Online / Physical Event

13th Edition of International Conference on

Euro microbiology & Novel Corona-virus Diseases

Theme: Novel Corona-virus Diseases (COVID-19) in Worldwide within the aspect of Euro Microbiology

Event Date & Time

Event Location

London, UK

Program Abstract Registration Awards 2020

18 years of lifescience communication

Performers / Professionals From Around The Globe

Tracks & Key Topics

Euro Microbiology & Novel Corona-virus 2021

ABOUT CONFERENCE

EuroSciCon cordially welcomes you to be a part of 13th Edition of International Conference on Euro microbiology & Novel Corona-virus Diseases during April 14-15, 2021 in London, UK, which includes prompt keynote presentations, Oral talks, Poster presentations, Exhibitions, Workshops and Symposiums.

Objectives:

This event offers an excellent opportunity to be familiar with existing practices in microbial contamination control, on-going development of microbiological methods for quality and process control, and the regulatory requirements in the field of microbiology & Novel Corona-virus Diseases. The eminent speakers attending this conference will help the participants gain insights in various aspects of microbiology and this platform facilitates discussions on specific issues with the speakers and with the other participants. The key note sessions of interdisciplinary nature will definitely expand the understanding of the current developments in microbiology.

Scope and Importance:

Euro microbiology & novel corona-virus 2021 provides an excellent opportunity to share views, exchange knowledge and establish research collaborations & networking.

Theme: The main theme of this conference is Novel Corona-virus Diseases (COVID-19) in Worldwide within the aspect of Euro Microbiology

The participants of Euro microbiology & novel corona-virus 2021 conference are drawn from the varied disciplines, and are provided with the experience attending informative, innovative and educative workshops and symposiums. Euro microbiology & novel corona-virus 2021 is an extraordinary event designed for Microbiologists and International medical health professionals to facilitate the dissemination and application of research findings related to Microbiology. The conference invites participants from all leading universities, research institutions and diagnostic companies to share their research experiences on all aspects of this rapidly expanding field and thereby, providing a showcase of the latest techniques.

Who should attend??

Diagnostic Professionals, Training Institutes, Manufacturing Medical Devices Companies, Business Entrepreneurs, Medical Colleges, Researchers, Academicians, Physicians, Post Docs, Students, Pharmacy Industries, Academic scientists, Industry professionals, Diagnostic laboratory professionals. The Euro microbiology & novel corona-virus 2021 Congress is an exclusive event consisting of world-class keynote addresses and presentations designed specifically for senior level attendees from research & academic institutions, clinical research institutions and hospital laboratories as well as major pharmaceutical and biotech companies based mainly in Europe but also worldwide. Delegates typically include Professors, Directors, Heads and Managers, academicians, Academic scientists, Industry professionals, Diagnostic laboratory professionals, Postgraduate students, Postdoctoral fellows, and Trainees from the following disciplines:

  • Infection Diseases
  • Haematology
  • Microbiology
  • Critical Care Medicine
  • General Practice
  • Epidemiology
  • Public Health Research
  • Infection Control

Why to attend??

 The conference of the professionals in the field of Microbiology sheds light upon the recent advances; this assemblage of world renowned speakers, the most recent techniques, and the important updates in the field are hallmarks of this conference. This dedicated forum serves the exchange, dissemination, and application of information about microbiology.

Some other benefits that include attending the conference are:

Access to some of the most respected and renowned experts in the field

 Free access to the exhibition running alongside the conference

Enhance your career prospects from the educational content of the conference

 Learn from the gurus who lead the training workshops

 Earn CME points

Target Audience:

 This conference is of interest to professionals in microbiology from:

  • Pharmaceutical and biopharmaceutical companies
  • Academic Research Institutions
  • Government agencies
  • Contract service laboratories who are involved in: Contamination control, Monitoring, Validation, Quality affairs, Regulatory affairs, Research and development
  • Microbiologists; biotech researchers; researchers in cell/molecular biology, biophysics, physiology, genetics, pharmacology, biochemistry and agriculture.

 CPD Accredited:

EuroSciCon conferences having CPD Credits Accredited by the CPD Standards Office, beneficial for the development and advancement of professional career.

This conference offers exposure to broad array of keynote presentations; panel discussions, workshops, and poster sessions that help you explore the area of your interest in the field of microbiology and expand the scope of your knowledge.  Sixteen tracks are devoted to broad subject areas such as Microbial genetics, Microbial pathology, Microbial Ecology, Microbial Immunology, Environmental Microbiology, Bacteriology & Virology, Industrial & Food Microbiology, Molecular Biology, Parasitology, Veterinary& Diagnostic Microbiology etc. Thus, Euro microbiology & novel corona-virus 2021 is one-of-a-kind opportunity for scientific partnering, strategic collaborations, and effective networking.

