, structure, properties, preparation and the reactions involved comprises organic or inorganic chemistry. If Organic chemistry is said to tackle stereochemistry, isomerization, photochemistry, hydrogenation, polymerization, and fermentation, then Inorganic chemistry, on the other hand, covers crystallography, atomic structure, electrochemistry, ceramics, chemical bonding, coordination of compounds and acid-base reactions. It is found that inorganic chemistry is the only discipline within chemistry that examines specifically the differences among all the different kinds of atoms. This characteristic of inorganic chemistry is applied in Medicinal Inorganic Chemistry which studies the significant and non-significant elements which can be used in the treatment and diagnosis of on NeurochemistryThe study of neurochemicals that are generated by and that modulate the nervous system is Neurochemistry. Oxytocin, serotonin, dopamine and other neurotransmitters and neurotransmitter-regulating substances are the Neurochemicals. It refers to the chemical processes that occur in the brain and nervous system. It is the chemistry that occurs in the human brain and the nerve cell, helps humans in communicating signals. The flourishing academic field that contributes to our understanding of molecular, cellular and medical neurobiology is Neurochemistry. It deals with the role of chemicals that build the nervous system, it explores the function of neurons and glial cells in health and disease, it reveals how degenerative processes are at work in the nervous system and  it discovers aspects of cell metabolism and on Molecular Biology and BiochemistryThe discipline that focuses on the mechanisms by which cells process, integrate, and act on information to create and propagate living organisms is Molecular Biology and Biochemistry.It concentrates in particular disciplines such as cell biology, genetics, epigenetics, genomics, molecular biology, biochemistry, biophysics, structural biology, and computational modeling. It is the field that brings biologists and chemists together due to concern for the life and composition of the cells. The primary concerns of the biochemist is about the vast and complex array of chemical reactions occurring in living matter and the chemical composition of the cell. Investigatory concerns of the molecular biologist include life processes occurring at the molecular level, including the storage and transfer of genetic information and the interactions between cells and the viruses that infect on Agricultural and Food ChemistryThe discipline that takes care of the important role in expanding the nation’s food supply is Agricultural and food chemistry. Basic research or applied research and development are the two categories that shape this department. The one which understands the biological and chemical processes by which crops and livestock grow is Basic research. Applied research uses the knowledge gained from basic research to discover ways to improve the quality, quantity, and safety of agricultural products. Be it crop and animal production, food safety, quality, nutrition, processing, packaging, and utilization of materials, agricultural and food chemists delve into all aspects that help their common goal to produce sufficient nutritious food and feed to support the population in a sustainable way while being responsible towards our environment and on Environmental and Green ChemistryCurrent chemistry researchers have environment-focused projects and incorporate green chemistry principles and sustainability goals into their research objectives. There is a major interest in areas like aquatic photochemistry, atmospheric particles, reactive surfaces, analytical methods, renewable feedstocks, development of new green chemistry curricula and outreach materials. Green chemistry is incorporated as laboratory experiments to educate future chemists about cutting-edge sustainable technologies. Many Environment Institutes work closely to discover solutions to Earth's most pressing environmental problems by conducting transformative research. Chemical products and processes that reduce or eliminate the use of hazardous substances are designed, having the goal to eliminate pollution and to enhance efficiency, to save resources and energy, and to achieve sustainable development of chemistry and the chemical on Natural Product ChemistryThe interdisciplinary science subject, that collaborated with Biology, Pharmacology and Clinical Chemistry, is Natural products chemistry. Thus Natural products chemistry in recent years has flourished through fields like chemical biology and chemical genetics. The field has a unique chemical diversity and have been evolved for optimal interactions with biological macro molecules. Due to its target affinity and specificity, they have proved enormous potential as modulators of biomolecular function, been an essential source for drug discovery, and provided design principles for combinatorial library development. The aspects of synthetic organic chemistry and biology is utilized to explore biological processes, which gave birth to new fields as the need for more versatile tools grew. Session on Analytical & Bio analytical ChemistryThe broad field of analytical and bioanalytical chemistry covers the development of instruments for mass spectrometry, metallomics, ionics, and the analytical characterization of nano- and biomaterials. Among these the vibrant and cutting-edge field that receives wide research interest is bioanalysis. The modern fields in Analytical & Bio analytical Chemistry are instrumental developments for analytical proteomics, imaging, development of miniaturized devices, sensors, chemometrics and sampling methods. Problems in pharmaceutical industries are solved by the application of bioanalytical techniques, making new innovations in biomedical on Physical Chemistry and Theoretical ChemistryThe application of physical principles and measurements to understand the properties of matter, as well as for the development of new technologies for the environment, energy and medicine is Physical Chemistry. Advanced Physical Chemistry topics consist of different spectroscopic methods ranging from ultrafast and mass spectroscopy, nuclear magnetic and electron paramagnetic resonance, x-ray absorption and atomic force microscopy, also theoretical and computational tools provide atomic-level understanding for applications such as, inter facial chemistry of catalysis and implants, electron and proton transfer, protein function, photosynthesis, nanodevices for bio-detection and receptors. The gap between the theories and techniques of modern-day physics and chemical systems is filled by Physical chemistry. Physical and theoretical chemists work to unravel the phenomena that govern all aspects of the physical world by using advanced characterization and computational methods. Advanced characterization techniques is