Bacteriology Master Table — Zagazig University Microbiology

Category	Organism	Biochemical Reactions	Antigenic Structure	Virulence Factors	Diagnosis	Treatment	Special Characteristic
1 · GPCStaphylococci	S. aureus S. epidermidis S. saprophyticusGP cocci in irregular grape-like clusters; non-motile, non-sporing; usually non-capsulated	Catalase + (differentiates from Strep) S. aureus: coagulase +, DNase +, catalase +, ferments mannitol, gelatin liquefaction + Blood agar: β-hemolysis, yellow/clear zones Nutrient agar: golden yellow colonies (endopigment), best at RT Mannitol salt agar (7.5% NaCl): yellow colonies; selective CoNS: coagulase −; S. saprophyticus novobiocin-resistant; S. epidermidis novobiocin-sensitive	S. aureus cell-wall components Peptidoglycan: elicits IL-1, opsonic Abs; PMN chemoattractant; endotoxin-like; activates complement Teichoic acids: antigenic; part of phage receptors Protein A: binds Fc of IgG except IgG₃; Fab free → "coagglutination" reagent Capsule (some strains): polysaccharide, antiphagocytic unless specific Abs present Phage surface receptors: phage typing Fibronectin-binding proteins (FnBPs): adhesion/invasion	Enzymes Catalase; Coagulase (clots citrated plasma, fibrin coat → resists phagocytosis); Clumping factor (binds fibrinogen non-enzymatically, distinct from coagulase); hyaluronidase, staphylokinase, proteinases, lipases, β-lactamase Toxins Enterotoxin (A–E, G–I, K–M): superantigen, heat-resistant, acid/enzyme-resistant → food poisoning (vomiting>diarrhea) TSST-1: superantigen → toxic shock (tampons, wound, nasal packing); 5–25% isolates; blood cultures typically negative Exfoliative toxins A & B: proteases dissolving epidermal mucopolysaccharide → SSSS Leukocidins: α (necrosis, hemolysis), β, δ PVL: bicomponent (S+F); severe necrotizing pneumonia in children; CA-MRSA (phage-encoded) Pigment Staphyloxanthin: carotenoid, antioxidant evading ROS; golden color	Specimens by site: blood, pus swab, CSF, urine, vomitus/stool/food Direct smear: GPC in grape-like clusters among pus cells Culture: β-hemolysis blood agar + golden colonies; mannitol salt agar for contaminated samples ID tests: catalase, coagulase, DNase, mannitol fermentation, gelatin liquefaction Phage typing: epidemiologic tracing (hospital outbreaks; food handlers' nose/nailbed/fomites) Routine AST; molecular typing; serology of little value Food poisoning: vomitus/stool/food remnants; mannitol salt agar; demonstrate enterotoxin by gel diffusion	~90% produce β-lactamase → Pen-G resistant; susceptible to β-lactamase-resistant penicillins (methicillin, oxacillin), cephalosporins, vancomycin MRSA (~20%): altered PBPs → DOC vancomycin Newer: linezolid, daptomycin, quinupristin/dalfopristin S. epidermidis: vancomycin + rifampicin or gentamicin Prevention: handwashing, asepsis; intranasal mupirocin for nasal carriage; remove shedders from OR/newborn nurseries	~20% humans are long-term nasal carriers of S. aureus S. epidermidis: most important cause of prosthetic valve endocarditis (biofilm/glycocalyx); CSF shunt infections; neonatal sepsis; peritoneal dialysis peritonitis; hospital-acquired S. saprophyticus: 2nd commonest community UTI in sexually active young women (within 24h post-coitus) CA-MRSA (PVL+) molecularly distinct from HA-MRSA; CA-MRSA: homeless, IVDU, athletes Right-sided (tricuspid) endocarditis in IVDU HA-MRSA causes ~50% of nosocomial S. aureus infections SSSS: young children; recovery 7–10d; hair/nails may slough Staph food poisoning IP 1–8h (preformed toxin in carbohydrate-rich foods, milk products)
1 · GPCStreptococci	S. pyogenes (Gp A) S. agalactiae (Gp B) Viridans group S. pneumoniaeGP cocci in chains; oxidase & catalase NEG; facultative anaerobes; many require enriched media	Oxidase & catalase negative Hemolysis: β (pyogenes, agalactiae), α (viridans, pneumoniae), γ (bovis) S. pyogenes: bacitracin-sensitive S. agalactiae: CAMP +, hydrolyzes hippurate, NOT bacitracin-sensitive, SXT-resistant, double-zone hemolysis Viridans vs pneumoniae: bile insoluble vs soluble; inulin non-fermenter vs fermenter; optochin resistant vs sensitive; mouse non-pathogenic vs pathogenic; Quellung − vs + Better growth in 5–10% CO₂	S. pyogenes M protein: >150 types; antiphagocytic; rheumatogenic & nephritogenic strains; Abs protective Hyaluronic acid capsule: antiphagocytic, non-immunogenic Lipoteichoic acid: covers pili; mucosal adherence Fibronectin-binding protein: adherence + internalization C-carbohydrate: Lancefield grouping (A–W, no I/J) S. agalactiae Capsular polysaccharide (classification) S. pneumoniae ≥90 capsular serotypes; types 1–8 → 75% adult pneumonia; serotyped by Quellung C-polysaccharide (CPS): cell-wall PS common to all pneumococci	S. pyogenes — Enzymes Streptokinase (fibrinolysin) — lyses thrombi; used clinically for MI DNase A–D; anti-DNase B for pyoderma dx Hyaluronidase — "spreading factor" S. pyogenes — Toxins Pyrogenic exotoxin A (erythrogenic): phage-encoded superantigen → STSS, scarlet fever Pyrogenic exotoxin B: protease → necrotizing fasciitis ("flesh-eating") Pyrogenic exotoxin C → STSS Streptolysin O: O₂-labile, antigenic → ASO titer for RF dx Streptolysin S: O₂-stable, non-antigenic; β-hemolysis on plate C5a peptidase, neuraminidase, serum opacity factor S. pneumoniae Capsule (antiphagocytic, inhibits C3b opsonization) Pneumolysin (Ply): 53-kDa pore-forming, activates complement Autolysin (LytA): lyses bacteria, releases pneumolysin H₂O₂: damages host cells; bactericidal vs H. influenzae Pili: URT colonization, induce TNF → septic shock CbpA / PspA: adhesin, inhibits complement opsonization	Specimens: swabs, pus, blood (bacteremia) Gram stain; Ag detection (ELISA, agglutination) Blood agar, 37°C, 5–10% CO₂; bacitracin disc (GpA); CAMP test (GpB) Latex agglutination for serogrouping Post-strep dz: ASO ≥1/200; CRP (latex w/ anti-CRP); ESR (RF triad ASO+CRP+ESR); anti-DNase B ≥80 U for AGN S. pneumoniae: sheep blood ± gentamicin, 5–10% CO₂; sputum/CSF Gram; PS Ag detection (latex, ELISA); CPS ELISA in sputum; PCR (autolysin, pneumolysin); immune-complex assay; Quellung serotyping (reference labs)	S. pyogenes: penicillin DOC; erythromycin if allergic RF prevention: prompt Pen for GAS throat; recurrence prevention with monthly benzathine penicillin for several years S. pneumoniae: penicillin (resistance now prevalent, usually multi-drug); new cephalosporins, fluoroquinolones effective; vancomycin best; routine AST Pneumococcal vaccines 23-valent polysaccharide: ≥65y, chronic illness 2–64y, immunocompromised; 0.5 mL ID/IM; ≥5y protection 7-valent conjugate: all children at 2, 4, 6 mo + 12–15 mo; selected 24–59 mo Passive Ig for immunodeficient children; chemoprophylaxis for asplenic children	M types: rheumatogenic 1, 2, 5, 6, 18; nephritogenic 2, 4, 12, 49, 59–61; impetigo 49, 57, 59–61 ARF: 1–4 wk post-throat; anti-M cross-reacts with heart; common, recurrent; long-acting Pen prophylaxis; dx ASO/CRP/ESR; damages valves & myocardium AGN: 3 wk post-skin; Ag-Ab complex on GBM; less common, non-recurrent; dx anti-DNase B; majority recover S. agalactiae: most important cause of neonatal infections; 10–40% females are vaginal carriers; chains appear as paired cocci Viridans (S. mutans): dental caries; SBE on damaged valves via dextran synthesis from glucose adhering to fibrin-platelet aggregates Necrotizing fasciitis: M types 1, 3 + exotoxins A & B (superantigen) S. pneumoniae: lancet-shaped GP diplococci, encapsulated; α-hemolytic Pneumococcal risk: extremes of age, cirrhosis, DM, asplenia (sickle), CSF leak, daycare <2y Scarlet fever: strawberry tongue, sore throat, sunburn rash (host lacks antitoxin)
1 · GPCEnterococci	E. faecalis E. faeciumGP cocci in short chains; formerly Streptococcus (split 1984); >17 species	Facultative anaerobes; grow 10–45°C Ordinary media; usually non-hemolytic PYR + and Voges-Proskauer + H₂S production; reduction of litmus milk Grow in 6.5% NaCl broth; bile esculin +	— (textbook does not specify)	Gelatinase: protease (gelatin, collagen, peptides) Hemolysin: cytolytic — lyses human, horse, rabbit RBC Biofilm / Enterococcal Surface Protein (ESP): adhesion to bladder epithelium in UTI Extracellular superoxide: enhances E. faecalis survival with B. fragilis	Specimens by site: urine, blood, pus Culture: blood agar, MacConkey, CLED (urine), bile esculin, 6.5% NaCl broth Blood culture for bacteremia/endocarditis ID: morphology, Gram, biochem, PYR+, VP+, H₂S, litmus milk reduction	Intrinsic + acquired resistance; usually resistant to penicillins & aminoglycosides VRE: major nosocomial pathogen, difficult to treat VRE options: quinupristin/dalfopristin (synercid), linezolid, daptomycin, tigecycline	Normal intestinal flora of humans & animals; feared nosocomial pathogens Diseases: UTI, endocarditis, bacteremia, catheter-related, surgical wounds, intra-abdominal & pelvic Infecting strains often originate from patient's own gut flora Genitourinary instrumentation often precedes enterococcal endocarditis