 Submit Abstracts Online:

 We invite all presenters to submit their abstracts for oral and poster presentations for Euro microbiology & novel corona-virus 2021. The conference will provide a premier platform for researchers to be able to present their work through oral and poster formats to international colleagues. Submissions are accepted online. Abstracts will be reviewed, and accepted submissions will be presented in the conference.

London is a breath-taking, ever-changing city that attracts the world’s best workers, best organisations and best events. There simply isn’t another city that comes close to the breadth and standard of its hospitality, transport and heritage offering.  England is served by 23 airports, offering an extensive network of direct flight access to its major event hubs. London is the most connected city on the planet, with direct flights to 348 destinations globally and directs rail access to Europe’s key cities.

 We look forward to meet you at our conference 13th Edition of International Conference on Euro microbiology & Novel Corona-virus Diseases in London, UK.

 

TRACKS/SESSIONS

MICROBIOLOGY

Pure Microbiology provides a broad platform of a large plethora of research and plenty of new insights into different areas of Microbiology.

Different branches of Microbiology include mycology, Virology, Immunology, infectious diseases, bacteriology, nematology, parasitology, etc. The antibiotics are the agents used against pathogenic bacteria, either orally or paternally.
 
Coronavirus (COVID-19)
 
The Novel Coronavirus disease is an infectious disease caused by a newly discovered coronavirus (COVID-19). In humans, coronaviruses cause respiratory tract infections that can range from mild (common cold) to lethal (SARS, MERS, and COVID-19) and recover without requiring special treatment and in birds and mammals also cause various diseases. People with medical problems like diabetes, chronic respiratory disease, cardiovascular disease, and cancer and also in elder are more likely to develop serious illness. At present, no specific treatment is there for disease caused by a novel coronavirus.
 
Viral Immunology
Viral immunology is simply the study of immune responses to viruses. A prolonged tissue-damaging effect resulting from an immune reaction against viruses is considered immunopathology. Such situations most commonly involve persistent viruses, which are themselves often mildly cytodestructive in the absence of an immune reaction. Chronic tissue damage initiated by viruses can also result in development of an autoreactive and an occasionally oncogenic response
 
Viral Vaccines
Viral immunology is simply the study of immune responses to viruses. A prolonged tissue-damaging effect resulting from an immune reaction against viruses is considered immunopathology. Such situations most commonly involve persistent viruses, which are themselves often mildly cytodestructive in the absence of an immune reaction. Chronic tissue damage initiated by viruses can also result in development of an autoreactive and an occasionally oncogenic response
General 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 diseases in plants and livestock. Viruses have been implicated in a disease that is ravaging our honeybees, threatening natural pollination cycles and thus much of agriculture.  A major branch of virology is virus classification. Viruses can be classified according to the host cell they infect animal viruses, plant viruses, fungal viruses, and bacteriophages. Viruses cause many important infectious diseases, among them the common cold, influenza, rabies, measles, many forms of diarrhea, hepatitis, Dengue fever, yellow fever, polio, smallpox and AIDS. Herpes simplex causes cold sores and genital herpes and is under investigation as a possible factor in Alzheimer's. The study of the manner in which viruses cause disease is viral pathogenesis. The degree to which a virus causes disease is its virulence.
Discovery of Antibiotics

Innovation has been a noteworthy driver of advances in medication disclosure. Computerization, Nano fluidics, imaging, programming and test advances have assumed a noteworthy part in showing signs of improvement information, quicker. Is medication disclosure at such a propelled state, to the point that further upgrades are did not require anymore or practical? There are diverse feelings on this and a great part of the proof is narrative, yet innovation advancement is basic to the change of the medication disclosure process and worth talking about.

Advances in Microbiology

Advances in Microbiology session deals with the latest researches and developments in microbial techniques, Microbial strain improvement, Microbial Engineering, Industrial Microbiology, Medical Microbiology, General Microbiology, Medical Entomology, Anatomy, Physiology, Biochemistry, Pathology, Forensic Medicine and Toxicology, Pharmacology, Community Medicine, Clinical Sciences (Medicine, Surgery, ENT, Orthopedics, Ophthalmology, Radiology,) Medical Biotechnology and Biological Sciences. Microbiology is the study of microorganisms and those being unicellular (single cell), multicellular (cell colony), or acellular (lacking cells) such as bacteria, viruses, archaea, fungi and protozoa. Microbiology encompasses numerous sub-disciplines including virology, parasitology, mycology, bacteriology. biochemistry, physiology, cell biology, ecology, evolution and clinical aspects of microorganisms, including the host response to these agents. The study of microorganisms impinges on all of biology, including geoscience. For many years, research using prokaryotes from both the Bacteria and Archaea domains as model systems has added to the understanding of physiological processes such as growth and metabolism. Thus, through understanding the physiology of prokaryotes, advances in ecology, evolution, and biotechnology have been made. This Session also covers sub sessions like.

