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Purpura fulminans in a child secondary to Panton–Valentine leukocidin-producing Staphylococcus aureus

¹ Department of Clinical Microbiology, Leicester Royal Infirmary, University Hospitals of Leicester NHS Trust, Leicester LE1 5WW, UK

² Department of Child Health, Leicester Royal Infirmary, University Hospitals of Leicester NHS Trust, Leicester LE1 5WW, UK

³ Staphylococcal Reference Laboratory, Laboratory of Healthcare Associated Infection, Health Protection Agency, Colindale, London NW9 5EQ, UK

Correspondence
Nelun Perera
nelun.perera{at}uhl-tr.nhs.uk

Received 2 May 2007
Accepted 6 June 2007

Abbreviations: PF, purpura fulminans; PVL, Panton–Valentine leukocidin.

	Case report

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A 10-month-old girl presented to her local emergency department in profound septic shock. She had been unwell for 10 days with a coryzal illness and had been pyrexial for 72 h. Initial blood results were: total white cell count 3.0x10⁹ l^–1, platelet count 114x10⁹ l^–1, international normalized ratio 1.7 and fibrinogen >4.5 mg l^–1.

On arrival, she had a capillary refill time of 5 s with a heart rate of 170 beats min^–1 and grunting respirations. Examination revealed a widespread, macular erythematous rash, with three punctate petechiae on her shoulder. Suspecting meningococcal septicaemia, she was commenced on intravenous ceftriaxone, fluid resuscitated, intubated and ventilated by 3 h post-presentation.

Despite 100 ml kg^–1 fluid boluses and maximal inotropic support, she remained acidotic, at which point teicoplanin was added. The rash became bullous, spreading rapidly and affecting the lower limbs (Fig. 1).

View larger version (106K): [in this window] [in a new window]   Fig. 1. Purpura fulminans of the lower limbs.

Over the next 48 h she remained critically ill on maximal intensive care support. She developed acute respiratory distress syndrome, multiorgan failure and disseminated intravascular coagulopathy requiring significant blood product support. After an initial ventilatory improvement, she deteriorated on day 8 secondary to a pneumothorax.

She continued to develop multiple pneumothoraces and abscesses requiring bilateral chest drains and she was eventually weaned off respiratory support 5 weeks after the initial presentation. The chest X-rays remained abnormal with bilateral, multiple pneumatoceles which were eventually managed with a surgical pleurectomy.

Blood and endotracheal cultures remained positive for S. aureus until day 36. Throughout this time, she was treated with multiple courses of antibiotics including clindamycin, imipenem and rifampicin. Despite multiple debridements and early intervention by the vascular surgeons, she underwent a right forefoot and a left mid-tibial amputation. Investigations for immunodeficiency and protein C deficiency were unremarkable.

Follow-up magnetic resonance imaging scans of the left femur demonstrated extensive osteomyelitis. This required further revision and prolonged treatment with antibiotics. At the present time, the child is clinically well.

Screening of household contacts for S. aureus carriage could not be performed because the parents and extended family were not resident in our local area.

	Discussion

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PVL is a phage-encoded, 2-subunit exotoxin. This cytotoxin is formed from two synergistic proteins, LukS-PV and LukF-PV. In combination, an octameric protein is formed which results in pore formation in the cell membrane of leukocytes, allowing an influx of calcium. This effect appears to be concentration-dependent, with apoptosis occurring at low levels and necrosis at higher levels. The toxin is encoded by <5 % of clinical isolates of S. aureus, almost half of which are meticillin-resistant (Morgan, 2005).

PVL-S. aureus is mainly associated with necrotic suppurative skin lesions, but it has also been isolated from patients with severe community-acquired necrotizing pneumonia with a mortality rate of 75 % (Kravitz et al., 2005).

The incidence of PVL-S. aureus infections is difficult to assess accurately. A recent study from the HPA confirmed that 1.6 % of the isolates submitted to the laboratory carried the PVL genes (Holmes et al., 2005). Purpura fulminans (PF) is not a notifiable syndrome in the UK and there is a tendency to assume that PF is synonymous with meningococcal sepsis.

Due to the severity of PF and the growing appreciation that several organisms are associated with this syndrome, initial treatment should include broad-spectrum antibiotics (including adequate cover for meticillin-resistant S. aureus) (Morgan, 2005; Kravitz et al., 2005). In dealing with confirmed PVL-S. aureus infection, several studies have reported the value of combination therapy (McCartney et al., 2006) including two or more of vancomycin, clindamycin, linezolid, rifampicin or co-trimoxazole (Klein et al., 2003; Wargo & Eiland, 2005).

