Successful ABO-incompatible liver transplantation using A2 donors.

INTRODUCTION: The longer waiting time for a liver graft among patients with blood group O makes it necessary to expand the donor pool for these patients. We herein have reported our experience with ABO-incompatible liver transplantation using A(2) donors to blood group O recipients. PATIENTS AND METHODS: Between 1996 to 2005, 10 adult blood group O recipients received 10 A(2) cadaveric grafts. Mean recipient age was 52 +/- 7.7 years (mean +/- SD). The initial immunosuppression was induction with antithymocyte globulin (n = 2), interleukin-2-receptor antagonists (n = 3), or anti-CD20 antibody (rituximab, n = 1), followed by a tacrolimus-based protocol. No preoperative plasmapheresis, immunoadsorption, or splenectomies were performed. RESULTS: Patient and graft survival was 10/10 and 8/10, respectively, at 8.5 months median follow-up (range 10 days to 109 months). Two patients were retransplanted because of bacterial arteritis (n = 1) and portal vein thrombosis (n = 1). The six acute rejections, which occurred in four patients, were all reversed by steroids or increased tacrolimus dosages. The pretransplant anti-A titers against A(1) red blood cells were 1:128 (NaCl technique) and 1:8 to 1024 (IAT technique). The maximum postoperative titers were 1:64 to 4000 (NaCl) and 1:256 to 32000 (IAT). CONCLUSION: The favorable outcome of A(2) to O grafting, with a patient survival of 10/10 and graft survival of 8/10, makes it possible to consider this blood group combination also in nonurgent situations. There was no hyperacute rejection or increased rate of rejections. Anti-A/B titer changes seem to not play a significant role in the monitoring of A(2) to O liver transplantation.

Renal allograft glomerulopathy and the value of immunohistochemistry.

Studies of late renal allograft biopsies focus on chronic damage investigated by light microscopy (LM). We evaluated the use of immunohistochemistry (IH) as applied in the routine study of transplant glomerulopathies. Among renal transplants in 1985 - 1997, 129 were identified where a graft biopsy had been obtained 6 months or more after transplantation, studied by LM and IH and the original renal disease was known. IH results were evaluated in relation to glomerular LM findings and the original diagnosis. The risk of graft loss in relation to recurrent and de novo glomerulopathy was evaluated. By LM, 69 biopsies (53%) showed glomerulopathy, mesangial sclerosis only in 26, proliferative changes in 15, membranous in 15 and combined membranous and proliferative in 13. By IH, 46 biopsies (36%) stained positive with IgM and/or complement only and 24 with immune complexes including IgA and/or IgG. Seven biopsies (5.4%) showed glomerular disease by IH in spite of normal LM. Recurrence was diagnosed in 22 grafts; 12 had IgA nephropathy, 3 had SLE, 6 other immune complex nephritides and 1 systemic vasculitis. Twenty-eight biopsies (22%) with proliferative and/or membranous glomerulopathy lacked clear connection to the original renal disorder. More than half of these had deposits of IgM and C3 only. The further graft survival was significantly reduced in the presence of de novo glomerulopathy by LM, relative risk 2.0 (confidence interval 1.1 - 3.8) in a Cox-proportional hazards analysis also including serum creatinine and Banff chronic allograft nephropathy (CAN) grade, p = 0.03. In conclusion, transplant glomerulopathy should be separated from recurrence. De novo glomerulopathy is frequent and ominous.

Chronic allograft nephropathy--biopsy findings and outcome.