3 · Non-spore GPBCorynebacterium	C. diphtheriaeDiphtheroids: C. ulcerans, C. pseudotuberculosis (non-lipophilic); C. jeikeium, C. urealyticum (lipophilic); Propionibacterium acnes (anaerobic)	GP rod, clubbed ends, pleomorphic, non-sporing Chinese letter (acute angles) or palisade (parallel) Beaded with methylene blue (metachromatic volutin granules) Aerobic/facultative anaerobic; Loeffler's serum at 37°C Blood tellurite: grey-black; 4 biotypes — gravis, mitis, intermedius, belfanti Oxidase + and catalase +	— (textbook describes only toxin antigenicity)	Diphtheria toxin (DT): Gene on lysogenic bacteriophage; non-lysogenized strains = non-pathogenic Production controlled by repressor DtxR (iron-responsive) A-B fragments; B binds receptor; A ADP-ribosylates EF-2 → inhibits protein synthesis C. diphtheriae itself uses a different protein (not EF-2) Heat-labile, highly antigenic; formalin → toxoid (antigenicity retained)	Diagnosis is clinical initially — do NOT delay antitoxin Specimen: swab from pseudomembrane / skin lesion Smears: Gram (Chinese letter/palisade); methylene blue (beaded) Culture: Loeffler's serum + blood tellurite Toxigenicity tests (reference labs): Elek's test (immunoprecipitation w/ antitoxin paper) PCR for tox gene ELISA Immunochromatographic assay (rapid, highly sensitive) Tissue culture monolayer overlay Carriers: throat swab	Diphtheria antitoxin: 20,000–100,000 U IM/IV after hypersensitivity skin/conjunctival test; only neutralizes circulating toxin Antimicrobials: penicillin or erythromycin — arrest toxin production Supportive care Contacts: DT booster + erythromycin or long-acting Pen; antitoxin NOT indicated Prevention Diphtheria toxoid (0.3% formalin; adsorbed onto Al(OH)₃ / Al phosphate as adjuvants) DTP/DTaP at 2, 4, 6, 18 mo + school-age booster; adults Td q10y (no pertussis after 6y → encephalopathy) Hexavalent (DTP-HBV-HIB-Polio) available	Disease via local + systemic DT effects (organism has little invasive capacity) Pseudomembrane: necrotic epithelium + fibrin + RBC/WBC over tonsils/pharynx/larynx; bleeds if pulled Distant toxic damage: myocarditis (CHF, arrhythmia), nerve paralysis (soft palate, eye muscles, extremities — reversible) IP 2–4d; tonsillar (droplet) commonest; cutaneous (direct contact, fomites) rare C. ulcerans: may carry tox gene → diphtheria-like C. jeikeium: immunocompromised, bacteremia, high mortality, multi-resistant C. urealyticum: urease+, alkaline urine + crystals, slow grower, multi-resistant UTI Propionibacterium acnes: anaerobic, pathogenesis of acne
3 · Non-spore GPBListeria	L. monocytogenesShort GP rod, non-sporing; resembles diphtheroids on smear; blends features of Coryne & Strep	Catalase + (distinguishes from Strep) Tumbling motility at 22°C, NOT at 37°C Blood agar: small colony with narrow β-hemolysis "Cold enhancement": grows well at refrigeration temperatures	—	Internalin: binds host E-cadherin → endocytic uptake Listeriolysin O (LLO): pore-forming → escapes phagosome to cytosol Bacterial phospholipases (phagosome escape) Actin rockets: actin filament propels bacteria cell-to-cell Immunity primarily cell-mediated	Specimens by site: CSF, blood, stool Direct smear: GP rods resembling diphtheroids Culture: small grey colonies + narrow β-hemolysis on blood agar ID: Gram, tumbling motility, catalase +	DOC: ampicillin + gentamicin (fulminant cases, T-cell compromise) Alternative: ampicillin + TMP-SMX Resistant strains rare Gastroenteritis: no treatment usually needed	Infections primarily in fetus/newborn (transplacental or during delivery) & pregnant women + immunosuppressed (renal transplant, AIDS, lymphoma) Newborn meningitis 1–4 wk post-delivery via bacteremia Primarily an animal pathogen; transmission via contaminated unpasteurized milk/cheese, vegetables, undercooked meats (chicken, hot dogs) Gastroenteritis: watery diarrhea, fever, headache, myalgias, cramps, little vomiting Refrigerator storage of contaminated food increases gastroenteritis risk
2 · Spore-forming GPBBacillus	B. anthracis B. cereusLarge rectangular GP bacilli in long chains; B. anthracis non-motile, capsulated; oval central spores in vitro	Aerobic, grow at 37°C B. anthracis nutrient agar: rounded, opaque, grey-white, ground-glass with comma projections — "Medusa head" Blood agar: non-hemolytic Gelatin stab: "inverted fir tree" (longest lateral spikes near surface) B. cereus: β-lactamase producer	B. anthracis: unique — only bacterium with a protein capsule (poly-D-glutamic acid); gene on plasmid pXO2; antiphagocytic	B. anthracis — Tripartite exotoxin (pXO1) Edema Factor (EF): A subunit, adenyl cyclase → ↑cAMP → ↓PMN function, massive edema Protective Antigen (PA): receptor binding, channel for EF/LF entry into phagocytes Lethal Factor (LF): protease; with PA = lethal toxin; stimulates macrophage release of TNF-α, IL-1β Both plasmids critical B. cereus toxins Emetic toxin: heat-stable, reheated rice, IP 1–5h Diarrheal toxin: heat-labile, meat/sauces, IP 8–24h	High-risk pathogen: BSC, gloves, mask; chemical fixation (heat does not kill) Specimens: vesicle fluid, exudate, sputum, stools, blood Smears: Gram: large GP rods in chains Polychrome methylene blue (in-vivo capsule): pink rim around blue bacillus → McFadden's reaction Modified ZN (0.5% H₂SO₄): spores stain pink (environmental) IF for rapid dx Culture: Medusa head colonies, non-hemolytic, inverted fir tree; Gram + spore stain Animal inoculation: IP mice/guinea pigs Indirect HA + ELISA for confirmation PCR for bioterrorism B. cereus: stool ≥10⁵/g of incriminated food (usually not done)	B. anthracis: ciprofloxacin or doxycycline; early prophylaxis crucial for inhalation B. cereus: resistant to penicillin (β-lactamase); doxycycline, erythromycin, ciprofloxacin Control/prevention (anthrax) AVA (BioThrax): from avirulent, non-encapsulated strain; adsorbed onto Al(OH)₃; IM deltoid at 0, 4 wks; boost 6, 12, 18 mo; annual Burn/deep-bury carcasses in lime; autoclave animal products; double-bag contaminated materials; live attenuated animal vaccines	Anthrax: primarily disease of herbivores (goats, sheep, cows); humans incidental Spores resistant to drying, heat, UV, disinfectants — survive decades in soil Routes: Cutaneous (commonest) → "malignant pustule": painless black eschar with edema rim Pulmonary (wool-sorters' disease): NOT pneumonia — mediastinal hemorrhage + bloody pleural effusion; ~100% lethal GI: rare; vomiting, abdominal pain, bloody diarrhea Spore size 1–2 μm = ideal alveolar penetration → ideal bioterrorism agent B. cereus also opportunistic: post-traumatic endophthalmitis, endocarditis, osteomyelitis, pneumonia B. cereus emetic: nausea, vomiting, ± diarrhea, self-limited 24h; diarrheal: profuse watery, vomiting uncommon
2 · Spore-forming GPBClostridium	C. botulinum C. tetani C. perfringens C. difficileNatural habitat: soil & intestinal tract of animals/humans	Anaerobes C. tetani: drumstick appearance (terminal spore) C. perfringens: hemolytic anaerobic blood agar; Nagler's reaction (visible precipitate around colonies on egg-yolk media — lecithinase) ID by morphology, sugar fermentation, Nagler's; C. tetani also by gas-liquid chromatography	—	C. botulinum Botulinum toxin: very potent neurotoxin; blocks ACh release from presynaptic terminals (autonomic + motor end plate) → flaccid paralysis C. tetani Tetanospasmin: blocks release of inhibitory neurotransmitters (GABA, glycine) → muscle overactivity → tetanic spasm C. perfringens α-toxin (lecithinase): degrades lecithin → cell lysis θ (theta) toxin: hemolytic, necrotic Proteases, DNases, hyaluronidase, collagenases — liquefy tissue, spread Enterotoxin: heat-labile, produced in meat dishes → hypersecretion in jejunum/ileum C. difficile Toxin A: enterotoxin → watery diarrhea Toxin B: cytotoxin → pseudomembrane formation	C. botulinum: Adult: toxin in leftover food + patient serum by passive HA or RIA Infant: toxin in bowel contents, NOT serum C. tetani: clinical + history; lab generally unhelpful — wound aspirate for GP drumstick bacilli; anaerobic culture + GLC C. perfringens: myonecrosis/cellulitis clinical; deep exudate for large GP rods; anaerobic blood agar (hemolytic, Nagler's reaction) C. difficile: colonoscopy (red mucosa + white pseudomembrane); stool ELISA/latex for toxins A & B	C. botulinum Adult: immediate antitoxin + intubation/ventilation Infant: hospitalization + supportive C. tetani — 3 patient categories Past immunized, last booster >10y → another booster Never immunized → booster + human TIG Active disease → human TIG + booster + wound cleaning/excision + penicillin + muscle relaxants + respiratory support C. perfringens Immediate removal of foreign material + devitalized tissue + O₂ exposure Hyperbaric O₂ + penicillin + metronidazole C. difficile Discontinue initial antibiotic + oral metronidazole or vancomycin Tetanus prevention Toxoid in DPT at 2, 4, 6, 18 mo; boost 4–6y; boosters q10y	Botulism — classic adult: smoked fish, home-canned vegetables → bilateral cranial nerve palsies, diplopia, dysphagia, descending paralysis, respiratory failure Infant botulism: fresh honey → constipation → swallowing difficulty → "floppy baby" Tetanus: spores in soil + horse/animal feces; puncture wound, burn, umbilical stump, surgical sutures; non-invasive; trismus (lockjaw) → risus sardonicus → tonic spasm; death from respiratory mechanical failure C. perfringens: gas gangrene — moist spongy cracking skin (gas pockets); clostridial myonecrosis: edematous, foul-smelling, dark, crepitus; clostridial endometritis after incomplete abortion / unsterile instruments C. difficile: 3% general / 30% hospitalized carriers; feco-oral via hospital staff hands; precipitated by fluoroquinolones, macrolides, clindamycin, β-lactam/inhibitor, all cephalosporins; profuse mucoid greenish malodorous watery stools + cramps + fever; onset 5–10 days post-Ab (range 1d to 10 wks after cessation)
