CRP: Difference between revisions

(Created page with "'''C-reactive protein (CRP)''' is an acute-phase reactant produced by the liver in response to IL-6 stimulation during inflammation, infection, or tissue injury. It is one of the most commonly ordered inflammatory markers in the ED but is '''nonspecific''' — it rises in virtually any inflammatory state.<ref name="Pepys2003">Pepys MB, Hirschfield GM. C-reactive protein: a critical update. ''J Clin Invest''. 2003;111(12):1805-1812.</ref> ==Background==...")
 
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'''C-reactive protein (CRP)''' is an acute-phase reactant produced by the liver in response to [[Interleukin-6|IL-6]] stimulation during inflammation, infection, or tissue injury. It is one of the most commonly ordered inflammatory markers in the ED but is '''nonspecific''' — it rises in virtually any inflammatory state.<ref name="Pepys2003">Pepys MB, Hirschfield GM. C-reactive protein: a critical update. ''J Clin Invest''. 2003;111(12):1805-1812.</ref>
==Background==
*C-reactive protein (CRP) is an acute-phase reactant produced by the liver in response to [[Interleukin-6|IL-6]] stimulation during inflammation, infection, or tissue injury.
*It is one of the most commonly ordered inflammatory markers in the ED but is nonspecific — it rises in virtually any inflammatory state.<ref name="Pepys2003">Pepys MB, Hirschfield GM.
*C-reactive protein: a critical update. ''J Clin Invest''. 2003;111(12):1805-1812.</ref>
 


==Background==
*CRP rises within 6–8 hours of an inflammatory stimulus, peaks at ~48 hours, and has a plasma half-life of ~19 hours<ref name="Pepys2003"/>
*CRP rises within 6–8 hours of an inflammatory stimulus, peaks at ~48 hours, and has a plasma half-life of ~19 hours<ref name="Pepys2003"/>
*Levels fall rapidly with resolution of the stimulus, making CRP useful for trending disease activity
*Levels fall rapidly with resolution of the stimulus, making CRP useful for trending disease activity
*CRP is produced exclusively by hepatocytes; severe liver failure may blunt the CRP response<ref name="Pepys2003"/>
*CRP is produced exclusively by hepatocytes; severe liver failure may blunt the CRP response<ref name="Pepys2003"/>
*Two assays exist:
*Two assays exist:
**'''Standard CRP:''' Measures levels typically >10 mg/L; used for detecting infection and inflammation
**Standard CRP: Measures levels typically >10 mg/L; used for detecting infection and inflammation
**'''High-sensitivity CRP (hs-CRP):''' Measures levels <10 mg/L; used for cardiovascular risk stratification (not typically useful in acute ED settings)
**High-sensitivity CRP (hs-CRP): Measures levels <10 mg/L; used for cardiovascular risk stratification (not typically useful in acute ED settings)


==Normal Values==
==Normal Values==
*'''Normal:''' <10 mg/L (some labs use <5 mg/L or <3 mg/L as cutoff)
*Normal: <10 mg/L (some labs use <5 mg/L or <3 mg/L as cutoff)
*'''Mild elevation:''' 10–50 mg/L — viral infections, mild inflammation, most autoimmune flares
*Mild elevation: 10–50 mg/L — viral infections, mild inflammation, most autoimmune flares
*'''Moderate elevation:''' 50–100 mg/L — significant bacterial infection or active inflammatory disease
*Moderate elevation: 50–100 mg/L — significant bacterial infection or active inflammatory disease
*'''Marked elevation:''' >100 mg/L — strongly suggests serious bacterial infection, sepsis, major trauma, or severe pancreatitis<ref name="Clyne1999">Clyne B, Olshaker JS. The C-reactive protein. ''J Emerg Med''. 1999;17(6):1019-1025.</ref>
*Marked elevation: >100 mg/L — strongly suggests serious bacterial infection, sepsis, major trauma, or severe pancreatitis<ref name="Clyne1999">Clyne B, Olshaker JS. The C-reactive protein. ''J Emerg Med''. 1999;17(6):1019-1025.</ref>
*'''Extreme elevation:''' >200 mg/L — often seen in [[Sepsis|sepsis]], [[Necrotizing fasciitis|necrotizing soft tissue infection]], or extensive burns
*Extreme elevation: >200 mg/L — often seen in [[Sepsis|sepsis]], [[Necrotizing fasciitis|necrotizing soft tissue infection]], or extensive burns


