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Query: UMLS:C0002986 (
Fabry
)
5,646
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Virtually all diseases affecting the native kidney recur in the kidney transplant with the exception of Alport syndrome, polycystic kidney disease, hypertension, chronic pyelonephritis, and chronic interstitial nephritis. Fortunately, in the majority of patients, recurrence of the original disease has minimal clinical impact, with only approximately 5% of all graft loss occurring as a result of recurrent disease. The primary renal diseases that commonly recur include membranoproliferative glomerulonephritis type II, IgA nephropathy, and focal and segmental glomerular sclerosis. The most common systemic disease that recurs is diabetic nephropathy. Living-related transplantation should be used with caution in patients with the hemolytic uremic syndrome, recurrent focal and segmental glomerular sclerosis, and membraneous glomerulonephritis.
Fabry disease
and
primary hyperoxaluria
type I are no longer absolute contraindications to kidney transplantation.
...
PMID:Recurrent diseases in the kidney transplant. 802 19
Glomerulonephritis is a major cause of end-stage renal disease (ESRD) and is the primary disease in over a third of patients undergoing renal transplantation. An understanding of the incidence and clinical significance of recurrent glomerulonephritis posttransplantation is therefore essential. Indeed, all forms of glomerulonephritis have been reported to recur histologically after renal transplantation, but the incidence and severity of clinical recurrence varies greatly according to the type of glomerular disease. Large registries report that between 5% to 10% of allografts fail secondary to recurrence of primary disease. This review attempts to clarify some of the salient clinical features of recurrent glomerulonephritis from a body of literature full of anecdotal reports and retrospective studies. There are several excellent reviews on recurrent glomerulonephritis; this review aims to complement these by focusing on more recent developments in the field. Development of de novo glomerulonephritis in the transplant will also be discussed. The recurrence of metabolic diseases such as diabetes mellitus, cystinosis,
Fabry's disease
, and
primary hyperoxaluria
will not be discussed.
...
PMID:Recurrent and de novo glomerulonephritis in the renal allograft. 1074 58
Hereditary diseases have to be considered in the differential diagnosis of many kidney diseases. The kidney can be affected by systemic metabolic diseases such as
primary hyperoxaluria
or
Fabry's disease
. Inborn errors of the coagulation cascade or the complement system may cause familiar forms of the hemolytic uremic syndrome. Of central interest are hereditary cystic kidney diseases with autosomal dominant polycystic kidney disease as its most prominent example. Hereditary forms of the nephrotic syndrome are usually caused by abnormalities of podocyte function. Alport's syndrome is a classical example of a basement membrane disease. Of special interest are hereditary defects in tubular transport mechanisms such as carrier defects affecting sodium reabsorption along the tubulus.
...
PMID:[Pathogenesis and clinical course of hereditary nephropathies]. 1147 6
Renal transplantation (Tx) is the treatment of choice for end-stage renal disease. The incidence of acute rejection after renal Tx has decreased because of improving early immunosuppression, but the risk of disease recurrence (DR) is becoming relatively high, with a greater prevalence in children than in adults, thereby increasing patient morbidity, graft loss (GL) and, sometimes, mortality rate. The current overall graft loss to DR is 7-8%, mainly due to primary glomerulonephritis (70-80%) and inherited metabolic diseases. The more typical presentation is a recurrence of the full disease, either with a high risk of GL (focal and segmental glomerulosclerosis 14-50% DR, 40-60% GL; atypical haemolytic uraemic syndrome 20-80% DR, 10-83% GL; membranoproliferative glomerulonephritis 30-100% DR, 17-61% GL; membranous nephropathy approximately 30% DR, approximately 50% GL; lipoprotein glomerulopathy approximately 100% DR and GL;
primary hyperoxaluria
type 1 80-100% DR and GL) or with a low risk of GL [immunoglobulin (Ig)A nephropathy 36-60% DR, 7-10% GL; systemic lupus erythematosus 0-30% DR, 0-5% GL; anti-neutrophilic cytoplasmic antibody (ANCA)-associated glomerulonephritis]. Recurrence may also occur with a delayed risk of GL, such as insulin-dependent diabetes mellitus, sickle cell disease, endemic nephropathy, and sarcoidosis. In other primary diseases, the post-Tx course may be complicated by specific events that are different from overt recurrence: proteinuria or cancer in some genetic forms of nephrotic syndrome, anti-glomerular basement membrane antibodies-associated glomerulonephritis (Alport syndrome, Goodpasture syndrome), and graft involvement as a consequence of lower urinary tract abnormality or human immunodeficiency virus (HIV) nephropathy. Some other post-Tx conditions may mimic recurrence, such as de novo membranous glomerulonephritis, IgA nephropathy, microangiopathy, or isolated specific deposits (cystinosis,
Fabry disease
). Adequate strategies should therefore be added to kidney Tx, such as donor selection, associated liver Tx, plasmatherapy, specific immunosuppression protocols. In such conditions, very few patients may be excluded from kidney Tx only because of a major risk of DR and repeated GL. In the near future the issue of DR after kidney Tx may benefit from alternatives to organ Tx, such as recombinant proteins, specific monoclonal antibodies, cell/gene therapy, and chaperone molecules.
