Online / Physical Event

13th Edition of International Conference on

Microbiology, Antibiotics and Public Health

Theme: Magic Bullets Targeting Deadly Microbes and Improving World Health

Event Date & Time

Event Location

Brussels , Belgium

Program Abstract Registration Awards

20 Years Of Excellence in Scientific Events


Performers / Professionals From Around The Globe

Tracks & Key Topics




EuroSciCon honoured to welcome all the participants for the upcoming CPD accredited 13th Edition of International Conference on  Microbiology, Antibiotics and Public Health to be held from August 25-26, 2021 at Brussels, Belgium The main focus of this Microbiology, Antibiotics and Public Health 2021 conference is to fill up the knowledge gap by sharing the advanced research in Microbiology which is also integrated with advanced research in Public Health. To attain in this goal this international conference is designed in such a way to display their ideas, theories, and analyses, innovations through Keynote presentations Plenary Presentations, Oral Talks, Poster presentations, Young Research Forum, Symposiums, Workshops, and Exhibitions. 

The theme of this conference is “Magic Bullets Targeting Deadly Microbes and Improving World Health “which will provide an international platform for the discussion of advances in Microbiology and Public Health. This event gathers all the eminent persons, professors, scientists, doctors, medical PR actioners, health workers, professionals, students, and industrialists all over the world to exchange their ideas, researches and their experiences.  Microbiology 2021 provides an opportunity to discuss and learn about the advanced theoretical and practical aspects of Microbiology and public Health  This international conference  Microbiology, Antibiotics  and Public Health 2021 will provide the platform to discuss the topics in depth and to explore the new dimensions of current research in Microbiology So this conference covers topics from both fields Advanced Microbiology and Public Health along with the integrated research of Microbiology and Public Health This Scientific sessions in this Conference are Advanced Research in Microbiology and Public Health, Advances in Applied Microbiology, Advances in Microbiology, Applications of Microbes, Bioremediation and Biodegradation, Biotechnology, Environmental Microbiology, Enzyme Technology Advantages & Applications, Genetic Engineering in Microbiology, Industrial Microbiology, Infectious Diseases, Medical Microbiology, Microbial Biofilms, Microbial Biotechnology, Microbial Enzymes, Molecular Microbiology, Public Health & Epidemiology, Recombinant DNA Technology, Role of Microbes in Public Health, Theoretical and Practical aspects of Microbiology, Vaccines & Antibodies Production, Virology, Clinical Microbiology, Diagnostic Microbiology 


Why to attend our conference

This event will provide an opportunity to build and expand your network with various people and gives chance to make collaboration with other universities and research labs. It also helps you to meet the experts in the relevant field of study. It gives the access to novel instruments in the market. This conference plays a major role in your business development and maximizes the profit.


Target Audience

 Microbiology, Antibiotics  & Public Health 2021 keenly focuses on the following people 

  • Eminent Scientists 
  • Directors / Head of Microbiology
  • Principal Investigators, Research lab Scientists, Research Scholars
  • Professors & Associate Professors of Microbiology, Health Care, Immunology, Bacteriology, Virology
  • Directors/ Scientists of Microbiology
  • Experts in Microbiology, Heath care, Immunology, Virology 
  • Theoretical Scientists working on deriving analytical hypotheses
  • Research lab scientists, scholars, Young Scientists 
  • Relevant Post-graduates, Graduates, Technicians, Students.


Opportunities for Conference Attendees

  • For Researchers &Faculty:
  • Speaker Presentations
  • Poster Display
  • Symposium hosting
  • Workshop organizing

For Universities, Associations & Societies:

  • Association Partnering
  • Collaboration proposals
  • Academic Partnering
  • Group Participation
  • For Students & Research Scholars:
  • Poster Competition (Winner will get Best Poster Award)
  • Young Researcher Forum (YRF Award to the best presenter)
  • Student Attendee
  • Group registrations

For Business Delegates:

  • Speaker Presentations
  • Symposium hosting
  • Book Launch event
  • Networking opportunities
  • Audience participation

For Companies:

  • Exhibitor and Vendor booths
  • Sponsorships opportunities
  • Product launch
  • Workshop organizing
  • Scientific Partnering
  • Marketing and Networking with clients

Discovery of Antibiotics, Advanced Research in Microbiology and Public Health, Advances in Applied Microbiology, Advances in Microbiology, Applications of Microbes, Bioremediation and Biodegradation, Drug Discovery Technologies in Antibiotics, Clinical Microbiology, Biotechnology, Environmental Microbiology, Genetic Engineering in Microbiology, Industrial Microbiology, Infectious Diseases, Medical Microbiology, Pharmacology of Antibiotics, Microbial Biofilms, Microbial Biotechnology, Infection & Immunity, Public Health & Epidemiology, Recombinant DNA Technology, Role of Microbes in Public Health, Theoretical and Practical aspects of Microbiology, Microbiology & Molecular Biology, Vaccines & Antibiotics Production, Virology, Pathology, Microbial Chemistry, Bacteriology & Parasitology, Interaction and Side-effects of Antibiotics, Clinical Microbiology and Antimicrobials, Soil Microbiology, Clinical Virology and Infectious Diseases, Microbial Diversity, Biofuels ,Cell, Molecular Biology and Molecular Genetics, Agricultural Microbiology, Veterinary Microbiology, Systems Biology and Bioinformatics, Pharmaceutical Microbiology, Microbial Transformation, Petroleum Microbiology, Antibiotics in Oncology, Enzyme Technology Advantages & Applications, Antibiotic Therapy, Production in Antibiotics,




Track 1: Advanced Research In Microbiology And Public Health

This track deals with the inter disciplinary researches & developments in microbiologyand public health. Generally, Microbes play an important role in balancing the health in the society. This session covers the wide area of advanced researches under Microbiology, Epidemiology, Public Health, Clinical Microbiology, Diagnostic Microbiology, Environmental MicrobiologyAstro MicrobiologyAgriculture Microbiology, Food MicrobiologyMolecular MicrobiologyIndustrial Microbiology, Microbiome, Infectious Diseases and their preventive Measures, Medical Microbiology and many more related fields.

Coronaviruses (COVID-19):

Coronaviruses are an outsized family of viruses which can cause illness in animals or humans. In humans, several coronaviruses are known to cause respiratory infections starting from the cold to more severe diseases like Middle East Respiratory Syndrome (MERS) and Severe Acute Respiratory Syndrome (SARS). The foremost recently discovered coronavirus causes coronavirus disease COVID-19.

Track 2: Advances in Applied Microbiology

Applied Microbiology is that the field of study wherever the microorganisms wherever utilized in the assembly of bound product like Antibiotics, enzymes, Food product etc., for the profit for the society. Applied microbiology is that the study of the microbial world and therefore the approach it interacts with our own. It’s at however we are able to  harness and utilize the powers of the microbes in areas starting from  biotechnology to to persecutor management, to bio-refineries, to pharmaceutical applications. . a large vary of microbic bioproducts is feasible. This Applied Biolog session deals with researches in relation with agriculture and soils, animals and animal health, biodefense, biotransformation, biodegradation and bioremediationbiotechnology, setting, food and beverages, medication and public health, mycology, pharmacy, plants and plant health, and therefore the gut water of every type, Food MicrobiologyMolecular MicrobiologyIndustrial Microbiology, Enzymes, Antibiotics, Vaccines, supermolecule Production, Recombinant DNA Technology.

Track 3: Advances in Microbiology

Advances in Microbiology session deals with the latest researches and developments in microbial techniques,  microbial strain improvement, microbial Engineering, Industrial MicrobiologyMedical MicrobiologyGeneral Microbiology, Medical EntomologyAnatomyPhysiologyBiochemistryPathologyForensic Medicineand ToxicologyPharmacology, Community medication , Clinical Sciences (medication Surgery, ENT,  orthopaedics, medical specialty,) Medical Biotechnology and Biological Sciences. Microbiology is that the study of microorganisms and people being animate thing (single cell), cellular (cell colony), or noncellular (lacking cells) like bacterium, viruses, archaea, fungi and protozoa. Microbiology encompasses varied sub-disciplines including virology, parasitology, mycology, bacteriology. Organic chemistry  physiology cell biology ecology evolution and clinical aspects of microorganisms, as well as the host response  to those agents. The study of microorganisms impinges on all of biology as well as geoscience. For several years, analysis exploitation prokaryotes from each the Bacteria and Archaea domains as model systems has additional to the understanding of physiological processes like growth and metabolism. Thus, through understanding the physiology of prokaryotes, advances in ecology, evolution, and biotechnologyare created. This Session  conjointly covers sub sessions like.

Track 4: Discovery of Antibiotics

Innovation has been a stimulating driver of advances in medication revealing. mechanization, Nano fluidics, imaging, programming and take a look at advances have assumed a stimulating half in showing signs of improvement data, quicker. Is medication revealing at such a propelled state, to the purpose that additional upgrades area unit failed to need any longer or practical? There area unit various feelings on this and an excellent a part of the proof is narrative, however innovation advancement is basic to the modification of the medication revealing method and value talking regarding.

Track 5: Applications of Microbes

Microorganisms play a very important role in our day these days life, with those very little creatures. the employment of organism in giant scale production of food and industrial merchandise is being done worldwide. Polysaccharides, polyamides, polyesters several|and lots of|and plenty of} different sorts of biopolymers area unit made by many microorganisms. These area unit starting from plastics to viscous solutions. Microorganisms area unit employed in giant scale producing of vaccines against diseases like contagious disease respiratory illness, polio, BCG etc. with the evolution of refined technology, identification of specific antigens is being done simply that additional helps in development of vaccines with the assistance of microorganisms. they need employed in food merchandise, industries, pharma, technology, Biotechnology, Food Technology, Agriculture, Drug Delivery, Medical technology, microbic Engineering, protein Production, Antibiotics Production, immunogen Production and plenty of a lot of.

