About Conference
Inhalation Toxicology 2020 is a global overview which will provide an international platform for the discussion of Toxicology and Applied Pharmacology. This event gathers all the eminent persons, professors, scientists, doctors, medical practitioners, health workers, professionals, students, and industrialists all over the world to exchange their ideas, researches and their experiences. It also brings together persons particularly interested in the chemistry of Toxicology and Applied Pharmacology, both Toxicological, Medical and Clinical; to Poster programs of general papers and symposia on special topics dealing with this field of Toxicology and Pharmacology; to promote such other activities as will stimulate activity in and emphasize the importance of research in Toxicology and Applied Pharmacology. It chiefly centre about the slanting innovations and improvement in the territory of Inhalation Toxicology2020.
Why to attend
Inhalation Toxicology 2020 event shall lay a platform for the interaction between specialists around the world and aims to accelerate scientific discoveries creating the conference an ideal platform to share expertise, foster collaborations across trade and world, and assess rising technologies across the world.
Researchers across the world are going to showcase their research work at this platform, wherein the students are going to learn innovative techniques from them. Moreover this platform provides a scope to share each other knowledge and execute it for the betterment of the in the near future. A novel chance for advertisers and sponsors at this International event.
Tracks
Track 1: Medical Toxicology
Medical Toxicology is a field of medicine dedicated to the evaluation and treatment of poisoned and envenomated patients. This also includes adverse health effects of medications, occupational and environmental toxins, and biological agents.
Track 2: Clinical Toxicology
Poisoning is an adverse effect from a chemical that has been taken in excessive amounts. The body is able to tolerate and, in some cases, detoxify a certain dose of a chemical; however, once a critical threshold is exceeded, toxicity results. Poisoning can produce minor local effects that can be treated readily in the outpatient setting or systemic life-threatening effects that require intensive medical intervention. This spectrum of toxicity is typical for many chemicals with which humans come in contact.
Track 3: Computational Toxicology
Computational toxicology is a branch of toxicology concerned with the development and use of computer-based models to understand and predict the interactions of biological organisms (at population, individual, cellular, and molecular levels) with pollutants in the air, water, soil and food, and their adverse health effects that they may cause.
Track 4: Food and Nutritional Toxicology
In essence, toxicology is the science of poisons, toxicants, or toxins. Toxin is a substance capable of causing harm when administered to an organism. Harm can be defined as seriously injuring or, ultimately, causing the death of an organism. This is a rather simplistic definition, because virtually every known chemical or substance has the potential for causing harm. The term toxin usually refers to a poison derived from a protein or conjugated protein produced by some higher plant, animal, or pathogenic bacteria that is highly poisonous for other living organisms
Track 5: Toxicogenomics
Toxicogenomics is a sub discipline of pharmacology that deals with the collection, interpretation, and storage of information about gene and protein activity within a particular cell or tissue of an organism in response to exposure to toxic substances. Toxicogenomics is defined as the application of genomic technologies (for example, genetics, genome sequence analysis, gene expression profiling, proteomics, metabolomics, and related approaches) to study the adverse effects of environmental and pharmaceutical chemicals on human health and the environment. Toxicogenomics may lead to information that is more discriminating, predictive, and sensitive than that currently used to evaluate toxic exposure or predict effects on human health.
Track 6: Toxicology and Risk Assessment
Toxicology Risk Assessment gives details of a product’s consistency with measures such as health and security and market acknowledgment all over the parts of the product in areas of manufacturing and distributing. Toxicological assessments helps in determining if the product poses a potential risk for the toxicological ranges measured. Hence the Toxicology studies are most essential in Product management and Product testing.
Track 7: Forensic Toxicology
Forensic toxicology is the use of toxicology and other section like analytical chemistry, pharmacology and clinical chemistry to assist the medical or legal investigation of death, poisoning, and drug use.
Track 8: Enzyme inhibitor
Enzyme inhibitors are substances which bind to the enzyme with resulting loss of activity, without damaging the enzyme's protein structure. Enzyme inhibitors are used as tools for studying enzymes and as drugs for treating certain disorders. Enzyme inhibitors are classified as reversible or irreversible.
Track 9: Mass spectrometry
Mass spectrometry is a powerful analytical technique used to quantify known materials, to identify unknown compounds within a sample, and to elucidate the structure and chemical properties of different molecules. The complete process involves the conversion of the sample into gaseous ions, with or without fragmentation, which are then characterized by their mass to charge ratios (m/z) and relative abundances.
Track 10: Clinical Pharmacology
Clinical pharmacology is a branch of biomedical science. It includes drug discovery, the study of the effects of drugs on their targets in living systems and their clinical use, as well as the study of biological function related to these chemicals. Clinical pharmacology also connects the gap between medical practice and laboratory science.