Bacteremia Exam Notes PDF

Summary

These notes summarize bacteremia, a blood infection caused by bacteria. They cover the primary sources, common etiologies, pathophysiology, complications, clinical presentations, diagnosis, and approaches to treatment, useful for medical students.

Full Transcript

BACTEREMIA
Determining the primary (original) source of this infection is critical
○ May be the cause or consequence of another infection

Epidemiology & Common Etiologies
Hospital-acquired: respiratory tract, indwelling catheters
Community acquired: UTIs
Post-operative: soft tissue, intra abdominal infections
Gram-positive
○ Increased over past decades (aging population, device-related procedures)
○ Staph aureus = most common
Gram-negative
○ Most common associated with CAB
○ E coli= most common

Pathophysiology- reproducing bacteria lead to septicemia due to immune system failure
Cellular innate and adaptive immune responses responsible for initial microbe clearance
Liver and spleen filtration of active bacteria in circulating blood

Complications
May cause endocarditis, osteomyelitis, meningitis, and other complicating infections, as
well as progression to sepsis and multiorgan dysfunction that can be fatal

Clinical presentation
FEVER
Chills and/or rigors; do not need to be present
When it leads to sepsis and septic shock
○ Hypotension, altered mental status decreased urine output due to hypovolemia
from leaky capillaries

Diagnosis
Identifying or presuming the source dictates the diagnostic workup (ex UTI- urine)
When suspected labs include blood cultures:
○ 2 sets (1 from each arm) assessing for aerobic and anaerobic organisms
2 bottles from 1 arm
2 bottles from other arm
○ WBC- often elevated (non-specific)

Approach to Treatment
Urgent and appropriate antibiotics required
○ Broad-spectrum, bactericidal, high dose
Antibiotic selection based on:
○ Community vs hospital-acquired
○ Recent healthcare exposure, surgery?
○ Local antibiotic resistance patterns (antibiogram)
○ Rapid diagnostic tools when available
Other Considerations
Route
○ IV preferred initially
○ Oral: afebrile > 48 hours, clinically improved & stable unless complicated by other
infection, high bioavailability drug
Duration
○ Based on source and its control
○ Gram positive- 14 days, complicated may be 4-6 weeks

Evaluation of Therapeutic Outcomes
Clinical
○ Resolved signs and symptoms
○ Source identified and eradicated
○ Drug specific toxicity
○ No complicating infections
Microbiological
○ Susceptibility data
○ Sterilization of blood cultures

· Infective Endocarditis
o Pathogenesis sequence – slide 12
o Know the following 3 specific listed risk factors for endocarditis:
§ Previous endocarditis, prosthetic heart valve, injection drug use –
slides 10-11
§ Treatment approach – Slide 20

INFECTIVE ENDOCARDITIS = endovascular infection
Inflammation of lining membrane of heart (endocardium)
Epidemiology
Classifications
○ Acute or subacute
○ Native valve or prosthetic valve
○ Community acquired or health-care associated
○ By microbiological etiology
Impact
○ High mortality (20-30%)
○ Fatal without antimicrobial therapy
○ Rising incidence
Acute bacterial
Health-care associated
Staph aureus assoc with both
Risk factors
○ Predisposing heart conditions
Valve replacement therapy- treatment will differ
 ○ PWID
Direct inoculation
Clinical manifestations differ
⅔ have no underlying heart disease
Predilection for tricuspid valve- local damage to endocardium
Only 35% with heart murmurs on admit

Risk factors (AHA predisposing heart conditions)
High risk
Moderate risk
Low or no-risk

Pathogenesis
1. Pathogen accesses bloodstream
○ Dental, IV catheter, PWID
2. Adheres to valve surface
○ Abnormal blood flow predisposes (at risk)
3. Pathogen persists and proliferates
○ Vegetation forms
Bacterial haven
4. Pathogen disseminates
○ Metastatic infections

Approach to Treatment
Directed therapy
○ Pathogen is known when IE is determined
○ Approach based on most likely pathogen, “culture negative” IE approach
Bactericidal drugs
High dose
Parenteral (IV)
Long duration (6-8 weeks or more)
○ May require outpatient parenteral antimicrobial therapy
○ Rationale for long treatment course:
Organisms produce biofilm on valve structure; difficult to penetrate
vegetation
Non-reproductive bacterial growth phase
High risk of recurrence

MENINGITIS
=Inflammation of meninges
Likely common pathogens based on gram stain results
Streptococcus pneumoniae (58-72%)
○ Gram-positive cocci in pairs
○ Ceftriaxone + vancomycin (for resistance risk)
 Strept agalactiae
○ Gram-positive cocci
○ Ampicillin + gentamicin
Listeria monocytogenes
○ Gram positive rods
○ Ampicillin or PCN +/- gentamicin
Neisseria meningitidis
○ Gram-negative diplococci
○ Ceftriaxone
Haemophilus influenzae
○ Gram-negative rod
○ ceftriaxone

