CMV infection is the most prevalent infection after heart transplantation (HTX), occurring in
up to 40-60% of the recipients. It most frequently occurs within the first 6 months after
transplantation and commonly presents as an asymptomatic viral replication. Viral syndrome or
tissue-invasive disease (gastroenteritis, pneumonitis, myocarditis or meningitis) are much
less common. Even though CMV infection is generally treatable with virostatic therapy and/or
CMV-specific immunoglobulins, direct effects of CMV infection (viral syndrome and
tissue-invasive disease) and general and transplant-specific indirect effects of CMV
infection have been associated with significant morbidity and mortality in HTX patient
population, mainly due to graft loss, development of malignancies, or opportunistic
infections. According to the latest consensus paper on CMV prophylaxis and treatment in solid
organ transplant recipients, valgancyclovir (or its active form gancyclovir) represents a
virostatic therapy of choice for CMV prophylaxis and treatment after HTX. However,
valgancyclovir has an array of side effects including hematological (leukopenia, neutropenia,
anemia, thrombocytopenia), neurologic (headache, insomnia), gastrointestinal (decreased
appetite, diarrhea, vomiting and dyspepsia) and psychiatric (depression) disorders. These can
either expose HTX patients to additional complications (e.g. leukopenia and/or neutropenia
can result in systemic fungal infections), decrease patients' quality of life, or mandate a
decrease in valgancyclovir dose, which exposes patients to an increased risk for CMV
reactivation. Recently, letermovir (a novel CMV viral terminase inhibitor), was approved for
CMV prophylaxis in allogeneic bone marrow transplant recipients as the placebo-controlled
study showed that significantly less patients, treated with letermovir, developed CMV disease
(37% vs. 60%; P<0.001) and there was also a trend towards lower all-cause mortality. Data on
bone marrow transplant recipients additionally suggest that letermovir is generally well
tolerated with side effects limited to mild gastrointestinal symptoms (diarrhea, nausea).
Importantly, myelosuppresive side effects of letermovir occur very rarely. Some encouraging
data does exist on the use of letermovir in kidney transplant recipients, where a recently
published proof-of-concept trial (N=27) suggested comparable safety and efficacy of
leteremovir (N=18) and valgancyclovir (N=9): both treatment regimens resulted in similar
time-course of viral load reduction and viral clearance and were well tolerated in terms of
adverse events. Currently, a Phase III clinical trial is ongoing in renal transplant
recipients (Clinicaltrials.gov: NCT03443869) to confirm this pilot data. However, to date,
there is no published data on the use of letermovir in patients after HTX.
Based on the results in kidney transplantation, the aim of this pilot study is thus to
evaluate the effects of letermovir-based CMV prophylaxis in heart transplant recipients.
The primary objective of the study is to investigate the efficacy of letermovir-based CMV
prophylaxis in patients after heart transplantation.
The secondary objectives of the study are:
to investigate the tolerability of letermovir-based CMV prophylaxis in patients after
heart transplantation.
to explore the potential correlation between letermovir-based CMV prophylaxis and
restitution of cell-regulated immunity in patients after heart transplantation.