9 · GNCNeisseria	N. gonorrhoeae (Gonococci) N. meningitidis (Meningococci)Commensals: N. mucosa, N. sicca, N. flavescens; GN kidney-shaped cocci in pairs, intra-/extracellular in pus; type-IV pili (twitching motility); meningococci capsulated	All Neisseria: oxidase + and catalase + N. gonorrhoeae: glucose only (acid) N. meningitidis: glucose + maltose (acid) Commensal Neisseria: variable sugar fermentation Strict aerobe; better in moist atmosphere + 5–10% CO₂ at 37°C × 24h Enriched media: chocolate agar & Modified Thayer-Martin (MTM) — vancomycin + colistin + nystatin + SXT Carbohydrate utilization = principal basis for commercial rapid ID	N. gonorrhoeae Pili (type IV — twitching motility): mucosal attachment Surface proteins: attachment LOS (lipooligosaccharide): highly branched, no repeating O-Ag IgA proteases: cleave secretory IgA Epithelial endocytosis: vacuolar evasion N. meningitidis Capsular polysaccharide: 13 serogroups; A, B, C, Y, W-135 important; A & C epidemic, B sporadic, A common in Africa; antiphagocytic Outer membrane proteins: class 1, 2, 3 → serotyping; role in internalization Pili (type IV): main adhesion + internalization LPS: endotoxin → septic shock, hemorrhage (RBC destruction) IgA protease	(Antigens above act as virulence factors) Gonococcal antigenic heterogeneity + antigenic variation of pili/surface proteins → repeated infections common Gonococcal infection is superficial → IgG poorly protective; secretory IgA destroyed by IgA proteases	Gonorrhea — males acute Urethral discharge; Gram = GN diplococci intra-/extracellular in pus cells (diagnostic) Chronic males / females (acute & chronic) Specimen: chronic male — morning drop, centrifuged urinary deposit, prostatic fluid post-massage; female — urethral & cervical discharge Gram smear: difficult (flora / low number) Culture: chocolate or MTM at 37°C, 5–10% CO₂; ID by microscopy + biochem; carbohydrate utilization most sensitive Recent: DFA, Gonotest (cross-reactions), DNA probe, ELISA Non-venereal: conjunctival, synovial fluid, blood — same lines Meningococcal meningitis — CSF Physical: turbid, under tension Cells > 20,000/mm³, PMN predominant Centrifuge → Gram + chocolate agar culture CSF Ag detection: latex agglutination, coagglutination (Staph CoA + anti-meningococcal Ab), counter-IEP, Quellung, DFA Blood culture; PCR for CSF/blood DNA Carriers: West's nasopharyngeal swab → MTM	Gonorrhea: ceftriaxone DOC; co-treat for Chlamydia (tetracycline or azithromycin) — 50% co-infection Prevention: condoms; treat partners; erythromycin ointment for ophthalmia neonatorum prevention Meningococcal meningitis: medical emergency — IV penicillin G or ceftriaxone immediately (sometimes pre-LP); 7–10d; chloramphenicol if resistant Chemoprophylaxis (close contacts): rifampicin 600 mg PO BID × 2d OR ciprofloxacin (oral/IM) — secreted in saliva Meningococcal vaccines MCV4: conjugate (A/C/Y/W-135 + diphtheria toxoid carrier); 2–55y MPSV4: polysaccharide; only one licensed for >55y Group B polysaccharide not included — poorly immunogenic	N. meningitidis infects humans only: cannot obtain iron other than from transferrin/lactoferrin Normal nasopharyngeal flora 5–30% adults; up to 70–80% during epidemics Only bacterial meningitis known to occur in epidemics; most common 2–18 y Meningococcemia: high fever, hemorrhagic rash, DIC, collapse Gonococci fragile: susceptible to temperature, drying, UV Female gonorrhea: ~80% asymptomatic; vagina not infected in adults (acidity + flora + stratified squamous); rectal up to 40% Repeated gonococcal infections common (antigenic heterogeneity + pilus/surface variation + superficial → little IgG protection + IgA protease) Ophthalmia neonatorum: cornea → blindness; vulvovaginitis in young females (vagina = simple squamous; via towels/seats) Disseminated gonococcal: hemorrhagic papules/pustules, tenosynovitis/arthritis, endocarditis, meningitis PID → infertility, ectopic pregnancy
4 · EnterobacteriaceaeEscherichia	E. coliGN bacilli, usually motile, some capsulated; major facultative bowel anaerobe; family: facultative anaerobes, MacConkey-growing, oxidase NEG, nitrate-reducers, ferment glucose	Lactose fermenter — rose-pink on MacConkey Ferments glucose, lactose, maltose, mannitol, sucrose, salicin with acid + gas IMViC: + + − − (indole+, MR+, VP−, citrate−)	O (somatic) — cell-wall LPS H (flagellar) K (capsular) in capsulated strains	Diarrheagenic E. coli Pili (colonization factor): epithelial attachment Enterotoxins LT & ST (ETEC): LT A-B → A subunit activates adenylate cyclase → ↑cAMP → Cl secretion + Na inhibition (cholera-like); ST → ↑guanylate cyclase → cGMP → fluid loss Shiga toxin / verotoxin (EHEC, STEC): modifies 28S rRNA → blocks protein synthesis Uropathogenic E. coli Fimbrial adhesins, hemolysins (exotoxins), K antigen LPS Endotoxin → endotoxic shock	Specimens: feces, urine, wound, respiratory, blood, CSF Direct detection useful only in normally sterile sites (CSF — agglutination for K1 antigen in neonatal meningitis) Culture: MacConkey + blood agar @ 37°C; blood culture for septicemia/meningitis; CLED quantitatively for urine ID: morphology, Gram, oxidase, biochem; slide agglutination with specific antisera; tissue culture for toxin (ETEC, EHEC) / invasiveness (EIEC) / adherence (EPEC, EaggEC); ELISA for toxins; DNA probe or PCR for toxin genes	Guide by in-vitro susceptibility (resistant strains emerging) Diarrhea: rehydration + electrolyte correction; selected antibiotics if needed	Normal bowel flora — provides colonization resistance; indicator of fecal pollution of water (with E. faecalis, C. perfringens) UTI — most common cause: >80% community; ascending → urethritis, cystitis, pyelitis, pyelonephritis; hospital UTI usually catheter + multi-resistant Neonatal meningitis: E. coli K1 common cause Pneumonia, sepsis, septicemia, endotoxic shock (esp. neonates) Diarrheagenic pathotypes: ETEC: severe diarrhea in infants/children & traveler's diarrhea EHEC / STEC: bloody diarrhea / hemorrhagic colitis; HUS; O157:H7 commonest; ground beef outbreaks; STECs: O26, O111, O103, O121, O45, O145 EPEC: infantile diarrhea — tight adherence, interferes with absorption EIEC: Shigella-like, no Shiga toxin EaggEC: persistent diarrhea in children; O104:H4 Germany 2011 (vegetables) — acquired Shiga genes → HUS
4 · EnterobacteriaceaeKlebsiella	K. pneumoniae K. ozaenae K. rhinoscleromatis K. oxytocaNon-motile, usually capsulated GN bacilli; environment + intestinal/respiratory mucosa	MacConkey: rose-pink, mucoid colonies (slime) Ferments glucose, lactose, maltose, mannitol, sucrose, salicin with acid + gas K. pneumoniae IMViC: − − + + Non-motile	77 serotypes based on capsular polysaccharide	Capsule — most important virulence factor	Morphology, mucoid colonies, biochem	Intrinsically resistant to ampicillin ESBL (extended-spectrum β-lactamase) — resistance to most effective cephalosporins Routine AST required	Community & nosocomial: UTI (most common) Lobar pneumonia Wound & bloodstream infections with focal lesions (liver/lung abscess) Neonatal sepsis: septicemia, meningitis K. ozaenae → atrophic rhinitis K. rhinoscleromatis → rhinoscleroma (destructive granuloma of nose & pharynx) Multi-drug-resistant nosocomial strains prevail in hospitals
4 · EnterobacteriaceaeCitrobacter, Enterobacter, Serratia	Citrobacter Enterobacter SerratiaMotile GN bacilli; soil/water/occasionally human respiratory & intestinal tracts	Motile lactose fermenters Citrobacter: like E. coli but citrate positive Enterobacter: like Klebsiella but motile Serratia: some strains red non-diffusible pigment — used for testing efficiency of bacterial filters	—	—	—	—	Opportunistic infections similar to K. pneumoniae
4 · EnterobacteriaceaeProteus	P. vulgaris P. mirabilis Morganella morganii (formerly P. morganii) Providencia rettgeri (formerly P. rettgeri)GN pleomorphic, motile, non-sporing bacilli; soil, sewage, feces; 3rd & 4th species moved to new genera based on DNA	Simple & enriched media; concentric wavy "swarming" growth due to high motility Non-lactose fermenters Urease positive — rapidly decomposes urea to ammonia	P. vulgaris OX-10, OX-2, OX-K: share antigenic similarity with Rickettsiae → Weil-Felix reaction (serodiagnosis of rickettsial diseases)	—	Isolation from urine / wound discharge by morphology, swarming, biochem (urease)	According to AST — resistant to many antimicrobials	Saprophytes in soil, sewage, feces; normal intestinal flora Diseases: UTI, wound infection, otitis media M. morganii & P. rettgeri: emerging important nosocomial agents Weil-Felix reaction = key principle for rickettsial serodiagnosis
4 · EnterobacteriaceaeSalmonella	S. typhi (Gp D) S. paratyphi A/B/C (Gps A, B, C) S. typhimurium S. enteritidis S. choleraesuis (Gp C)GN bacilli, motile, non-capsulated; in S. typhi carriers acquires capsule (Vi antigen); facultative anaerobe	Grow on nutrient agar; MacConkey: pale yellow, non-lactose fermenting Ferments glucose, maltose, mannitol → acid only in S. typhi, acid + gas in S. paratyphi H₂S + in S. typhi & S. paratyphi B & C Indole − and urease −	O (somatic): groups (A–I) H (flagellar): serotype-specific Vi (capsular): virulent strains (esp. S. typhi) DNA-DNA hybridization → 7 groups; Group I = S. enterica >1400 serotypes Minor O-Ag sharing between S. typhi & S. paratyphi; H is specific for each	Pili: host-cell adherence Two pathogenicity islands: contact secretion system + effector proteins Facultative intracellular in macrophages Vi antigen in S. typhi: retards PMN phagocytosis, favors macrophage uptake	Enteric fever — by week Week 1 (fever): blood culture (5–10 mL in 50–100 mL trypticase soy broth); bone marrow culture (always +, vs ~66% blood); clot culture; subculture on MacConkey/DCA; ID by colony, microscopy, biochem, slide agglutination Week 2 onwards: stool culture (selenite/tetrathionate broth → MacConkey/DCA); urine culture (centrifuged deposit on MacConkey/DCA); repeat as excretion is intermittent Serology: Widal — 4-fold rise diagnostic; endemic areas (Egypt): ≥1/160 indicative, ≤1/80 = community titer; consider vaccination/past infection (anti-H persists longer than anti-O); false +ve from cross-reaction (non-enteric Salmonella, autoimmune); false −ve early or after antibiotics ELISA, immunoblot — more sensitive than Widal Carriers: high anti-Vi titer in S. typhi carriers; gall-bladder → stool (cholagogue + saline purge); urinary → urine	Chloramphenicol, ampicillin, TMP-SMX, fluoroquinolones, 3rd-gen cephalosporins MDR via plasmids — base on susceptibility Chronic carriers: ampicillin, TMP-SMX, ciprofloxacin; cholecystectomy if gallbladder disease Salmonella food poisoning: usually self-limited Septicemia: as for typhoid Vaccines (typhoid) Ty21a live oral: attenuated S. typhi only; not <6y; boosters q5y; 50–80% protection Vi polysaccharide IM: 0.5 mL 2 wk pre-travel; not <2y; boosters q2y Older killed whole-cell: still used where new unavailable; more side effects	Enteric fever — strictly human; endemic in Egypt Infectious dose ~10⁶; lower with Vi Primary site: small intestine — M cells in Peyer's patches transcytose to mesenteric LN → primary bacteremia 1–2 wk (IP) → liver, gall bladder, spleen, kidney, BM → secondary bacteremia → fever; gallbladder → reinvade intestine + Peyer's patches Clinical: fever, headache, malaise, tender abdomen, constipation, splenomegaly, rose spots; complications = intestinal hemorrhage/perforation; 10–30% mortality untreated Carriers: gallbladder stones favor carriage; urinary bilharziasis favors urinary carriers (Egypt) Food poisoning (S. typhimurium, S. enteritidis): reservoir = animals + poultry; IP 12–48h; no blood invasion; blood culture & serology of no value S. choleraesuis: septicemia + metastatic abscesses on damaged tissues (infarcts, aortic aneurysms)