BACKGROUND: Chronic allograft nephropathy (CAN) is a composite term for various types of damage to a kidney transplant. We wanted to analyse its components in relation to baseline biopsy findings, transplant function, and outcome. METHODS: Among renal transplantations performed from 1985 to 1997, 156 were identified where allograft biopsies had been obtained on clinical indication 6 months after transplantation or later, baseline biopsies were available in each case and the patient's original disease was known. Time after transplantation was median 2.2 years (range 0.5-13). The biopsies were reviewed and the Banff 1997 CAN score obtained. RESULTS: All but one late biopsy showed some CAN grade, 48% grade II, and 7.5% grade III. Acute tubulointerstitial rejection was seen in 9% but vascular rejection in only 3%. Arterial wall thickening was present in 66% of the late biopsies, correlated with donor age and its presence at baseline but also with time after transplantation. The Banff CAN score and serum creatinine level were both independent predictors of further graft survival, relative risk 0.35 (confidence interval 0.15-0.82, P=0.015) for CAN grade I vs III and 0.30 (0.14-0.67, P=0.003) for serum creatinine <170 vs >250 micromol/l. Presence of arterial wall thickening had no prognostic impact. CONCLUSION: The CAN grade is predictive of further graft survival independently of the serum creatinine level. Interstitial fibrosis and tubular atrophy are more prominent features of chronic graft damage than vascular rejection. Unspecific arterial wall thickening is partly dependent on baseline conditions and lacks prognostic impact in this late stage.

Histo-blood group A antigen expression in pig kidneys--implication for ABO incompatible pig-to-human xenotransplantation.

OBJECTIVE: There is a relative shortage of donor organs for clinical transplantation, and the use of animal organs is being considered. A clinical trial was performed connecting pig kidneys to the circulation of a dialysis patient. MATERIAL AND METHODS: A pig kidney was, after plasmapheresis, extracorporeally connected to the circulation of a volunteer dialysis patient. The patient was of blood group B and the pig of blood group A. RESULTS: The experiment gave rise to a strong humoral immune response where the xenoantibodies were shown to be of immunoglobulin G (IgG), IgM and IgA immunoglobulin classes, recognizing mainly the Gal alpha1-3Gal epitope and the anti-A antibodies was exclusively of IgM type, recognizing the blood group A trisaccharide. Immunohistological examinations of blood group A pig kidneys revealed that blood group A antigens are located in the distal tubules, thin and thick tubules of Henle and the epithelium of the collecting ducts but absent in proximal tubules, glomeruli, large vessels and capillaries. In the perfused kidney, a patchy destruction of tubular cells was found and these segments stained positive for blood group A antigens and had a codeposition of human IgM antibodies and complement components. Tubular segments which were apparently normal were all negative for blood group A antigens but strongly expressed the Gal alpha1-xenoantigen. CONCLUSION: In this patient, challenged simultaneously with carbohydrate antigen epitopes representing both the ABO and the xenobarrier, the humoral immune response differed concerning the immunoglobulin classes induced. The low remaining anti-A titre after plasmapheresis was probably sufficient to cause destruction of A antigen-positive tubular cells, while the corresponding Gal alpha1-xenoantigen-positive cells were structurally intact. This case confirms that in future xenotransplantation, matching for the ABO system has to be undertaken in the same way as in human allotransplantation.

Complement deposition in renal allografts with early malfunction.

Among patients with early severe impairment of renal allograft function we have previously identified a group displaying isolated deposition of complement factor C3 in glomeruli. Here we studied the pattern of complement deposition more extensively in allograft biopsies from five patients using an immunofluorescence technique. We found a prominent deposition of C3c, C3d and C4d antigens in the glomerular capillary walls, and a positive reaction to vitronectin (S-protein), but only trace amounts of the complement factor C9 neoepitope. Clq, C4c, C3a, iC3b, factor B, properdin, immunoglobulins IgG, IgA or IgM were not found in glomeruli or in any other cortical structure. These findings indicate that most of the demonstrated glomerular C3 consists of C3b and/or C3c/C3d molecules. By immunoelectron microscopy the C3 antigen was found within the glomerular basement membrane. Our findings indicate that there is a mechanism of complement activation involving the early steps of the classical pathway, despite the lack of demonstrable immunoglobulins in the tissue. In analogy with similar reactions described recently in heart allografts, we suggest that this may be a manifestation of a humoral rejection, possibly mediated by a low titer of circulating antibodies directed against endothelial surface antigens, presumed to be the initial step leading to complement activation.

Extracorporeal ("ex vivo") connection of pig kidneys to humans. III. Studies of plasma complement activation and complement deposition in the kidney tissue.

