The Significance of C4d Staining with Minimal Histologic Abnormalities

Slides:

Advertisements

Similar presentations

Predictors of outcome in Acute Antibody-Mediated Rejections Experience of the Broussais / H.E.G.P. / Saint-Louis hospitals

Advertisements

Transplant Immunology & Renal Allograft Rejection

Case no. 7. Eva Honsova Institute for Clinical and Experimental Medicine Pathology Department Prague, Czech Republic

Chronic vascular injury of the kidney allograft: The contribution of rejection Heinz Regele Heinz Regele Department of Pathology Innsbruck Medical University.

PRA = 36% (21/58) Anti-A11 and B44.

Complement in Heart Allograft Biopsies E. Rene Rodriguez W. M. Baldwin, III.

Michael Mengel Department of Laboratory Medicine and Pathology

Kidney allografts with biopsy features of chronic mixed rejection reflect poorer survival than those with pure chronic antibody-mediated rejection D. Dobi,

The Value of Zero-Hour Implantation Biopsies Volker Nickeleit Nephropathology Laboratory, Department of Pathology The University of North Carolina, Chapel.

PATHOLOGIC DIAGNOSIS OF ANTIBODY-MEDIATED REJECTION (AMR) Histopathologic findings Immunopathologic findings Immunohistochemistry on paraffin sections.

Effects of Humoral Antibodies in Organ Transplantation: Boon or Bane? Reference: Ponticelli C. Humoral antibodies in organ transplantation: Angels or demons?

Role of recurrent disease for late allograft loss Fernando G. Cosio Mayo Clinic, Rochester MN 10 th Banff conference on allograft pathology.

C4d staining and morphology in protocol biopsies Michael Mengel* For the ESPRIT-Group European Study Group For Protocol Biopsies In Renal Transplantation.

The value of protocol biopsies in renal allografts Gordana Petrusevska Skopje, Macedonia Gordana Petrusevska Skopje, Macedonia.

Slide 1PUBLICATIONS Racusen/Solez meeting report for AJT. Racusen/Solez meeting report for AJT. Manuscript on antibody-mediated rejection. Manuscript on.

Sum Scores & Components’ Scores Chronic Scores Acute Rejection Scores Lillian W. Gaber University of Tennessee.

Calcineurin Inhibitor Toxicity In Kidney Allograft Protocol Biopsies Neeraja Kambham M.D. Stanford University.

Donor Organ Selection Criteria: What is Ideal? A Consensus (?) Discussion.

P.Randhawa, A. Girnita, A. Zeevi, R. Shapiro, I. Batal, Departments of Pathology, Surgery, University of Pittsburgh SIGNIFICANCE OF FOCAL C4d DEPOSTIS.

Summaries by Session Chairs of Banff 2003: C4d scoring/Ab mediated reject. - Bob Colvin GeneAnalysis/Microarrays/Tubulitis/Tolerance - Lorraine Racusen.

MONOCYTE/MACROPHAGES AND C4d IN RENAL ALLOGRAFTS Alex Magil, MD.

Slide Seminar Drugs and Kidney Case 3 Heinz Regele Department of Pathology.

Sum Scores and Scores of Individual Components in Clinical Practice and Clinical Trials Lillian W. Gaber University of Tennessee.

Challenging C4d Staining Results: C4d in Late Renal Allograft Biopsies, Focal C4d Staining, and C4d in ABO-Incompatible Grafts Mark Haas Department of.

Peritubular Capillary Inflammatory Cell Accumulation Scoring

C4d - staining: Comparison of methods C. Seemayer, A. Gaspert, M. Mihatsch.

Agnieszka Perkowska-Ptasinska1, M. Ciszek, A.L. Urbanowicz, L. Paczek,

ERYTHROCYTE C4d: A MARKER OF ANTIBODY MEDIATED REJECTION

Monitoring HLA-specific antibodies

Pathology of Kidney and the Urinary tract

Study of cytokine gene polymorphism and graft outcome in live-donor kidney transplantation By Rashad Hassan MD Amgad El-Agroudy, Ahmad Hamdy, Amani Mostafa.