4 · EnterobacteriaceaeShigella	S. dysenteriae (Gp A, 13 serotypes) S. flexneri (Gp B, 8) S. boydii (Gp C, 18) S. sonnei (Gp D, 1)GN bacilli, non-motile, non-capsulated; strict human pathogens	MacConkey or DCA: pale yellow, non-lactose fermenting S. dysenteriae: glucose only, acid only Other species: glucose + mannitol, acid only S. sonnei: late lactose fermenter Anaerogenic (no gas) H₂S − and urease −	Lacks H antigen 4 serogroups by O antigen	Invasiveness: contact secretion system injecting invasion antigens into enterocytes; large plasmid encodes attachment S. dysenteriae type I (Shiga bacillus) exotoxin: heat-labile; enterotoxic (watery diarrhea early), cytotoxic (necrosis, ulceration, pseudomembrane), neurotoxic (meningism, convulsions, coma); similar to EHEC verotoxin Endotoxin (LPS): irritates bowel wall	Specimen: stool (visible blood + mucus) Microscopy: pus cells + RBC Culture: selenite broth × 24h → MacConkey/DCA ID: morphology, wet film + Gram, biochem, latex agglutination AST important (high resistance)	Fluid & electrolyte replacement Antibiotics shorten illness: ampicillin, ciprofloxacin, 3rd-gen cephalosporins	Strict human pathogens; no animal reservoir Very low infectious dose (~100 organisms) — acid-resistant survival through stomach "4 Fs": flies, feces, fingers, food Distal ileum + colon; invades M cells, multiplies in cytoplasm, spreads laterally via basolateral pole → apoptosis + sloughing → ulceration; submucosa inflammation; no blood invasion in healthy IP 1–4d; Dysentery triad: 1) abdominal cramps, 2) tenesmus, 3) frequent small-volume bloody mucoid stools Recovery spontaneous in most; children/elderly may have dehydration, acidosis, death
5 · Non-ferm GNBPseudomonas	P. aeruginosaAerobic, non-spore-forming, motile, non-fermentative GN bacilli; normal flora GIT + moist body sites; ubiquitous in moist hospital environments	Aerobic, non-fermentative Oxidase + and catalase + Indole negative No sugar fermentation; acid from glucose by oxidation only Grows at 42°C (vs 37°C optimal) Simple media; MacConkey colorless; blood agar complete hemolysis Diffusible exopigments + grape-like odor: pyoverdin (yellow) + pyocyanin (blue) → bright green	— (LPS / immunotypes mentioned only for epidemiologic typing)	Pili, flagella Endotoxin (LPS) Biofilm formation → chronic opportunistic infections (CF, ICU, elderly) Exotoxin A (Exo A): ADP-ribosylates EF-2 (like DT) → tissue necrosis Exoenzyme S (ExoS): delivered to cytoplasm via secretion system Elastase & phospholipase: degrade proteins/lipids — nutrient acquisition + dissemination	Specimens: skin lesions, pus (may be greenish-blue), urine, blood, CSF Gram: GN bacilli in pus Culture: readily grown; ID by morphology + pigment + Gram + biochem Bacteriophage typing for epidemiology; LPS immunotypes	Resistant to many antibiotics → in-vitro testing required Serious infections: β-lactam + aminoglycoside (combined) Infection control for nosocomial: moist environments (sinks, water baths, showers, hot tubs)	Community: folliculitis, swimmer's ear, eye infections (contact lens — corneal ulcer → blindness), osteomyelitis (children, IVDU), endocarditis (IVDU) Nosocomial: respiratory in intubated ICU patients, UTI, wound + septicemia, meningitis post-LP, chronic CF lung infection Characteristic grape-like odor
5 · Non-ferm GNBAcinetobacter	A. baumannii (commonest)Old names: Mima polymorpha, Herellea vaginicola; widely distributed in soil/water, can be cultured from skin, mucous membranes, secretions, hospital environment	Aerobic GN coccobacilli or cocci; diplococcal forms predominate in body fluids & on solid media Oxidase NEGATIVE — differentiates from Neisseria/Moraxella Grows well on most media	—	— (opportunistic; not detailed)	Specimens: blood, sputum, skin, pleural fluid, urine Mistaken for N. meningitidis (meningitis/sepsis) or N. gonorrhoeae (female genital tract) — oxidase NEGATIVE distinguishes	Often multi-resistant Susceptibility testing required	Mostly commensals; occasional nosocomial pathogen Device-associated (catheters, ventilators) Nosocomial pneumonia (most common): source often water of room humidifiers / vaporizers Bacteremia source: IV catheters almost always Burns + immunodeficient → opportunistic sepsis
5 · Non-ferm GNBMoraxella	M. catarrhalis (= Branhamella catarrhalis) M. lacunataSome species need enriched media (blood / chocolate)	GN bacilli, coccobacilli or cocci Non-motile, non-fermentative Oxidase + and DNase + Morphology / fastidious growth / positive oxidase → confused with Neisseria	—	M. catarrhalis: β-lactamase producer	Distinguished from Neisseria by morphology + oxidase + fastidious growth + DNase positivity	Generally susceptible to penicillin EXCEPT M. catarrhalis (β-lactamase)	Previously classified with Neisseria; M. catarrhalis was once called Branhamella catarrhalis M. catarrhalis: normal oropharyngeal flora; occasional otitis media + lower respiratory tract infection M. lacunata: angular conjunctivitis + blepharitis
6 · Curved GNBVibrios	V. cholerae O1 (classical + El Tor) & O139 V. parahaemolyticus V. vulnificusComma-shaped GN rods; saprophytes in surface (mainly salt) water and soil	Comma-shaped GN rods (straight on prolonged culture) Motile (single polar flagellum, darting motility) Highly aerobic Alkaline pH 8.5–9.5 favored; sensitive to acids + cold Alkaline peptone water: surface pellicle TCBS: V. cholerae yellow (sucrose+); V. parahaemolyticus green Ferments glucose, maltose, mannitol, sucrose Oxidase +, indole + Cholera red reaction + (nitrate → nitrite + indole from peptone → nitroso-indole → red with H₂SO₄) String test + (0.5% Na deoxycholate → DNA strings; differentiates from Aeromonas)	O antigens → ≥139 serogroups O1 & O139 → epidemic cholera; non-O1/non-O139 → sporadic O1: serotypes Ogawa, Inaba, Hikojima; biotypes Classical & El Tor Classical vs El Tor: hemolysis sheep RBC (− vs +); chicken RBC hemagglutination (− vs +); VP (− vs +); polymyxin B (sens vs res); phage IV (sens vs res)	TCP (Toxin-coregulated pilus): colonization; VPI pathogenicity island; co-regulated with CT Heat-stable endotoxin Cholera toxin (CT) / choleragen: heat-labile exotoxin, phage-encoded; A1+A2+5B subunits; B binds enterocyte receptor; A1 activates adenylate cyclase → ↑cAMP → excessive secretion of Cl⁻, K⁺, HCO₃⁻, Na⁺, water → severe diarrhea Mucinase: degrades mucous layer	Specimens: rice-water stools, rectal swab Stool → alkaline peptone water 6–8h → surface pellicle → TCBS (yellow colonies) ID: Wet mount: darting motility Gram: GN comma-shaped bacilli Biochem: sugars (glucose, maltose, mannitol, sucrose), oxidase +, indole +, cholera red +, string test +, TSI Agglutination with anti-O1 and anti-O139 sera Direct: IF, immunoassay for Ag, PCR for CT gene Secondary cases in epidemic: microscopy + anti-O sera immobilization	IV fluids — most important (correct fluid/electrolyte imbalance) Tetracycline: shortens excretion (resistance emerging) Prevention Sanitation; isolation; food washing; food handler observation Quarantinable disease Chemoprophylaxis: tetracyclines for exposed Vaccines: Koll's parenteral: killed whole-cell IM, 2 doses 1 wk apart; ~50% protection × 6 mo; only IgM/IgG not IgA BS-WC oral: killed + B subunit; induces IgA + antitoxin Abs CT B subunit vaccine Recombinant oral live (CT gene in S. typhi Ty21a)	Endemic Indian subcontinent; epidemic + pandemic IP 1–4d; rice-water diarrhea; up to 20 L fluid/day loss; severe vomiting + cramps Complications: dehydration, hypokalemia, metabolic acidosis, shock, death Infectious dose high (10¹⁰); lower with antacids / food (buffering) Infection localized to intestine (no blood invasion) Convalescent carriers: gall bladder × 4–5 wks; chronic only with El Tor Sensitive to 0.05% NaOCl, 70% EtOH, 2% glutaraldehyde, 8% formaldehyde, 10% H₂O₂, iodine El Tor survives longer than classical V. parahaemolyticus: halophilic, warm oceans; gastroenteritis epidemics from seafood/raw fish; virulent strains make hemolysin; TCBS green (no sucrose ferment) V. vulnificus: aquatic; rare septic infections in immunosuppressed