Track 6: Bioremediation and Biodegradation

Bioremediation is that the method of exploitation organisms to neutralize or take away contamination from waste. it's vital to grasp that this kind of waste redress uses no deadly chemicals, though it's going to use Associate in Nursing organism that may be harmful below sure circumstances. Bioremediation may be a method wont to treat contaminated media, as well as water, soil and underwater material, by sterilization environmental conditions to stimulate growth of microorganisms and degrade the target pollutants. In several cases, bioremediation is a smaller amount high-ticket and additional property than different redress alternatives. Bioremediation works by providing these organisms with completely different materials like chemical, element and different conditions to survive. this could facilitate to interrupt the organic waste at a quicker rate. In different words, bioremediation will facilitate to wash up oil spills. Bioremediation from Associate in Nursing ecological perspective. microbic biodegradation is that the use of bioremediation and biotransformation strategies to harness the present ability of microbic xenobiotic metabolism to degrade, remodel or accumulate environmental pollutants, as well as hydrocarbons (e.g. oil), polychlorinated biphenyls (PCBs), polyaromatic hydrocarbons (PAHs), heterocyclic compounds (such as base or quinoline), pharmaceutical substances, radionuclides and metals. Interest within the microbic biodegradation of pollutants has intense in recent years and up to date major method breakthroughs have enabled careful genomic, metagenomic, proteomic, bioinformatic and different high-throughput analyses of environmentally relevant microorganisms, providing new insights into biodegradative pathways and also the ability of organisms to adapt to dynamic environmental conditions. Biodegradation is that the biologically catalyzed modification of Associate in Nursing organic chemical's structure.

Track 7: Drug Discovery Technologies in Antibiotics

Innovation has been a motivating driver of advances in medication revelation. cybernation, Nano fluidics, imaging, programming and check advances have assumed a motivating half in showing signs of improvement data, quicker. Is medication revelation at such a propelled state, to the purpose that more upgrades area unit didn't need any longer or practical? There area unit numerous feelings on this and an excellent a part of the proof is narrative, nevertheless innovation advancement is basic to the modification of the medication revelation method and value talking concerning.

Track 8: Clinical Microbiology

Clinical Microbiology is a branch of life science involved with the bar, identification and treatment of infectious diseases. Moreover, this field of science  thinks {about|worries|is bothered} about varied clinical applications of microbesfor the development of health. There square measure four sorts of microorganisms that cause infectious disease: bacterium, fungi, parasites and viruses. During this session we are able to discuss in border read of microbiological aspects of human and animal infections and infestations and specifically their etiological agents, diagnosis, and epidemiology.

Track 9: Biotechnology

Modern biotechnology provides breakthrough product and technologies to combat weakening and rare diseases, scale back our environmental footprint, feed the hungry, use less and cleaner energy, and have safer, cleaner and additional economical industrial producing processes. Biotechnology is that the broad space of science involving living systems and organisms to develop or create product, or "any technological application that uses biological systems, living organisms, or derivatives thence, to create or modify product or processes for specific use. Biotechnology is all regarding harnessing the ability of living cells and materials to be used in environmental, diagnostic, pharmaceutical and agricultural industries. Biotechnology is all regarding exploitation the raw ingredients of life to assist solve society’s issues. It also can normally be noted as life sciences or gene-splicing, that involves exploiting cell and tissue culture technologies to supply countless wondrous things. betting on the tools and applications, it typically overlaps with the (related) fields of molecular biology, bio-engineering, medicine engineering, biomanufacturing, molecular engineering, etc.

Track 10: Environmental Microbiology

Environmental microbiology is that the study of the composition and physiology of microbial communities within the surroundings. . surroundings during this case means the soil, water, air and sediments covering the world and may additionally embrace the animals and plants that inhabit these areas. Environmental microbiology additionally includes the study of microorganisms that exist in artificial environments like bioreactors Structure and activities of microbic communities, microbic interactions and interactions with macroorganisms, Population biology of microorganisms, microbic and surfaces (adhesion and biofilm formation), microbic community biology  and organic process processes, (Global) part cycles and biogeochemical processes, microbic life in extreme  and strange little-explored environments, Biofilm Engineering, pollution microbiology, microbially-influenced world  changes, extremophiles and life in extreme  and strange little-explored habitats, microbes and surfaces, microbic  interactions and interactions with plants, animals and non-living environmental factors, the structure, activities and communal behavior of microbic communities it additionally integrates with biotechnology.

Track 11: Genetic Engineering in Microbiology

Genetic engineering is that the deliberate manipulation of polymer, victimisation techniques within the laboratory to change genes in organisms. even though the organisms being altered aren't microbes, the substances and techniques used are  typically taken from microbes and custom-made to be used in additional advanced organisms. Genetic engineering, also called genetic modification or genetic manipulation, is that the direct manipulation of associate organism's genes victimisation biotechnology.  It’s a group of technologies wont to amendment the genetic makeup of cells, as well as the transfer of genes inside and across species boundaries to provide improved or novel organisms. New DNA is obtained by either uninflected  and repetition the genetic material of interest using recombinant DNA methods or by artificially synthesising the DNA. A construct is usually created and used to insert this DNA into the host organism. Microbial genetics is a subject area within microbiology and genetic engineering. It studies the genetics of very small (micro) organisms; bacteria, archaea, viruses and some protozoa and fungi. This involves the study of the genotype of microbial species and also the expression system in the form of phenotypes.Using microbes, protocols were developed to insert genes into bacterial plasmids, taking advantage of their fast reproduction, to make biofactories for the gene of interest.Such genetically engineered bacteria can produce pharmaceuticals such as insulin, human growth hormone, interferons and blood clotting factors. Microbes synthesize a variety of enzymes for industrial applications, such as fermented foods, laboratory test reagents, dairy products and many more.

Track 12: Industrial Microbiology

Industrial microbiology is a branch of biotechnology that applies microbial sciences to create industrial products in mass quantities. There are multiple ways to manipulate a microorganism in order to increase maximum product yields. Introduction of mutations into an organism many be accomplished by introducing them to mutagens. The manipulation of organisms in order to yield a specific product has many applications to the real world like the production of some antibiotics, vitamins, enzymes, amino acids, solvents, alcohol and daily products. Industrial microbiology can be applied for Medical purposes, Food Industry, Fermentation, Agriculture, Biopesticides, Wastewater management, Metabolic Engineering, Chemical applications, Pharmaceutical: develops novel, small-molecule drugs and medical devices.

Track 13: Infectious Diseases

Infectious diseases are disorders caused by organisms — such as bacteria, viruses, fungior parasites. Many organisms live in and on our bodies. They're normally harmless or even helpful, but under certain conditions, some organisms may cause disease. Some of the Infectious Diseases and the microorganisms are Anthrax, Acinetobacter, Aspergillus, Bird Flu, Botulism, Brucellosis, Bubonic Plague, C. Difficile, Campylobacter, Chagas Disease, Chikungunya, Cholera, Cyanophyta, Cyanobacteria, Cystitis, Dengue Fever, Ebola, Enterovirus, Gastroenteritis, Jaundice, Klebsiella, Lemierre's Syndrome, Leptospirosis, Listeria, Lyme Disease, Malaria, Measles, Middle East Respiratory Syndrome, Molluscum Contagiosum, Necrotizing Fasciitis, Norovirus, P. aeruginosa, Pinworms, Pyelonephritis, Rabies, Salmonella, Severe acute respiratory syndrome, Scabies, Sepsis, Staph/MRSA, Streptococcus, Tetanus, Thrush, Toxoplasmosis, Typhoid Fever, VRE, West Nile, Whooping Cough, Yellow Fever, Zika and some of the infectious diseases can be vaccinated.


Track 14: Medical Microbiology

Medical microbiology, the large subset ofmicrobiology that is applied to medicine, is a branch of medical science concerned with the prevention, diagnosis and treatment of infectious diseases. In addition, this field of science studies various clinical applications of microbes for the improvement of health. There are four kinds of microorganisms that cause infectious disease: bacteria, fungi, parasites and viruses, and one type of infectious protein called prion. Diagnosis of infectious disease is nearly always initiated by consulting the patient's medical history and conducting a physical examination. More detailed identification techniques involve microbial culturemicroscopy, biochemical tests and genotyping. Other less common techniques (such as X-rays, CAT scans, PET scans or NMR) are used to produce images of internal abnormalities resulting from the growth of an infectious agent.

Track 15: Pharmacology of Antibiotics

Antimicrobial medications square measure utilised avoid or treat contaminations created by unhealthful microorganisms. The bod and nature contain various microorganisms, the e overwhelming majority of  that board a condition of change with the human host and do not originate infection. At the purpose once the adjustment is problematic and contamination happens, attributes of the tainting microorganisms and therefore the ampleness of host barrier systems square measure central l purpose within the seriousness of the  unwellness and therefore the individual's capability  to regain. Conditions that enfeeble protection instruments increment the prevalence and seriousness of diseases and impede healing.  Also, utilization of antimicrobial medications might prompt to real diseases created by medication safe microorganisms.

Track 16: Microbial Biofilms

Biofilm is an association of micro-organismsin which microbial cells adhere to each other on a living or non-living surfaces within a self-produced matrix of extracellular polymeric substance. Bacterial biofilm is infectious in nature and can results in nosocomial infections. Aggregate of microorganisms in which cells that are frequently embedded within a self-produced matrix of extracellular polymeric substances (EPSs) adhere to each other and/or to a surface. Biofilm formation is a multi-step process starting with attachment to a surface then formation of micro-colony that leads to the formation of three dimensional structure and finally ending with maturation followed by detachment. During biofilm formation many species of bacteria are able to communicate with one another through specific mechanism called quorum sensing. It is a system of stimulus to co-ordinate different gene expression. Bacterial biofilm is less accessible to antibiotics and human immune system and thus poses a big threat to public health because of its involvement in variety of infectious diseases. The cells within the biofilm produce the EPS components, which are typically a polymeric conglomeration of extracellular polysaccharides, proteins, lipids and DNA. Because they have three-dimensional structure and represent a community lifestyle for microorganisms, they have been metaphorically described as "cities for microbes". Biofilms may form on living or non-living surfaces and can be prevalent in natural, industrial and hospital settings. Microbes form a biofilm in response to various different factors, which may include cellular recognition of specific or non-specific attachment sites on a surface, nutritional cues, or in some cases, by exposure of planktonic cells to sub-inhibitory concentrations of antibiotics. When a cell switches to the biofilm mode of growth, it undergoes a phenotypic shift in behavior in which large suites of genes are differentially regulated.