applied to a diverse range of topics – energy storage materials for electric vehicles, biologically relevant proteins to understand degenerative diseases, photo-induced molecular transformations and complex surface properties by Physical chemists. As to improve our understanding of all aspects of chemistry, right down to the nature of chemical bonding, Theoretical chemists work to establish quantum mechanical on Synthetic ChemistryThe study of the connection between structure and reactivity of organic molecules is Synthetic Chemistry. A study on how to build complex organic compounds from simple ones, is the main aim of Synthetic Chemistry. Generating organic compounds of commercial means is the application of Synthetic Chemistry. The structure of organic molecules is studied by applying physical chemical science onto the experimental tools of chemical science. These studies provides a theoretical framework that interprets however Synthetic Chemistry structure influences each mechanisms and rates of organic reactions. The research in Synthetic Chemistry will enable us to develop new strategies for enantioselective catalysis, C-H bond activation, the conversion of renewable resources to new feedstocks and fuels and for energy-efficient synthesis routes. The power of chemical and biocatalysis, is utilized in the context of biomedical research, in the area of sustainable energy, to develop sustainable chemical synthesis on Polymer ChemistryThe study of the synthesis, characterization and properties of polymer molecules or macromolecules is the sub-discipline of chemistry called Polymer chemistry. Other sub-disciplines of chemistry like analytical chemistry, organic chemistry and physical chemistry have the same principles and methods used for polymer chemistry. Polymer Chemistry is referred to in the context of synthetic, organic compositions. Everyday use products such as plastics, rubbers, and composites comes under the category of Synthetic polymers. Polymer science or nanotechnology can be included as the broader fields of Polymer chemistry. According to their origin, polymers can be subdivided into biopolymers and synthetic polymers. The structural and functional materials that comprise most of the organic matter in organisms are Biopolymers. The structural materials shown in plastics, synthetic fibers, mechanical parts, paints, building materials, furniture, and adhesives are Synthetic polymers. They can be further divided into thermoplastic polymers and thermoset plastics. Almost all synthetic polymers are derived from on Nuclear ChemistryThe sub-field of Chemistry, that deals with radioactivity, nuclear process and properties, is Nuclear Chemistry. The behavior of objects and materials after being placed into a nuclear waste storage or disposal site is the most important area in Nuclear Chemistry. The study of chemical effects resulting from the absorption of radiation within living animals, plants, and other materials is included, and thus nuclear chemistry greatly assists the understanding of medical treatments such as cancer radiotherapy. Nuclear Chemistry is applicable in the use of radioactive tracers within industry, radiotherapy in medical applications, science and the environment and the use of radiation to modify materials such as polymers. Nuclear processes are used in non-radioactive areas of human activity, like how nuclear magnetic resonance (NMR) spectroscopy is commonly used in synthetic organic chemistry and physical chemistry and for structural analysis in macro molecular chemistry. Session on ElectrochemistryThe branch of physical chemistry that deals with the relationship between electricity, a measurable and quantitative phenomenon and chemical change is Electrochemistry. Electrochemical methods are widely used in various branches of industry be it, the practical importance of electrochemical processes, role of the processes in living organisms, and the unique features of their experimental study have led to the formation of electrochemistry as an individualistic scientific discipline. Chemical Industry utilizes electrolysis, the most important method for the production of alkalies, many oxidizing agents, chlorine, fluorine, and organofluorine compounds. The biological processes related to the functioning of biological membranes such as the detection of the visual image, the transmission of the nervous impulse and the assimilation and use of food energy are impossible without electrochemical links. Electrochemistry leads new tasks for theoretical electrochemistry and will significantly affect future medical practice. Session on Forensic ChemistrySpecialists in Forensic chemistry identify materials in a crime scene through a wide array of methods and using instruments such as Fourier transform infrared spectroscopy, thin layer chromatography,  gas chromatography-mass spectrometry, high-performance liquid chromatography and atomic absorption spectroscopy. To preserve evidence and to determine which destructive methods will produce the best results, Forensic chemists prefer using nondestructive methods first. A set of standards are followed by Forensic chemists that have been proposed by various agencies and governing bodies, including the Scientific Working Group on the Analysis of Seized Drugs. Forensic chemists routinely check and verify their instruments, to ensure the accuracy of what they are on GeochemistryThe science that uses the tools and principles to explain the mechanisms behind major geological systems is Geochemistry. They study the composition, structure, processes, and other physical aspects of the Earth. Geochemist’s understand the behaviour and make informed decisions on a range of industrial and scientific research applications. Geochemistry gives better understanding about the chemical composition of rocks, enables scientists the broad theory on how the Earth is changing, helps environmental management companies decide how to dispose of a toxic or hazardous substance, steers mining companies toward use of natural resources with a minimum environmental impact, and conveys oil companies where to drill for on Quantum ChemistryThe branch of Chemistry whose primary focus is the application of quantum mechanics in physical models and experiments of chemical systems is Quantum chemistry or Molecular quantum mechanics. Common methods used by quantum chemists to obtain information regarding the quantization of energy on a molecular scale is by nuclear magnetic resonance (NMR) spectroscopy, infra-red (IR) spectroscopy and scanning probe microscopy. The working of Theoretical quantum chemistry, falls under the category of computational chemistry. Quantum chemical theories explains the structure of the periodic table, and quantum chemical calculations gives accurate predictions of the structures of molecules and the spectroscopic behavior of atoms and molecules.
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