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Monitoring BK virus infection in pediatric kidney transplant recipients

Monitoring BK virus infection in pediatric kidney transplant recipients

Article information

Korean J Pediatr. 2019;62(11):414-415
Publication date (electronic) : 2019 October 18
doi : https://doi.org/10.3345/kjp.2019.01123
Department of Pediatrics, Kyungpook National University Hospital, School of Medicine, Kyungpook National University, Daegu, Korea
Corresponding author: Min Hyun Cho, MD Department of Pediatrics, Kyungpook National University Hospital, School of Medicine, Kyungpook National University, 130 Dongdeok-ro, Jung-gu, Daegu 41944, Korea Tel: +82-53-420-5719 Fax: +82-53-425-6683 E-mail: chomh@knu.ac.kr
Received 2019 September 17; Revised 2019 October 7; Accepted 2019 October 18.

Polyomavirus BK (BKV) is an important cause of allograft dysfunction and graft loss in kidney transplant recipients [1,2]. The clinical manifestations of BKV infection, including BK viuria, BK viremia, and BKV nephropathy (BKVN), commonly develop during the first posttransplantation year [1]. BK viremia is very common in children after kidney transplantation, especially in younger children and those receiving a kidney from a cadaveric donor [3]. BKV infection can be diagnosed via the detection of decoy cells in urine cytology, confirming the presence of Haufen, which are icosahedral aggregates of polyomavirus particles by electron microscopy, and the detection of BKV DNA using urine and blood polymerase chain reaction (PCR) assays. Among them, measuring BKV DNA load in the blood using PCR is considered the preferred method of diagnosing BKV infection due its higher sensitivity and specificity as well as cost-effectiveness than other methods such as urine PCR and decoy cells [4]. The diagnosis of BKVN is made by allograft biopsy, which shows tubulointerstitial mononuclear infiltration with many plasma cells, degenerative changes in the tubules, and intranuclear polyomavirus inclusion via SV40 immunoperoxidase stain.

Many studies reported that routine monitoring of BKV reactivation and adequate reduction of immunosuppression alone can effectively resolve viremia, preserve allograft function, and prevent symptomatic BKVN. Kwon et al. [5] also reported that BKV infection developed in nine of 33 pediatric kidney transplant recipients (27.3%) and was effectively resolved by reduction of calcineurin inhibitor via routine monitoring of BKV load. Although there are several anti-BKV agents such as leflunomide, cidofovir, intravenous immunoglobulin, and fluoroquinolone, the benefit of these agents is limited [1]. Therefore, the preemptive approach to resolving BKV viuria and/or viremia before the development of BKVN with reduction of immunosuppression is the mainstay of therapy in BK viremia/BKVN [6]. The 2009 Kidney Disease: Improving Global Outcomes clinical practice guidelines recommend reducing immunosuppression when BKV plasma nucleic acid testing results are persistently greater than 104 copies/mL.

According to clinical algorithm based on current guidelines and available evidence (Fig. 1), screening for BK virus reactivation is recommended at least monthly for the first 3–6 months after kidney transplantation [7] and then every 3 months until the end of the first posttransplantation year. This is also recommended in cases of an unexplained rise in serum creatinine or after the treatment of acute rejection. If a patient presents with elevated serum creatinine and significant viremia (BK viral load >104 copies/mL on PCR), a graft biopsy should be performed to confirm definitive BKVN [1].

Fig. 1.

Clinical algorithm of management of BK virus infection in kidney transplant recipients. *Blood PCR(+): significant viremia (BK viral load >104 copies/mL). Other therapies: IVIG, cidofovir, leflunomide, and fluoroquinolone, etc. BKV, BK virus; PCR, polymerase chain reaction; IVIG, intravenous immunoglobulin.

There is one thing to consider here. Allograft dysfunction combined with significant BK viremia does not always lead to BKVN. Because it is difficult to exclude the possibility of acute rejection or BKVN combined with acute rejection in such situations, an abrupt reduction in immunosuppression without confirmation of the pathologic findings of definitive BKVN can be counter-productive. Unfortunately, Kwon et al. [5] reported that 6 of 9 patients with significant BK viremia presented azotemia, but none underwent renal biopsy, which limited their study. In conclusion, routine screening for BK virus reactivation and active use of graft biopsy are the most reliable ways to overcome BK virus infection in pediatric kidney transplant recipients.

Notes

No potential conflict of interest relevant to this article was reported.

References

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2. Hymes LC, Warshaw BL. Polyomavirus (BK) in pediatric renal transplants: evaluation of viremic patients with and without BK associated nephritis. Pediatr Transplant 2006;10:920–2.
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4. Hirsch HH, Knowles W, Dickenmann M, Passweg J, Klimkait T, Mihatsch MJ, et al. Prospective study of polyomavirus type BK replication and nephropathy in renal-transplant recipients. N Engl J Med 2002;347:488–96.
5. Kwon Y, Kim JY, Lee Y, Cho H. Clinical manifestations of BK virus infection in pediatric kidney transplant patients. Korean J Pediatr 2019;62:422–7.
6. Ginevri F, Azzi A, Hirsch HH, Basso S, Fontana I, Cioni M, et al. Prospective monitoring of polyomavirus BK replication and impact of pre-emptive intervention in pediatric kidney recipients. Am J Transplant 2007;7:2727–35.
7. Alméras C, Vetromile F, Garrigue V, Szwarc I, Foulongne V, Mourad G. Monthly screening for BK viremia is an effective strategy to prevent BK virus nephropathy in renal transplant recipients. Transpl Infect Dis 2011;13:101–8.

Article information Continued

Fig. 1.

Clinical algorithm of management of BK virus infection in kidney transplant recipients. *Blood PCR(+): significant viremia (BK viral load >104 copies/mL). Other therapies: IVIG, cidofovir, leflunomide, and fluoroquinolone, etc. BKV, BK virus; PCR, polymerase chain reaction; IVIG, intravenous immunoglobulin.