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ESRD Management of Atypical Hemolytic-Uremic Syndrome (HUS). Jeff rey M. Saland , M.D. Department of Pediatrics Mount Sinai School of Medicine. Conflicts / Disclosures. Will discuss off label uses No financial interests in any agents discussed
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ESRD Management of Atypical Hemolytic-Uremic Syndrome (HUS) Jeffrey M. Saland, M.D. Department of Pediatrics Mount Sinai School of Medicine
Conflicts / Disclosures Will discuss off label uses No financial interests in any agents discussed No financial interest in any healthcare-related entity
Overview • A significant percentage of cases of atypical HUS are due to disorders of complement regulation.
Overview • A significant percentage of cases of atypical HUS are due to disorders of complement regulation. • Empiric plasma therapy can delay or prevent ESRD in many of those cases
Overview • A significant percentage of cases of atypical HUS are due to disorders of complement regulation. • Empiric plasma therapy can delay or prevent ESRD in many of those cases • Risk of post-transplant recurrence depends on the specific disorder of complement regulation.
Overview • A significant percentage of cases of atypical HUS are due to disorders of complement regulation. • Empiric plasma therapy can delay or prevent ESRD in many of those cases • Risk of post-transplant recurrence depends on the specific disorder of complement regulation. • Emerging therapy may expand ESRD options
Typical HUS • Triad of : • Microangiopathic hemolytic anemia • Thrombocytopenia • Acute renal failure • Generally diarrhea-associated • Shiga toxin produced by E coli serotype O157:H7 • Shigella, Salmonella, others also • Food borne disease: uncooked / unpasteurized • products contaminated by animal wastes • Or other infections (respiratory): • Invasive S. Pneumoniae or viral infections
Typical HUS A severe condition: acutely 2.5% mortality, often significant morbidity Spizzirri et al. Pediatric Nephrology 1996
Atypical HUS Clinically very severe 15% died 25% ESRD 60% major sequelae 15% renal insufficiency 1/3 recover without significant renal disease most (75%) of these had a single episode few (25%) of these had recurrent aHUS (a pediatric series) Taylor et al Ped Neph 2004
A Classification of TMA(Thrombotic Microangiopathy) Besbas et al. Kidney International 2006
Complement and Atypical HUS Since the early 1970’s alternative pathway complement activation (low C3), has been recognized in some cases of atypical HUS 1998: Linkage analysis in 3 families with HUS provided clear association with CFH 1981: 1st case of HUS with factor H deficiency described Clin. Exp. Immunol. (1981), Kidney International (1998)
Complement and Atypical HUS About 50%-60% of aHUS cases are associated with a mutation in a complement-related gene Jozsi et al. Blood 2008, Frémeaux-Bacchi V et al. Blood 2008, Goicoechea de Jorge 2007, Caprioli, et al Blood 2006, Kavanagh Curr Opin Nephrol Hypertens, 2007
C3 Levels By Mutation Sellier-Leclerc, A.-L. et al. J Am Soc Nephrol 2007;18:2392-2400
Recommended Initial Evaluation of HUS Because infections trigger both typical and atypical HUS, initial evaluation should encompass both Testing should include C3 level as well as classic evaluation (stool culture, LDH, smear, etc.) ADAMSTS13 / auto-Ab analysis if TTP not ruled out Save some plasma for later analysis
Plasma Therapy Fluid phase complement proteins reside in plasma and are therefore subject to plasma therapy Caprioli, et al. Blood. 2006
Plasma Therapy • Fluid phase complement proteins reside in plasma and are therefore subject to plasma therapy • Plasma Infusion: • Repletes but does not remove mutant protein • Plasma Exchange: • Removes mutant protein and repletes Caprioli, et al. Blood. 2006
Plasma Therapy • Fluid phase complement proteins reside in plasma and are therefore subject to plasma therapy • Plasma Infusion: • Repletes but does not remove mutant protein • Plasma Exchange: • Removes mutant protein and repletes • There are MANY anecdotes of prolonged preservation of kidney function in patients with CFH mutation, though most eventually suffer ESRD. • Benefit is not clear for MCP mutations– most (single) episodes seem to recover with or without exchange Caprioli, et al. Blood. 2006
Detecting Complement-related HUS(Trying to Prevent ESRD) Saland, et al. JASN 2009, Ariceta et al. Ped Neph 2008
Empiric Plasma Exchange Diagnosis of HUS Atypical presentation Clinical Exceptions Plasma Exchange within 24 hrs 1.5 Volumes (60-75 ml/kg) per session FFP or Octaplas® Repeat Plasma Exhange Daily x 5 Then 5 sessions/week for 2 weeks Then 3 sessions/week for 2 weeks Withdrawal Alternate Diagnosis Plasma Exchange Complication Early remission Assess Outcome at Day 33 Ariceta et al. Ped Neph 2009
Summary #1 Key atypical features require empiric plasma exchange.