Track 17: Microbial Biotechnology

Microbial biotechnology is defined as any technological application that uses microbiological systems, microbial organisms, or derivatives thereof, to make or modify products or processes for specific use. Microbes (or microorganisms) are organisms that are too small to be seen by the unaided eye. They include bacteria, fungi, protozoa, microalgae, and viruses. Microbeslive in familiar settings such as soil, water, food, and animal intestines, as well as in more extreme settings such as rocks, glaciers, hot springs, and deep-sea vents. Microbial biotechnology, enabled by genome studies, will lead to breakthroughs such as improved vaccines and better disease-diagnostic tools, improved microbial agents for biological control of plant and animal pests, modifications of plant and animal pathogens for reduced virulence, development of new industrial catalysts and fermentation organisms, and development of new microbial agents for bioremediation of soil and water contaminated by agricultural runoff. The wide variety of microbial habitats reflects an enormous diversity of biochemical and metabolic traits that have arisen by genetic variation and natural selection in microbial populations. For thousands of years, microorganisms have been used to supply products such as bread, beer and wine. Microbial genomics and microbial biotechnology research is critical for advances in food safety, food security, biotechnology, value-added products, human nutrition and functional foods, plant and animal protection, and furthering fundamental research in the agricultural sciences.

Track 18: Infection & Immunity

Infection is the invasion of an organism's body tissues by disease-causing agents, their multiplication, and the reaction of host tissues to the infectious agents and the toxins they produce. Infectious disease, also known as transmissible disease or communicable disease, is illness resulting from an infection. Infections are caused by infectious agents including viruses, viroids, prions, bacteria, nematodes such as parasitic roundworms and pinworms, arthropods such as ticks, mites, fleas, and lice, fungi such as ringworm, and other macroparasites such as tapeworms and other helminths.Specific medications used to treat infections include antibiotics, antivirals, antifungals, antiprotozoals, and antihelminthics. Pathogenic microbes challenge the immune system in many ways. Immunity is the capability of multicellular organisms to resist harmful microorganismsfrom entering it. Immunity involves both specific and nonspecific components. The nonspecific components act as barriers or eliminators of a wide range of pathogens irrespective of their antigenic make-up. Other components of the immune system adapt themselves to each new disease encountered and can generate pathogen-specific immunity. In response to infection, your immune system springs into action. White blood cells, antibodies, and other mechanisms go to work to rid your body of the foreign invader. Indeed, many of the symptoms that make a person suffer during an infection—fever, malaise, headache, rash—result from the activities of the immune system trying to eliminate the infection from the body. This session covers the border area of Infection & Immunity and their outcomes.

Track 19: Public Health & Epidemiology

Public health is "the science and art of preventing disease, prolonging life and promoting human health through organized efforts and informed choices of society, organizations, public and private, communities and individuals". Public health aims to improve the quality of life through prevention and treatment of disease, including mental health. This is done through the surveillance of cases and health indicators, and through the promotion of healthy behaviors. Public health refers to all organized measures to prevent disease, promote health, and prolong life among the population. Its activities aim to provide conditions in which people can be healthy and focus on entire populations, not on individual patients or diseases. Modern public health practice requires multidisciplinary teams of public health workers and professionals. Teams might include epidemiologists, biostatisticians, medical assistants, public health nurses, midwives or medical microbiologists. Depending on the need environmental health officers or public health inspectors, bioethicists, and even veterinarians, Gender experts, Sexual and reproductive health specialists. Epidemiology is the study and analysis of the distribution (who, when, and where) and determinants of health and disease conditions in defined populations. It is the cornerstone of public health, and shapes policy decisions and evidence-based practice by identifying risk factors for disease and targets for preventive healthcare. Epidemiologists help with study design, collection, and statistical analysis of data, amend interpretation and dissemination of results (including peer review and occasional systematic review). Epidemiologyhas helped develop methodology used in clinical research, public health studies, and, to a lesser extent, basic research in the biological sciences.

Track 20: Recombinant DNA Technology

Recombinant DNA technology, joining together of DNA molecules from two different species that are inserted into a host organism to produce new genetic combinations that are of value to science, medicine, agriculture, and industry. Recombinant DNA (rDNA) molecules are DNA molecules formed by laboratory methods of genetic recombination (such as molecular cloning) to bring together genetic material from multiple sources, creating sequences that would not otherwise be found in the genome. Recombinant DNA technologyis used extensively in research laboratories worldwide to explore myriad questions about gene structure, function, expression pattern, regulation, and much more. Molecular cloning is the laboratory process used to create recombinant DNA. It is one of two most widely used methods, along with polymerase chain reaction (PCR), used to direct the replication of any specific DNA sequence chosen by the experimentalist. Recombinant DNA techniques are also a cornerstone of the biotechnology industry. This session covers all the aspects in Recombinant, DNA Technology.

 Track 21: Role of Microbes in Public Health

Microorganisms plays an important role in our day to day life, it has become our part and parcel of our life. Microbiome is an essential component of immunity and a functional entity that influences metabolism and modulates drug interactions. It has been known since long time that microorganisms in the human body play an important role in maintaining human health. Certain microbes can help us in the fight against other microbes. Microbes are a source of antibiotics and vaccines. They are found in human and veterinary medicine, that are used to treat and prevent infectious diseases. The microbes that normally live in association with humans on the various surfaces of the body (called the normal flora), such as Lactobacillus and Bifidobacterium, are known to protect their hosts from infections and otherwise promote nutrition and health. They have both positive and negative effects of health in the animal kingdom. This track covers all the advantages and disadvantages of Microbes.

Track 22: Theoretical and Practical aspects of Microbiology

Theoretical and Practical aspects of Microbiology session cover the research topics like basic microbiology, experimental microbiology and case studies. It also includes mathematical modelling of organisms, Genomic Studies, Recombinant DNA Technology studies, Microbial Strain improvement, identification, isolation, improvement, Genome sequencing of new Microorganisms, Drug analysis in microorganisms, discovering the proteins and enzymes of microorganisms and many more studies. Practical approach is nothing but the implementation of theoretical hypothesis to obtain its expects.

Track 23: Microbiology & Molecular Biology

Microbiology & Molecular Biology is session for their microbial and molecular studies. Microbiology is the study of microorganisms and their activities (whether unicellular, multicellular or acellular). Molecular Biology deals with the basis (structure and function) of all biological interactions between biomolecules (nucleic acids and proteins) in various cell systems. It also includes topics like gene expression and regulation, pathogenicity and virulence, physiology and metabolism, synthesis of macromolecules(proteins, nucleic acids, lipids, polysaccharides, etc), cell biology and subcellular organization, membrane biogenesis and function, traffic and transport, cell-cell communication and signaling pathways, evolution and gene transfer of microorganisms.

Track 24: Vaccines & Antibiotics Production

A vaccine is a biological preparation that provides active acquired immunity to a particular disease. A vaccine typically contains an agent that resembles a disease-causing microorganism and is often made from weakened or killed forms of the microbe, its toxins, or one of its surface proteins. The agent stimulates the body's immune system to recognize the agent as a threat, destroy it, and to further recognize and destroy any of the microorganisms associated with that agent that it may encounter in the future. Vaccines can be prophylactic or therapeutic. Vaccines can be produced in four stages Antigen generation, cultivating or isolating the Antigens, Antigen purification, Adjuvant additions & Vaccine formulation. An antibiotic is a type of antimicrobial drug used in the treatment and prevention of bacterial infections. They may either kill or inhibit the growth of bacteria. A limited number of antibiotics also possess antiprotozoal activity. Antibiotics are not effective against viruses such as the common cold or influenza; drugs which inhibit viruses are termed antiviral drugs or antivirals rather than antibiotics. Antiviral drugs are a class of medication used specifically for treating viral infections rather than bacterial ones. Most antivirals are used for specific viral infections, while a broad-spectrum antiviral is effective against a wide range of viruses. Antibiotics are not the same as vaccines. Some antibiotics act by killing the bacteria while others prevent the bacteria from multiplying, leaving your own immune system to 'mop them up'. Vaccines are used to prevent infection, particularly viral infections. Antibiotics can be produced in four stages like Microbial Culture preparation, Fermentation, Isolation & Purification of antibiotics, Antibiotics refining, Quality Control of Antibiotics. This session covers the researches in Vaccines and Antibiotics.

Track 25: Virology

Virology is the scientific discipline concerned with the study of the biology of viruses and viral diseases, including the distribution, biochemistry, physiology, molecular biology, ecology, evolution and clinical aspects of viruses. Viruses also cause serious diseasesin plants and livestock. Viruses have been implicated in a disease that is ravaging our honeybees, threatening natural pollination cycles and thus much of agriculture.

Track 26: Pathology

Pathology is the study of the essential nature of diseases, especially of the structural and functional changes in body tissues and organs that cause or are caused by diseasedue to deviation from propriety. Pathology precisely refers to the study of the origin, nature, and course of diseases. Pathologydeals with the laboratory examination of samples of body tissue for diagnostic or forensic purposes.

Track 27: Microbial Chemistry

Microbial Chemistry is the study of metabolism inside the microorganisms for its survival and products. Microorganisms has 4 growth stages such as lag phase, Growth phase, Stationary Phase and Death Phase. During the Growth phase microorganisms produce metabolites for its growth and reproduction but in stationary phase they produce metabolites for its survival and other secondary products like enzymes, proteins, peptides which has many benefits, i.e. In Industries these microorganisms are cultivated in larger quantity to get these secondary metabolites or by-products. So Microbial chemistry is the study to know depth of the microorganisms, Microbial Kinetics and their biochemistry. Microbes metabolize the substrate to obtain energy and nutrients, this study also includes their Microbial Proliferation and nurturing of a cellular steady state by up taking and usage of inorganic and organic compounds.