6 · Curved GNBCampylobacter	C. jejuni (most important — 95% Campylobacter enterocolitis) C. coli (also diarrhea) C. fetus, C. lari (rare systemic: bacteremia, meningitis, pneumonia)Spiral, motile, GN, microaerophilic	Small GN comma-, S-, or gull-wing-shaped rods Darting motility (single flagellum at one or both poles) Microaerophilic + capnophilic (5% O₂, 10% CO₂) Thermophilic — 42°C optimal Skirrow's medium (blood + vancomycin + polymyxin + TMP) 2–4 days to grow Oxidase + and catalase + Urease NEGATIVE (differentiates from Helicobacter)	—	Characteristic darting / corkscrew motility Invasiveness of jejunal mucosa → cell damage + inflammatory diarrhea Enterotoxin: secretory diarrhea Cytolethal distending toxin (CDT): arrests cell division, destroys mucosa	Specimen: stool Wet mount (motility); Gram (morphology); 1% basic fuchsin rapid stain ELISA / PCR Culture: Skirrow's at 42°C × 2–4d Biochem: oxidase +, catalase +, urease − Serology for autoimmune complications	Fluid/electrolyte replacement (if indicated) Severe: erythromycin or ciprofloxacin	Zoonotic (dogs, cats, cattle, poultry); contaminated unpasteurized milk, meat, poultry Children worldwide most affected Low infectious dose (few hundreds) Starts in jejunum; watery foul-smelling diarrhea → bloody stools + fever + severe pain Self-limited 7–10d; bacteremia rare (immunocompromised, neonates) Complications (≥2 wks later): Guillain-Barré syndrome (cross-reacting Abs vs axons/myelin); reactive arthritis (autoimmune) (Textbook also mentions Spirillum minus → rat-bite fever / sodoku, Japan)
6 · Curved GNBHelicobacter	H. pyloriSimilar to Campylobacter but multiple polar sheathed flagella	Similar to Campylobacter but multiple polar SHEATHED flagella Microaerophilic + humid environment Skirrow's medium at 37°C (NOT 42°C) 1 week to grow Urease POSITIVE — key difference from Campylobacter	—	Flagella: penetrate mucus layer Urease: ammonia neutralizes gastric acid Adhesins: deep mucosal attachment Vacuolating cytotoxin (VacA): cell vacuolation + apoptosis Cytotoxin-associated protein (CagA): encoded in pathogenicity island Contact secretion system: protein injection into epithelial cells	A. Invasive — gastric mucosa biopsy by endoscopy Rapid urease test (biopsy in urea + pH indicator → color change) Gram or special histologic stains Culture: Skirrow's 37°C microaerophilic humid, 1 week B. Non-invasive Urea breath test: ¹⁴C or ¹³C-labeled urea → radiolabeled CO₂ in breath Stool ELISA for Ag PCR (gastric juice, biopsy, feces) Serology (anti-H. pylori Abs)	Triple therapy: metronidazole + bismuth salt + (amoxicillin OR tetracycline) × 14d → 95% eradication Alternative: PPI + amoxicillin + (metronidazole OR clarithromycin) × 1 wk PPI also inhibits urease + enhances ulcer healing	Colonizes stomach in >50% world population; affects children + adults Key role in peptic ulcer disease, chronic gastritis, MALT lymphoma, gastric adenocarcinoma Acquired by oral-oral & feco-oral; iatrogenic role documented Humans = only significant reservoir
7 · Fastidious GNBHaemophilus	H. influenzae (Hib most pathogenic) H. ducreyi H. aegyptius (biogroup) H. parainfluenzae"Blood-loving" — fastidious GN; mucous membranes of human URT as normal flora	Need factor X (hemin) + factor V (NAD) → chocolate agar provides both On sheep blood agar: satellite phenomenon around S. aureus colonies GN coccobacilli, no specific arrangement Catalase + and oxidase + H. ducreyi: chocolate agar + X (not V) + vancomycin, 33°C, 10% CO₂	Capsular polysaccharide: types a, b, c, d, e, f; Hib most pathogenic Most normal-flora strains non-typable (no capsule) Somatic: outer membrane proteins Lipooligosaccharides (LOS): shared structures with Neisseria	IgA protease: degrades secretory IgA → facilitates respiratory mucosal attachment + colonization Polysaccharide capsule (PRP in Hib): confers invasive virulence Outer membrane proteins + LPS: invasion	Specimens: nasopharyngeal swab, pus, blood, CSF, sputum Gram: GN coccobacilli, no specific arrangement Chocolate agar 37°C 5% CO₂; X + V factor requirement; satellite phenomenon on sheep blood Catalase + and oxidase + Latex agglutination (LAT): direct detection of type-b PS in CSF — more sensitive than culture, unaffected by prior antibiotics, faster; culture in parallel for AST PCR most sensitive	Cefotaxime or ceftriaxone Rifampicin for nasal carriage Meningitis: steroids 15–20 min before antibiotic to limit inflammatory response → prevent neurologic deficit (mental retardation, seizures, speech delay, deafness) H. ducreyi: macrolide (azithromycin) + 3rd-gen ceph (ceftriaxone) Prevention Hib polysaccharide-protein conjugate vaccine (PS attached to protein carrier — recognized by young children's immune systems) Combined with DTP, polio, HBV (US) Rifampicin prophylaxis for unvaccinated close contacts <2y	Hib disease window: 5 mo to 5 y (maternal Abs protect <3 mo) Hib diseases: Meningitis (most serious; was most common bacterial meningitis in this age group; non-specific signs in infants) Acute epiglottitis (stridor, drooling, airway obstruction) Septic arthritis (most common cause in infants) Cellulitis (post-bacteremia) H. influenzae biogroup aegyptius: Koch discovered in Egypt during cholera studies; highly communicable purulent conjunctivitis; certain clones cause Brazilian purpuric fever (BPF) — fever, abdominal pain, purpura with preceding conjunctivitis H. ducreyi: chancroid — painful bleeding genital ulcer with necrotic base, ragged edge; regional lymphadenitis; STD; open lesion increases HIV transmission risk H. parainfluenzae: normal respiratory flora; rare infective endocarditis + arthritis
7 · Fastidious GNBBordetella	B. pertussis B. parapertussis (mild pertussis-like)Highly communicable; whooping cough	Minute GN capsulated coccobacilli (resemble H. influenzae) Requires nicotinamide + additives (charcoal): Bordet-Gengou medium or charcoal blood agar Grayish-white colonies with shiny convex surface — "mercury drop" appearance	—	Pertussis toxin (PT): major virulence factor; damages ciliated respiratory cells → paroxysmal toxemic stage Adenylate cyclase (AC): hemolytic, impairs phagocyte signaling/chemotaxis/superoxide/microbicidal function; induces apoptosis Tracheal cytotoxin (TCT): peptidoglycan fragment released by multiplying cells; kills ciliated tracheal cells Filamentous hemagglutinin (FHA) + pertactin: adhesion to ciliated epithelium	Specimen: saline nasal wash preferred; NP swab; cough plate during paroxysm Direct IF Culture × 7d → IF / slide agglutination / PCR (PCR most sensitive) Serology: limited (Abs rise wk 3); ELISA helpful for long-term cough	Erythromycin DOC Erythromycin prophylaxis for exposed unimmunized Prevention Heat-killed vaccine: from capsulated strains; DTP at 2, 4, 6 mo; not after 6y → encephalopathy Acellular vaccine (DTaP): purified Ag (PT + FHA); fewer side effects; 2, 4, 6 mo + 15–18 mo + 6y + 10–18y booster	Whooping cough = acute tracheobronchitis in young children; droplet transmission IP 2 weeks Phases: Catarrhal (infectious): mild URT — rhinorrhea, conjunctival congestion, dry cough Paroxysmal: hacking coughs ending with inspiratory "whoop"; followed by vomiting, cyanosis, convulsions Complications: pneumonia, otitis media, subconjunctival or cerebral hemorrhage
7 · Fastidious GNBBrucella	Br. melitensis (goats, sheep — most virulent + commonest in man) Br. abortus (cattle — needs 8–10% CO₂) Br. suis (swine) Br. canis (dogs)DNA evidence: only one species, Br. melitensis, with biovars; obligate parasites of animals + humans	GN short coccobacilli, non-motile, non-sporing, non-capsulated Aerobes, 35–37°C Enriched media: Brucella agar, brain heart infusion, liver extract, trypticase soy, chocolate Slow growers — 4–5 days on plates; blood cultures kept up to 1 month before reporting negative BSC required Catalase + and oxidase + Almost all urease + (variable intensity) Differentiate species/biovars by: dye sensitivity (basic fuchsin, thionine), H₂S, urea hydrolysis rate, CO₂ requirement, agglutination with monoclonal anti-A/M LPS	2 LPS antigens A and M in different proportions in the 4 species LPS has endotoxic activity; elicits IgA, IgM, IgG Immunity mainly cell-mediated (facultative intracellular) Superficial L antigen: responsible for virulence	Facultative intracellular parasite (in phagocytic cells) LPS endotoxic L antigen	Specimens: blood, bone marrow, LN biopsy, serum Repeated blood cultures at onset of febrile attacks; aerobic (most species) OR 10% CO₂ for Br. abortus; subcultures every few days × 3–4 wks before discarding ID by morphology, biochem, agglutination with specific antisera Serology: Standard tube agglutination test (STAT): 1/20–1/5120 dilutions to avoid prozone; ≥1/100 may be diagnostic; rising titer; consider endemicity + occupation (high baseline in farmers/butchers/vets) Prozone: Ab excess at low dilutions → false negative; blocking IgA antibodies (subacute) → another prozone source Coombs antiglobulin method: detects blocking IgA Rapid slide agglutination with stained Ag: screening farm animals + humans; not affected by prozone ELISA: IgG/IgM/IgA — replaced Coombs PCR for direct detection Brucellin test: delayed hypersensitivity (intradermal protein extract; 24–72h induration/erythema in chronic) — rarely used	Prolonged + combined (chronicity + intracellular) Tetracycline + (streptomycin OR rifampicin) Prophylaxis Live attenuated vaccine for cattle only No human vaccine available Limit/eradicate animal brucellosis; pasteurization; reduce occupational hazards	Brucellosis = Undulant fever / Malta fever Important Egyptian health problem Chronic life-long infection in animals: localize in reproductive organs; shed in milk, urine, placenta; cause sterility & abortion Transmission: intestinal (undercooked meat, unpasteurized milk/cheese), mucous membranes (droplet, conjunctiva), skin abrasions (animal tissues/blood/fluids) IP 1–6 weeks Acute bacteremic phase → chronic stage (years) Flu-like: malaise, fever, sweats, anorexia, headache, GI Undulating fever: 3–4 wk fever + 3–4 wk afebrile alternating Multi-organ: GI, skeletal, neurologic, CV, pulmonary; LN, liver, spleen enlargement Br. melitensis more acute/severe; Br. suis more chronic IgM peaks 3 mo, persists ≤2y; IgG peaks 6–8 wk; IgA parallels IgG Granuloma + abscess in liver, spleen, kidneys, bone marrow, LN