Severe vascular lesions and poor functional outcome

Interactive Case Discussion Case 6 Dr Megha S Uppin Asst Prof Dept of Pathology Nizam’s Institute of Medical Sciences Hyderabad.

Kidney transplant case Niels Marcussen Hans Dieperink Odense University Hospital.

Humoral rejection: What the pathologist needs to know Humoral rejection: What the pathologist needs to know Heinz Regele Heinz Regele Clinical Institute.

Pathology of Kidney and the Urinary tract Dr. Amar C. Al-Rikabi Dr. Hala Kasouf Kfouri.

RAPAMUNE ® TM 1 Randomization Variable Day* to Day 386 Randomization Variable Day* to Day 386 RAPA, C min, TN0.765 CsA, C min, TN0.201 Gender0.117 Increasing.

Prognostic significance of C4-positive vs. negative rejection Heinz Regele Heinz Regele Department of Pathology Innsbruck Medical University Heinz Regele.

ANTIBODY MEDIATED REJECTION (HUMORAL REJECTION)

Single HLA Antigen Bead Data Interpretation: Normalized Ratios Peter Stastny Transplantation Immunology Division Departments of Internal Medicine and Pathology.

C4d in pancreas transplant biopsies: the Leiden experience Ingeborg Bajema Ingeborg Bajema Ingeborg Bajema.

Histological markers of CNI nephrotoxicity: Specific or not specific? Marion Rabant MD, Renaud Snanoudj MD, Virginie Royal MD, C. Girardin, E.Morelon MD.

D. Serón Nephrology Department Hospital Vall d’Hebron Barcelona Interpretation of sequential protocol biopsies in terms of prognosis and clinical implications.

Reference: Gloor J, Stegall MD

Acute antibody-mediated rejection

Antibody-Mediated Rejection in Renal transplantation

Desensitization in HLA-Incompatible Kidney Recipients and Survival Robert A. Montgomery, M.D., D.Phil., Bonnie E. Lonze, M.D., Ph.D., Karen E. King, M.D.,

Pathology of Renal Transplantation

Acute rejection after kidney transplantation

Donor Matching of Kidney Transplantation

The significance of Focal C4d+: The WU experience Helen Liapis, M.D. Professor of Pathology & immunology Kedainis RL et al. Am J Transplant Apr;9(4):812-9.

Hong Kong Workshop Lecture 8 HLA Epitopes and Acceptable Mismatches for Sensitized Transplant Patients.

Mechanism and Treatment of Antibody-Mediated Rejection

Anand Yuvaraj International Transplant Fellow

CASE PRESENTATION DR SANJAY MAITRA, DR DENISH SAVALIA,

Volume 77, Issue 9, Pages (May 2010)

KDIGO Clinical Practice Guideline for the Care of Kidney Transplant Recipients 순천향대학교 서울병원 신장내과 R2 김윤석.

T. N. Nikonenko, A. V. Trailin and A. S. Nikonenko

a b c d e Supplemental figure 4

Histomorphology in a case of mixed (cellular and humoral) acute kidney allograft rejection (patient 10). Histomorphology in a case of mixed (cellular and.

Pros and cons for C4d as a biomarker

Interplay of subclinical fibrosis

Volume 87, Issue 1, Pages (January 2015)

An Observational Study on Thrombotic Microangiopathy in Renal Transplant Recipients - A Tertiary Care Centre Experience. Dr Sarang Vijayan Senior Resident.

Volume 84, Issue 4, Pages (October 2013)

Acute Humoral Rejection

Proteasome inhibitor-based therapy for antibody-mediated rejection

Akira Shimizu, Kazuhiko Yamada, David H. Sachs, Robert B. Colvin

Post-transplant membranous glomerulonephritis as a manifestation of chronic antibody-mediated rejection Hyeon Joo Jeong, Beom Jin Lim, Myoung Soo Kima,

Volume 86, Issue 3, Pages (September 2014)

Presentation transcript:

The Significance of C4d Staining with Minimal Histologic Abnormalities Mark Haas Department of Pathology Cedars-Sinai Medical Center Los Angeles, California, USA

