![Medical Microbiology Syllabus (2010)](http://s1.studyres.com/store/data/010859268_1-9bfac1f09506b20f7d259137e71d8319-300x300.png)
Medical Microbiology Syllabus (2010)
... application relevance of clinical disease for students who are in preparation for physicians. The content of rigorous course includes many etiological agents responsible for global infectious diseases. It covers all biology of bacteria, viruses and other pathogens related with infectious diseases in ...
... application relevance of clinical disease for students who are in preparation for physicians. The content of rigorous course includes many etiological agents responsible for global infectious diseases. It covers all biology of bacteria, viruses and other pathogens related with infectious diseases in ...
Infectious Disease Epidemiology
... A population may become immune to an infectious agent after a large proportion of individuals have become immune ...
... A population may become immune to an infectious agent after a large proportion of individuals have become immune ...
6SC09 Bacteria and Viruses
... a cold, the flu, or chicken pox then you have had a viral infectious disease. Moderate viral infectious diseases include influenza, measles, rabies, and polio. With advances in medicine, these viral infectious diseases are generally mild. There are other viral infectious diseases that can cause deat ...
... a cold, the flu, or chicken pox then you have had a viral infectious disease. Moderate viral infectious diseases include influenza, measles, rabies, and polio. With advances in medicine, these viral infectious diseases are generally mild. There are other viral infectious diseases that can cause deat ...
Transcript
... infection without cell death, which this can cause chronic disease. A latent infection such as the Herpes virus, are viruses that hide from your immune system and come out during periods of stress or sunburns. Some viruses will take the cell that they infected and transform it. This is what Retrovir ...
... infection without cell death, which this can cause chronic disease. A latent infection such as the Herpes virus, are viruses that hide from your immune system and come out during periods of stress or sunburns. Some viruses will take the cell that they infected and transform it. This is what Retrovir ...
Lesson Plan: Viruses and Evolution
... of nucleic acids, called mutations, are common. Then ask, Why is it so hard to eradicate viral diseases? Why do think researchers have been unable to develop vaccines for significant viral diseases such as AIDS? Students should be able to relate a possible cause to the nature of nucleic acids and th ...
... of nucleic acids, called mutations, are common. Then ask, Why is it so hard to eradicate viral diseases? Why do think researchers have been unable to develop vaccines for significant viral diseases such as AIDS? Students should be able to relate a possible cause to the nature of nucleic acids and th ...
Mikrobiologický ústav LF MU a FN u sv. Anny v Brně
... They will deal with oral microbiology and will be delivered by ...
... They will deal with oral microbiology and will be delivered by ...
Name___________________ Anatomy II Respiration Part I
... epiglottis to close off the trachea – this causes ...
... epiglottis to close off the trachea – this causes ...
Overview and History
... prevent surgical wound infections after looking at Pasteur’s work showing microbes are in the air, can spoil food, and cause animal diseases. • 1876: Robert Koch provided proof that a bacterium causes anthrax and provided the experimental steps, Koch’s postulates, used to prove that a specific micro ...
... prevent surgical wound infections after looking at Pasteur’s work showing microbes are in the air, can spoil food, and cause animal diseases. • 1876: Robert Koch provided proof that a bacterium causes anthrax and provided the experimental steps, Koch’s postulates, used to prove that a specific micro ...
Virus/Bacteria Quiz
... b. can be killed using antibiotics c. have a cell membrane d. have a protein coat 2. Which statement is true about viruses? a. Viruses can eat and metabolize food. b. Viruses can reproduce only using a host cell. c. Viruses can reproduce on their own at any time. d. Viruses contain DNA, so they are ...
... b. can be killed using antibiotics c. have a cell membrane d. have a protein coat 2. Which statement is true about viruses? a. Viruses can eat and metabolize food. b. Viruses can reproduce only using a host cell. c. Viruses can reproduce on their own at any time. d. Viruses contain DNA, so they are ...
Bacteria Wanted Poster Project
... "Photo" (microscopic picture or picture of the disease on an infected body) Gram Stain Photo (a pink or purple stain is used to highlight the shape of the bacteria) 5. Description of the Bacteria 6. How the bacteria attacks and spreads 7. Most common victims 8. Where it is most likely to be found wh ...
... "Photo" (microscopic picture or picture of the disease on an infected body) Gram Stain Photo (a pink or purple stain is used to highlight the shape of the bacteria) 5. Description of the Bacteria 6. How the bacteria attacks and spreads 7. Most common victims 8. Where it is most likely to be found wh ...
MICROBIOLOGY EXAM III SIMPLE COMPLETION: Each of the
... Each of the questions or incomplete statements in this group is followed by four or five suggested answers or completions. Select the one which is best in each case and mark the corresponding letter on the answer sheet: 1. Which of the following is true concerning the orthomyxoviruses? A. Influenza ...
... Each of the questions or incomplete statements in this group is followed by four or five suggested answers or completions. Select the one which is best in each case and mark the corresponding letter on the answer sheet: 1. Which of the following is true concerning the orthomyxoviruses? A. Influenza ...
Bacteria Wanted Poster Project
... "Photo" (microscopic picture or picture of the disease on an infected body) Gram Stain Photo (a pink or purple stain is used to highlight the shape of the bacteria) 5. Description of the Bacteria 6. How the bacteria attacks and spreads 7. Most common victims 8. Where it is most likely to be found wh ...