A recent report suggests that with appropriate treatment protocols the outcome of PF amongst children can be improved (Gürgey et al., 2005). In this recent series, 43 % of the paediatric cases presented with a severe bacterial infection (seven cases), of which 57% (four cases) were secondary to sepsis caused by S. aureus. None of the isolates were tested for PVL. All of these patients survived, albeit with varying degrees of amputation.

There are conflicting thoughts with regard to the use of intravenous immunoglobulin (IVIG) in the treatment of PF due to PVL-S. aureus. There are in vitro data demonstrating neutralization of the PVL toxin (Gauduchon et al., 2004) but there are no comparative clinical studies. Several authors recommend the use of IVIG for its antitoxin properties (Morgan, 2005; Kravitz et al., 2005) although this mechanism has yet to be firmly established (Chambers, 2005).

This is the first report of PF secondary to PVL-meticillin-sensitive S. aureus sepsis in a child in the UK. It illustrates the dramatic evolution of infection caused by PVL. Our aim is to alert clinicians to consider PVL-S. aureus in conjunction with meningococcaemia when dealing with a clinical case of PF and respond promptly with appropriate therapeutic strategies, which may be a combination of antimicrobial, immunological and surgical methods. In our view, the initial choice of antimicrobials should be broad and include adequate anti-staphylococcal cover, including cover for meticillin-resistant S. aureus. These decisions should be made in conjunction with a microbiologist, pending the identification and susceptibility profiles of isolates. Screening for PVL genes in S. aureus isolates should be considered in patients with haemorrhagic necrotizing skin, soft tissue and pulmonary infections to inform clinicians on the appropriate management and prognosis.

Given the evidence of spread of PVL-S. aureus via skin-to-skin contact (Morgan, 2005), we suggest that in cases of serious, life-threatening disease, consideration must be given to screening of close contacts.

	REFERENCES

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Chambers, H. F. (2005). Staphylococcal purpura fulminans: a toxin-mediated disease? Clin Infect Dis 40, 948–950.[CrossRef][Medline]

Gauduchon, V., Cozon, G. & Vandenesch, F. (2004). Neutralisation of Staphylococcus aureus Panton Valentine leukocidin by intravenous immunoglobulin in vitro. J Infect Dis 189, 346–353.[CrossRef][Medline]

Gürgey, A., Aytac, S., Kanra, G., Secmeer, G., Ceyhan, M. & Altay, C. (2005). Outcome in children with purpura fulminans: report on 16 patients. Am J Hematol 80, 20–25.[CrossRef][Medline]

Holmes, A., Ganner, S., McGuane, S., Pitt, T. L., Cookson, B. D. & Kearns, A. M. (2005). Staphylococcus aureus isolates carrying Panton-Valentine leukocidin genes in England and Wales: frequency, characterization, and association with clinical disease. J Clin Microbiol 43, 2384–2390.[Abstract/Free Full Text]

Klein, J. L., Petrovic, Z., Treacher, D. & Edgeworth, J. (2003). Severe community-acquired pneumonia caused by Panton-Valentine leukocidin-positive Staphylococcus aureus: first reported case in the United Kingdom. Intensive Care Med 29, 1399[CrossRef][Medline]

Kravitz, G. R., Dries, D. J., Peterson, M. L. & Schlievert, P. M. (2005). Purpura fulminans due to Staphylococcus aureus. Clin Infect Dis 40, 941–947.[CrossRef][Medline]

McCartney, C., Cookson, B., Dance, D., Day, C., Duerden, B., Elston, T., Kearns, A. & Morgan, M. (2006). Interim Guidance on Diagnosis and Management of PVL-Associated Staphylococcal Infections in the UK. Health Protection Agency PVL Working Group. http://www.dh.gov.uk/AboutUs/MinistersAndDepartmentLeaders/ChiefMedicalOfficer/Features/FeaturesArticle/fs/en?CONTENT_ID=4133761&chk=oW8s4w. Accessed 5 September 2006.

Morgan, M. (2005). Staphylococcus aureus, Panton-Valentine leukocidin, and necrotising pneumonia. BMJ 331, 793–794.[Free Full Text]

Wargo, K. A. & Eiland, E. H. (2005). Appropriate therapy for community acquired meticillin resistant Staphylococcus aureus carrying the Panton-Valentine leukocidin gene. Clin Infect Dis 40, 1376–1377.[CrossRef][Medline]

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