Applications of Microbes 

Microorganisms play an important role in our day today life, with those little creatures. The use of microorganism in large scale production of food and industrial products is being done worldwide. Polysaccharides, polyamides, polyesters and many other varieties of biopolymers are produced by many microorganisms. These are ranging from plastics to viscous solutions. Microorganisms are used in large scale manufacturing of vaccines against diseases like influenza flu, polio, BCG etc. with the evolution of sophisticated technology, identification of specific antigens is being done easily which further helps in development of vaccines with the help of microorganisms. They have used in food products, industries, pharma, Nanotechnology, Biotechnology, Food Technology, Agriculture, Drug Delivery, Medical technology, Microbial Engineering, Enzyme Production, Antibiotics Production, Vaccine Production and many more.

Clinical Microbiology

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. There are four kinds of microorganisms that cause infectious disease: bacteria, fungi, parasites and viruses. In this session we can discuss in border view of microbiological aspects of human and animal infections and infestations and in particular their etiological agents, diagnosis, and epidemiology.

Biotechnology 

Modern biotechnology provides breakthrough products and technologies to combat debilitating and rare diseases, reduce our environmental footprint, feed the hungry, use less and cleaner energy, and have safer, cleaner and more efficient industrial manufacturing processes. Biotechnology is the broad area of science involving living systems and organisms to develop or make products, or "any technological application that uses biological systems, living organisms, or derivatives thereof, to make or modify products or processes for specific use. Biotechnology is all about harnessing the power of living cells and materials for use in environmental, diagnostic, pharmaceutical and agricultural industries. Biotechnology is all about using the raw ingredients of life to help solve society’s problems. It can also commonly be referred to as life sciences or genetic engineering, which involves exploiting cell and tissue culture technologies to produce lots of wonderful things. Depending on the tools and applications, it often overlaps with the (related) fields of molecular biology, bio-engineering, biomedical engineering, biomanufacturing, molecular engineering, etc

Environmental Microbiology 

Environmental microbiology is the study of the composition and physiology of microbial communities in the environment. The environment in this case means the soil, water, air and sediments covering the planet and can also include the animals and plants that inhabit these areas. Environmental microbiology also includes the study of microorganisms that exist in artificial environments such as bioreactors Structure and activities of microbial communities, Microbial interactions and interactions with macroorganisms, Population biology of microorganisms, Microbes and surfaces (adhesion and biofilm formation), Microbial community genetics and evolutionary processes, (Global) element cycles and biogeochemical processes, Microbial life in extreme and unusual little-explored environments, Biofilm Engineering, pollution microbiology, microbially-influenced global changes, extremophiles and life in extreme and unusual little-explored habitats, microbes and surfaces, microbial interactions and interactions with plants, animals and non-living environmental factors, the structure, activities and communal behavior of microbial communities it also integrates with biotechnology

Environmental microbiology is the study of the composition and physiology of microbial communities in the environment. The environment in this case means the soil, water, air and sediments covering the planet and can also include the animals and plants that inhabit these areas. Environmental microbiology also includes the study of microorganisms that exist in artificial environments such as bioreactors Structure and activities of microbial communities, Microbial interactions and interactions with macroorganisms, Population biology of microorganisms, Microbes and surfaces (adhesion and biofilm formation), Microbial community genetics and evolutionary processes, (Global) element cycles and biogeochemical processes, Microbial life in extreme and unusual little-explored environments, Biofilm Engineering, pollution microbiology, microbially-influenced global changes, extremophiles and life in extreme and unusual little-explored habitats, microbes and surfaces, microbial interactions and interactions with plants, animals and non-living environmental factors, the structure, activities and communal behavior of microbial communities it also integrates with biotechnology

Infectious Diseases

Infectious diseases are disorders caused by organisms — such as bacteria, viruses, fungi or 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.

Medical Microbiology 

Medical microbiology, the large subset of microbiology 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 culture, microscopy, 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

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. Microbes live 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.

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 microorganisms from 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.

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). Epidemiology has helped develop methodology used in clinical research, public health studies, and, to a lesser extent, basic research in the biological sciences.

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

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

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 disease due to deviation from propriety. Pathology precisely refers to the study of the origin, nature, and course of diseases. Pathology deals with the laboratory examination of samples of body tissue for diagnostic or forensic purposes.

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.

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Sponsors/Exhibitors

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