The complement system is one of the important factors involved in the hyperacute rejection of xenografts. This report deals with the activation of the complement system in a clinical trial where pig kidneys were extracorporeally connected to two volunteer dialysis patients who were pretreated with plasmapheresis in order to substantially reduce anti-pig xenoantibodies. The clinical data of the perfusion experiments and the patients humoral immune response to pig xenoantigens have been reported in detail (Xenotransplantation 1996; 3:328-339, 340-353). Three consecutive daily plasmapheresis treatments of the patients reduced the plasma complement protein (C3, C4, and C5) concentrations to 8-27% of the baseline values. The perfusion of the pig kidney connected to patient 1 was terminated at 65 min due to graft rejection and this patient was not hemodynamically affected by the experiment. The second experiment was terminated at 15 min due to an anaphylactic like reaction of the patient. In patient 1 a slight reduction of plasma C3, C4, and C5 and an increase of C5a and SC5b-9 occurred, while C3a decreased during the perfusion. Patient 2 had an increase of all complement parameters, most prominent for C4d and SC5b-9, which occurred concomitant with the appearance of the anaphylactic like side effects. In general, plasma levels of PMN elastase, IL6 and IL8 increased in both patients during the perfusion. Immunohistochemical investigation of the kidney tissues revealed deposition of human complement factors C1q, C4c, and C3c in a congruent pattern with the vasculature of the kidney in patient 1. In kidney 2 only trace amounts of C1q and C3c were found. Both kidneys were negative for properdin. Therefore, in this experimental set up with extracorporeal connection of pig kidneys to the human circulation the human complement cascade is activated mainly through the classical pathway.

Heterogeneous expression of Gal alpha1-3Gal xenoantigen in pig kidney: a lectin and immunogold electron microscopic study.

BACKGROUND: The Gal alpha1-3Gal antigen (Gal alpha) is the primary target for human natural anti-pig xenoantibodies. The presence of Gal alpha has been shown in porcine endothelial cells (ECs) using light microscopy, whereas the expression of Gal alpha in other cell structures in the porcine kidney is only partially characterized. METHODS: Immunogold electron microscopy of pig kidney cryosections was performed using Griffonia simplicifolia isolectin B4 and affinity isolated human anti-Gal alpha1-3Gal antibodies. RESULTS: The most intense expression of Gal alpha was found on the apical and basolateral portions of the plasma membrane of the proximal convoluted tubule segments 1 and 2 cells, whereas segment 3 and 4 cells were negative. A strong staining was found in peritubular capillary ECs and in the inner medullary and papillary collecting duct cells. Moderate labeling of ECs and subendothelium was observed in large blood vessels, whereas glomerular ECs reacted weakly. Additionally, glomerular parietal epithelial cells, connecting tubule cells, and some cortical collecting duct cells were labeled. Among interstitial cells, a part of type-1 cells and all type-2 cells were labeled, whereas others were negative. CONCLUSIONS: By immune electron microscopy, a detailed information of the Gal alpha antigen distribution in porcine nephrons and blood vessels has been revealed, which clarifies conflicting data obtained by light microscopy. In addition, expression of the Gal alpha antigen in the renal interstitial cells was documented for the first time. These data are of importance for the understanding of xenoantibody-mediated hyperacute rejection, for interpretation of pig kidney xenograft biopsies, and for generating transgenic pigs lacking the Gal alpha epitope.

Physiological and histological characterisation of a pig kidney in vitro perfusion model for xenotransplantation studies.