Approach to treatment
Pathophysiology- treatment
○ 1. Bacteria multiply in CSF
○ 2. CSF typically blacks antibodies and complement
○ 3. Thus, antibacterials that inhibit bacterial growth are not enough!
○ 4. Bactericidal drugs required to sterile the CSF
○ 5. Antibacterials must cross BBB
○ Tissue damage is due to inflammation from bacteria in CSF; enhanced with
bacterial lysis from bactericidal drugs- anti-inflammatory corticosteroids to
mitigate
Approach
○ 1. Start antibiotics EMPIRICALLY, then based on patient specific CSF culture
data
Obtaining CSF fluid may be delayed for patient safety (ex on warfarin)
Antibacterial and antiviral (acyclovir) often both initiated
○ 2. Empiric antibacterial backbone
3rd gen IV cephalosporin + IV vancomycin
Risk for nosocomial GNR- ceftazidime or cefepime
○ 3. Add IV ampicillin for listeria monocytogenes risk
○ 4. High doses to penetrate BBB to access CSF

OSTEOMYELITIS AND SEPTIC JOINT

General classifications
Infective arthritis
○ Inflammatory reaction within JOINT SPACE associated with
purulent effusion
○ Most common in young children, elderly
Osteomyelitis
○ Inflammation of BONE, especially the marrow
 Infective arthritis Osteomyelitis

Duration Acute: < 7 days Acute: recent onset,
> 7 days chronic or symptoms for 1 week
irreversible damage Chronic: longer than 1-4
weeks, initial infection
relapse

Etiology Gonococcal, Presence or absence of
nongonococcal peripheral vascular
disease and vascular
insufficiency

What’s affected Number of joints Portion of bone
(knee=most common affected, patient’s
site), monoarticular vs physiologic status, local
polyarticular environment

Etiology

Infective arthritis Osteomyelitis

Cause? Bacteria, viruses, fungi, bacteria
parasites

Most common Adults: Hematogenous (spread
pathogens Staph aureus through bloodstream)
(48%) S. aureus
Strept species H. influenzae
Less often (common in
gram-negative children prior to
vaccines)
Salmonella
species

Children: Direct Inoculation &
4: S. aureus outside of body)
S. aureus
Polymicrobial
○ E coli
○ Pseudomo
nas
aeruginos
 a
○ Strept
species
○ Staph
epidermidi
s

Characteristics of synovial fluid for infectious arthritis diagnosis

IA OM

ESR, CRP increased increased

Serum WBC Increased with left shift Acute: increased WBC
differential with left shift
Chronic: may be normal

Blood culture Positive 50%; 20% Positive in 50%
gonococcal hematogenous

Other tests Needle aspiration of X-ray: bone changes
joint (synovial fluid): 10-14 days after onset
Arthrocentesis 50% of bone matrix
Purulent fluid must be decalcified to
Positive gram detect
stain & culture
WBC 50-200 x MRI- most sensitive,
10^3/mm^3 common
WBC differential
with > 90% Bone aspiration/biopsy
polymorphonucle
ar leukocytes Culture of abscess
Low glucose
High lactic acid
(non-gonococcal)

Approach to treatment
Empiric therapy initiated before pathogen is identified
○ IA: based on gram stain of synovial fluid
○ Prosthetic joint infection- combination therapy often includes
rifampin
Antibiotics must penetrate readily into bone/joint space
○ Start with IV in high doses
 IA OM

Source control Joint drainage Surgical debridement of
bone may be needed

Long duration 3-4 weeks in adults, 10 4-6 weeks in adults (8
days in children w/ weeks for MRSA); acute
normalized CRP hematogenous in
children 3 weeks
minimum

Inpatient to outpatient IV initiated in hospital “”
with placement of
long-term I access- to
OPAT

Necrotizing soft tissue infections- focus on necrotizing fasciitis

Types, most common risk factor = diabetes
Complications: TSS, compartment syndrome, septic shock

SLIDE 66

Type 1 Most common (80%)

Anaerobes and facultative bacteria
act synergistically to cause
destruction of fat and fascia

Type 2 More common in younger patients,
MRSA increasingly common

Streptococcal gangrene = flesh
eating bacteria

Rapidly extending necrosis of SC
tissues; early onset shock/organ
failure

Type 3 Involves skeletal muscle

Prominent gas production, muscle
necrosis
Type 4 Rare; fungal etiology, traumatic
wounds, burns

Clinical presentation and approach to treatment
Location: typically abdomen, perineum, lower extremities
In contrast to cellulitis
○ Severe pain, disproportional to clinical findings
○ Fails to respond to initial antibiotic therapy (if IV or PO)
Determined from appearance during surgery
○ Swollen, dull-gray fascia
Treatment
○ Requires surgical management
immediate/aggressive surgical debridement of all necrotic
tissues
○ Antibiotics
Broad empiric coverage, IV route
○ IV fluid replacement
Maintain hydration
○ IVIG - may benefit strep infections
○ Hyperbaric oxygen