FUN2: 11:00-12:00Scribe: Taylor Nelson

FUN2: 11:00-12:00Scribe: Taylor Nelson

Wednesday, November 12, 2008Proof: Hunter Neill

Dr. MoserMicrobiologyPage1 of 6

Anaerobic Bacteria

1. Reading Assignment [S2]
2. Very concise chapter that you should read
3. I will only hit the high points and since the chapters aren’t long they will help you understand
4. Categories based Upon Gaseous Requirements [S3]
5. How are anaerobic bacteria different from other bacteria
6. Do not require oxygen as it is toxic to them
7. They is a range from those bacteria that:
8. Aerobic - must have oxygen to grow,
9. Microaerophilic bacteria (camphlobacter) cause gastrointestinal disease – need reduced O2 and increased CO2
10. Will not grow in regular environmental air
11. Capnophilie – like CO2 – more fastidious bacteria
12. Haemophilous influenza and Neisseria gonnorhea
13. Fragile
14. Others are stimulated by CO2 but don’t necessarily require it
15. Facultative Bacteria
16. Most of the bacteria associated with human disease
17. They can grow with or without O2
18. Prefer O2 because more ATP is produced, but will use that and then shift to the less efficient, anaerobic metabolism
19. Anaerobic Bacteria
20. Spectrum within
21. Those that are exposed briefly will die
22. And some that can be exposed briefly - aerotolerant
23. Physiology and Growth Conditions [S4]
24. Why are they anaerobes and why cant they tolerate O2?
25. The by products of 02 metabolism are very toxic and require systems in place in order to detoxify it
26. Detoxify using: Cytochrome systems, superoxide dismutase, catalase (break down toxic products)
27. Obligate anaerobes don’t have these abilities
28. Aerotolerant make some of the enzymes just not enough
29. Facultative – have all of those and it doesn’t matter whether they have O2 or lack thereof
30. Illustration [S5]:
31. If you have O2 then you have these by products that are all high energy radicles including H2O2
32. Produced by some cells as a defense mechanism that can kill some bacteria
33. Anaerobes don’t have the Detoxifying Pathway (2nd cell) including 1superoxide dismutase, 2Catalase, 3peroxidase, etc making O2 or water
34. Main Point: inability of anaerobes to produce these enzymes to detoxify O2 high energy radicals that are byproducts of oxidative metabolism
35. Location of Aerobes [S6]
36. Therefore don’t life where O2 is easily accessible
37. Periodontal pockets, dental plaque and the colon are more likely because they aren’t exposed
38. Might coexist with facultative organisms that will use up any O2 that my be present
39. Distribution of different types of bacteria within the body [S7]
40. Can be divided (the most important are the top 2)
41. Gram negative, rods
42. Bacteroides fragilis group, Prevotella, Fusobacterium
43. Some found preferentially in the colon
44. Can think of their locations as above and below the diaphram
45. B. fragilis is normally found below the diaphram in the colon and the abdominal cavity
46. Some are only found above – Prevotella and
47. Some are in either place
48. Gram Positives (some are pathogenic)
49. Knowing where they live in the human body tells you where they might be involved in a disease process
50. We can pick up things from the environment like Clostridia because they make spores and can survive
51. Most of the things that cause human infection are our own organisms that get loose
52. Associated to an anatomic area close to where they are normally
53. Locations of particular anaerobic infections [S8]
54. Begin with the mouth
55. In gingival crevices, crypts no matter how good oral hygiene is
56. Those with bad oral hygiene are at a greater rick of the organisms
57. Getting loose
58. Becoming bacteremic – causing brain abscess
59. Pulmonary – usually found with aspiration of oral anaerobes and mixed floral anaerobes
60. Alcoholic or binge drinker that regurgitates and aspirates allowing foreign bodies into the lung causing pulmonary lung abscesses or empyema (puss filled cavity)
61. Human bites (can be worse than animal bites esp. if someone has poor dentition)
62. Below the diaphragm: whether it be appendicitis that has ruptured, surgery where the colon has been nicked, or diverticulitis – the infection can get into the abdominal cavity and cause abscess formation
63. Pelvic inflammatory, endometritus
64. Foot Ulcers – extremely important in diabetic patients (external contamination)
65. Vincent Angina [S9]
66. Erosion of gums
67. Bad hygiene allows areas to be “closed down” (anaerobic) and allow organisms grow very rapidly
68. Gram Smear: Several morphological types
69. Long skinny pointed, short fat Gram (-) rods, thin wavy ones
70. 3 different anaerobes that are normally found in the mouth
71. Just remember its a mixed gram (-) infection that has a synergistic infections where the byproducts cause destruction of the gingiva
72. Adult periodontitis [S10]
73. Less acute gum diseases
74. Different organisms involved causing slow destruction of the gum (receding)
75. Eventually the teeth become loose and result in:
76. Bacterial showering into blood stream
77. Eventually loose teeth
78. Anaerobic Brain Abscess [S11]
79. Caused when bacteria enter the blood stream (extreme case)
80. Can see the morphological types on the gram smear (3 types)
81. Characteristic of anaerobic abscesses
82. Remember that you will NOT see a single morphological type