Track 28: Bacteriology & Parasitology

Bacteriology is the branch and specialty of biology that studies the morphology, ecology, genetics and biochemistry of bacteria as well as many other aspects related to them. This subdivision of microbiology involves the identification, classification, and characterization of bacterial species. Because of the similarity of thinking and working with microorganisms other than bacteria, such as protozoa, fungi, and viruses, there has been a tendency for the field of bacteriology to extend as microbiology. The bacteria can be grouped on the basis of physical, chemical, and biologic characteristics. In recent years, medical scientists have concentrated on the study of pathogenic mechanisms and host defenses. Parasitology is the study of parasites, their hosts, and the relationship between them. As a biological discipline, the scope of parasitology is not determined by the organism or environment in question, but by their way of life. This means it forms a synthesis of other disciplines and draws on techniques from fields such as cell biology, bioinformatics, biochemistry, molecular biology, immunology, genetics, evolution and ecology. Parasitology is the scientific discipline concerned with the study of the biology of parasites and parasitic diseases, including the distribution, biochemistry, physiology, molecular biology, ecology, evolution and clinical aspects of parasites, including the host response to these agents. Parasitology is the scientific discipline concerned with the study of the biology of parasites and parasitic diseases, including the distribution, biochemistryphysiologymolecular biology, ecology, evolution and clinical aspects of parasites, including the host response to these agents.

Track 29: Interaction and Side-effects of Antibiotics

Basic reactions connected with anti-microbial incorporate loose bowels, symptom and bloating, loss of desire and feeling debilitated, as indicated by NHS selections.. Antibiotic medications increment skin affectability to each common and simulated light-weight. Anti-infection utilize will disturb the changes of microbes within the body, prompting to canal diseases in girls and transfer on agitated abdomen. Abuse of antibiotics will prompt to microorganism resistance. Additional facet effects embrace Nausea, vomiting, headache, fever and swelling of face too.


Track 30: Clinical Microbiology and Antimicrobials

Clinical Microbiology is a branch of medical science concerned with the prevention, diagnosis and treatment of infectious diseases. Moreover, this field of science is concerned about various clinical applications of microbes for the improvement of health. An antimicrobial is an agent that kills microorganisms or stops their growth. Antimicrobial medicines can be grouped according to the microorganisms they act primarily against. For example, antibiotics are used against bacteria and antifungals are used against fungi. They can also be classified according to their function. Agents that kill microbes are called microbicidal, while those that merely inhibit their growth are called biostatic. The use of antimicrobial medicines to treat infection is known as antimicrobial chemotherapy, while the use of antimicrobial medicines to prevent infection is known as antimicrobial prophylaxis. The main classes of antimicrobial agents are disinfectants ("nonselective antimicrobials" such as bleach), which kill a wide range of microbes on non-living surfaces to prevent the spread of illness, antiseptics (which are applied to living tissue and help reduce infection during surgery), and antibiotics (which destroy microorganisms within the body). The term "antibiotic" originally described only those formulations derived from living organisms but is now also applied to synthetic antimicrobials, such as the sulphonamides, or fluoroquinolones. The term also used to be restricted to antibacterials (and is often used as a synonym for them by medical professionals and in medical literature), but its context has broadened to include all antimicrobials. Antibacterial agents can be further subdivided into bactericidal agents, which kill bacteria, and bacteriostatic agents, which slow down or stall bacterial growth. In response, further advancements in antimicrobial technologies have resulted in solutions that can go beyond simply inhibiting microbial growth. Instead, certain types of porous media have been developed to kill microbes on contact.

Track 31: Soil Microbiology

Soil microbiology is the investigation of creatures in soil, their capacities, and how they influence soil properties. It is trusted that in the vicinity of two and four billion years back, the primary old microscopic organisms and microorganisms came to fruition in Earth's seas. These microbes could settle nitrogen, in time duplicated and accordingly discharged oxygen into the air. This prompted further developed microorganisms. Microorganisms in soil are critical on the grounds that they influence soil structure and fruitfulness. Soil microorganisms can be named microscopic organisms, actinomycetes, parasites, green growth and protozoa. Each of these gatherings has qualities that characterize them and their capacities in soil. Up to 10 billion bacterial cells occupy every gram of soil in and around plant roots, a district known as the rhizosphere. In 2011, a group identified more than 33,000 bacterial and archaeal species on sugar beet roots. The organization of the rhizobiome can change quickly because of changes in the encompassing condition.

Track 32: Clinical Virology and Infectious Diseases

Clinical or therapeutic virology is a branch of drug (all the more especially of clinical pathology) which comprises in confining or potentially in portraying one or a few infections in charge of some human pathologies by different immediate or roundabout systems (cell Cultures, serologies, natural chemistry, sub-atomic science). It additionally comprises in demonstrating the nonattendance of resistance of infections in treatment antiviral by viral genome sequencing to adjust antiviral therapeutics, best case scenario. Contamination is the intrusion of a living being's body tissues by sickness causing specialists, their increase, and the response of host tissues to these living beings and the poisons they produce. Infectious malady, otherwise called transmissible ailment or transferable ailment, is disease coming about because of a contamination. Contaminations are caused by irresistible operators including infections, viroids, prions, microscopic organisms, nematodes, for example, parasitic roundworms and pinworms, arthropods, for example, ticks, bugs, bugs, and lice, growths, for example, ringworm, and different macroparasites, for example, tapeworms and different helminths. Hosts can battle diseases utilizing their safe framework. Mammalian hosts respond to diseases with an inborn reaction, regularly including aggravation, trailed by a versatile response. Particular solutions used to treat contaminations incorporate anti-infection agents, antivirals, antifungals, antiprotozoals, and antihelminthics. Irresistible illnesses brought about 9.2 million passings in 2013 (around 17% of all deaths). The branch of medication that spotlights on contaminations is alluded to as irresistible disease.

Track 33: Microbial Diversity

Too little to be seen never again implies too little to be in any way examined or esteemed. Microbial decent variety envelops the range of inconstancy among a wide range of microorganisms (microscopic organisms, growths, infections and some more) in the characteristic world and as adjusted by human mediation. The assorted variety of a microbial consortium can shift and change with ecological elements (working parameters) like for instance temperature, ammonium fixation and CO2 focus. Diverse sorts of microorganisms can some of the time perform distinctive capacities and some of the time supplement each other. Microscopic organisms are the most assorted and rich gathering of creatures on Earth. Endeavors to portray bacterial decent variety and wealth regularly yield amazing numbers. For instance, there are reports that there is one billion times more individual microscopic organisms on earth than stars in the universe, that the quantity of prokaryotic species surpasses that of every other specie, that prokaryotic cells contain the greater part of all biomass, and that even the most antagonistic natural surroundings are possessed by microorganisms. Prior to the presentation of phylogenetic data via Carl Woese in 1987, microbiologists utilized morphological and physiological properties to separate between bacterial species (see: [ A Tale of Woese). This prompted the depiction of for instance Pseudomonas (from Greek: pseudes: false and monas: unit) which in truth involved no less than five distinct gatherings of microscopic organisms. In any case, the advances of atomic strategies, notwithstanding their confinements and predispositions, have prompted an expanded comprehension of bacterial assorted variety. Today there exist various atomic devices, for instance 16S rRNA clone libraries ,trailed by Temperature - or Denaturation Gradient Gel Electrophoresis (DGGE), Fluorescence In Situ Hybridization (FISH), and Quantitative Dot Blot Hybridization.

Track 34: Biofuels

biofuel is a fuel that is delivered through contemporary organic procedures, for example, agribusiness and anaerobic assimilation, instead of a fuel created by land procedures, for example, those associated with the development of non-renewable energy sources, for example, coal and oil, from ancient natural issue. Biofuels can be gotten specifically from plants, or by implication from farming, business, residential, or potentially mechanical squanders. Inexhaustible biofuels by and large include contemporary carbon obsession, for example, those that happen in plants or microalgae through the procedure of photosynthesis. Other sustainable biofuels are made through the utilization or transformation of biomass (alluding to as of late living beings, regularly alluding to plants or plant-determined materials). This biomass can be changed over to helpful vitality containing substances in three diverse ways: warm transformation, concoction change, and biochemical change. This biomass transformation can bring about fuel in strong, fluid, or gas frame. This new biomass can likewise be utilized specifically for biofuels. Bioethanol is a liquor made by maturation, for the most part from starches created in sugar or starch harvests, for example, corn, sugarcane, or sweet sorghum. Cellulosic biomass, got from non-nourishment sources, for example, trees and grasses, is likewise being created as a feedstock for ethanol generation. Ethanol can be utilized as a fuel for vehicles in its unadulterated shape, however it is normally utilized as a gas added substance to expand octane and enhance vehicle discharges. Bioethanol is broadly utilized as a part of the United States and in Brazil. Current plant configuration does not accommodate changing over the lignin part of plant crude materials to fuel segments by maturation. Biodiesel can be utilized as a fuel for vehicles in its unadulterated frame, however it is normally utilized as a diesel added substance to lessen levels of particulates, carbon monoxide, and hydrocarbons from diesel-controlled vehicles. Biodiesel is created from oils or fats utilizing transesterification and is the most widely recognized biofuel in Europe.

Track 35: Cell, Molecular Biology and Molecular Genetics

Cell science or cytology, is a branch of science that reviews the diverse structures and elements of the cell and concentrates for the most part on the possibility of the cell as the fundamental unit of life. Molecular biology concerns the molecular basis of biological activity between biomolecules in the varioussystems of a cell, including the communications between DNA, RNA, and proteins and their biosynthesis, and the direction of these cooperations. Molecular genetics is the field of biology that studies the structure and function of genes at a molecular level and thus employs methods of both molecular biology and genetics. The study of chromosomes and gene expression of an organism can give insight into heredity, genetic variation, and mutations. This is useful in the study of developmental biology and in understanding and treating genetic diseases.

Track 36: Agricultural Microbiology

Rural microbiology is a branch of microbiology managing plant-related microorganisms and plant and creature infections. It additionally manages the microbiology of soil fruitfulness, for example, microbial debasement of natural issue and soil supplement changes. Done by Alpha B S Conteh of Njala University. Microscopic organisms:- more prevailing gathering of microorganisms in the dirt and equivalent to one portion of the microbial biomass in soil. Populace 100,000 to a few hundred millions for gram of soil - Autochthnous - Zymogenous gatherings. Dominant part are Heterotrophs. (Basic soil microscopic organisms - Arthrobacter, Bacillus, Clostridium, Micrococcus). Actinomycetes - moderate gathering amongst microbes and organisms. Various and generally circulated in soil. Plenitude is by microscopic organisms. 104 - 108/g soil. 70% of soil actinomycetes are Streptomyces. A significant number of them are known to create anti-toxins. Populace increments with profundity of soil. Parasites: More various in surface layers of very much circulated air through and developed soils-prevailing in corrosive soils. Basic genera in soil are Aspergillus, Mucor, Penicillium Trichoderma, Alternaria, Rhizopus. Green growth – found in the majority of the dirts in number reaches from 100 to 10,000 for every g. Protozoa: Unicellular – populace ranges from 10,000 to 100,000 for every g of soil. The greater part of the dirt structures are lashes, amoebae or ciliates. Infer their sustenance by eating up soil microscopic organisms. Plentiful in upper bigger of the dirt. They are directing the natural balance in soil.