==ED Applications==
==ED Applications==
===Where CRP adds value===
===Where CRP adds value===
*'''Trending:''' Serial CRP measurements are more useful than a single value — a rising CRP suggests clinical deterioration; a falling CRP supports treatment response
*Trending: Serial CRP measurements are more useful than a single value — a rising CRP suggests clinical deterioration; a falling CRP supports treatment response
*'''Pediatric fever without source:''' CRP >80 mg/L increases the likelihood of serious bacterial infection in febrile children<ref name="Sanders2008">Sanders S, et al. Systematic review of the diagnostic accuracy of C-reactive protein to detect bacterial infection in nonhospitalized infants and children with fever. ''J Pediatr''. 2008;153(4):570-574.</ref>
*Pediatric fever without source: CRP >80 mg/L increases the likelihood of serious bacterial infection in febrile children<ref name="Sanders2008">Sanders S, et al. Systematic review of the diagnostic accuracy of C-reactive protein to detect bacterial infection in nonhospitalized infants and children with fever. ''J Pediatr''. 2008;153(4):570-574.</ref>
*'''[[Appendicitis]]:''' A normal CRP (especially combined with normal WBC and no left shift) has a high negative predictive value for appendicitis, particularly if symptoms >24 hours<ref name="Andersson2004">Andersson RE. Meta-analysis of the clinical and laboratory diagnosis of appendicitis. ''Br J Surg''. 2004;91(1):28-37.</ref>
*[[Appendicitis]]: A normal CRP (especially combined with normal WBC and no left shift) has a high negative predictive value for appendicitis, particularly if symptoms >24 hours<ref name="Andersson2004">Andersson RE. Meta-analysis of the clinical and laboratory diagnosis of appendicitis. ''Br J Surg''. 2004;91(1):28-37.</ref>
*'''[[Septic arthritis]] vs. transient synovitis:''' CRP >20 mg/L is one of the Kocher criteria for distinguishing septic arthritis in the pediatric hip<ref name="Kocher1999">Kocher MS, et al. Differentiating between septic arthritis and transient synovitis of the hip in children: an evidence-based clinical prediction algorithm. ''J Bone Joint Surg Am''. 1999;81(12):1662-1670.</ref>
*[[Septic arthritis]] vs. transient synovitis: CRP >20 mg/L is one of the Kocher criteria for distinguishing septic arthritis in the pediatric hip<ref name="Kocher1999">Kocher MS, et al. Differentiating between septic arthritis and transient synovitis of the hip in children: an evidence-based clinical prediction algorithm. ''J Bone Joint Surg Am''. 1999;81(12):1662-1670.</ref>
*'''Undifferentiated infections:''' A CRP <20–40 mg/L makes serious bacterial infection less likely in low-risk patients, though it does not rule it out
*Undifferentiated infections: A CRP <20–40 mg/L makes serious bacterial infection less likely in low-risk patients, though it does not rule it out
*'''[[Osteomyelitis]]:''' CRP elevated in >95% of cases; useful for monitoring treatment response
*[[Osteomyelitis]]: CRP elevated in >95% of cases; useful for monitoring treatment response
*'''Neonatal sepsis:''' Serial CRP (at presentation and 24–48 hours later) used alongside blood cultures to guide antibiotic duration in neonatal sepsis evaluations
*Neonatal sepsis: Serial CRP (at presentation and 24–48 hours later) used alongside blood cultures to guide antibiotic duration in neonatal sepsis evaluations


===Where CRP does NOT help===
===Where CRP does NOT help===
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==CRP vs. Other Inflammatory Markers==
==CRP vs. Other Inflammatory Markers==
*'''CRP vs. ESR:''' CRP rises and falls faster than ESR; CRP is preferred for acute ED decision-making. ESR is affected by anemia, polycythemia, and paraproteinemias
*CRP vs. ESR: CRP rises and falls faster than ESR; CRP is preferred for acute ED decision-making. ESR is affected by anemia, polycythemia, and paraproteinemias
*'''CRP vs. procalcitonin:''' Procalcitonin is more specific for bacterial infection and is preferred for guiding antibiotic decisions in [[pneumonia]] and [[sepsis]]. CRP is more sensitive but less specific
*CRP vs. procalcitonin: Procalcitonin is more specific for bacterial infection and is preferred for guiding antibiotic decisions in [[pneumonia]] and [[sepsis]]. CRP is more sensitive but less specific


==See Also==
==See Also==

Revision as of 15:53, 19 March 2026

Background

  • C-reactive protein (CRP) is an acute-phase reactant produced by the liver in response to IL-6 stimulation during inflammation, infection, or tissue injury.
  • It is one of the most commonly ordered inflammatory markers in the ED but is nonspecific — it rises in virtually any inflammatory state.[1]