83. Must be drained, cannot treat simply with antibiotics – hard to reach target organisms
84. Anaerobic Polymicrobic Cellulitis [S12]
85. Diabetic patient – poor circulation in extremities decreases the function neutrophils even in patients that have their disease under control
86. Probably the result of fecal contamination
87. Gets a wound that gets infected and becomes hard to heal
88. Aerobic Infections Gram (-) Bacilli [S13]
89. Bacteroides, Prevotella, Porphyromonas species
90. Bacteroides fragilis and Prevoltella melaninogenica are two of the important ones
91. Common, non-spore forming, pleomorphic rods
92. Mouth or stool
93. Don’t culture stool for anaerobes because 99% of bacteria that are in the colon are anaerobes
94. Only that small portion that we look for – Shigella, Salmonela, Camphylobacter, E.Coli that are causing these problems
95. In general you don’t culture stool for anaerobes
96. Certain associations are made in areas by species (find particular species in certain places)
97. Clinical disease is usually mixed floral with not just anaerobes but also facultative gram (-) organisms (i.e E.coli, Enterobacter, Klebsiella in colon) which help maintain the anaerobiosis of the micro environment
98. Necrotizing Fasciitis[S14-15]–
99. Rare, associated with Group A Strep. (flesh eating bacteria), staph, some gram (-), and even some anaerobes
100. Picture shows and incision with draining areas
101. Bacteria is causing cell death and necrosis
102. Much toxicity associated with that for the host – gangrenous
103. Surgical excision is often the primary treatment
104. Fusobacterium[S16] – by name fusiform or pointed at the ends
105. Long pointed rods
106. Mixed or sole agents of infections
107. Causes Lemierre’s syndrome, which is subsequent to tonsillitis. Someone who has an abscess allows the bacteria to enter and dissect down causing jugular vein thrombosis
108. Not as common due to larger use of antibiotics
109. Pulmonary Abscess [S17]– Child
110. Air / fluid level on radiograph that will stand out readily (seen in the circle)
111. Pleomorphic [S18]
112. Must grow in the absence of O2 – defining characteristic of all these organisms
113. Classic diseases associated with anaerobes
114. Actinomyces [S19]
115. Actinomyces is the genes
116. Slow growing and difficult to isolate – try to confirm diagnosis and let the lab tech know so they don’t open culture to early as it will kill organism, these just cannot tolerate oxygen
117. Unusual in the fact that they migrate
118. Aspiration may cause abscess in lung then exit the chest wall causing draining sinus.
119. Can go across the diaphram
120. Most infections stay where they are introduced unless they are septic and enter the blood stream
121. Creates draining sinus tracts that result in grains that are visible to eye that are microcolonies of the organism coved by secretions from the host
122. Oral, respiratory – copper Coil IUD have been a problem
123. Dacryocystitis[S20] – ocular
124. Concretions can get into the tear ducts and the lacrimal sack become blocked
125. Blockage of the tear duct that can be removed with an instrument
126. Looks similar to Haemophilis influenzae but this demonstrates why it is necessary for a patient history
127. Actinomycosis _ “Lumpy Jaw” [S21]
128. Classic disease (in books and exams)
129. Normal face but asymmetric with large swelling on the patients left
130. [S22] Has abscess at the root of the tooth - bone involvement and then abscess will start to come out the jaw
131. If left alone would eventually drain puss and granules – can trap if you cover with a gauze
132. [S23] Picture of granules (couple mm in size)
133. Can crush them and then do a gram stain
134. Filamentous, gram (+) rods
135. Must differentiate between a fungus that can cause similar draining sinus particles
136. Fungi is at least 10X the size so size differential will tell the difference between a bacteria and a fungus
137. Proponibacerium [S25]
138. Can live on the skin in pores depending on presence of lipids
139. Causes acne
140. Contaminants in lab if the skin is not properly disinfected (shows up late)
141. Rarely involved in disease
142. Lactobacillus
143. Good – make many things such as yogurt and also maintain the acidic environment of the vagina that serves as protection from bacterial vaginosis caused by these anaerobes
144. Rarely cause of disease
145. Anaerobic Infection Gram-Positive Bacilli [S26]
146. Clostridium
147. Tetanus
148. Should have been immunized against, need a booster every 10 years
149. In the past, each time a person stepped on a nail the person would get a shot
150. Because it’s such a good immunogen cause great reactions – reason why we only get boosters every 10 year unless you have a traumatic accident that presents a chance for massive exposure then the booster would be given at that time
151. The vaccine is the Tetanospasmin- the toxin itself made non-toxic
152. Tetanospasmin blocks inhibitory neurotransmitters, this is why you get constant firing of muscles
153. You have two balancing mechanisms-one says fire and one says relax, with tetanus there is no relaxation
154. Lock jaw is a common name for this, as those who are infected get this constant firing of muscles in their jaw, also known as sardonic smile