7 · Fastidious GNBFrancisella	F. tularensisFrom Minor Bacterial Pathogens section	GN coccobacillus Grows on modified Thayer-Martin agar	—	—	Highly infectious pathogenic nature — strict lab precautions	Streptomycin or gentamicin × 10 days Living attenuated vaccine required for lab workers	Reservoir: rabbits, rodents Transmission: biting arthropods (ticks, lice); direct contact with infected animal tissue; inhalation of aerosols; ingestion of contaminated food/water Disease (tularemia): fever + lymphadenopathy (ulceroglandular type); typhoid-like; eye infection; pulmonary disease Dangerous potential biological weapon
8 · Yersinia / PasteurellaYersinia	Y. pestis (plague) Y. enterocolitica Y. pseudotuberculosisMember of Enterobacteriaceae; animal natural hosts	Y. pestis: GN short ovoid, non-motile; at 37°C develops capsule-like outer envelope Wayson/Giemsa/methylene blue: marked bipolar staining Blood agar / MacConkey: non-lactose fermenting Growth better at 27–30°C than 37°C; colonies 2–5 days Catalase +; indole, oxidase, urease NEGATIVE Urease − + non-motile differentiates Y. pestis from other pathogenic Yersinia Y. enterocolitica / pseudotuberculosis: NLF, urease +, oxidase −; motile at 25°C, non-motile at 37°C Cold enrichment (rectal swab/feces in buffered saline pH 7.6 at 4°C × 2–4 wks)	Y. pestis — F1 capsular antigen (produced mainly at 37°C); antiphagocytic; induces protective Abs V-W antigens: plasmid-encoded, virulent strains only; antiphagocytic; cause calcium requirement at 37°C	LPS (endotoxin): endotoxic shock F1 antigen: capsule protein at 37°C, antiphagocytic, protective Abs V-W antigens: antiphagocytic, plasmid-encoded YOPs (Yersinia outer proteins): inhibit phagocytosis & cytokine production; increase replication/invasion; one Yop is a protease Exotoxin: lethal to mice	Y. pestis Specimens: aspirate of LN (bubonic), sputum (pneumonic), blood (septicemic), serum Direct: Wayson / Giemsa / methylene blue → bipolarity Direct F1 Ag: DFA; PCR (rapid, less hazardous than culture/animal) Animal inoculation in white rats / guinea pigs (autopsy) Culture: blood agar / MacConkey at 27–30°C; NLF; definitive ID by IF / inoculation / PCR Refer suspicious to public health lab; BSC always Serology: HA / ELISA — rising titer; useful in convalescence Y. enterocolitica / pseudotuberculosis Stool, blood, surgical material Cold enrichment → MacConkey at 25°C NLF, urease +, oxidase −; motile at 25°C, non-motile at 37°C Serology: rising agglutinin titer (cross-reacts with Vibrios, Salmonella, Brucella — may confuse)	Y. pestis: Tetracyclines (doxycycline), fluoroquinolones (ciprofloxacin), aminoglycosides (streptomycin not widely recommended; gentamicin) Early therapy crucial Pneumonic plague: initiate within 24h of symptoms; continue 10 d Contacts of pneumonic case: 7d prophylaxis; symptoms → 10d Tx Anti-rat / anti-flea measures; standard respiratory droplet precautions Formalin-killed vaccine for high-risk Yersiniosis: usually self-limited; severe → doxycycline + aminoglycoside; alternatives: TMP-SMX, ceftriaxone, FQ, chloramphenicol; resistant to penicillin G, ampicillin, cephalothin Pseudotuberculosis: lasts 1–3 wks untreated; complex cases — ampicillin, aminoglycosides, tetracycline, chloramphenicol or cephalosporins	Plague (black death) — zoonotic; epidemics; endemic in India, Far East, parts of Africa Primary in rats & rodents (reservoirs); rat-to-rat by rat fleas; organism multiplies in flea gut, regurgitated through bite puncture Human epidemics preceded by rat epizootics Clinical forms: Bubonic (Greek "boubon" = groin): painful enlarged inguinal LN (lower limb bite) / axillary (upper); fever, prostration Septicemic: endotoxic shock, DIC, cutaneous hemorrhage Pneumonic: hemorrhagic consolidation + sepsis; droplet spread (primary); uniformly fatal if not promptly treated Bioterrorism agent: aerosol → pneumonic; infected fleas → bubonic→septicemic Y. enterocolitica & Y. pseudotuberculosis: domestic + farm animals + water; food/drink fecal contamination; person-to-person rare; common in children — fever, abdominal pain, often bloody diarrhea; older children/adults — may mimic appendicitis
8 · Yersinia / PasteurellaPasteurella	P. multocida (= P. septica)Worldwide in respiratory + GIT of many domestic + wild animals	Non-motile GN coccobacilli with bipolar staining Aerobes / facultative anaerobes Grow readily on blood agar / chocolate agar at 37°C Oxidase + and catalase +	—	—	Standard culture from wound discharges (not detailed beyond morphology + biochem)	— (not detailed in textbook)	Most common organism in human wound from cat / dog bites or scratches Manifestations: cellulitis, lymphangitis, lymphadenitis, fever; complications: osteomyelitis, arthritis Some infections without animal contact — suspected nasopharyngeal colonization → respiratory disease, meningitis
10 · AnaerobesBacteroides	B. fragilis (most common opportunistic pathogen of the genus)Predominant anaerobe in human colon; opportunistic pathogen if introduced into abdominal cavity after bowel penetration	Slim, pale-staining, capsulated GN rods Strict anaerobe Form colonies overnight on blood agar — "fragility" name misleading	—	Superoxide dismutase: survival in oxygenated tissues until reduced microenvironment established Surface pili: adhesive Polysaccharide capsule: antiphagocytic; inhibits macrophage migration; triggers T-cell responses → abscess formation (purified capsule alone — even without live bacteria — stimulates abscess; unique vs. S. pneumoniae capsule) LPS endotoxin less toxic than other GNB (modified/absent lipid A) Extracellular enzymes: collagenase, fibrinolysin, heparinase, hyaluronidase	Anaerobic culture (standard methodology in textbook)	Drainage of abscesses + debridement = mainstays Almost always β-lactamase producers → inactivates Pen + many cephalosporins Tetracycline resistance common Susceptible: clindamycin, metronidazole β-lactams that work: imipenem; β-lactamase inhibitor combinations (clavulanate/sulbactam + ampicillin/ticarcillin) Preoperative cefoxitin recommended to prevent surgical wound contamination	Endogenous infections from patient's own intestinal flora; human-to-human transmission unknown Deep pain + tenderness below diaphragm Peritonitis + intra-abdominal abscess after bowel penetration (operation/trauma) Spread to blood more common with B. fragilis than any other anaerobe Course strongly influenced by other bacteria in abscess (especially Enterobacteriaceae)
10 · Anaerobes / ActinomycetesActinomycetes	Actinomyces israelii (anaerobic) Nocardia asteroides (aerobic) Streptomyces Actinomadura maduraeFungus-like bacteria related to Coryne & Mycobacteria; thin branching filaments breaking into bacillary + coccoid elements	Aerobic: Nocardia, Streptomyces — weakly GP, partially acid-fast, beaded branching filaments Anaerobic: Actinomyces (most free-living in soil & aerotolerant; anaerobic species are normal oral flora) — GP branching filaments Anaerobic culture, 37°C, 2 weeks	—	— (not detailed)	Actinomycosis: sulfur granules (microcolonies); Gram = GP branching filaments surrounded by radiating GN clubs (host origin) Anaerobic media × 2 wks Nocardia: GP, partially acid fast, beaded branching filaments	Actinomycosis: surgical drainage + penicillin G (6–12 mo); clindamycin or erythromycin if Pen-allergic Nocardiosis: TMP-SMX Actinomycotic mycetoma: surgical drainage + debridement + antimicrobials (vs antifungals for eumycetoma)	3 diseases: Actinomycosis (chronic suppurative granulomatous; drains pus + sulfur granules; lesion spreads + contagious): Cervicofacial (Lump jaw): face, neck, tongue, mandible Thoracic: lung with empyema Abdominal: caecum/appendix/pelvic (after ruptured appendix; IUD-associated uterine) Also: groin, urogenital, breast, post-op (aerotolerant species; often overlooked as contaminants) Nocardiosis: frequently misdiagnosed as TB (acid-fast + lung abscess/cavitation); pleural erosion → blood-borne brain abscess + other organs; steroid-treated immunocompromised at risk Actinomycotic mycetoma: chronic subcutaneous; swelling (oma) + sinuses draining granules, especially feet of farmers without shoes; spread to muscles/bones with bacterial type Actinomycotic vs Eumycotic: bacteria vs fungi; yellow vs black/white granules; GP bacilli/filaments vs septate hyphae; blood agar (aer + anaer) vs Sabouraud's RT; antibiotics vs surgical debridement + long antifungals
11 · Atypical GNBLegionella	L. pneumophila40 species in soil + water; multiply in free-living amebas; coexist in biofilms	Fastidious aerobic GN bacilli Facultative intracellular Poorly stained with Gram — use silver or fluorescent stain Best culture: buffered charcoal yeast extract (BCYE) agar	—	Inhibition of phagosome-lysosome fusion → multiplication in macrophage phagosomes C3b coating → promotes macrophage phagocytosis Degenerative enzymes kill infected cells; patchy lung infiltration	Culture: bronchial aspirate / pleural fluid / lung biopsy on BCYE aerobic → IF / nucleic acid probes Urinary antigen by ELISA within hours PCR Serology: IgM or rising IgG ELISA (retrospective outbreak diagnosis)	Macrolides (erythromycin, azithromycin) OR fluoroquinolones Prevention: hyperchlorination + heating of water supplies	Found in soil, water, biofilms, free-living amoebas Chlorine tolerant NO person-to-person spread Inhalation of aerosols from contaminated A/C systems + shower heads → hospital outbreaks (debilitated/immunocompromised) 2 diseases by host CMI: Legionnaire's disease: atypical pneumonia — fever, chills, dry cough; potentially fatal in immunosuppressed Pontiac fever: self-limited mild flu-like in healthy individuals
11 · Minor pathogensBartonella	B. bacilliformis B. quintana B. henselaeFrom Minor Bacterial Pathogens section	Small GN, polymorphic, motile bacilli	—	—	— (not detailed)	B. bacilliformis: penicillin, streptomycin, chloramphenicol B. henselae: mainly supportive — reassurance, hot moist soaks, analgesic; tetracycline or erythromycin may help	B. bacilliformis: Oroya fever — serious infectious anemia; transmitted by sand flies B. quintana: Trench fever; transmitted by body lice; human reservoir B. henselae: Cat-scratch disease — usually benign self-limited; fever + lymphadenopathy 2 weeks after cat scratch / bite / flea bite
