Amyloidosis with Cardiac Involvement: Identification, Characterization, and Management

Purpose of Review Amyloidosis is a protein deposition disease whereby a variety of precursor proteins form insoluble fibrils that deposit in tissues, causing organ dysfunction and, many times, death. Accurate characterization of the disease based on the nature of the precursor protein, organ involvement, and extent of disease is paramount to guide management. Cardiac amyloidosis is critical to understand because of its impact on prognosis and new treatment options available. Recent Findings New imaging methods have proven to be considerably valuable in the identification of cardiac amyloid infiltration. For treating clinicians, a diagnostic algorithm for patients with suspected amyloidosis with or without cardiomyopathy is shown to help classify disease and to direct appropriate genetic testing and management. For patients with light chain disease, recently introduced treatments adopted from multiple myeloma therapies have significantly extended progression-free and overall survival as well as organ response. In addition, new medical interventions are now available for those with transthyretin amyloidosis. Summary Although cardiac amyloidosis contributes significantly to the morbidity and mortality associated with systemic disease, new tools are available to assist with diagnosis, prognosis, and management.

Unusual case of amyloidosis presenting as a jejunal mass

Amyloidosis constitutes a heterogeneous group of disorders of protein misfolding that can involve different organ systems. The disease can occur either in a systemic or localised manner that is well known to involve the gastrointestinal (GI) tract. GI amyloidosis can present with a wide range of symptoms including diarrhoea, bleeding and obstruction. This case illustrates a patient with localised jejunal amyloid light chain disease that was diagnosed serendipitously during a workup for haematuria. Our patient was otherwise asymptomatic, but this case underscores the importance of considering amyloidosis as a possible cause of isolated masses of the small intestine.

Early Normalization of Free Light Chains Predicts Better Outcomes in Patients with Multiple Myeloma

Background: The half-life of free light chain is short and can be used as an early marker for tumor response in patients with multiple myeloma [MM]. This prospective study is aimed at evaluating whether early light chain response can predict response to treatment in patients with MM. Materials and Methods: Thirty six patients with a diagnosis of MM and with an abnormal to normal light chain ratio of > 10 were included in this study. Results: The median age at presentation was 56 years. Fourteen patients had lambda light chain disease, whereas 22 patients had kappa light chain disease. Twenty-four patients [66.6%] had reduction of abnormal to normal light chain ratio to < 10 after 2 cycles, of whom 15 [62.5%] achieved a CR or VGPR after 6 cycles. Among 12 patients who did not have reduction of abnormal to normal light chain ratio to < 10, only 1 patient achieved CR while 11 patients [91.6%] achieved a PR or less[Fishers exact p=0.004]. Median follow-up was 13 months. Median progression-free survival for the entire cohort was 15 months. One-year Progression-Free Survival was 77% vs 57.1%, [p= 0.008], respectively for patients with early normalization and those who did not show early normalization. Conclusion: Early light chain response after 2 cycles of chemotherapy is a good predictor for treatment response in patients with MM treated with bortezomib based chemotherapy. Treatment intensification based on early light chain response merits further evaluation in a prospective trial

P0125ELECTRON MICROSCOPIC DESCRIPTION OF A SENSITIVE DIAGNOSTIC PROXIMAL EPITHELIAL LYSOSOMAL LESION IN PATIENTS WITH CINAC/CKDU/MEN AND CNI NEPHROTOXICITY