155. This is an infection, in vivo production of toxin – you must have the organism in you, usually in a wound
156. Botulism
157. Usually ingestion of preformed toxin
158. Many people get botulism from foods improperly canned at home
159. Extremely potent toxin, you don’t need to ingest much at all
160. Works oppositely of tetanus, sort of a spastic paralysis
161. You can’t fire your muscles due to the blockage of neurotransmitters such as acetylcholine, muscles don’t contract due to the blocking of the signal from the nervous system
162. Some exceptions to preformed botulism exist:
163. Wound botulism – very unusual
164. Infant botulism – more common than wound botulism
165. Neonates up to 6 or 8 months don’t have GI flora (they are born without it) but this flora is accumulated over time with food etc. and eventually this flora builds up and provides protection
166. Some parents use honey to pacify children, honey has botulism spores which can germinate in the neonate GI tract without any competition and cause botulism poisoning
167. Don’t give babies honey
168. Gas gangrene
169. Primarily caused by C. perfringens, can be caused by other species but this is the classic
170. Takes human tissue and makes H2 and CO2 out of them, thus the name gas gangrene
171. You can actually push on the tissue and feel gas trapped there (sort of like bubble wrap) - crepitous
172. Can produce a number of toxins, one of the most important being phospholipase C (alpha toxin), can make up to a dozen different toxins but the alpha toxin is the one primarily responsible for gas gangrene
173. Food poisoning
174. Also caused by C. perfringens, but due to a different toxin known as enterotoxin
175. Also preformed toxin
176. Usually found in gravies and things like that that haven’t been stored properly
177. C. septicum
178. People that become bacteremic with this organism that is often an early sign that there is some malignancy – colon cancer or something else
179. Said that this wasn’t very important to remember
180. Pseudomembranous colitis/antibiotic associated diarrhea
181. Caused by C. difficile
182. Present in the GI tract of 1-2% of the adult population
183. When broad spectrum antibacterio therapy (with anaerobe spectrum) is prescribed much of the anaerobic flora will be killed and whatever is left will take over due to lack of competition, C. difficile is very resistant to most antibiotics so it will grow and make toxins causing antibiotic associated diarrhea and if left alone can cause pseudomembranous colitis which is very serious (seen mostly in hospitalized patients)
184. Tetanus [S27]
185. Doesn’t have to be a wound as severe as the one shown, but usually inflamed, red, etc.
186. Photo of sardonic smile
187. Infant being supported by foot and head – every muscle is being clenched
188. Clostridium tetani [S28]
189. The organism is usually not isolated to diagnose the disease
190. Can diagnose by symptoms, some assays even exist for the toxin
191. Want to know if the individual has been immunized – some underserved populations are still not immunized, important to understand the immunization history
192. The lollypop looking thing is the spore that allows the organism to survive
193. All clostridium make spores, they are the only anaerobic bacteria that do so
194. Gas Gangrene [S29]
195. Nasty outcome, often post-surgical
196. The boli full of gas can easily be seen
197. This person is in a lot of trouble because of the location
198. Many toxins associated with this, so not just a spot with symptoms but the entire body is being assaulted
199. [S30] Clostridium perfringens is the culprit of the gas gangrene
200. Boxcar shape
201. Quite large for bacteria
202. The stain for spores reveals spores that are inside as opposed to the lollypop look of C. tetani
203. Could biopsy the gentleman from [S29] toward the edge of his boli and would find this bacteria, definitely diagnostic
204. Clostridium perfringens [S31]
205. Not all C. perfringens produce the alpha toxin
206. There are different serotypes – to establish in the lab that the Clostridium perfringens you have is the serotype that produces the alpha toxin one would have to find it to be hemolytic on blood agar and here we have a positive control and an unknown(photo on right), half the plate has antitoxin and the other half does not, so what it does is that it goes out and it breaks down lecithin in the media and makes it cloudy, neutralized on the bottom half to give specificity
207. Clostridium difficile Colitis [S32]
208. C. difficile is given the name difficile because it is difficult to isolate, difficult to sort one anaerobe out of another when many are present
209. For diagnostic reasons we have a lyse test to test for the toxin
210. Two toxins present, and stool is screened for that when the possibility of C. difficile is being entertained
211. There is now a more virulent strain of C. difficile
212. Hospital associated
213. The bacteria form spores which allows them to survive in an environment
214. If the room of someone who has C. difficile is not disinfected properly than the next person to be admitted to that room can pick it up
215. Death is associated with this new strain, so it’s not harmless
216. Pathogenesis [S33]
217. There is some synergy with facultative organisms – in other words you can get oxygen reduction with E. coli, klebsiella, enterobacter, etc.