A pig kidney perfusion model aimed for use in immunological and physiological xenotransplantation research has been developed. Organ viability was characterised by clearance studies, functional response to hormones/diureticum and by light microscopical examination. The pig kidney was perfused in a specially designed plexiglass chamber, using a roller pump and a small membrane oxygenator (O2/CO2, 95/5). The recirculating perfusate used was autologous pig blood diluted by Tyrodes solution to a hematocrit of 30%, at a total starting volume of 600-650 ml. The temperature was 37 degrees C. It was crucial for good organ function that the nephrectomy operating time, as well as the warm (1-2 min) and cold ischemia (average 43 min) times were minimized. The average total perfusion time was 151 minutes. Physiological parameters were measured during 10-15 minute periods at average times of 40, 63, 88 and 142 minutes. The clearance values of inulin in these periods were 54 +/- 13, 59 +/- 15, 48 +/- 23, 27 +/- 5 and for PAH; 103 +/- 14, 121 +/- 14, 106 +/- 30, 114 +/- 34 ml/min/100 g tissue weight. The plasma flows were 123 +/- 12, 155 +/- 17, 136 +/- 36 and 206 +/- 57 ml/min/100 g. The injection of 0.5 micrograms of alpha ANP to the perfusate resulted in a significant decrease in vascular resistance, and increase in urine production (+107%), as well as sodium (+112%) and potassium (+46%) excretion. Ten mg furosemide doubled the urine production and sodium excretion, while potassium excretion increased marginally. The number of leucocytes decreased by 39% during the perfusion, while the platelet count was unaffected. Light microscopy of the renal tissue after termination of the experiments revealed endothelial damage to variable extent. Loss of endothelial cells was most obvious at the level of arcuate and interlobular arteries, while the endothelium was intact in larger arteries and veins. Accumulation of polymorphonuclear granulocytes was found predominantly in the peritubular vessels, and to a lesser degree in the cortical venules. In the tubular cells, only minimal epithelial swelling and irregular cytoplasmic vacuolisation was found. Thus, a good functional viability can be maintained during 2 hours in vitro perfusion, although a decline in function as well as structural damage can be seen at the end of the experiment.

Extracorporeal ("ex vivo") connection of pig kidneys to humans. I. Clinical data and studies of platelet destruction.

The pioneering experiment by Welsh et al. (Immunological Lett 1991:29:167-170) connecting a pig kidney to the human circulation has been repeated in a modified manner. Two volunteer dialysis patients were pretreated by daily plasmapheresis on days -2,-1, and 0 to remove the naturally occurring anti-pig xenoantibodies. The anti-pig lymphocytotoxic liters were reduced from 1:8 to 1:2 in patient 1 and from 1:8 to 1:1 in patient 2. No steroids or immunosuppressive drugs were administrated before or during the experiments. A sterile pig kidney was extracorporeally ("ex vivo") connected to the patients a/v fistula using an arterial and a venous pump similar to a dialysis. The two experiments gave different results. In the first experiment the perfusion pressure was kept at 100 mmHg for the initial 25 min by reducing the pump speed until the minimum blood flow of 30 ml/min was reached. Thereafter, the pressure rose continuously and the experiment was terminated at 65 min at a perfusion pressure of 200 mmHg. The patient did not feel any discomfort during the perfusion. In the second experiment, a stable blood flow of 200 ml/min was reached at a pressure of 100 mmHg after a few minutes. The perfusion was terminated at 15 min when the patient developed chest and abdominal pain, hypotension, and electrocardiographic signs of myocardial ischemia. The patient recovered quickly. In the first experiment, small volumes of clear urine was produced until the pressure rose above 100 mmHg, which resulted in hematuria. In the second experiment clear urine (4 ml/min) was produced. (51)Chromium clearance values were after 15 min <1 ml/min for kidney 1 and 12 ml/min (8 ml/min/100 g) for kidney 2. A drastic reduction in platelet count (128 to 48 and 64 to 8 × 10(9)/1, respectively) during the passage through the kidney was found in blood samples collected simultaneously before and after the organ. No change in hemoglobin values and leucocyte counts were found. Light- and electron-microscopical analysis of the kidney tissues revealed for kidney 1 focal areas with obliteration of the glomerular and peritubular capillaries by platelets and PMN cells and severe damage of the endothelial cells comparable to a picture of a hyperacute rejection. In kidney 2, all vessels were patent but in the capillaries large amount of membrane fragments were detected by electron microscopy and a discrete damage of the endothelial cells were seen in some segments. No intact platelets were present in the vascular tree. These human experiments support the hypothesis that hyperacute rejection of pig to human xenografts is delayed in time by removal of the preformed anti-pig xenoantibodies. A new finding was a very rapid destruction of platelets occurring in the kidney of patient 2 who had very low liters of xenoantibodies. The humoral immune response is described in detail in an accompanying paper (Rydberg et al., this issue).