Background and Aims In CINAC patients from Sri Lanka, we recently observed a sensitive constellation of proximal tubular cell findings including cellular/tubular atrophy, cell fragment shedding and, by electron microscopy (EM), the presence of an increased number of enlarged lysosomes. Here we focused on precisely defining the EM lysosomal phenotype and evaluating its presence in CINAC/MeN/CKDu cases and controls from other countries. Method Thirthy-two renal biopsies (18 Sri Lanka, 10 El Salvador, 1 India, 3 France) of patients with a diagnosis of CINAC (CKD 1-3A, 3B) were examined by electron microscopy (EM) in comparison to renal biopsies of normal kidneys at implantation, patients with calcineurin inhibitor (CNI) toxicity (n=17), proteinuric nephropathies (n=15), light chain disease (n=4), several cases on nephrotoxic drugs (lomustine, clomiphene, lithium, tenofovir, cisplatinum) and patients with reduced renal function of various causes (n=20). Results The aberrant lysosomal phenotypes can be defined as enlarged (&gt;1.2µm) and dysmorphic with a light-medium electron-dense matrix containing dispersed dark electron-dense non-membrane bound round to irregular shaped “aggregates”. In addition, indicative clusters of 4-6 smaller lysosomes with the same features could be observed. No cristae or other features of mitochondria, autophagic vacuoles, lipofuscin/ceroid droplets, peroxisomes (marginal plate), lysosomal myeloid bodies (aminoglycoside nephropathy) or electron dense laminated lysosomal inclusions (Fabry disease) were observed. Patients with calcineurin inhibitor nephrotoxicity and several cases on nephrotoxic drugs (lomustine, clomiphene, lithium) and a subset of patients with light chain disease, all conditions that can either directly or indirectly be linked to calcineurin inhibition, presented the same lesions. We present an image set demonstrating the phenotypical consistency of the diagnostic lysosomal lesion versus similar features that are non-diagnostic. Conclusion A rather sensitive constellation of lysosomal lesions in renal proximal tubular cells was detected associated with CINAC/CKDu/MeN and CNI nephrotoxicity in several countries, suggesting a common new pathomechanistic paradigm where CINAC patients are experiencing a tubulotoxic mechanism similar to CNI nephrotoxicity.

MO063CHRONIC INTERSTITIAL NEPHRITIS IN AGRICULTURAL COMMUNITIES IS A TOXIN-INDUCED PROXIMAL TUBULAR NEPHROPATHY

Background and Aims 30 years after the detection of CINAC, there is no consensus on its etiology. Heat stress/dehydration and toxic exposure are the two most likely etiologies. There are no diagnostic criteria that can directly identify CINAC patients. Method Renal biopsies (RB) (18 Sri Lanka, 10 El Salvador, 1 India, 3 France) of patients with CINAC (CKD2-3) were examined by light (LM) and electron microscopy (EM) in comparison to RB of normal kidneys at implantation and 6 and 12 months of calcineurin inhibitor (CNI) therapy, transplant patients on CNI with indication biopsies (n=24), proteinuric nephropathies (n=15), light chain disease (n=4), cases on nephrotoxic drugs (lomustine, clomiphene, lithium, tenofovir, cisplatinum) and CKD of various causes (n=20). A rat study was conducted comparing histopathology of heat stress/dehydration with cyclosporine nephrotoxicity. Results In addition to previously described histopathological changes, there was a unique constellation of proximal tubular cell (PTC) findings: cellular/tubular atrophy, cell fragment shedding, weak to non-proliferative capacity of the PTC and dysmorphic lysosomes increased in size and number with a light-medium electron-dense matrix containing dispersed dark electron-dense non-membrane bound “aggregates”. Identical renal lesions were observed in 55-80% of renal transplant protocol biopsies taken after 6 and 12 months of calcineurin inhibitor (CNI) therapy and in indication biopsies, in implantation biopsies the prevalence was 6%. Several cases of nephrotoxic drugs (lomustine, clomiphene, lithium) and a subset of patients with light chain disease, all conditions that can be linked to CNI, presented the same lesion. Control RBs (n=66) of normal kidney, toxic nephropathies (tenofovir, cisplatinum), and overt proteinuric patients of different etiology to some extent could demonstrate the tubular cell changes observed by LM, but not or very rarely those that were observed by EM. Rats treated with cyclosporine for 4 weeks developed similar PTC lysosomal alterations, absent in a dehydration group. Conclusion A sensitive constellation of renal PTC lesions was detected associated with CINAC and CNI nephrotoxicity in several countries, suggesting a common new paradigm where CINAC patients are experiencing a tubulotoxic mechanism similar to CNI nephrotoxicity, the latter also being known as a direct or suggested indirect effect of pesticides.