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* Virulence of microorganism
* Virulence of microorganism
* Susceptibility of synovial membrane for microorganism  
* Susceptibility of synovial membrane for microorganism  
''Risk factors:'' Diabetes mellitus, HIV, immunosuppressants, intravenous drug abuse, osteoarthritis, prosthetic joint, rheumatoid arthritis,


'''Direct inoculation''': Direct inoculation of microorganisms may occur during deep penetrating injuries, intra-articular steroid injection, arthroscopy or prosthetic joint surgery, particularly in association with knee and hip arthroplasties.<ref name="pmid737020">Atcheson SG, Ward JR (1978) [https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&retmode=ref&cmd=prlinks&id=737020 Acute hematogenous osteomyelitis progressing to septic synovitis and eventual pyarthrosis. The vascular pathway.] ''Arthritis Rheum'' 21 (8):968-71. PMID: [https://pubmed.gov/737020 737020]</ref><ref name="pmid6787706">Gray RG, Tenenbaum J, Gottlieb NL (1981) [https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&retmode=ref&cmd=prlinks&id=6787706 Local corticosteroid injection treatment in rheumatic disorders.] ''Semin Arthritis Rheum'' 10 (4):231-54. PMID: [https://pubmed.gov/6787706 6787706]</ref>  
'''Direct inoculation''': Direct inoculation of microorganisms may occur during deep penetrating injuries, intra-articular steroid injection, arthroscopy or prosthetic joint surgery, particularly in association with knee and hip arthroplasties.<ref name="pmid737020">Atcheson SG, Ward JR (1978) [https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&retmode=ref&cmd=prlinks&id=737020 Acute hematogenous osteomyelitis progressing to septic synovitis and eventual pyarthrosis. The vascular pathway.] ''Arthritis Rheum'' 21 (8):968-71. PMID: [https://pubmed.gov/737020 737020]</ref><ref name="pmid6787706">Gray RG, Tenenbaum J, Gottlieb NL (1981) [https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&retmode=ref&cmd=prlinks&id=6787706 Local corticosteroid injection treatment in rheumatic disorders.] ''Semin Arthritis Rheum'' 10 (4):231-54. PMID: [https://pubmed.gov/6787706 6787706]</ref>
 
''Risk factors:'' Previous history of intra-articular injection, prosthetic joint: early and delayed, recent joint surgery.


'''Contiguous spread''': Bone infection such as osteomyelitis can spread by breaking through its outer cortex and then into the intracapsular region that lead to joint infection.  
'''Contiguous spread''': Bone infection such as osteomyelitis can spread by breaking through its outer cortex and then into the intracapsular region that lead to joint infection.  
''Risk factors:'' Skin infection, cutaneous ulcers.
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!'''Role of bacterial products in pathogenesis'''
!'''Role of bacterial products in pathogenesis'''

Revision as of 20:40, 16 January 2017

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Venkata Sivakrishna Kumar Pulivarthi M.B.B.S [2]

Overview

Pathophysiology

Gonococcal Arthrtis

Non-gonococcal Arthritis

Bacterial colonization and adherence into the synovium
Mechanism of transmission Hematogenous spread: Septic arthritis most commonly develop as a result of hematogenous spreading bacteria into the vascular synovial membrane.[1] Hematogenous spread is commonly associate with injection drug use, presence of indwelling catheters, and an underlying immunocompromised state such as HIV infection.

Determinants of hematognous seeding:[1]

  • Well vascularized synovium
  • Absence of limiting basement membrne
  • Recent joint surgery, induces the production of host-derived extracellular matrix proteins( e.g. collagen) that aids in post surgical healing process, can assist bacterial attachment and progression to infection
  • Virulence of microorganism
  • Susceptibility of synovial membrane for microorganism

Risk factors: Diabetes mellitus, HIV, immunosuppressants, intravenous drug abuse, osteoarthritis, prosthetic joint, rheumatoid arthritis,

Direct inoculation: Direct inoculation of microorganisms may occur during deep penetrating injuries, intra-articular steroid injection, arthroscopy or prosthetic joint surgery, particularly in association with knee and hip arthroplasties.[2][3]

Risk factors: Previous history of intra-articular injection, prosthetic joint: early and delayed, recent joint surgery.