Track 37: Veterinary Microbiology

Veterinary Microbiology is worried about microbial (bacterial, parasitic, viral) ailments of tamed vertebrate creatures (domesticated animals, partner creatures, hide bearing creatures, amusement, poultry, yet barring fish) that supply sustenance, other valuable items or camaraderie. Likewise, Microbial sicknesses of wild creatures living in bondage, or as individuals from the non domesticated fauna will likewise be considered if the diseases are of intrigue in light of their interrelation with people (zoonoses) as well as residential creatures. Investigations of antimicrobial resistance are likewise included, given that the outcomes speak to a considerable progress in learning. Writers are unequivocally urged to peruse - preceding accommodation - the Editorials ('Scope or adapt' and 'Extension or adapt II') distributed beforehand in the diary. The Editors maintain whatever authority is needed to propose accommodation to another diary for those papers which they feel would be more fitting for thought by that diary. Unique research papers of high caliber and oddity on parts of control, have reaction, sub-atomic science, pathogenesis, anticipation, and treatment of microbial illnesses of creatures are distributed. Papers managing essentially with immunology, the study of disease transmission, atomic science and antiviral or microbial operators may be considered on the off chance that they show an unmistakable effect on an illness. Papers concentrating exclusively on analytic methods, (for example, another PCR convention or ELISA) won't be distributed - concentrate ought to be on a microorganism and not on a specific strategy. Papers just revealing microbial successions, metagenomics information, transcriptomics information, or proteomics information won't be viewed as unless the outcomes speak to a generous progress in learning identified with microbial malady. Medication trial papers will be considered on the off chance that they have general application or hugeness. Papers on the distinguishing proof of microorganisms will likewise be considered, however point by point ordered investigations don't fall inside the extent of the diary. Case reports won't be distributed, unless they have general application or contain novel perspectives. Papers of topographically restricted intrigue, which rehash what had been set up somewhere else won't be considered. The readership of the diary is worldwide.

Track 38: Systems Biology and Bioinformatics

Frameworks science is the computational and numerical demonstrating of complex natural frameworks. It is a science based interdisciplinary field of concentrate that spotlights on complex communications inside natural frameworks, utilizing an all-encompassing methodology (comprehensive quality rather than the more conventional reductionism) to organic research. Especially from year 2000 onwards, the idea has been utilized broadly in science in an assortment of settings. The Human Genome Project is a case of connected frameworks thinking in science which has prompted new, community oriented methods for taking a shot at issues in the natural field of genetics. One of the exceeding points of frameworks science is to display and find developing properties, properties of cells, tissues and creatures working as a framework whose hypothetical portrayal is just conceivable utilizing strategies of frameworks biology. These commonly include metabolic systems or cell flagging networks. Bioinformatics is an interdisciplinary field that creates strategies and programming apparatuses for understanding organic information. As an interdisciplinary field of science, bioinformatics joins software engineering, insights, arithmetic, and building to dissect and decipher organic information. Bioinformatics has been utilized for in silico investigations of natural questions utilizing numerical and measurable methods. Bioinformatics is both an umbrella term for the assortment of natural investigations that utilization PC programming as a major aspect of their system, and additionally a reference to particular examination "pipelines" that are over and over utilized, especially in the field of genomics. Normal employments of bioinformatics incorporate the recognizable proof of applicant qualities and single nucleotide polymorphisms (SNPs). Frequently, such ID is improved with the point of understanding the hereditary premise of sickness, one of a kind adjustments, alluring properties (esp. in horticultural species), or contrasts between populaces. In a less formal manner, bioinformatics likewise tries to comprehend the authoritative standards inside nucleic corrosive and protein successions, called proteomics.

Track 39: Pharmaceutical Microbiology

Pharmaceutical Microbiology is a connected branch of Microbiology. It includes the investigation of microorganisms related with the produce of pharmaceuticals e.g. limiting the quantity of microorganisms in a procedure situation, barring microorganisms and microbial side-effects like exotoxin and endotoxin from water and other beginning materials, and guaranteeing the completed pharmaceutical item is sterile. Other parts of pharmaceutical microbiology incorporate the innovative work of hostile to infective operators, the utilization of microorganisms to identify mutagenic and cancer-causing movement in forthcoming medications, and the utilization of microorganisms in the fabricate of pharmaceutical items like insulin and human development hormone.

Track 40: Microbial Transformation

Microbial transformation is defined as the biological process of modifying an organic compound into a reversible product. It involves the use of chemically defined enzyme catalyzed reactions in the living cells.

Track 41: Petroleum Microbiology

Oil microbiology is a branch of microbiologythat arrangements with the investigation of microorganisms that can utilize or adjust rough or refined oil based goods. These microorganisms, likewise called hydrocarbonoclastic microorganisms, can debase hydrocarbons and, incorporate a wide dissemination of microscopic organisms, methanogenic archaea, and a few growths. Not all hydrocarbonoclasic microorganismsrely upon hydrocarbons to survive, however rather may utilize oil based goods as option carbon and vitality sources. Enthusiasm for this field is becoming because of the expanding part of bioremediation in oil slick cleanup.

Track 42: Antibiotics in Oncology

Down to earth rules for the conclusion and treatment of unending prostatitis are exhibited. Interminable prostatitis is delegated ceaseless bacterial prostatitis (culture-positive) and perpetual fiery prostatitis (culture-negative). In the event that constant bacterial prostatitis is suspected, in view of important indications or intermittent UTIs, fundamental urological conditions ought to be rejected by the accompanying tests: rectal examination, midstream urine culture and lingering urine. The determination ought to be affirmed by the Meares and Stamey strategy. Antibiotic treatment is prescribed for intense intensifications of unending prostatitis, endless bacterial prostatitis and perpetual provocative prostatitis, if there is clinical, bacteriological or supporting immunological proof of prostate contamination. Unless a patient presents with fever, anti-microbial treatment ought not to be started quickly aside from in instances of intense prostatitis or intense scenes in a patient with ceaseless bacterial prostatitis.


Track 43: Enzyme Technology Advantages & Applications

Enzyme technology broadly involves production, isolation, purification and use of enzymes (in soluble or immobilized form) for the ultimate benefit of humankind. In addition, recombinant DNA technology and protein engineering involved in the production of more efficient and useful enzymes are also a part of enzyme technology. Enzymes are the biocatalysts synthesized by living cells. They are complex protein molecules that bring about chemical reactions concerned with life. It is fortunate that enzymes continue to function (bring out catalysis) when they are separated from the cells i.e. in vitro. Basically, enzymes are non­toxic and biodegradable. They can be produced in large amounts by microorganisms for industrial applications. The biocatalysts (enzymes and cells) are used in multifarious ways in different field. Scientists has grouped the applications like therapeutic uses, analytical uses, manipulative uses, industrial purpose. It has the border range like food production, food processing and preservation, washing powders, textile manufacture, leather industry, paper industry, medical applications, and improvement of environment and in scientific research. Enzymes has produced in larger scale in Industries for various purposes they have converted into proteins, peptides, vitamins, antibodies, vaccines, antibiotics and many more. This session also covers Enzyme and Enzyme Technology applications, advantages and their advancements.


Track 44: Antibiotic Therapy

Key to all great antibiotic (or any other) treatment is conclusion to the principles. At whatever point an anti-infection is endorsed it ought to be for a particular finding whether it is a conditional clinical conclusion or not. An anti-infection ought not to be endorsed for a "urinary tract contamination" it ought to be recommended for cystitis, pyelonephritis or prostatitis for instance. Recommending and antibiotic for a "hack" is incredible. Hack could be a side effect of many conditions with pneumonia or serious COPD intensification being the main particular conditions for which anti-microbial treatment is demonstrated. Every time you mull over solution of an anti-microbial choose a particular determination. Your antibiotic decisions can then be educated by trusted treatment rules, for example, these made in the Vancouver Island Health Authority.


Track 45: Production in Antibiotics

Antibiotics are resulting of optional digestion system which restrains development procedures of different life forms notwithstanding when utilized at low fixations. The antibiotic penicillin was found by Fleming in 1929. Albeit more than 300 anti-microbial mixes have been separated just 123 are as of now delivered by aging. Furthermore, more than 50 anti-microbialsare created as semisynthetic mixes, and three anti-infection agents, chloramphenicol, phosphonomycin and pyrrolnitrin are delivered totally artificially.

Market Analysis

Market Analysis Report


The microbiology market is growing due to increase in prevalence of pathogenic diseases, growth in discovery of mutating and adapting bacterium, and the growing need for speedy microbiological testing methods. In 2013, the microbiology testing market accounted for 5% in the global IVD market and contributed $3556.7 million in 2013 to the IVD market, and is estimated to reach $4737.2 million by 2018, at a CAGR of 6.2% from 2013 to 2019.

Market Research and Global Survey:

The Clinical Microbiology Laboratory has a whole array of diagnostics instruments used for serology, virus culture, and blood culture. This method is used for the detection of influenza viruses as well as a number of other diseases. Clinical microbiology testing is indispensable for identifying bacterial, fungal, and parasitic infections as well as for preventing epidemics. It also helps in the clinical management of patients. The rapid diagnostic testing market is the most sought after in the microbiology industry as it provides results in less than 30 minutes. Thus, a faster turnaround time (TAT) and immediate results are the major factors that will drive the microbiology market.

There has been an increase in the number of infectious diseases across the globe. The factors such as the rise in incidence of HIV and tuberculosis as well as sexually transmitted diseases in developing countries along with the rise in respiratory diseases like influenza in developed countries like Europe and America will drive the microbiology market.

