Prevention, detection, and management of early bacterial and fungal infections in a preclinical cardiac xenotransplantation model that achieves prolonged survival

  1. Sumeet S. Teotia1,
  2. Randall C. Walker1,
  3. Johannes M. Schirmer1,
  4. Henry D. Tazelaar1,
  5. Marian G. Michaels2,
  6. Jack M. Risdahl1,
  7. Guerard W. Byrne1,
  8. John S. Logan1,
  9. Christopher G. A. McGregor1

Article first published online: 4 FEB 2005

DOI: 10.1111/j.1399-3089.2005.00205.x

Issue

Xenotransplantation

Xenotransplantation

Volume 12, Issue 2, pages 127–133, March 2005

Additional Information

How to Cite

Teotia, S. S., Walker, R. C., Schirmer, J. M., Tazelaar, H. D., Michaels, M. G., Risdahl, J. M., Byrne, G. W., Logan, J. S. and McGregor, C. G. A. (2005), Prevention, detection, and management of early bacterial and fungal infections in a preclinical cardiac xenotransplantation model that achieves prolonged survival. Xenotransplantation, 12: 127–133. doi: 10.1111/j.1399-3089.2005.00205.x

Author Information

  1. 1

    William J von Liebig Transplant Center, Mayo Clinic College of Medicine, Rochester, MN, USA

  2. 2

    University of Pittsburgh School of Medicine, Pittsburgh, PA, USA

*Address reprint requests to Randall Walker MD, Transplantation Infectious Diseases Unit, 5-MH, Mayo Clinic College of Medicine, Rochester, MN 55902, USA (E-mail: walker.randall@mayo.edu)

Publication History

  1. Issue published online: 4 FEB 2005
  2. Article first published online: 4 FEB 2005
  3. Received 12 September 2004; Accepted 19 December 2004

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Keywords:

  • bacterial infections;
  • cardiac transplantation;
  • cytomegalovirus;
  • Epstein–Barr virus;
  • fungal infections;
  • porcine;
  • porcine-endogenous retrovirus infection;
  • primate;
  • xenotransplantation

Abstract:  Background:  We analyzed bacterial and fungal infectious complications in a cohort of 16 consecutive experiments with the longest surviving cardiac xenografts to date. Methods: Transgenic, porcine-to-baboon, heterotopic (abdomen) cardiac xenotransplantation was performed in 16 consecutive experiments, using rapamycin, tacrolimus, corticosteroids, anti-CD20 monoclonal antibody, and an alpha-Gal-PEG polymer, as immunosuppression. Prophylactic anti-microbials included i.v. trimethoprim/sulfamethoxazole, oral ganciclovir/valganciclovir, and oral itraconazole. An episode of bacterial infection was defined as a positive blood and/or wound culture with: leukocytosis, fever >101.5°F, and/or clinical deterioration. Results: Mean graft survival was 71 ± 29 days; the longest was 113 days. There were 23 episodes of bacterial infection; 14 resolved with treatment. The mean time to the first episode of infection was 44 ± 21 days (n = 12). Eight of 16 deaths were due to infection: two bacterial-only, two cytomegalovirus (CMV) only, four both bacterial and CMV, and none fungal. The frequency of infection was 1, 2.8, and 1.8 episodes/100 survival days, respectively, for animals whose grafts survived for 30 to 59, 60 to 89, and >90 days. CMV infection (reviewed in detail in a separate communications) was due to baboon CMV, and was associated with low serum levels of ganciclovir. Conclusion: In a cardiac xenograft model that achieved prolonged (>3 months) survival, bacteremia was common, but usually reversible, and fungal infection was prevented with prophylaxis. The level of immunosuppression required to achieve clinically meaningful xenograft survival is associated with a level of bacterial and fungal infectious complications that is manageable and similar to the early clinical experiences in human transplantation. Further research will determine if the viral infectious complications observed in these experiments can be reduced by optimizing blood levels of anti-viral prophylaxis and monitoring viral polymerase chain reaction levels.

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