Aims
To assess the short‐term immunogenicity to severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) mRNA vaccine in a population of heart transplant (HTx) recipients. A prospective single‐centre cohort study of HTx recipients who received a two‐dose SARS‐CoV‐2 mRNA vaccine (BNT162b2, Pfizer‐BioNTech).
Methods and results
Whole blood for anti‐spike IgG (S‐IgG) antibodies was drawn at days 21–26 and at days 35–40 after the first vaccine dose. Geometric mean titres (GMT) ≥50 AU/mL were interpreted positive. Included were 42 HTx recipients at a median age of 61 [interquartile range (IQR) 44–69] years. Median time from HTx to the first vaccine dose was 9.1 (IQR 2.6–14) years. Only 15% of HTx recipients demonstrated the presence of positive S‐IgG antibody titres in response to the first vaccine dose [GMT 90 (IQR 54–229) AU/mL]. Overall, 49% of HTx recipients induced S‐IgG antibodies in response to either the first or the full two‐dose vaccine schedule [GMT 426 (IQR 106–884) AU/mL]. Older age [68 (IQR 59–70) years vs. 46 (IQR 34–63) years, P = 0.034] and anti‐metabolite‐based immunosuppression protocols (89% vs. 44%, P = 0.011) were associated with low immunogenicity. Importantly, 36% of HTx recipients who were non‐responders to the first vaccine dose became S‐IgG seropositive in response to the second vaccine dose. Approximately a half of HTx recipients did not generate S‐IgG antibodies following SARS‐CoV‐2 two‐dose vaccine.
Conclusions
The generally achieved protection from SARS‐CoV‐2 mRNA vaccination should be regarded with caution in the population of HTx recipients. The possible benefit of additive vaccine should be further studied.
The accepted use of left ventricular assist device (LVAD) technology as a good alternative for the treatment of patients with advanced heart failure together with the improved survival of patients on the device and the scarcity of donor hearts has significantly increased the population of LVAD supported patients. Device-related, and patient-device interaction complications impose a significant burden on the medical system exceeding the capacity of LVAD implanting centres. The probability of an LVAD supported patient presenting with medical emergency to a local ambulance team, emergency department medical team and internal or surgical wards in a non-LVAD implanting centre is increasing. The purpose of this paper is to supply the immediate tools needed by the non-LVAD specialized physician -ambulance clinicians, emergency ward physicians, general cardiologists, and internists -to comply with the medical needs of this fast-growing population of LVAD supported patients. The different issues discussed will follow the patient's pathway from the ambulance to the emergency department, and from the emergency department to the internal or surgical wards and eventually back to the general practitioner.
The improvement in left ventricular assist device (LVAD) technology and scarcity of donor hearts have increased dramatically the population of the LVAD-supported patients and the probability of those patients to present to the emergency department with expected and non-expected device-related and patient-device interaction complications. The ageing of the LVAD-supported patients, mainly those supported with the 'destination therapy' indication, increases the risk for those patients to suffer from other co-morbidities common in the older population. In this second part of the trilogy on the management of LVAD-supported patients for the non-LVAD specialist healthcare provider, definitions and structured approach to the
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