Technological advances, like automated instruments for identification of pathogens in laboratories, have been of immense help to microbiologists. Automation has helped to enhance key laboratory performance attributes like consistency, quality, and a slower total turnaround time. Thus, automation is the new trend in the microbiology field. However, it will take time to pick-up as it requires extensive training of laboratory personnel. These machines are helping medical practitioners receive accurate data and determine the precise course of treatment without spending too much time.

Similarly, factors like the consolidation of diagnostic laboratory chains and the increase in public awareness are driving the growth of the market. The emerging countries are expected to outperform the U.S. and European countries. This is mainly due to the increase in the major hospital chains opening new centers in major cities as well as an increase in the government expenditure.

The worldwide clinical microbiology market size was esteemed at USD 9.1 billion in 2016 and is relied upon to create at a CAGR of 6.7% over the estimate time frame. Continually rising rate of irresistible infections is driving business sector development. Irresistible ailments are basically



Top Microbiology Universities worldwide:  

Top USA Universities

Harvard University | University in New York City | The University of Texas | Molecular Genetics Conferences | University of California | University School of Medicine | University of the Pacific Vaccines Conferences | The University of Washington | Immuno Biology Conferences | Infectious Diseases Conferences | Emory University | Bacteriology Conferences | The University of Southern California | Clinical Microbiology Conference | The Boston University | Pathogenesis Conferences | Case Western Reserve University | University in Vienna  | Autoimmune diseases Conferences | Health Sciences University | Industrial Microbiology Conferences | Columbia University | Virology Conferences | University in Los Angeles | The University of Alabama | Retroviral Diseases Conferences | Saint Louis University | The University of Colorado | The Ohio State University | Immuno Biology Conferences | Nova South-eastern University | Fungal Physiology Conferences | The University of North Carolina | Pathology Conferences | Bacteriology Conferences | Cornell University | Vaccines Conferences | Stanford University | University of Iowa | Texas Tech University System | University in Sacramento | Microbiology Conferences |  The University of Nebraska | The University of Florida | University of Minnesota | Immuno Biology Conferences | Georgetown University | Pathology Conferences | Brown University | Pathogenesis Conferences | The Rowan University | Clinical Microbiology Conferences | East Carolina University | Retroviral Diseases Conferences | Pennsylvania University | Infectious Diseases Conferences | Harvard University | Virology Conferences | Microbial Genetics Conferences | Autoimmune diseases Conferences | Stanford University | Food Microbiology Conferences | Massachusetts Institute of Technology | Applied Microbiology Conferences | Euroscicon | University of California Berkeley | Euroscicon Conferences | University of Michigan | Autoimmune diseases Conferences |  Microbiology Conferences | Fungal Physiology Conferences | Euroscicon Conferences | University of Washington | Mycology Conferences | Columbia University New York | Food Microbiology Conferences | University of California Los Angeles UCLA | University of Pennsylvania | Immuno Biology Conferences | Clinical Microbiology Conferences | Yale University | Retroviral Diseases Conferences | Johns Hopkins University | University of Wisconsin Madison | Vaccines Conferences | Food Microbiology Conferences | University of California San Diego | Pathogenesis Conferences | Applied Microbiology Conferences | University of California Berkeley  | Applied Microbiology Conferences | Clinical Microbiology Conferences | Microbiology Conferences | Microbiology Conferences 2019 | Microbiology Conferences USA 2019 | Euroscicon Conferences | California Institute of Technology  | Mycology Conferences | Johns Hopkins University | Bacteriology Conferences | Food Microbiology Conferences | University of California San Francisco Autoimmune diseases Conferences | University of Florida | Fungal Physiology Conferences | Purdue University | University of Maryland | Vaccines Conferences | New York University  | Infectious Diseases Conferences | University of Utah | Microbiology Conferences | Euroscicon Conferences | Molecular Genetics Conferences | University of Kansas  | Euroscicon Conferences | University of Rochester |  Colorado State University | Boston University | Florida State University  | Pathology Conferences | Wesleyan University | Miami University | Albany Medical College | The University of Pittsburgh | Euroscicon Conferences

Top Europe Universities:

University of Oxford | Pathology Conferences | University of Cambridge | Clinical Microbiology Conferences | University College London | Euroscicon | University of Edinburgh | Imperial College London | University of Manchester | Retroviral Diseases Conferences | Catholic University of Leuven | Mycology Conferences | University of Amsterdam | King's College London | University of Copenhagen | Immuno Biology Conferences | University of Glasgow | Virology Conferences | Infectious Diseases Conferences | University of Leeds | Ghent University | University of Groningen |  University of Helsinki | Bristol University | University College London | Applied Microbiology Conferences | University of Bristol | University of Silesia | Wroclaw Medical University | Euroscicon Conferences | Bogomolets National Medical University | University of Zagreb |  Microbiology Conferences | University of Cambridge | University of Sussex | University of Edinburgh | Kings College London | University of Sheffield | Vaccines Conferences | Eberhard Karls University, Tubingen | Pathogenesis Conferences | University of Padua | Fungal Physiology Conferences | University of Wurzburg | Euroscicon Conferences | University Paris-Sud  | University of Vienna | Molecular Genetics Conferences  | University of Bristol | Immuno Biology Conferences | Free University of Brussels | Microbial Genetics Conferences | University of Milan | Bacteriology Conferences | Clinical Microbiology Conferences | University of Amsterdam | University of Nottingham | Infectious Diseases Conferences | University of Hamburg | Retroviral Diseases Conferences | University of Oslo | Euroscicon Conferences | University of Leeds | Industrial Microbiology Conferences | University of Birmingham | Mycology Conferences | University of Southampton | Autoimmune diseases Conferences | University of Bern | University of Cologne | Medical University of Vienna | Food Microbiology Conferences | University of Münster | Molecular Genetics Conferences | University of Lisbon | University College Dublin | Euroscicon | University of Aberdeen | University of Liverpool | Trinity College Dublin | Delft University of Technology | Virology Conferences | Bielefeld University | University of Leipzig | Cardiff University | University of York |  University of Regensburg | Vaccines Conferences | Pathogenesis Conferences | University of Warsaw | University of Freiburg | Stockholm University | University of Sheffield | Food Microbiology Conferences | Eberhard Karls University | Euroscicon Conferences |  Tübingen University of Amsterdam | Pathology Conferences | University of Padua | Microbiology Conferences | University of Würzburg | Immuno Biology Conferences | Université Paris-Sud  | Bacteriology Conferences | University of ViennaInfectious Diseases Conferences | University of Bristol | University of Milan | Fungal Physiology Conferences | University of Nottingham | Applied Microbiology Conferences | University of Hamburg | Mycology Conferences | University of Lisbon | Food Microbiology Conferences | Free University of Brussels | Clinical Microbiology Conferences | University of Oslo | University of Southampton | Euroscicon Conferences | University of Leeds | University of Birmingham | Vaccines Conferences | University of Bern | Pathology Conference | University of Cologne |  Microbiology Conferences

Top Asia - Pasific Universities

Tsinghua University | Peking University | National University of Singapore | Euroscicon Conferences | Euroscicon | University of Melbourne | University of New South Wales | University of Queensland | Australian National University | Virology Conferences | University of Sydney | Kyoto University | Zhejiang University | National Taiwan University | Shanghai Jiao Tong University | University of Hong Kong | Euroscicon Conferences | Fudan University  | Microbiology Conferences | Monash University | Clinical Microbiology Conferences | Fungal Physiology Conferences | University of Adelaide | Vaccines Conferences | University of Western Australia | University of New South Wales | Retroviral Diseases Conferences | Chinese University of Hong Kong | University of Science and Technology of China | Microbiology Conferences | National University of Singapore | Pathology Conferences | Peking University | University of Melbourne | Tsinghua University | Microbiology Conferences | Bacteriology Conferences | University of Auckland | Microbiology Conferences | Fudan University | Infectious Diseases Conferences | Molecular Genetics Conferences | University of Technology Sydney | Industrial Microbiology Conferences | Nanyang Technological University | Autoimmune diseases Conferences | Euroscicon Conferences | University of Hong Kong | Fungal Physiology Conferences | Tohoku University | Pathogenesis Conferences | Charles Darwin University | Food Microbiology Conferences | University of Wollongong | Immuno Biology Conferences | Australian National University | Mycology Conferences | University of Queensland | Pohang University of Science and Technology | Food Microbiology Conferences | Seoul National University |  Microbiology Conferences | National Chiao Tung University | University of Canterbury | Victoria University | Toyota Technological Institute | Pathology Conferences | Hong Kong Polytechnic University | Zhejiang University | Mycology Conferences | Korea University | University of Otago | National Taiwan University | Nanjing University | Bacteriology Conferences | Osaka University | National Tsing Hua University | Retroviral Diseases ConferencesUniversity of Tasmania | Food Microbiology Conferences | Deakin University | Microbial Genetics Conferences | Nagoya University.