Outline/Objectives 1. To appreciate differences in the interpretation of positive C4d staining in ABO-incompatible renal allografts versus conventional and positive crossmatch (HLA-incompatible) renal allografts 2. To review potential prognostic implications of C4d staining without histologic lesions of antibody- mediated or cellular rejection in ABO-incompatible versus conventional and positive cross-match renal allografts

C4d Degradation product of complement factor C4, a component of the classical complement pathway that is typically initiated by antibody bound to antigen After cleavage of remaining C4 domains, C4d remains covalently bound at site of C4 activation Thus, C4d is a relatively long-lived marker of a humoral response Easily detected in tissue sections by immunofluorescence or immunohistochemistry Carousel slide 15

C4d Staining in Renal Allografts: correlation with donor-specific Ab Collins et al, JASN 10: 2208-14, 1999 100% of AR with +DSA were C4d+ No C4d in DSA- AR, CSA toxicity Crespo et al, Transplantation 71: 652-8 2001 18/19 with steroid-resistant AR and DSA C4d+ 2/32 with steroid-resistant AR and no DSA C4d+ C4d positivity 95% sensitive for presence of DSA (IF) Maueyyedi et al, JASN 13: 779-787, 2002 30% of early AR C4d+ - 90% had anti-donor antibody 2 morphologic subtypes of AMR - capillary, arterial Arterial had worse outcome Bohmig et al, JASN 13: 1091-9, 2002 21/24 C4d+ cases had DSA by flow cytometric XM 50% of C4d- biopsies had DSA 93% specificity, 31% sensitivity (IHC on paraffin sections)

Diagnostic Criteria for Acute AMR in Renal Allograft Biopsies (L. C Diagnostic Criteria for Acute AMR in Renal Allograft Biopsies (L.C. Racusen et al, Am J Transplant 3: 1-7, 2003) Morphologic evidence Neutrophils and/or monocytes/macrophages in PTC and/or glomeruli (acute glomerulitis) Arterial fibrinoid necrosis Thrombi in glomerular capillaries, arterioles, and/or small arteries Acute tubular injury (?) 2. Immunohistologic evidence C4d in PTC Immunoglobulin and/or complement in arterial fibrinoid necrosis Serologic evidence Circulating antibodies to donor HLA or other specific anti-donor antibodies at the time of biopsy

RN Smith et al, AJT 8: 1662-72, 2008

No TG TG Cosio et al, AJT 8:492-6,2008

What is the effect of C4d staining without histologic evidence of AMR in ABO-I grafts? 44 recipients of ABO-I grafts 1/00 – 6/07 37 met the following criteria: One or more protocol biopsies were done during the first ~3 months post-transplantation, meeting Banff ’97 adequacy criteria One or more subsequent protocol biopsies were done at 6 and/or 12 months post-transplantation, meeting the same adequacy criteria C4d staining was done on all protocol biopsies

What is the effect of C4d staining without histologic evidence of AMR in ABO-I grafts? Of these 37 patients: 21 (Group A) had an initial (1 or 3 month) protocol biopsy meeting all of the following criteria: >1+ diffuse PTC C4d No ACR (Banff ’97 1a or greater) or histologic evidence of AMR (PTC neutrophil or mononuclear WBC margination [ptc >0], glomerulitis [g>1], TMA, or arterial/arteriolar fibrinoid change) Presence of circulating antibody against donor blood group antigen(s) Of remaining 16 patients, 12 had negative or focal and weak (<1+) PTC C4d on their initial protocol biopsy (Group B), while the other 4 had >1+ diffuse C4d but with PTC WBC margination (SC AMR; omitted). All had circulating anti-blood group antibody. No patient had anti-HLA Class I or Class II antibodies.