Summary #1 Key atypical features require empiric plasma exchange. C3 levels should be part of every HUS evaluation Save blood from before plasma exchange
Summary #1 Key atypical features require empiric plasma exchange. C3 levels should be part of every HUS evaluation Save blood from before plasma exchange Patients with aHUS should undergo genotyping for the most up-to-date list of complement-related disorders:
Summary #1 Key atypical features require empiric plasma exchange. C3 levels should be part of every HUS evaluation Save blood from before plasma exchange Patients with aHUS should undergo genotyping for the most up-to-date list of complement-related disorders: CFH, CFI, MCP, C3, CFB, anti-FH-Ab – CFHR1/CFHR3 (more likely to be added)
Summary #1 Key atypical features require empiric plasma exchange. C3 levels should be part of every HUS evaluation Save blood from before plasma exchange Patients with aHUS should undergo genotyping for the most up-to-date list of complement-related disorders: CFH, CFI, MCP, C3, CFB, anti-FH-Ab – CFHR1/CFHR3 (more likely to be added) Contacting one of the major registries is prudent
ESRD Management • Do not diagnose ESRD too soon. • Renal recovery may occur if TMA is halted. • In dialysis dependent patients, native nephrectomy should be considered for: • Ongoing HUS (clinical or biochemical) • Severe hypertension
ESRD Management: Dialysis • aHUS is generally quiescent during ESRD • Rare findings reported during dialysis: • Angioedema, complement activation (hemodialysis) • Hemolysis / thrombocytopenia • Subclinical hepatic (or other organ) involvement Jalanko, et al. AJT 2007, Saland, et al. CJASN 2009
Subclinical Hepatic Involvement Saland et al. CJASN 2009
ESRD Management: Dialysis Due to a high rate of transplant failures, aHUS patients have been faced with extremely long dialysis duration and its accompanying risks.
Transplant Considerations Gray, Henry. Anatomy of theHumanBody.Philadelphia: Lea & Febiger, 1918; Bartleby.com, 2000. www.bartleby.com/107/.
Complement and Atypical HUS Risk of recurrence after “unmodified” kidney transplant Loirat, C et al. Pediatric Transplantation 2008, Saland et al. JASN 2009
Post-Transplant HUS Recurrence Most are within 1 month Plasma responsiveness of the underlying defect is often retained. If untreated, most result in graft loss Chronic plasmapheresis may be required Seitz, B et al. Transplantation Proceedings 2007,
Options for Transplantation Kidney transplantation*
Options for Transplantation Kidney transplantation* Combined liver-kidney transplantation*
Complement and Atypical HUS Risk of recurrence after “unmodified” kidney transplant Loirat, C et al. Pediatric Transplantation 2008, Saland et al. JASN 2009
Combined Liver Kidney Transplant For aHUS Secondary to CFH Mutation First 3 Experiences not Encouraging Auxiliary liver, several month function followed by acute decompensation, death Hepatic graft failure* with neurological deficits, 2nd liver transplant at 1 month Primary hepatic non-function*, death *Complement mediated injury to liver vasculature Cheong HI. (Abstract) ASN/ISN World Congress 2001, Remuzzi G, et al. Lancet 2002, Remuzzi G, et al. AJT 2005, Cheong HI et al. Pediatr Nephrol 2004
Surgery is a trigger for complement activation Preparative plasma exchange before transplant followed by serial plasma exchange is recommended