11 · Minor pathogensGardnerella	G. vaginalisIsolated from normal female genitourinary tract	Gram variable coccobacilli	—	—	Bacterial vaginosis criteria Foul-smelling discharge "Whiff" test: 10% KOH on discharge → fishy odor "Clue cells": vaginal epithelial cells covered with Gram-variable coccobacilli Vaginal pH ≥ 4.5 (normal ≤ 4.5)	Metronidazole DOC	Associated with anaerobic bacteria → causes bacterial vaginosis BV associated with: premature rupture of membranes, preterm labor
12 · MycobacteriaMycobacterium	M. tuberculosis + M. bovis (MTC) M. leprae Atypical: M. scrofulaceum, M. kansasii, MAC (M. avium-intracellulare), M. fortuitum, M. chelonae, M. marinumGenus has >125 species, mostly environmental saprophytes; slender, straight or slightly curved, non-spore-forming, aerobic	Acid fastness due to mycolic acids (long-chain fatty acids) in cell wall → hydrophobic, impermeable; need strong dyes + heat; resist mineral acid + acid-alcohol decolorization M. tuberculosis: resists 25% H₂SO₄; M. leprae: resists only 5% H₂SO₄ Obligate aerobes; prefer highly oxygenated tissues Slow growers Survive ingestion by macrophages Survive weeks in dark moist conditions, days in dried sputa/excreta Rapidly killed by UV + heat Solid media: Lowenstein-Jensen (egg), Middlebrook 7H10 (agar) Broth: Middlebrook 7H9 — rapid & sensitive Radiometric (BACTEC): ¹⁴C palmitic acid → radioactive CO₂; reduces ID to 7–10 days Growth typically 2–4 wks; never reported negative before 8 wks ID by: biochem, growth rate, pigment, molecular	—	M. tuberculosis: glycolipids on outer surface → enhance granuloma formation, inhibit PMN migration, intracellular survival in macrophages No exotoxin, no endotoxin	Active TB Specimens: sputum (commonest), BAL, endotracheal aspirate; also urine, body fluids, gastric lavage, blood, tissue Decontamination/concentration for sputum/stools: NALC liquefaction → 4% NaOH decontamination → centrifugation Direct smear: Ziehl-Neelsen: positive smear highly suggestive (negative does not rule out); grade 1+ to 4+ for follow-up Auramine fluorescent: screening; confirm positives with ZN Culture = gold standard Molecular: PCR (DNA), RT (rRNA) — rapid but less sensitive/specific than culture Serology (ELISA, ICT): not useful for active TB (frequent false +/−) Latent TB Tuberculin skin test (Mantoux): 0.1 mL PPD 5TU intradermal volar forearm; read at 48–72h; ≥10 mm induration = positive; deeper injection → false negative Interpretation: positive = previous exposure / reactivation ability; suspicious in low-prevalence countries or contacts; little significance in endemic; BCG; <5y w/o exposure = suspicious; false positive from atypical Myco; false negative from severe TB (anergy), steroids, malnutrition, Hodgkin's, measles, AIDS IGRA: γ-IFN release from sensitized T-cells with specific M. tb antigens; not affected by BCG; single visit M. leprae Scraping/biopsy from nasal mucosa, earlobe, skin lesions Modified ZN (5% H₂SO₄): intracellular AFB (abundant in lepromatous, few in tuberculoid) Histopathology of characteristic lesion NOT CULTURABLE Lepromin test (like tuberculin): + in tuberculoid, − in lepromatous	TB Multiple drug therapy 6–12 mo to prevent resistance; sputum non-infective 2–3 wks after starting First line: isoniazid (major), rifampicin (2nd major), pyrazinamide, ethambutol, streptomycin Second line (more toxic, less effective): ethionamide, kanamycin, capreomycin, cycloserine, fluoroquinolones (ciprofloxacin) MDR-TB: resistant to ≥ INH + RIF XDR-TB: MDR + any FQ + ≥3 second-line Leprosy Sulphones (dapsone) = main therapy Combinations (e.g. dapsone + rifampicin) to prevent resistance Continue up to 2 years or until lesions organism-free Vaccination BCG: live attenuated bovine ("Bacillus Calmette-Guérin"); partial immunity vs M. tb & M. bovis Egypt: first year of life, single ID injection in deltoid Indications: 1st year of life; TST-neg contacts; TST-neg medical/healthcare; bladder carcinoma (CMI stimulation) Not for immunocompromised (AIDS)	TB: 1/3 of world infected; humans only reservoir for M. tb; cattle for M. bovis (rare ingestion of infected milk) 90% immunocompetent destroy bacilli; 10% develop active disease; bacilli may lie dormant for years 2–4 wks post-primary infection: CMI + delayed hypersensitivity (tuberculin becomes +) Primary (exudative): base of lung; Ghon's lesion (calcified scar); regional LN caseate then calcify; bacilli die slowly, few remain latent Secondary (reactivation): upper lobes; tubercles + caseation → fibrosis OR opens into bronchus (open TB — sputum infective); blood vessel erosion → miliary TB Latent TB infection (LTBI): asymptomatic, non-infectious Leprosy: skin + nasal mucosa + nerve fibers; tropical Asia + Africa; prolonged contact needed; inhalation of nasal secretions / shedding lesions of lepromatous Lepromatous: severe; multiple skin nodules → leonine facies (lion-like); many bacilli, highly infectious; CMI reduced; lepromin negative Tuberculoid: mild; hypopigmented macules + thickened superficial nerves + anesthesia; few bacilli; CMI intact; lepromin positive Atypical Mycobacteria (opportunistic, environmental, commensal): M. scrofulaceum: chronic cervical lymphadenitis in children (scrofula) M. kansasii: TB-like disease MAC: TB-like, especially in AIDS M. fortuitum: injection site infections in drug abusers M. chelonae: skin, soft tissue, bone, prosthetic joint infections M. marinum: swimming pool granuloma
13 · SpirochetesTreponema	T. pallidumFamily Treponemataceae; extremely thin, very long, spiral / corkscrew-shaped; outer sheath encloses endoflagella (axial fibrils) around protoplasmic cylinder	Spirochete morphology; not cultivable on standard media (relies on microscopy + serology)	—	Outer membrane proteins: adherence to host cell surface Hyaluronidase: facilitates perivascular infiltration	Specimens: serous exudate from chancre, maculopapular rash, condylomata lata; serum Visualization: Dark-ground microscopy: tiny helical organism, characteristic slow corkscrew motion Silver impregnation (Fontana): dark brown against yellow Direct IF using fluorescein-labeled anti-treponemal Abs PCR in clinical material Serologic Tests for Syphilis (STS): Non-specific (treponemal): detect Abs vs non-specific cardiolipin + lecithin Ags (released by infection damage); usable on CSF VDRL, RPR, ART False positives: 1% adults, pregnancy, infectious mononucleosis, viral hepatitis, vaccinations, collagen-vascular dz Specific (treponemal): detect Abs vs spirochete itself; confirmatory; remain positive for life even after treatment FTA-ABS (Fluorescent Treponemal Antibody absorption) MHA-TP: sheep RBC coated with T. pallidum extract → agglutination	Penicillin Tetracycline or erythromycin if Pen-allergic	Acquired syphilis — STD; also direct contact (HCW), fresh blood transfusion, transplacental Primary (2–10 wks): nontender "chancre", clean indurated base at entry site; contagious; heals spontaneously 3–6 wks; dark-field/IF of lesion; 50% serology negative Secondary (1–3 mo later): Maculopapular copper-colored rash, diffuse, includes palms & soles; patchy alopecia Condylomata lata: flat wart-like perianal + mucous membrane lesions; highly contagious Syphilitic meningitis, chorioretinitis, hepatitis, nephritis (immune complex), periostitis Both serologies positive Latent: no clinical; serology positive Tertiary (30% untreated, years): gummas (syphilitic granulomas), aortitis, CNS inflammation, cardiovascular lesions; specific serology +, non-specific may be − Congenital: abortion, stillbirth, or live with congenital syphilis: interstitial keratitis, Hutchinson's teeth, saddle nose, periostitis, CNS anomalies; serology reverts negative within 3 mo if uninfected
13 · SpirochetesBorrelia	B. burgdorferi (Lyme) B. recurrentis (epidemic relapsing fever) B. duttoni (endemic relapsing fever)Also implicated in ANUG (Vincent's angina) — polymicrobial with Prevotella, Fusobacterium, Treponema	Spirochete morphology (axial fibrils as in Treponema)	—	— (not specifically detailed)	Lyme If ECM present: biopsy from leading edge cultured for B. burgdorferi Serology: anti-B. burgdorferi Abs by ELISA + Western immunoblot Relapsing fever Febrile stage: blood films stained with Leishman or Giemsa → large numbers of spirochetes Afebrile stage: blood films negative → IP injection of white mice; tail blood films 2–4 d later for stained spirochetes DNA probes	Tetracyclines and penicillin (both diseases)	Lyme disease (B. burgdorferi) Reservoir: rodents (mice) and deer Transmission: bite of nymphs + adult tick Invades skin → blood → heart, joints, CNS Arthritis caused by immune complex Erythema chronicum migrans (ECM): annular skin lesion at bite site, erythematous leading edge + central clearing — "bull's eye"; fever, chills, muscle pain, headache Weeks later: myocarditis + neurologic manifestations Late (months/years): arthralgias, migrating arthritis Relapsing fever Lice/ticks infected by feeding during bacteremia IP 3–10d; sudden fever ~4d → afebrile 3–10d → next bout; 3–10 relapses Abs appear in febrile stage → terminate attack Epidemic (European): B. recurrentis; lice; crushing louse into bite wound; human reservoir; longer fever, fewer relapses Endemic (African): B. duttoni + other Borrelia; tick bite; reservoir B. duttoni = human, others = rodents; shorter fever, more relapses ANUG (Vincent's angina) Necrosis + ulceration of interdental papillae/gingiva, pseudomembrane formation; painful bright red gingiva that bleeds on gentle manipulation Polymicrobial: anaerobes (Prevotella intermedia, Fusobacterium) + spirochetes (Borrelia, Treponema) Higher prevalence with immunocompromise (HIV)