Contiguous spread: Bone infection such as osteomyelitis can spread by breaking through its outer cortex and then into the intracapsular region that lead to joint infection.

Risk factors: Skin infection, cutaneous ulcers.

Role of bacterial products in pathogenesis Bacterial attachment protein receptors termed as microbial surface components recognizing adhesive matrix molecules (MSCRAMMs) that attach host joint extracellular matrix proteins such as collagen, laminin, elastin etc. and promote colonization and initiate the infectious process.[4][5] The role of bacterial products is activation of host immune response and deteriorate the tissue destruction.[6]
Escape mechanism developed by pathogen Adherence of pathogen to fibronectin on host tissue with its fibronectin receptors[7]

Internalization of pathogen by host mechanisms such as pseudopod formation or through receptor-mediated endocytosis via clathrin-coated pits[8]

After internalization pathogen into the host cells such as osteoblasts, it survives intracellularly and induces apoptosis in the other cells through the activation of host immune response[9]

Host immune response Due to rapid proliferation of bacteria predesposes to activation of host acute inflammatory response

Synovial cells releases host inflammatory cytokines such as IL-1 and IL-6 into the synovium[10]

Activation of acute phase reactants by Interleukins[11]

Acute phase reactants bind to pathogen and promote opsonization and phagocytosis and activates complement system[12]

Phagocytosis of pathogen by macrophages, synovial cells and neutrophils with the release of inflammatory cytokines such as tumor necrosis factor, IL-6 and nitric oxide.[13]

Humoral immunity and adaptive immunity also activates by superantigens of pathogens and promote clearance of pathogen by releasing Interferon-gamma, IL-4, IL-10 that reduces the host mortality and joint destruction.[14][15]
Joint destruction As long as the immune system is able to remove the pathogen from synovium quickly, host is able to protect the joint. If immunosystem is weak or it is unable to clear the pathogen quickly, there is a potent activation of immune system that causes the joint destruction.
Potent activation of immune system and release of cytokines and oxygen free radicles[16]

Activation and release of

Metalloproteinases, Lysosomal enzyames and proteolytic enzymes from lysosomes, neutrophils and other inflammatory cells[17]

Further damage of joint by bacterial toxins[18]

Infectious process and inflammatory response lead to joint effusion[19][20][21]