Liver-Kidney Transplant ProtocolModified by Plasma Exchange • Hemodialysis (if needed) session no heparin • Plasma exchange with FFP (minimum 1.5 volumes) • < 6 hours of surgery • 10- 20 ml/kg FFP intraoperatively • Additional FFP if clinically indicated • Post-operative LMW heparin prophylaxis • Low dose aspirin prophylaxis Plasma exchange removes mutant FH, replaces normal LMW heparin used empirically Hold anticoagulation for bleeding or coagulopathy Saland, J et al. JASN 2009
Combined Liver Kidney Transplant For aHUS Secondary to CFH Mutation A Modified* Approach is Potentially Successful, Though Risky. • NYC #1: whole liver • Helsinki #1: whole liver • Helsinki #2: whole liver • NYC #2: split liver • Helsinki #3: adult, whole liver • UK #1: whole liver* • Boston #1: whole liver • NYC #3: split liver, death (hepatic artery thrombosis) • NYC #4: split liver, death (SVC syndrome complication)) • * Native kidney function preserved, liver tx only Saland et al, AJT 2006, Jalanko et al. AJT 2008, Saland et al. CJASN 2009 and verbal communications: Jalanko 2007, Milford 2008, Milner 2008
Options for Transplantation Kidney transplantation* Combined liver-kidney transplantation* Kidney transplantation* followed by chronic plasma exchange prophylaxis Not yet … followed by chronic anti-complement therapy followed by specific factor replacement (eg. FH)
Transplant Decisions MCP Mutation Transplantation Reasonable Current consensus for now is to provide pre-operative plasma exchange and at least one month of tapering plasma exchange protocol LMW heparin anticoagulation Loirat, C et al. Pediatric Transplantation 2008, Saland,et al. JASN 2009
Transplant Decisions MCP Combined with other Mutations No consensus, isolated kidney may be reasonable If transplanted, provide pre-operative plasma exchange and at least one month of tapering plasma exchange protocol LMW heparin anticoagulation Loirat, C et al. Pediatric Transplantation 2008, Saland,et al. JASN 2009
Transplant Decisions CFH or CFI Mutation* Combined Liver-Kidney Tx Pre-operative Plasma exchange LMW heparin anticoagulation Renal Tx * Plasma exchange before and chronically after LMW heparin anticoagulation * Especially if kidney transplant in family members with same mutation was successful • Wait for new Rx • FH concentrate • Complement inhibitors Loirat, C et al. Pediatric Transplantation 2008, Saland,et al. JASN 2009
Transplant: Anti-FH-Autoantibodies One Successful Case Reported • Pretransplant preparation using: • plasma exchanges over several weeks • (the response was not complete) • 4 weekly doses of rituximab added • Anti-FH-Ab levels were monitored • Fairly routine transplant protocol: • Basiliximab, prednisone, cyclosporine • Resulted in sustained antibody supression • for over 4 months Anti-FH Autoantibodies Kwon et al, NDT 2008
Transplant Decisions CFB, C3 Mutations Case by Case: Unclear impact of: Non-hepatic protein sources Complement activating potential of residual protein Therapeutic potential of future anti-complement Rx Saland et al. JASN 2009
Transplant Decisions No Known Mutation Transplantation Reasonable Current consensus for now is to provide pre-operative plasma exchange and at least one month of tapering plasma exchange protocol LMW heparin anticoagulation Loirat, C et al. Pediatric Transplantation 2008 Saland, J et al. JASN 2009
Final Summary Atypical HUS has a high risk of ESRD Transplantation options depend on the specific cause Transplant surgery triggers complement activation For high-recurrence risk conditions: Current options are risky and limited Emerging treatments are promising
Acknowledgments Foundation for Children with Atypical HUS Censensus Group, Liver-Kidney Transplantation for HUS Bergamo: Drs. Giussepe Remuzzi & Piero Ruggenenti Newcastle: Dr. Timothy Goodship U. Iowa: Dr. Richard Smith