Demographic and Serologic Data in Patient Cohorts Group A (C4d+) Group B (C4d-) P Value Number of patients 21 12 Age (years, mean + SD) 49 + 12 54 + 13 0.25 Males/Females 12/9 8/4 0.72 Race (white/black/Hispanic) 18/3/0 9/2/1 0.58 Donor blood group type: 0.09 A1 14 4 A2 2 1 A1B B 3 6 Initial BG Ab titer (mean + SD) 182 + 217 133 + 134 0.51 Number of PP/IVIG treatments: Pre-transplant (mean + SD) 6.1 + 2.3 5.8 + 2.4 0.48 Post-transplant (mean + SD) 4.7 + 1.5 4.7 + 2.1 0.74 Other pre-transplant treatments Splenectomy Anti-CD20 Splenectomy and anti-CD20 None 7

Clinical Findings in Patient Cohorts Group A (n = 21) Group B (n = 12) P Value Post-transplant day of initial protocol biopsy (days, mean + SD) 49 + 29 44 + 18 0.90 Post-transplant day of most recent F/U (days, mean + SD) 852 + 515 887 + 218 0.53 Serum creatinine (mg/dL): At diag./initial biopsy (mean + SD) 1.2 + 0.3 1.2 + 0.4 0.84 At 6 mo protocol bx (mean + SD) 1.3 + 0.2 1.4 + 0.5 0.50 At 12 mo protocol bx (mean + SD) 1.3 + 0.3 1.4 + 0.7 0.65 At most recent F/U (mean + SD) 0.59 Graft losses 1 (5%) 2 (17%) 0.54

Renal Findings in Patient Cohorts Group A (n = 21) Group B (n = 12) P Value Number (%) of Pts. With AMR (all were clinical) 1 (5%) 3 (25%) 0.12 Number (%) of Pts. With ACR (including clinical and subclinical) 7 (33%) 4 (33%) 0.99 ACR Type (Banff ’97) 0.82 None or borderline 14 8 1A 1 1B 2 2A 5 Number (%) of Pts. With BKV 5 (24%) 2 (17%) No. (%) of Pts. with Recurrent FSGS 1 (8%) (cg + ci + ct + cv): At diag./initial biopsy (mean + SD) 1.52 + 1.29 1.33 + 1.37 0.72 At 6 mo protocol bx (mean + SD) 1.86 + 1.82 3.00 + 2.57 0.22 At 12 mo protocol bx (mean + SD) 2.42 + 1.26 3.89 + 2.42 0.032

Dickenmann et al, Clin Nephrol 65: 173-179, 2006 Examined outcomes in 22 patients having for-cause biopsies of conventional renal allografts that showed focal (n = 21) or diffuse (n = 1) peritubular capillary C4d staining by IF, no morphologic evidence of AMR or ACR, and no prior C4d+ biopsy. 5/22 patients received anti-rejection therapy following the biopsy, while 17/22 continued to receive only baseline immunosuppression Anti-rejection therapy: Yes No P SCr (mg/dl) at biopsy 1.92 + 0.88 1.95 + 0.62 ns Lowest SCr within 4 weeks post-biopsy 0.95 + 0.22 1.60 + 0.54 0.02 SCr 1 year post-biopsy 1.26 + 0.25 2.04 + 0.91 3-year graft survival 100% 69%

+CM 3 month protocol bx SCr 1.0 mg/dl 2 + diffuse C4d, ptc 3 No ACR

Conclusions Although based on a retrospective analysis of a relatively small number of patients, our findings suggest that diffuse PTC C4d deposition and circulating anti-blood group antibodies in the absence of clinical or histologic evidence of AMR is most likely associated with a decreased risk of scarring in ABO-incompatible renal allografts in the relatively short term. It will be important to determine if this apparent beneficial effect persists over the long term and in larger cohorts of patients from different centers. If true, this would indicate that C4d staining without other evidence of AMR in ABO- incompatible grafts most likely represents a state of stable accommodation.

Conclusions (continued) 3. Unlike the case in ABO-incompatible grafts, in positive crossmatch (and conventional) renal allografts C4d deposition in the absence of histologic evidence of AMR appears to be uncommon, and may in fact indicate (potentially reversible) graft injury. However, there may be notable exceptions.

Department of Surgery Robert Montgomery Dorry Segev Daniel Warren Chris Simpkins Diane Lepley Jayme Locke Department of Pathology Lorraine Racusen Serena Bagnasco Karen King Department of Medicine Edward Kraus Hamid Rabb Andrea Zachary Hafiz Rahman