218. Like many bacteria some of them can produce beta-lactamase
219. Beta-lactamases break down beta lactamase antibiotics, penicillin is not a good drug against this for example
220. A few are encapsulated
221. Any time you have a microorganism that has a capsule that means it’s antiphagocytic
222. Diagnosis of Anaerobic Infections [S34]
223. Diagnosis starts out at the patient with clinical signs
224. Abscess formation
225. Gas in the tissue
226. Proximity to mucosal surface
227. Foul smelling discharge due to short chain fatty acids (very odiferous) from anaerobic metabolism
228. If an abscess is opened up and green stinky material is present than that is indicative of having anaerobes involved
229. Gram Stain can be helpful
230. They are mixed, so you will see mixed flora
231. [S35] Gram stain of mixed infection
232. To reiterate- you have neutrophils, small gram negative rods, gram positive rods, gram positive cocci, long skinny gram negative rods but all you know is that you have multiple different bacteria in there and if you are using antibiotics you need to use broad spectrum antibiotics
233. When we culture we often find too many organisms and therefore it isn’t too helpful
234. So we want to restrict what we culture, there has to be a good reason for submitting a culture for anaerobic testing
235. Diagnosis of Anaerobic Infections [S36]
236. Culture
237. Collection and transport are critical
238. If you have a peri-rectal abscess you can guess the organism and treat, there is no need to culture
239. Other abscess then it would be appropriate to send the sample
240. They are complex from a nutritional standpoint
241. Need medium that has vitamin K
242. They are totally resistant to aminoglycosides
243. Because they can be mixed with E.coli and enreobacter
244. We can incorporate that into the media to keep the other bacteria from growing and to produce other needed nutrients to allow us to find the true anaerobes
245. Can’t work with them out on the bench for very long, they need to be incubated in CO2, nitrogen, and hydrogen
246. [S37]Anaerobic Containers – simplest and cheapest way to incubate
247. Special medium
248. Jars that generate H2 and the O2 present is turned into water
249. Slow so not the best method
250. [S38]Anaerobe Chamber
251. Samples go through airlock
252. Entire area is anaerobic
253. Whole process is done in the absence of O2
254. Very inconvenient
255. Newer system
256. Takes jar and attaches valves, push a button and it pumps in all the needed gases and within seconds the environment goes anaerobic
257. Works just as well as the cumbersome chamber
258. Once they have grown you can work with them on the bench but if you do that with the primary isolation you have a problem
259. Bateroids Fragilis [S39]
260. Spot testing
261. Media that incorporates two things that he’s discussed
262. One side has aminoglycoside inhibiting the growth of other bacteria, so if it grows here is may be an anaerobe
263. The other side has a bile esculin, bile to test the ability of the organism to grow in large amounts of bile, esculin is simply a compound that is broken down
264. For other bacteria we have to do a few more tests but for the most part we don’t have to do a full biochemical setup to get to the more common ones
265. Treatment of Anaerobic Infections [S40]
266. Already talked a lot about this
267. Penicillin G is not a great drug to use, but people still use it
268. C. difficile is treated with vancomyacin or metronidazole
269. Penicillin resistance is prevalent here, aminoglycoside is not effective
270. Immunization against some of the toxin diseases is best
271. Etest Susceptibility Testing [S41]
272. Don’t routinely dosusceptibility testing on anaerobes because they are highly predictable
273. We will however accumulate them and create what we call an antibiogram, in other words if we have enough Bateroids Fragilis organisms we can test them and give susceptibility percentages to various drugs
274. We would use the Etest to do one individually, concept of diffusion and reading an MIC from there
275. Objectives [S43]
276. Some of the important things you should know
277. Remember the gaseous requirements of the spectrum
278. Collection and diagnostic methods
279. If you have a closed abscess the best way to go at it is to stick a needle in it and aspirate
280. There are special vials you can put that aspirate in to transport it to the lab
281. Our current swabs are okay, don’t usually like to use swabs with anaerobes, but interoperatively that is what we get
282. Epidemiology means where do they live and how do we get them
283. Clinical syndromes
284. Classic clinical syndromes that we’ve talked about, the things you would quickly associate with gram negative anaerobic infections

[End 51 min]