13 · SpirochetesLeptospira	L. interrogans (incl. L. icterohaemorrhagiae serogroup)Zoonosis	Spirochete morphology Culture on Fletcher's or Stuart's medium at 30°C	—	—	Specimens: blood (during fever), CSF, urine (from week 2) Serology: agglutination test + ELISA — Abs appear week 2 Culture: Fletcher's / Stuart's at 30°C Microscopy of blood/urine deposit films: dark-ground or stained (insensitive)	Penicillin and tetracyclines	Reservoir: wild + domestic animals (rats, dogs, field mice) Transmission: contact with animal urine in water → mucous membranes or breaks in epidermis Occupational: sewage workers, miners, farmers, fishermen Disease: Weil's disease in man — fever × few days → jaundice + hemorrhages + renal failure; severe cases complicated by meningitis Organism in blood during fever; urine from week 2
14 · MycoplasmaMycoplasma	M. pneumoniae (Eaton agent) M. hominis U. urealyticum M. genitalium~60 species; spread by direct contact + fresh respiratory droplets	Smallest extracellular bacteria No rigid cell wall — bounded by triple-layered "unit membrane" containing sterols Stain poorly with Gram Completely resistant to penicillin (no cell wall target) Highly pleomorphic Reproduce in cell-free media; differ from viruses (have both DNA and RNA; grow in cell-free media) Pass through 450-nm pore filters (Chlamydia/virus comparable) Fastidious + slow growers → diagnosis usually serological / PCR Facultative anaerobes Better growth in 10% CO₂ ≥1 wk for visible colonies → "fried-egg appearance" (center embedded beneath agar surface) Induce cold agglutinins: autoantibodies agglutinating O-group RBC at 4°C after 1–2 wks of disease; titer >1/128 = positive; positive in 50% (also viral infections, malaria, acquired hemolytic anemia)	—	—	Specimens: sputum, nasopharyngeal aspirate Smears: Giemsa Culture: special media + serum/sterols, 10% CO₂; ≥1 wk for fried-egg colonies Direct: IF for Ag; PCR / DNA probes for specific nucleotide Serology = most useful: IgM or rising IgG by ELISA or CFT Cold agglutinin ≥1/128 indicates recent infection Sputum isolation: difficult + time consuming	Tetracyclines Macrolides (erythromycin or azithromycin)	M. pneumoniae: atypical pneumonia; associated with joint + other infections M. hominis: sometimes postpartum fever; uterine tube infections (with other bacteria) U. urealyticum: nongonococcal urethritis in men; lung disease in low-birth-weight premature infants M. genitalium: closely related to M. pneumoniae; urethral + other infections
15 · RickettsiaRickettsia & Coxiella	Typhus: R. prowazekii, R. typhi, O. tsutsugamushi Spotted: R. rickettsii, R. akari Coxiella burnetiiGenus of non-motile GN, non-sporing, highly pleomorphic (cocci/rods/threads); obligate intracellular parasites	Non-motile, GN, non-sporing, highly pleomorphic (cocci, rods, thread-like) Obligate intracellular parasites — cannot live in artificial nutrient environments Majority susceptible to tetracyclines Coxiella burnetii: unique endospore-like structure → resistant to heat, UV, drying; extracellular survival; non-arthropod transmission; aerosolization	Coxiella burnetii: Phase I antigen: LPS + complex carbohydrates; infectious; antigenic variation; isolated from nature Phase II antigen: exposed surface protein; avirulent Weil-Felix cross-reactivity with P. vulgaris OX strains (utilized for serodiagnosis)	Coxiella endospore-like structure (resistant; survives extracellular; aerosol-borne); ability to cause pneumonia if spores inhaled Vasculitis-causing intracellular multiplication in endothelial cells of small blood vessels (typhus & spotted fevers)	Initial diagnosis is clinical — do NOT delay treatment Serology: Abs detectable only in later stages; IFA, CF, ELISA; 4-fold rise diagnostic R. rickettsii: Direct IFA of organism in tissue Brill-Zinsser: rapid early IgG rise specific to R. prowazekii (vs IgM in primary) Coxiella: Isolation by primary guinea pig inoculation + subsequent yolk sac cultures Serology: agglutination, indirect IF, CFT using Coxiella antigens Phase I Abs (chronic) vs Phase I+II (acute)	Tetracycline (doxycycline) Chloramphenicol R. rickettsii: doxycycline Coxiella / Q fever: doxycycline DOC Vaccines Epidemic typhus: formalin-killed R. prowazekii vaccine (useful in military during war-time) Endemic typhus: live "Strain E" vaccine Q fever: formalin-killed Coxiella vaccine for high-risk (vets, shepherds, abattoir workers, exposed lab personnel) Control Sanitation + eradication of human lice (epidemic typhus) Control flea + rat populations; rat-proof buildings (endemic typhus) Tick-bite protection + prompt eradication (RMSF) Pasteurization >60°C for Coxiella spores	Typhus group Epidemic typhus (R. prowazekii): human reservoir; body louse — infection by louse feces contaminating bite; abrupt fever + headache; centrifugal rash from upper trunk → entire body; DIC + vascular occlusion; death from circulatory/renal failure Brill-Zinsser: latent R. prowazekii reactivation in recovered patients without antibiotic therapy; usually mild, no rash (pre-existing Abs); untreated patient serves as reservoir between epidemics Endemic typhus (R. typhi): rat reservoir; rat flea; resembles epidemic typhus but much milder, low mortality, not epidemic Scrub typhus (O. tsutsugamushi): rodent reservoir; bite of mite larvae (chiggers); fever, headache, muscle pain, cough, GI symptoms; maculopapular rash, eschar, splenomegaly, lymphadenopathies; more virulent strains → hemorrhage + IVC Spotted fever group Rocky Mountain spotted fever (R. rickettsii): reservoir = rodents + dogs; Dog Tick or Rocky Mountain Wood Tick (ticks = natural hosts as reservoirs + vectors); vasculitis in brain, liver, skin, lungs, kidney, GIT; headache, fever, malaise, vomiting, confusion; rash maculopapular → petechial — starts on ankles + wrists → trunk, palms, soles, face (centripetal); CNS, DIC, circulatory collapse in severe Rickettsial pox (R. akari): house mice reservoir; bite of mite living on mice; mild illness: fever + headache + vesicular rash Coxiella burnetii / Q fever Spores grow in tick → transmits to goat, sheep, cattle during bites; spores survive in dried tick feces on cattle hide + in dried cow placentas; aerosolized → human disease on inhalation Transmission routes: inhalation of contaminated dust; handling infected animals/discharges; consumption of milk from infected animals Q fever: febrile, influenza-like, pneumonia with granulomatous hepatitis, NO rash; Abs to phase I + II Chronic Q fever: subacute infective endocarditis, fever, fatigue, dyspnea; Abs to phase I
16 · ChlamydiaChlamydiaceae	C. trachomatis (15+ serotypes — A, B, Ba, C, D–K, L1, L2, L3) Chlamydophila psittaci Chlamydophila pneumoniaeObligate intracellular bacteria — "energy parasites" (need host ATP); 250–400 nm; classified GN but NO peptidoglycan / muramic acid	Obligate intracellular 250–400 nm Classified GN but lack peptidoglycan + muramic acid Two forms in life cycle: Elementary body (EB): metabolically inert, small (~300 nm), round, infectious; extensive disulfide cross-linkages stabilize extracellular existence; high affinity for host columnar epithelium (conjunctiva, cervix, respiratory tract) — enter via endocytosis Initial/Reticulate body (RB): inhibits phagosome-lysosome fusion; grows to 1000 nm; divides by binary fission; differentiates back into EBs forming cytoplasmic inclusion bodies; host cell liberates by extrusion or lysis	Group-specific LPS Strain-specific outer membrane proteins C. trachomatis: ≥15 serotypes (A, B, Ba, C, D thru K, L1, L2, L3)	— (intracellular; relies on host machinery)	Specimens: conjunctival, urethral discharge, cervical scraping, sputum, pus, etc. Cytoplasmic inclusion bodies: Giemsa, iodine, or fluorescent antibody-stained scrapings Chlamydial Ag by ELISA or IF (group LPS / strain OMPs) Chlamydia nucleic acids by probes or PCR Cell culture isolation: McCoy cells for C. trachomatis + C. psittaci HEP-2 cells for C. pneumoniae Detection of inclusion bodies by iodine stain Serology: cannot distinguish current vs past; IgM or 4-fold IgG rise diagnostic for psittaci/pneumoniae	Tetracycline and erythromycin STD: doxycycline or azithromycin; treat patients + sexual partners; safe sexual practices C. psittaci: quarantine imported birds; antibiotic-supplemented feed for bird infection control	C. trachomatis (human only) Serotypes A, B, Ba, C → Trachoma: chronic keratoconjunctivitis; leading cause of preventable infectious blindness; disease of poverty; acute follicular conjunctivitis → conjunctival scarring → inturned eye lashes → corneal scarring + blindness; transmission by droplets, hands, contaminated clothes, flies Serotypes D–K: Genital STI: males — NGU + epididymitis; females — cervicitis, salpingitis, PID → infertility + ectopic pregnancy Inclusion conjunctivitis: purulent discharge, no scarring or corneal involvement; adult (fingers) or neonate (birth canal) Neonatal pneumonia: birth canal acquisition Respiratory tract infections: adults with inclusion conjunctivitis may develop otitis media / pharyngitis / nasal obstruction via nasolacrimal duct drainage Serotypes L1, L2, L3 → Lymphogranuloma venereum (LGV): STD; painless papule/ulcer on external genitals → migrate to inguinal regional LN → enlarge, tender, suppurate; pus drains through overlying skin; healing by scar formation → stricture + lymphatic obstruction → genital elephantiasis Chlamydophila psittaci Infects >130 species of birds including pet parrots → psittacosis (bird fever) Birds shed in respiratory secretions + faeces Humans: inhale dust from feathers/dried feces → atypical pneumonia High risk: veterinarians, poultry workers, zoo keepers, pet shop workers Chlamydophila pneumoniae Human-only; person-to-person via respiratory route; atypical pneumonia Potentially associated with atherosclerosis of coronary artery + cerebrovascular disease