Top Middle East Universities

Abu Dhabi University | Fungal Physiology Conferences | Al Ain University of Science & Technology | Molecular Genetics Conferences | Al Hosn University | Khalifa University of Science Technology & Research |  Microbiology Conferences | New York University | Mycology Conferences | Abu Dhabi Paris Sorbonne University | Abu Dhabi  United Arab Emirates University | Infectious Diseases Conferences | Zayed University | Applied Microbiology Conferences | Mohammed V  University | Autoimmune diseases Conferences | United nations University |  Microbiology Conferences | Ajman City University College of Ajman | Microbial Genetics Conferences | Gulf Medical University | Pathogenesis Conferences | University College of Mother and Family Science | Al Falah University | Pathology Conferences | American University in Dubai | Molecular Genetics Conferences | Vaccines Conferences | American University In The Emirates | Amity University Dubai | British University in Dubai | Canadian University In Dubai City | University of London | Curtin University | Mycology Conferences | European University College | Hamdan Bin Mohammed Smart University | Applied Microbiology Conferences | Heriot-Watt University | Virology Conferences | Industrial Microbiology Conferences | Islamic Azad University | Euroscicon Conferences | Jumeira University | Clinical Microbiology Conferences | Manipal University | Microbiology Conferences | Michigan State University in Dubai | Middlesex University Dubai | Retroviral Diseases Conferences | Bacteriology Conferences | MODUL University Dubai | Immuno Biology Conferences | Mohammed Bin Rashid University Of Medicine And Health Sciences | Moscow University for Industry and Finance (Synergy) | Murdoch University Dubai | Pathogenesis Conferences | Saint Joseph University | Saint-Petersburg State Economic University | Fungal Physiology Conferences | The University of Manchester Worldwide | Pathology Conferences | University Of Balamand in Dubai | University of Birmingham Dubai | University of Bradford | University of Dubai | University of Exeter | University Of Jazeera | Vaccines Conferences | University of Modern Sciences Food Microbiology Conferences | University of South Wales Dubai |  University of Wollongong in Dubai | Zayed University | University Of Fujairah |  American University of Ras Al Khaimah | Bath Spa University Ras Al Khaimah Mycology Conferences | Bolton University of Ras Al Khaimah | Ras Al Khaimah Medical & Health Sciences University | Microbiology Conferences | American University of Sharjah | Khalifa University  Sharjah branch | Immuno Biology Conferences | Skyline University College Sharjah | University of Sharjah | Microbial Genetics Conferences | Bacteriology Conferences | Al Ghurair University | Euroscicon Conferences

Microbiology and Public Health Societies & Associations in USA:

The American Association of Immunologists | The American Society for Clinical Investigation | International union of microbiological societies | Infectious Diseases Society of America | Clinical Microbiology Conferences | National Foundation for Infectious Diseases | Microbiology Conferences | American Board of Preventive Medicine (ABPM) Infectious Diseases Conferences | American Society of Preventive Oncology | American Public Health Association | Vaccines Conferences | Microbial Genetics Conferences | International Genetic Epidemiology Society | International Society for Environmental Epidemiology (ISEE) | Retroviral Diseases Conferences | International Society for Pharmacoepidemiology | Bacteriology Conferences | Pathogenesis Conferences | Molecular Genetics Conferences | International Clinical Epidemiology Network (INCLEN) | Virology Conferences | Industrial Microbiology Conferences | Canadian Society for Epidemiology and Biostatistics | Autoimmune diseases Conferences | International Union of Microbiological Societies (IUMS) | International Society for Antiviral Research (ISAR) | Fungal Physiology Conferences | International Society for Microbial Ecology (ISME) | Pathology Conferences | International Society for NeuroVirology (ISNV) | Clinical Microbiology Conferences | International Society of Chemotherapy Infection and Cancer (ISC) | Food Microbiology Conferences | International Society for NeuroVirology (ISNV) | Mycology Conferences | International Society of Chemotherapy Infection and Cancer (ISC) | Euroscicon Conferences | Federation of American societies for experimental biology |  American society for microbiology | Society for industrial Microbiology and biotechnology | Society for Applied Microbiology | Society for Industrial microbiology | Immuno Biology Conferences | International Union of microbiological societies | Southern California Branch of the American Society for Microbiology |  Microbiology Conferences | Southeastern association for clinical microbiology | Association of medical school microbiology and immunology chairs | Society for the Advancement of Biology Education Research

Microbiology and Public Health Societies & Associations in Europe: 

Societe Francaise de Microbiologie (French Society for Microbiology SFM) | Societe Mycologique de France (French Society for Mycology) | Société de Pathologie Infectieuse de Langue Française (SPILF) | German Society for Hygiene and Microbiology (DGHM) | Deutsche Vereinigung zur Bekämpfung der Viruskrankheiten e. V. (DVV) | Clinical Microbiology Conferences | Public Health Conferences | Microbiology Conferences | Public Health Conferences | Italian Society of Agro-Food and Microbial Biotechnologies | Autoimmune diseases Conferences | Federation of European Microbiological Societies | Microbiology Conferences | European Molecular Biology Organization | Microbiology Conferences | Society for Applied Microbiology | Swiss Society for Infectious Disease |  European Molecular Biology Organization | Molecular Genetics Conferences | International Center for Genetic Engineering and Biotechnology |  Virology Conferences | Microbiology Conferences | Federation of European Microbiological Societies | Microbiology Conferences | European Society for Clinical Virology | International Union of Microbiological Societies | Vaccines Conferences | Mikrobiologie und Präventivmedizin (ÖGHMP) | Österreichische Gesellschaft für Infektionskrankheiten | Belgian Society for Microbiology | Belgian Society of Infectious Diseases and Clinical Microbiology (SBIMC-BVIKM) | Retroviral Diseases Conferences | Danmarks Mikrobiologiske Selskab (Danish Microbiological Society) | Public Health Conferences | Danish Infectious Disease Society | Molecular Genetics Conferences | Danish Society for Clinical Microbiology | Pathology Conferences | Societas Biochemica | Biophysica et Microbiologica Fenniae | Finnish Society for the Study of Infectious Diseases | Vereinigung fur Allgemeine und Angewandte Mikrobiologie (VAAM) | Bacteriology Conferences | Gesellschaft fur Virologie | Hellenic Society for Microbiology | Pathogenesis Conferences | Hellenic Society for Infectious Diseases | Immuno Biology Conferences | Public Health Conferences | Icelandic Infectious Diseases Society | Fungal Physiology Conferences | Irish Society of Clinical Microbiology | Retroviral Diseases Conferences | Food Microbiology Conferences | British Infection Association | British Society for Antimicrobial Chemotherapy (BSAC) |  Microbiology Conferences | Microbiology Conferences | European Federation of Biotechnology | Molecular Genetics Conferences | Microbiology Conferences | European Molecular Biology Organization | Microbiology Conferences | Mycology Conferences | International Center for Genetic Engineering and Biotechnology | Infectious Diseases Conferences | Interregional Association for Clinical Microbiology and Antimicrobial Chemotherapy | Federation of European Microbiological Societies (FEMS) | Microbiology Conferences | Autoimmune diseases Conferences | European Society of Clinical Microbiology and Infectious Diseases (ESCMID) | Industrial Microbiology Conferences | European Molecular Biology Organization (EMBO) Pathogenesis Conferences Molecular Genetics Conferences | European Mycological Association | European Society for Clinical Virology (ESCV) | European Meningococcal Disease Society (EMGM) | Microbial Genetics Conferences | Paul-Ehrlich-Gesellschaft für Chemotherapie (PEG) | Clinical Microbiology Conferences | Österreichische Gesellschaft für Hygiene | Microbiology Conferences     

Microbiology and Public Health Societies & Associations in Asia-Pacific:

Asia Pacific Society for Marine Biotechnology | Committee of Asia Pacific Electron Microscopy Societies | Federation of Asia Pacific Microbiological Societies | International Union of Microbiological Societies; Microscopy Society (Singapore) | Singapore National Academy of Sciences | Japanese Society of Microbial Ecology | Israel Society for Microbiology (ISM) | Società Italiana di Microbiologia (Italian Society for Microbiology, SIM) | Società Italiana di Virologia (Italian Society of Virology, SIV)Pan-Pacific Surgical Association Congress | Microbiology Conferences | Federation of Asia-Pacific Microbiology Societies | Malaysian Society of Infectious Diseases | Singapore Society for Microbiology and Biotechnology | Malaysian Society for Microbiology | Clinical Microbiology Conferences | Asia Pacific Society of Clinical Microbiology and Infection | Applied Microbiology Conferences | Autoimmune diseases Conferences | The Philippine Society for Microbiology | Euroscicon Conferences | Italian Association for Clinical Microbiology | Virology Conferences | Nederlandse Vereining voor Microbiologie (Netherlands Society for Microbiology, NVvM) | Immuno Biology Conferences | Netherlands Mycological Society | Norsk Forening for Mikrobiologi (Norwegian Society for Microbiology) | Pathogenesis Conferences | Norwegian Society for Medical Microbiology | Molecular Genetics Conferences | Microbial Genetics Conferences | Vaccines Conferences | Norwegian Society for Virology | Infectious Diseases Conferences | Norwegian Society of Infectious Diseases | Retroviral Diseases Conferences | Fungal Physiology Conferences | Sociedade Portuguesa de Microbiologia (Portuguese Society for Microbiology SPM) | Euroscicon Conferences | Asociación Española de Micología (AEM) | Sociedad Española de Microbiología (Spanish Society for Microbiology SEM) | Mycology Conferences | Scandinavian Society of Antimicrobial Chemotherapy (SSAC) | Euroscicon Conferences | Svenska föreningen för mikrobiologi (Swedish Society for Microbiology (SFM) | Swedish Society of Infectious Diseases | Swedish Society of Medical Microbiology | Bacteriology Conferences | Swiss Society for Infectious Disease | Virology Conferences | Society for General Microbiology (SGM) | Society for Applied Microbiology (SfAM) | The Hospital Infection Society | Scottish Microbiology Society | Welsh Microbiological Association (WMA)

Microbiology and Public Health Journals:

Annals of Internal Medicine | Antimicrobial Agents and Chemotherapy | Antimicrobics and Infectious Diseases Newsletter | Apoptosis |  Applied and Environmental Microbiology | Applied Biochemistry and Microbiology | Archives of Virology | BBA - Biochimica et Biophysica Acta | BBA - Molecular Basis of Disease - Online Version | Fungal Physiology Conferences | British Medical Journal – BMJ | Public Health Conferences | Canadian Journal of Microbiology | Cell |  Clinical Care Options for HIV | Clinical Microbiology Newsletter | Clinical Microbiology Reviews | Current Biology | Current Microbiology |  Microbiology Conferences | Diagnostic Microbiology and Infectious Disease | Industrial Microbiology Conferences | Enzyme and Microbial Technology | Microbial Genetics Conference | FEMS Immunology and Medical Microbiology | FEMS Microbiology | International Journal of Antimicrobial Agents | International Journal of HIV & AIDS | Journal of AIDS/HIV | Journal of Antimicrobial Chemotherapy | Autoimmune diseases Conferences | Journal of Bacteriology | Molecular Genetics Conferences | Journal of Clinical Virology | Immuno Biology Conferences | Journal of General Virology | Journal of Medical Virology | Clinical Microbiology Conferences | The LancetMicrobiology | Nature | New England Journal of Medicine | Acta Virologica | Acta Tropica | Retroviral Diseases Conferences | Virology Conferences | AIDS Book Review Journal | AIDS Patient Care and STDs | AIDS Research and Human Retroviruses | Industrial Microbiology Conferences | American Journal of Public Health | Vaccines Conferences | American Society for Microbiology News | Pathology Conferences | Trials in Vaccinology | Pathogenesis Conferences | Epidemiologia e Serviços de Saúde | Galen Medical Journal | Revista de Salud Ambiental | Journal of Analytical Research in Clinical Medicine | Public Health Conferences | Frontiers in Public Health | Microbial Genetics Conferences | Journal of Medical Bacteriology | Infectious Diseases Conferences | Emerging Microbes and Infections | ISRN Epidemiology | Molecular Genetics Conferences | JRSM Cardiovascular Disease | Bacteriology Conferences | Journal of Applied Medical Sciences | Revista Peruana de Epidemiologia | Perspectives In Medical Research | Advances in Epidemiology | Nepal Journal of Epidemiology | Emerging Themes in Epidemiology | Asian Journal of Epidemiology Infection | Ecology & Epidemiology