  • CRP rises within 6–8 hours of an inflammatory stimulus, peaks at ~48 hours, and has a plasma half-life of ~19 hours[1]
  • Levels fall rapidly with resolution of the stimulus, making CRP useful for trending disease activity
  • CRP is produced exclusively by hepatocytes; severe liver failure may blunt the CRP response[1]
  • Two assays exist:
    • Standard CRP: Measures levels typically >10 mg/L; used for detecting infection and inflammation
    • High-sensitivity CRP (hs-CRP): Measures levels <10 mg/L; used for cardiovascular risk stratification (not typically useful in acute ED settings)

Normal Values

  • Normal: <10 mg/L (some labs use <5 mg/L or <3 mg/L as cutoff)
  • Mild elevation: 10–50 mg/L — viral infections, mild inflammation, most autoimmune flares
  • Moderate elevation: 50–100 mg/L — significant bacterial infection or active inflammatory disease
  • Marked elevation: >100 mg/L — strongly suggests serious bacterial infection, sepsis, major trauma, or severe pancreatitis[2]
  • Extreme elevation: >200 mg/L — often seen in sepsis, necrotizing soft tissue infection, or extensive burns

ED Applications

Where CRP adds value

  • Trending: Serial CRP measurements are more useful than a single value — a rising CRP suggests clinical deterioration; a falling CRP supports treatment response
  • Pediatric fever without source: CRP >80 mg/L increases the likelihood of serious bacterial infection in febrile children[3]
  • Appendicitis: A normal CRP (especially combined with normal WBC and no left shift) has a high negative predictive value for appendicitis, particularly if symptoms >24 hours[4]
  • Septic arthritis vs. transient synovitis: CRP >20 mg/L is one of the Kocher criteria for distinguishing septic arthritis in the pediatric hip[5]
  • Undifferentiated infections: A CRP <20–40 mg/L makes serious bacterial infection less likely in low-risk patients, though it does not rule it out
  • Osteomyelitis: CRP elevated in >95% of cases; useful for monitoring treatment response
  • Neonatal sepsis: Serial CRP (at presentation and 24–48 hours later) used alongside blood cultures to guide antibiotic duration in neonatal sepsis evaluations

Where CRP does NOT help

  • CRP cannot distinguish between bacterial and viral infection at moderate elevations (10–80 mg/L) — significant overlap exists
  • CRP does not localize infection (will be elevated in pneumonia, UTI, cellulitis, abscess equally)
  • A single normal CRP early in illness (<12 hours from symptom onset) does not exclude serious infection — CRP may not have risen yet
  • Extremely elevated CRP (>200 mg/L) is not specific to infection — also seen in rheumatologic flares (gout, rheumatoid arthritis, crystal arthropathies), malignancy, and major surgery/trauma

Causes of Elevated CRP

Causes of Low/Normal CRP Despite Active Disease

  • Very early infection (<6–8 hours from onset)
  • Severe hepatic failure (impaired CRP synthesis)
  • Immunosuppressive therapy (some biologics, e.g., tocilizumab/IL-6 inhibitors, directly suppress CRP production regardless of active infection — this is a critical pitfall)[1]
  • SLE flares (CRP often modestly elevated or normal in lupus flares, unlike most other autoimmune conditions — a markedly elevated CRP in a lupus patient suggests superimposed infection rather than flare)

CRP vs. Other Inflammatory Markers

  • CRP vs. ESR: CRP rises and falls faster than ESR; CRP is preferred for acute ED decision-making. ESR is affected by anemia, polycythemia, and paraproteinemias
  • CRP vs. procalcitonin: Procalcitonin is more specific for bacterial infection and is preferred for guiding antibiotic decisions in pneumonia and sepsis. CRP is more sensitive but less specific

See Also

References

  1. 1.0 1.1 1.2 1.3 Pepys MB, Hirschfield GM.
    • C-reactive protein: a critical update. J Clin Invest. 2003;111(12):1805-1812.
  2. Clyne B, Olshaker JS. The C-reactive protein. J Emerg Med. 1999;17(6):1019-1025.
  3. Sanders S, et al. Systematic review of the diagnostic accuracy of C-reactive protein to detect bacterial infection in nonhospitalized infants and children with fever. J Pediatr. 2008;153(4):570-574.
  4. Andersson RE. Meta-analysis of the clinical and laboratory diagnosis of appendicitis. Br J Surg. 2004;91(1):28-37.
  5. Kocher MS, et al. Differentiating between septic arthritis and transient synovitis of the hip in children: an evidence-based clinical prediction algorithm. J Bone Joint Surg Am. 1999;81(12):1662-1670.
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