influenzae type b conjugate vaccines to both autologous and allogeneic HSCT recipients beginning 12 months after transplantation.. In addition, diphtheria, tetanus, acellular pertussis,
Trang 1Chapter 126 Infections in Transplant Recipients
(Part 14)
In the absence of compelling data as to optimal timing, it is reasonable to
administer the pneumococcal and H influenzae type b conjugate vaccines to both
autologous and allogeneic HSCT recipients beginning 12 months after transplantation A series that includes both the 7-valent pneumococcal conjugate vaccine and the 23-valent Pneumovax is now recommended (following CDC
guidelines) The pneumococcal and H influenzae type b vaccines are particularly
important for patients who have undergone splenectomy In addition, diphtheria, tetanus, acellular pertussis, and inactivated polio vaccines can all be given at these
same intervals (12 months and, as required, 24 months after transplantation)
Neisseria meningitidis polysaccharide (a new conjugate vaccine) is now available
and will probably be recommended in the future Some authorities recommend a
Trang 2new primary series for tetanus/diphtheria/pertussis and inactivated polio vaccine beginning 12 months after transplantation Because of the risk of spread, household contacts of HSCT recipients (or of patients immunosuppressed as a result of chemotherapy) should receive only inactivated polio vaccine Live-virus measles/mumps/rubella vaccine can be given to autologous HSCT recipients 24 months after transplantation and to most allogeneic HSCT recipients at the same point if they are not receiving maintenance therapy with immunosuppressive drugs and do not have ongoing GVHD The risk of spread from a household contact is lower for MMR vaccine than for polio vaccine Neither patients nor their household contacts should be vaccinated with vaccinia unless they have been exposed to the smallpox virus Among patients who have active GVHD and/or are taking high maintenance doses of glucocorticoids, it may be prudent to avoid all live-virus vaccines Vaccination to prevent hepatitis B and hepatitis A also seems advisable
In the case of SOT recipients, administration of all the usual vaccines and
of the indicated booster doses should be completed before immunosuppression, if possible, to maximize responses For patients taking immunosuppressive agents, the administration of pneumococcal vaccine should be repeated every 5 years No data are available for the meningococcal vaccine, but it is probably reasonable to
administer it along with the pneumococcal vaccine H influenzae conjugate
vaccine is safe and should be efficacious in this population; therefore, its
Trang 3administration before transplantation is recommended Booster doses of this vaccine are not recommended for adults SOT recipients who continue to receive immunosuppressive drugs should not receive live-virus vaccines A person in this group who is exposed to measles should be given immune globulin Similarly, an immunocompromised patient who is seronegative for varicella and who comes into contact with a person who has chickenpox should be given varicella-zoster immune globulin as soon as possible (and certainly within 96 h) or, if this is not possible, should be started immediately on a 10- to 14-day course of acyclovir therapy Upon the discontinuation of treatment, clinical disease may still occur in a small number of patients; thus vigilance is indicated Rapid re-treatment should limit the symptoms of disease Household contacts of transplant recipients can receive live attenuated VZV vaccine, but vaccinees should avoid direct contact with the patient if a rash develops Virus-like particle (VLP) vaccines (not live attenuated) have recently been licensed for the prevention of infection with several HPV serotypes most commonly implicated in cervical and anal carcinomas and in anogenital and laryngeal warts For example, the tetravalent vaccine contains HPV serotypes 6, 11, 16, and 18 At present, no information is available about the safety, immunogenicity, or efficacy of this vaccine in transplant recipients
Immunocompromised patients who travel may benefit from some but not all vaccines (Chaps 116 and 117) In general, these patients should receive any killed or inactivated vaccine preparation appropriate to the area they are visiting;
Trang 4this recommendation includes the vaccines for Japanese encephalitis, hepatitis A and B, poliomyelitis, meningococcal infection, and typhoid The live typhoid vaccines are not recommended for use in most immunocompromised patients, but inactivated or purified polysaccharide typhoid vaccine can be used Live yellow fever vaccine should not be administered On the other hand, primary immunization or boosting with the purified-protein hepatitis B vaccine is indicated
if patients are likely to be exposed Patients who will reside for >6 months in areas where hepatitis B is common (Africa, Southeast Asia, the Middle East, Eastern Europe, parts of South America, and the Caribbean) should receive hepatitis B vaccine Inactivated hepatitis A vaccine should also be used in the appropriate setting (Chap 116) A combined vaccine is now available that provides dual protection against hepatitis A and hepatitis B If hepatitis A vaccine is not administered, travelers should consider receiving passive protection with immune globulin (the dose depending on the duration of travel in the high-risk area)
Further Readings
Cornely OA et al: Posaconazole vs fluconazole or itraconazole prophylaxis
in patients with neutropenia N Engl J Med 356:348, 2007 [PMID: 17251531]
Dykewicz CA: Cytomegalovirus infection after liver transplantation: Summary of the guidelines for preventing opportunistic infections among
Trang 5hematopoietic stem cell transplant recipients Clin Infect Dis 33:139, 2001 [PMID: 11418871]
Hirsch HH, Suthanthiran M: The natural history, risk factors and outcomes
of polyomavirus BK–associated nephropathy after renal transplantation Nat Clin Pract Nephrol 2:240, 2006 [PMID: 16932431]
Kotton CN et al: Prevention of infection in adult travelers after solid organ transplantation Am J Transplant 5:8, 2004
Munoz P et al: Mycobacterium tuberculosis infection in recipients of solid
organ transplants Clin Infect Dis 40:581, 2005 [PMID: 15712081]
Zerr DM et al: Clinical outcomes of human herpesvirus 6 reactivation after hematopoietic stem cell transplantation Clin Infect Dis 40:932, 2005 [PMID: 15824982]