Increased intra-articular pressure

Mechanical obstruction to the joint blood supply

Further destruction of bone and cartilage


References

  1. 1.0 1.1 Klein RS (1988) Joint infection, with consideration of underlying disease and sources of bacteremia in hematogenous infection. Clin Geriatr Med 4 (2):375-94. PMID: 3288326
  2. Atcheson SG, Ward JR (1978) Acute hematogenous osteomyelitis progressing to septic synovitis and eventual pyarthrosis. The vascular pathway. Arthritis Rheum 21 (8):968-71. PMID: 737020
  3. Gray RG, Tenenbaum J, Gottlieb NL (1981) Local corticosteroid injection treatment in rheumatic disorders. Semin Arthritis Rheum 10 (4):231-54. PMID: 6787706
  4. Herrmann M, Vaudaux PE, Pittet D, Auckenthaler R, Lew PD, Schumacher-Perdreau F et al. (1988) Fibronectin, fibrinogen, and laminin act as mediators of adherence of clinical staphylococcal isolates to foreign material. J Infect Dis 158 (4):693-701. PMID: 3171224
  5. Rydén C, Tung HS, Nikolaev V, Engström A, Oldberg A (1997) Staphylococcus aureus causing osteomyelitis binds to a nonapeptide sequence in bone sialoprotein. Biochem J 327 ( Pt 3) ():825-9. PMID: 9581562
  6. Yacoub A, Lindahl P, Rubin K, Wendel M, Heinegård D, Rydén C (1994) Purification of a bone sialoprotein-binding protein from Staphylococcus aureus. Eur J Biochem 222 (3):919-25. PMID: 8026501
  7. Lammers A, Nuijten PJ, Smith HE (1999) The fibronectin binding proteins of Staphylococcus aureus are required for adhesion to and invasion of bovine mammary gland cells. FEMS Microbiol Lett 180 (1):103-9. PMID: 10547450
  8. Essawi T, Na'was T, Hawwari A, Wadi S, Doudin A, Fattom AI (1998) Molecular, antibiogram and serological typing of Staphylococcus aureus isolates recovered from Al-Makased Hospital in East Jerusalem. Trop Med Int Health 3 (7):576-83. PMID: 9705193
  9. Ram S, Mackinnon FG, Gulati S, McQuillen DP, Vogel U, Frosch M et al. (1999) The contrasting mechanisms of serum resistance of Neisseria gonorrhoeae and group B Neisseria meningitidis. Mol Immunol 36 (13-14):915-28. PMID: 10698346
  10. Koch B, Lemmermeier P, Gause A, v Wilmowsky H, Heisel J, Pfreundschuh M (1996) Demonstration of interleukin-1beta and interleukin-6 in cells of synovial fluids by flow cytometry. Eur J Med Res 1 (5):244-8. PMID: 9374445
  11. Osiri M, Ruxrungtham K, Nookhai S, Ohmoto Y, Deesomchok U (1998) IL-1beta, IL-6 and TNF-alpha in synovial fluid of patients with non-gonococcal septic arthritis. Asian Pac J Allergy Immunol 16 (4):155-60. PMID: 10219896
  12. Verdrengh M, Tarkowski A (1998) Granulocyte-macrophage colony-stimulating factor in Staphylococcus aureus-induced arthritis. Infect Immun 66 (2):853-5. PMID: 9453655
  13. Sakiniene E, Bremell T, Tarkowski A (1997) Inhibition of nitric oxide synthase (NOS) aggravates Staphylococcus aureus septicaemia and septic arthritis. Clin Exp Immunol 110 (3):370-7. PMID: 9409638
  14. Hultgren O, Kopf M, Tarkowski A (1999) Outcome of Staphylococcus aureus-triggered sepsis and arthritis in IL-4-deficient mice depends on the genetic background of the host. Eur J Immunol 29 (8):2400-5. PMID: 10458752
  15. Puliti M, von Hunolstein C, Bistoni F, Mosci P, Orefici G, Tissi L (2000) Influence of interferon-gamma administration on the severity of experimental group B streptococcal arthritis. Arthritis Rheum 43 (12):2678-86. <2678::AID-ANR7>3.0.CO;2-A DOI:10.1002/1529-0131(200012)43:12<2678::AID-ANR7>3.0.CO;2-A PMID: 11145025
  16. Roy S, Bhawan J (1975) Ultrastructure of articular cartilage in pyogenic arthritis. Arch Pathol 99 (1):44-7. PMID: 1111494
  17. Riegels-Nielsen P, Frimodt-Møller N, Sørensen M, Jensen JS (1989) Antibiotic treatment insufficient for established septic arthritis. Staphylococcus aureus experiments in rabbits. Acta Orthop Scand 60 (1):113-5. PMID: 2929280
  18. Smith RL, Schurman DJ, Kajiyama G, Mell M, Gilkerson E (1987) The effect of antibiotics on the destruction of cartilage in experimental infectious arthritis. J Bone Joint Surg Am 69 (7):1063-8. PMID: 3654698
  19. Mitchell M, Howard B, Haller J, Sartoris DJ, Resnick D (1988) Septic arthritis. Radiol Clin North Am 26 (6):1295-313. PMID: 3051098
  20. Nelson JD, Koontz WC (1966) Septic arthritis in infants and children: a review of 117 cases. Pediatrics 38 (6):966-71. PMID: 5297142
  21. Knights EM (1982) Infectious arthritis. J Foot Surg 21 (3):229-33. PMID: 6749955

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