... "Photo" (microscopic picture or picture of the disease on an infected body) Gram Stain Photo (a pink or purple stain is used to highlight the shape of the bacteria) 5. Description of the Bacteria 6. How the bacteria attacks and spreads 7. Most common victims 8. Where it is most likely to be found wh ...
microorganisms
... reproduce the same disease when re-inoculated into healthy animals The same organism must be re-isolated from the experimentally infected animal ...
... reproduce the same disease when re-inoculated into healthy animals The same organism must be re-isolated from the experimentally infected animal ...
Chapter 1
... to prevent surgical wound infections after looking at Pasteur’s work showing microbes are in the air, can spoil food, and cause animal diseases. • 1876: Robert Koch provided proof that a bacterium causes anthrax and provided the experimental steps, Koch’s postulates, used to prove that a specific mi ...
... to prevent surgical wound infections after looking at Pasteur’s work showing microbes are in the air, can spoil food, and cause animal diseases. • 1876: Robert Koch provided proof that a bacterium causes anthrax and provided the experimental steps, Koch’s postulates, used to prove that a specific mi ...
08_9_Fact_Path_Vir_1_2_2012 - IS MU
... Primary (obligate) pathogens → cause disease even in otherwise healthy individuals = chiefly agents of classical infections (diphtheria, typhoid fever, plague, gonorrhea, tetanus, influenza, morbilli etc.) Opportunistic (facultative) pathogens → cause disease under certain conditions or at a certain ...
... Primary (obligate) pathogens → cause disease even in otherwise healthy individuals = chiefly agents of classical infections (diphtheria, typhoid fever, plague, gonorrhea, tetanus, influenza, morbilli etc.) Opportunistic (facultative) pathogens → cause disease under certain conditions or at a certain ...
Viruses
... Viruses can enter cells in two different ways. In the first, once attached to the host cell, the virus can inject its nucleic acid into the cell. Figure 11.8 shows the steps to this cycle of viral replication, called the lytic cycle. A typical lytic cycle takes about 30 min, and may produce up to 20 ...
... Viruses can enter cells in two different ways. In the first, once attached to the host cell, the virus can inject its nucleic acid into the cell. Figure 11.8 shows the steps to this cycle of viral replication, called the lytic cycle. A typical lytic cycle takes about 30 min, and may produce up to 20 ...
An Inside Look at the Flu
... 5. What cells must the virus hijack in order to wreak havoc on Holly’s body? (1pt) ...
... 5. What cells must the virus hijack in order to wreak havoc on Holly’s body? (1pt) ...
Viruses – Invisible Invaders, Amazing Allies
... Viral Gastroenteritis In children, most commonly caused by rotavirus (dsRNA) or adenovirus (ds DNA) Symptoms include fever, diarrhea, vomiting In developing countries, high mortality among infants resulting in >1 million deaths/year due to underlying malnutrition and fluid loss ...
... Viral Gastroenteritis In children, most commonly caused by rotavirus (dsRNA) or adenovirus (ds DNA) Symptoms include fever, diarrhea, vomiting In developing countries, high mortality among infants resulting in >1 million deaths/year due to underlying malnutrition and fluid loss ...
Viral pathogenesis
... There are three ways to measure viral virulence: •LD50 – how much virus is required to kill 50% of a subject population •ID50 – how much virus is required to infect 50% of a subject population •PD50 – how much virus is required to paralyze 50% of a subject population. ...
... There are three ways to measure viral virulence: •LD50 – how much virus is required to kill 50% of a subject population •ID50 – how much virus is required to infect 50% of a subject population •PD50 – how much virus is required to paralyze 50% of a subject population. ...
Social history of viruses
![](https://commons.wikimedia.org/wiki/Special:FilePath/Polio_physical_therapy.jpg?width=300)
The social history of viruses describes the influence of viruses and viral infections on human history. Epidemics caused by viruses began when human behaviour changed during the Neolithic period, around 12,000 years ago, when humans developed more densely populated agricultural communities. This allowed viruses to spread rapidly and subsequently to become endemic. Viruses of plants and livestock also increased, and as humans became dependent on agriculture and farming, diseases such as potyviruses of potatoes and rinderpest of cattle had devastating consequences.Smallpox and measles viruses are among the oldest that infect humans. Having evolved from viruses that infected other animals, they first appeared in humans in Europe and North Africa thousands of years ago. The viruses were later carried to the New World by Europeans during the time of the Spanish Conquests, but the indigenous people had no natural resistance to the viruses and millions of them died during epidemics. Influenza pandemics have been recorded since 1580, and they have occurred with increasing frequency in subsequent centuries. The pandemic of 1918–19, in which 40–50 million died in less than a year, was one of the most devastating in history.Louis Pasteur and Edward Jenner were the first to develop vaccines to protect against viral infections. The nature of viruses remained unknown until the invention of the electron microscope in the 1930s, when the science of virology gained momentum. In the 20th century many diseases both old and new were found to be caused by viruses. There were epidemics of poliomyelitis that were only controlled following the development of a vaccine in the 1950s. HIV is one of the most pathogenic new viruses to have emerged in centuries. Although scientific interest in them arose because of the diseases they cause, most viruses are beneficial. They drive evolution by transferring genes across species, play important roles in ecosystems and are essential to life.