ABSTRACT
Objective To analyze the clinicopathological features and prognosis of polyomavirus nephropathy (PyVN) after kidney transplantation. Methods Clinical data of 44 patients who were diagnosed with PyVN after kidney transplantation were retrospectively analyzed. The causes of puncture and the time of pathological diagnosis were analyzed. Histological grading was carried out according to Banff 2018 classification. Clinical data and pathological characteristics of patients at all grades were statistically compared. BK viral DNA loads in the blood and urine were measured and renal allograft function were assessed. Clinical prognosis of all patients was compared among different groups and the risk factors affecting clinical prognosis were also analyzed. Results The time interval between pathological diagnosis of PyVN and kidney transplantation was 16(8, 29) months, and the increase of serum creatinine level was the main cause for puncture. Among 44 patients, 19 cases were classified as grade ⅠPyVN, 21 cases of grade Ⅱ PyVN and 4 cases of grade Ⅲ PyVN, respectively. Under optical microscope, there was no significant difference in the positive rate of virus inclusion bodies among different groups (P=0.148). Inflammatory cell infiltration, interstitial fibrosis and polyomavirus load in grade Ⅱ PyVN patients were all more or higher than those in grade Ⅰ counterparts. Inflammatory cell infiltration and polyomavirus load in grade Ⅲ patients were more or higher than those in grade Ⅰ counterparts. Polyomavirus load in grade Ⅲ patients was more or higher than that in grade Ⅱ counterparts. The differences were statistically significant (all P < 0.05/3). Upon diagnosis, BK viral DNA load was detected in the blood and urine of 39 patients. Among them, 38 patients were positive for BK virus in the urine and 30 patients were positive for BK virus in the blood. The serum creatinine level upon diagnosis was higher compared with that at postoperative 1 month. The serum creatinine level at the final follow-up was significantly higher than that upon diagnosis. The differences were statistically significant (P < 0.001, P=0.049). There was no significant difference in the serum creatinine level among patients with different grades of PyVN at postoperative 1 month (P=0.554). The serum creatinine level of patients with grade Ⅱ PyVN upon diagnosis was significantly higher than that of those with grade Ⅰ PyVN (P=0.007). The 1-, 3- and 5-year cumulative survival rates of renal allografts were 95%, 69% and 62%, respectively. The survival rates of renal allografts significantly differed among patients with different grades of PyVN. The higher the grade, the lower the survival rate (P=0.014). Univariate and multivariate Cox's regression analyses prompted that intrarenal polyomavirus load and serum creatinine level upon diagnosis were the independent risk factors for renal allograft dysfunction (all P < 0.05). Conclusions PyVN mainly occurs within 2 years after kidney transplantation. Clinical manifestations mainly consist of increased serum creatinine level, BK viremia and BK viruria. Postoperative routine monitoring of BK virus contributes to early diagnosis and protection of renal allografts. Banff 2018 classification may effectively predict the prognosis of renal allografts.
ABSTRACT
The pathology of liver allograft biopsy is not only essential for the evaluation of liver donor, but also for the diagnosis and differential diagnosis of posttransplantation complications. With the development of liver transplantation in clinical practice, relevant studies of the pathological diagnosis of liver allograft complications have been deepened. Banff classification on liver allograft pathology have been gradually established within the international community. In China, pathological studies related to liver allograft pathology have been steadily carried out, and the pathological diagnostic basis of liver allograft pathology suitable for the clinical practice of liver transplantation in China has been gradually formed. This article reviews the history of Banff liver allograft pathology and major pathological lesions of liver allograft complications, aiming to provide reference for implementing pathological diagnosis of liver allograft pathology in China, assisting clinical diagnosis and targeted treatment of complications after liver transplantation, and further improving the survival of liver allograft and recipients.
ABSTRACT
With the development of organ transplantation in clinical practice, allograft pathology has been constantly developing and advancing. The convening of Banff conference on allograft pathology and the establishment of Banff classification on allograft pathology (Banff classification) are pivotal milestones in the development of international allograft pathology. Since then, Banff classification on pathological diagnosis of various transplant organs have been continually updated and improved. Ultrastructural pathological observation by electron microscope plays an irreplaceable role in the early diagnosis of antibody-mediated rejection, recurrent disease and de novo disease of renal allograft. Early detection and rational treatment help to maintain the long-term survival of renal allograft and reduce the failure of renal allograft. In this article, the basic definition of electron microscope and the ultrastructural pathological diagnosis, the research history and main progress on electron microscope diagnosis on Banff classification for renal allograft pathology were introduced, and typical pathological changes, specific terminology and diagnostic criteria of electron microscope diagnosis on renal allograft biopsy were summarized, aiming to provide reference for clinical and basic research of organ transplantation.
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Antibody-mediated rejection (AMR), also known as humoral rejection, is an immune injury caused by rejection involved with multiple humoral immune effectors, such as antibodies and complements, etc. AMR plays a pivotal role in hyperacute, acute and chronic rejection. In this article, the basic definition of AMR, the research progress and major achievements on AMR pathology according to Banff classification on allograft pathology (Banff classification), and main pathological characteristics of AMR in renal allograft were reviewed, aiming to provide reference for accurate diagnosis and timely treatment of AMR, and guarantee the long-term survival of renal graft and recipients.
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T cell-mediated rejection (TCMR) is one of the main mechanisms of rejection in organ transplantation, which is also the most common type of acute rejection.Based on Banff classification on allograft pathology (Banff classification) in 2019, TCMR can be divided into acute TCMR (aTCMR) and chronic active TCMR (caTCMR) according to the characteristics of immune lesions.In this article, the basic definition of TCMR, the research progress on TCMR pathology according to Banff classification for renal allograft, and the basic pathological changes and diagnostic grading of TCMR were reviewed, aiming to provide evidence for early identification, diagnosis and treatment of TCMR and prevent the progression of TCMR into caTCMR, thereby guarantying the long-term survival of both the renal allograft and recipient.
ABSTRACT
The Banff conference on allograft pathology (Banff conference) and the establishment of Banff classification on allograft pathology (Banff classification) are milestones in the development of international allograft pathology. At present, all organ transplantation centers around the world routinely perform pathological diagnosis by biopsy of the transplant kidney according to Banff classification. Subsequently, the consensus process and update mode of Banff classification for transplant kidney was quickly extended to transplant heart, lung, liver, pancreas, and small intestine, etc. The Banff conference has not only become a thematic meeting that includes the pathology study and discussion of various transplant organs, but also gradually developed unified diagnostic standard for the biopsy of each transplant organ, which better promoted the accurate diagnosis and treatment of complications after organ transplantation. This article summarized the history of international allograft pathology research, the Banff conference and Banff classification in promoting organ transplantation, which aimed to provide a reference for the smooth development of clinical organ transplantation.