Microbiology Job Opportunities:

Microbiology Quality Manager Vivid Resourcing London | Microbial Genetics Conferences | Microbiology - Associate Director Pharmaceutical Industry London | Euroscicon Conferences | Microbiology Technician for Clinical Professionals UK | Microbiology Conferences | Plant Microbiologist Cork, Ireland | Senior Microbiologist (Team Leader) ABERDEEN - United Kingdom | Industrial Microbiology Conferences | QC analyst – Microbiology  Liverpool, England | Autoimmune diseases Conferences | Equipment Management Associate - Harrogate, UK | Senior Biomedical Scientist (Microbiology) England | Euroscicon | Microbiology Laboratory Technician South East | Infectious Diseases Conferences | Pathology Conferences | Technical Manger - Microbiology- Water Testing - SE London | Virology Conferences | Food Microbiology Conferences | Microbiologist/Biochemist Plate Coating Scientist (Microtiter) | Bacteriology Conferences | Industrial Microbiology Conferences | Microbiologist - Environmental Monitoring | Public Health Conferences | Euroscicon Conferences |  PhD / Senior Microbiologist for Science Solutions Recruitment Ltd | Microbiology Conferences | Microbiology Research Scientist – Microbiology Dyson | Euroscicon | Research Microbiologist Lonza | Molecular Genetics Conferences | Pathogenesis Conferences | Food Safety Microbiological Specialist Britvic Soft Drinks Ltd | Microbial Genetics Conferences | Johnson & Johnson Family of Companies | Euroscicon Conferences | Applied Microbiology Conferences | Clinical Microbiology Conferences | Microbiology Conferences |  Microbiology Conferences 2019 | Microbiology Conferences  2019 | Postdoctoral Research Associate in Microbial Fermentation |  University of Reading , PhD Studentship: Antimicrobials & Antimicrobial Resistance University of Nottingham Industrial Microbiology Conferences Pathogenesis Conferences | Senior scientists, antibody discovery and protein engineering | Immuno Biology Conferences | Microbiologist - Environmental Monitoring | Clinical Microbiology Conferences | Microbiology Technical Specialist - Home Based  | Virology Conferences | Microbiology Lab Manager for Chain Biotech | Microbial Genetics Conferences | Senior Microbiologist in Dun Laoghaire |  QC Micro Analyst Scotland, UK | Euroscicon Conferences | Research Scientist - Microbiologist Supervisor New Brunswick, NJ, USA |  Sr Microbiologist Danvers, MA United States | QC/QA Microbiologist  cheshire, ManchesterNorth West England | Microbiologist Matchtech  East Riding of Yorkshire, England | Microbiology Conferences

Microbiology Companies in Europe:

QPS | Biocrates | ThioMatrix | ViraTherapeutics | PolymunScientific | CromaPharma | medPhoton | Sandoz | AFFiRiS | AOPOrphan Diseases | Apeiron Biologics | Aposcience | Arsanis Biosciences | Biomay | EverCyte | EXPUTEC | fstar | Haplogen | Hookipa Biotech | Lexogen | Marinomed Biotech | Nabriva Therapeutics | Norgine | NUVONIS | Octapharma | OncoQr | Pfizer |sTARget Therapeutics | Savira Pharmaceuticals | TAmiRNA | Teleflex Medical | ThemisBioscience | Valneva | Vela Laboratories | Vienna Lab Diagnostics | TUBEPharmaceuticals | Pohl-Boskamp | AdhesysMedical | Aix Scientifics | GrunenthalPaion | PharmedArtis | Litos | Phyton BiotechBTG plc | Integer | BioTek Instruments | Fresenius Kabi | Aspen Pharmacare | Stada | Teleflex Medical | m2p-labs | Oryx Translational Medicine | ANTITOXIN | Immundiagnostik | Bayer | 3BPharmaceuticalsAenova | Allied ClinicalManagement | Alrise Biosystems |    Berlin-Chemie | Biogenesis |Biotronik | Cloister | CPL Sachse | Epigenomics | Eternygen | Ibt Bebig | JPTPeptides Technologies | KCR | Mologen | Noxxon Pharma | OMEICOS | Penumbra | PharmaLex | ProBioGen | Provitro | Roche | Scienion | Shield Therapeutics | SilenceTherapeutics | Sprim | PlasmidFactoryXell | Sirtex Medical | Aenova | AYOXXA | Cato Research | Cevec Pharmaceuticals | EastHORN Clinical Services | Lonza | Ncardia | Taconic Biosciences | UBC | TAD Pharma | Vibalogics | Merck KGaA | IDT Biologika | Innocoll | Affectis Pharmaceuticals | CellActPharma | Protagen | Scienion | Lumenis | Menarini | nOttobock | MicroVentionOrthogen | Seegene | amcure | Charles River Laboratories | Siemens Medical Solutions | West Pharma | Evonik Industries | Abbott | Aeterna Zentaris | Bonesupport | CatoResearch | CureVac | Ergomed | Fosun Pharma | Navitas Life Sciences | Navitas Life Sciences | PharmaLex | Sanofi | TeraRecon | ZinsserAnalytic | Immunodiagnostic SystemsCellGenix | ChemCon | Cytena | Engelbrecht Biotech Consulting | GE Healthcare | Pfizer | Rapid Micro Biosystems | PierisPharmaceuticals | PharmaLex | Vectura | Ventaleon  | Miltenyi Biotec | MoBiTec | Synaptic Systems | Juno Therapeutics | NextPharma | Neovii Pharmaceuticals | RocheBioStorage Technologies | NavigoProteins | Probiodrug | AltonaDiagnostics | BSN MedicalGeneQuineBiotherapeutics | INDIVUMED | ProvecsMedical | Richter-Helm BioLogics | TopasTherapeutics | Upcyte Technologies | AngioDynamics | Siegfried | HeartWare | Sapidyne | Affimed | AGC Biologics | ApogenixAscendis Pharma | Celonic | GlaxoSmithKlineGlycotope Biotechnology | Lipid Therapeutics | Molecular Health | Novaliq | PROGEN | PromoCell | Sciomics | uniQure | Adrenomed | sphingotec  | Acris Antibodies | IlluminOssMedical | Qiagen | AOP Orphan Diseases | Pohl-Boskamp | Curetis | DiaSys DiagnosticSystems | Pfizer | Lyocontract | InflaRx | Oncolead | Pfizer | PharmaLex | TeleflexMedical | Ferring Pharmaceuticals | Proteo Biotech | Charles River Laboratories | Axolabs | Heidelberg Pharma | TitanSpine | Artes Biotechnology | RentschlerBiopharma | Biofrontera | AnalyticonBiotechnologies | Santhera Pharmaceuticals | Phenex Pharmaceuticals | AbbVie | EKFDiagnostics | HUMAN Diagnostics | BioNTech | Orgentec Diagnostics | A2M Pharma | Horizon Pharmaceuticals | MedGenesis Therapeutix | PharmaLex | Roche | Vaximm | Avergen | Bavarian Nordic | Coriolis Pharma | Evotec | Exosome Diagnostics | LeukocareBiotechnology | Lindis Biotech | Origenis | ProJect Pharmaceutics | Sirion Biotechnology | Formycon | Acino | Siegfried | ImmaticsBiotechnologies | Sequana Medical |apceth | Biontex | Breath Therapeutics |Certara | DaiichiSankyo | Definiens | Implen | IsarnaTherapeutics | Juno Therapeutics | Morphochem  | PharmaLex | Priaxon | Santen | Wacker | Aenova | Nemera | MAB Discovery | Thermo Fisher | NAMSA | Cardiac DimensionsTheragenesis | Roxall | apceth | Roche |Stada | Sekisui Diagnostics | Bicoll | BiomaxInformatics | CRELUX | Emergent BioSolutionsEthris | MorphoSys | Proteros Biostructures | Medigene | 4SC | ChromoTek | siTools BiotechFreeline Therapeutics  | CordenPharma|Preclinics | Riboxx Pharmaceuticals | AptarPharma | St. Jude Medical | Vetter | Aenova | Allergopharma | Cellendes | NMI TTPharmaservices | Centogene | ElexoPharm | Toxikon | Catalent | Octapharma | BiosearchTechnologies | Sigma-Aldrich | Charles RiverLaboratories | OD-OS | CureVac | ImmaticsBiotechnologies | Immatics Biotechnologies | CTI Clinical TrialsEAG Laboratories | Ratiopharm | Baxter | Aptar Pharma | EpimAbBiotherapeutics | Recipharm | Photonamic | Allecra Therapeutics | Klocke Group | AeskuDiagnostics | AbbVie | HUMAN Diagnostics


Media Partners/Collaborator

A huge thanks to all our amazing partners. We couldn’t have a conference without you!


A huge thanks to all our amazing partners. We couldn’t have a conference without you!

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EuroSciCon Events are produced by Euroscicon Ltd

EuroSciCon, founded in 2001 is a UK based independent life science Events Company with predominantly business and academic client base. The key strategic objective of EuroSciCon is to communicate science and medical research between academia, clinical practice and the pharmaceutical industry. Most of its events are in Europe and London or live streamed. EuroSciCon expanded its operations to international in association with Meetings International, Singapore. All major meetings of EuroSciCon and Meetings International will issue Continued Professional Education (CPD), Continued Education (CE), Continued Medical Education (CME) Credits.

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