Extracorporeal ("ex vivo") connection of pig kidneys to humans. II. The anti-pig antibody response.

Pig kidneys were extracorporeally "ex vivo" connected to the circulation of two volunteer male dialysis patients (Breimer et al., this issue). The patients were pretreated by daily plasmapheresis for 3 consecutive days, which reduced the anti-pig lymphocytotoxic titer from 8 to 2 in the first patient and from 8 to 1 in the second patient. The anti-pig hemagglutinating titers were reduced from 32 to 4 in the first patient and from 2 to 1 in the second patient. No drugs, except heparin, were given. The perfusion lasted for 65 min in patient 1 and the experiment was terminated due to increased vascular resistance in the pig kidney. Ultrastructural investigation showed a picture similar to a hyperacute vascular rejection. Immunohistochemical studies showed a weak staining of IgM antibodies, but no IgG in the small arteries and glomeruli. The pig kidney of patient 2 was perfused for 15 min and the experiment terminated due to serious side effects of the patient. Light and electron microscopical investigation showed virtually no structural changes of the kidney tissue and immunostaining for human antibodies was negative. In both patients, serum samples collected 2-5 weeks postperfusion showed a strong anti-pig antibody titer rise (up to 512) which thereafter declined but stabilized on a higher level than before the experiment. The antibody response in the two patients was different. In patient 1, the major anti-pig antibodies directed to carbohydrate antigens were of IgG (IgG1 and IgG2 subclasses) type, while the IgM response was less prominent and virtually no IgA antibodies were produced. Despite the short duration of the perfusion in patient 2, a humoral immune response was seen that was mainly confined to the IgA immunoglobulin class (IgA1 subclass). Blood group glycospingolipid fractions, prepared from the contralateral kidney of the donor pigs, were used for immunostaining with patient serum samples. In both patients, the antibodies produced after the perfusion, mainly recognized the Galα1-3Gal epitope both as part of the "linear B" pentasaccharide but also on more complex carbohydrate structures. Patient 1 was HLA-immunized before the experiment due to a kidney allograft and had a panel reactivity of 85% before the perfusion. No change in the panel reactivity of HLA-antibodies was found after the perfusion experiments. Patient 2 had no HLA antibodies before and remained negative after the perfusion. Patient serum samples collected before and after the perfusion were tested for reactivity against human endothelial cell lines. No antibodies were generated.

Agarose method for the preparation of isolated glomeruli from human renal biopsies.

We present a technique using glomeruli which are removed by dissection from human renal biopsies and processed for transmission electron microscopy (TEM). Firstly, glomeruli are dissected and isolated from the specimen. Secondly, the collected glomeruli are embedded in agarose with a low gelling temperature. Finally, the embedded glomeruli are processed in the same way as whole pieces of tissue using standard methods for TEM. We have successfully prepared several hundred specimens using this simple and reliable technique. Provided that care is taken to prevent mechanical damage to the glomeruli during collection, no severe artifacts are introduced into the tissue. Even a single glomerulus can be isolated and processed in this way.

Acute renal failure after analgesic drugs including paracetamol (acetaminophen).

Seven patients with acute renal failure after ingestion of analgesic drug combinations including paracetamol were seen. They presented with oliguric renal failure and restitution of renal function was complete. Only 2 patients had severe liver damage and 2 patients had no signs of liver abnormality. Renal biopsies, studied by light and electron microscopy, in 3 patients showed focal tubular epithelial cell necrosis. Focal vascular damage, predominantly of endothelial cells, was also present in all specimens. This vascular injury was found in various locations in the kidney, including the glomerular and peritubular capillaries and small arterioles. This suggests that microvascular damage is an important mechanism for the renal injury after analgesic drugs.