BACKGROUND: The appropriate therapy after orthotopic heart transplantation (OHT) is determined by the results of endomyocardial biopsies (EMBs). The Quilty effect (QE) is a recognized cause of discrepancies in EMB grading, but its clinical implications remain unclear. In this study we assess the correlation of the QE with biopsy-proven acute cellular rejection (AR) and coronary artery vasculopathy (CAV). METHODS: We reassessed 5,361 EMB samples, obtained from 429 patients, based on QE occurrence and its impact on EMB score. Next, we divided all patients with at least 1 year of follow-up into two groups: a QE(+) group (n = 202, 58.7% of sample, 172 males/30 females, 44.8 +/- 12 years of age) and a QE(-) group (n = 142, 41.3% of sample, 124 males/18 females, 45.4 +/- 12 years of age), and compared AR and CAV occurrences. RESULTS: The QE was observed in 669 EMBs (12.5%), and at least 1 EMB with QE was found among the 231 patients (53.8%). The initial QE occurrence took place during the first 3 months after OHT in 68% of QE(+) patients, and >1 year post-OHT in 13% of patients. The average EMB score was significantly higher in QE(+) biopsies. A comparison of the two groups revealed a significantly higher number of AR episodes and number of patients with at least one episode of AR in QE(+) patients. There was no significant difference in number of CAV occurrences between groups. CONCLUSIONS: The QE seems to be a marker of the same increased immune system activity that can lead to AR. A relationship between QE and CAV was not supported by the present results.
BACKGROUND: The appropriate therapy after orthotopic heart transplantation (OHT) is determined by the results of endomyocardial biopsies (EMBs). The Quilty effect (QE) is a recognized cause of discrepancies in EMB grading, but its clinical implications remain unclear. In this study we assess the correlation of the QE with biopsy-proven acute cellular rejection (AR) and coronary artery vasculopathy (CAV). METHODS: We reassessed 5,361 EMB samples, obtained from 429 patients, based on QE occurrence and its impact on EMB score. Next, we divided all patients with at least 1 year of follow-up into two groups: a QE(+) group (n = 202, 58.7% of sample, 172 males/30 females, 44.8 +/- 12 years of age) and a QE(-) group (n = 142, 41.3% of sample, 124 males/18 females, 45.4 +/- 12 years of age), and compared AR and CAV occurrences. RESULTS: The QE was observed in 669 EMBs (12.5%), and at least 1 EMB with QE was found among the 231 patients (53.8%). The initial QE occurrence took place during the first 3 months after OHT in 68% of QE(+) patients, and >1 year post-OHT in 13% of patients. The average EMB score was significantly higher in QE(+) biopsies. A comparison of the two groups revealed a significantly higher number of AR episodes and number of patients with at least one episode of AR in QE(+) patients. There was no significant difference in number of CAV occurrences between groups. CONCLUSIONS: The QE seems to be a marker of the same increased immune system activity that can lead to AR. A relationship between QE and CAV was not supported by the present results.
Authors: Akhil Narang; John E Blair; Mita B Patel; Victor Mor-Avi; Savitri E Fedson; Nir Uriel; Roberto M Lang; Amit R Patel Journal: Int J Cardiovasc Imaging Date: 2018-05-04 Impact factor: 2.357
Authors: Cecilia Beatriz Bittencourt Viana Cruz; Ludhmila A Hajjar; Fernando Bacal; Marco S Lofrano-Alves; Márcio S M Lima; Maria C Abduch; Marcelo L C Viera; Hsu P Chiang; Juliana B C Salviano; Isabela Bispo Santos da Silva Costa; Julia Tizue Fukushima; Joao C N Sbano; Wilson Mathias; Jeane M Tsutsui Journal: Cardiovasc Ultrasound Date: 2021-01-09 Impact factor: 2.062