...
PMID:Disease recurrence in paediatric renal transplantation. 1924 94
Inherited kidney diseases constitute at least 150 different disorders and they have an overall prevalence of about 6080 cases per 100 000 in Europe and in USA. At least 10% of adults and nearly all children who progress to renal-replacement therapy have an inherited kidney disease, representing the fifth most common cause of end-stage renal disease after diabetes, hypertension, glomerulonephritis, and pyelonephritis. These conditions include both structural and functional disorders, among which are counted diseases resulting from inborn errors of metabolism (IEM). Some inborn errors of metabolism primarily affect kidney and because of progress in renal replacement therapy, patients with inherited kidney disorders rarely die when their disease progresses and can live for many years. However, these patients often have compromised health with a poor quality of life. Renal transplantation offers a viable treatment option for those inborn errors of metabolism characterized by primary renal damage caused by dysfunction of a mutated protein, as in cystinuria. In this case, the indication to renal transplantation makes it possible to overcome the specific enzyme defect. However this option remains valid even when the genetic defect is expressed systemically and renal involvement is just one of the clinical manifestations of the disease, as in
Anderson-Fabry disease
, cystinosis, hereditary amyloidosis and
primary hyperoxaluria
. In these conditions, renal transplantation is combined with the liver (
primary hyperoxaluria
) or cardiac transplant (familial amyloidosis) improving the quality and life expectancy of patients.
...
PMID:[Kidney Transplantation and inborn errors of metabolism]. 2600 41
Inherited kidney diseases constitute at least 150 different disorders and they have an overall prevalence of about 6080 cases per 100,000 in Europe and in USA. At least 10% of adults and nearly all children who progress to renal-replacement therapy have an inherited kidney disease, representing the fifth most common cause of end-stage renal disease after diabetes, hypertension, glomerulonephritis, and pyelonephritis. These conditions include both structural and functional disorders, among which are counted diseases resulting from inborn errors of metabolism (IEM). Some inborn errors of metabolism primarily affect kidney and because of progress in renal replacement therapy, patients with inherited kidney disorders rarely die when their disease progresses and can live for many years. However, these patients often have compromised health with a poor quality of life. Renal transplantation offers a viable treatment option for those inborn errors of metabolism characterized by primary renal damage caused by dysfunction of a mutated protein, as in cystinuria. In this case, the indication to renal transplantation makes it possible to overcome the specific enzyme defect. However this option remains valid even when the genetic defect is expressed systemically and renal involvement is just one of the clinical manifestations of the disease, as in
Anderson-Fabry disease
, cystinosis, hereditary amyloidosis and
primary hyperoxaluria
. In these conditions, renal transplantation is combined with the liver (
primary hyperoxaluria
) or cardiac transplant (familial amyloidosis) improving the quality and life expectancy of patients.
...
PMID:[Kidney Transplantation and inborn errors of metabolism]. 2647 53
