Systemic amyloidosis refers to a group of protein misfolding disorders resulting in organ deposition with amyloid, leading to organ dysfunction, ultimately resulting in organ failure and death if not successfully treated. Treatment is type-specific and aimed at the underlying source of the misfolded protein. In the past decades, treatments have become increasingly available across the various amyloidosis types with improved response rates and longer survival. Supportive care measures are an integral part of care for patients with systemic amyloidosis to improve symptom burden and quality of life, reduce healthcare costs, and potentially prolong survival while type-directed therapy takes effect. In these guidelines, we provide supportive care recommendations across eight areas of interest in systemic amyloidosis: cardiology, nephrology, peripheral neuropathy, central nervous system involvement, autonomic neuropathy, gastroenterology, coagulopathy and bleeding, nutrition and hematology. These guidelines were developed on behalf of the International Society of Amyloidosis (ISA) by experts in the above fields and provide the best available evidence and expertise for supportive care in these rare disorders.

Chronic inflammation in inborn errors of immunity(IEI) caused by the infections or immune dysregulation is associated with the amyloid A (AA) amyloidosis development. This study aims to analyze the clinical characteristics, management strategies, and outcomes of patients with IEI complicated by AA amyloidosis, focusing on demographics, disease manifestations, treatment modalities, and survival rates.

Thirteen patients diagnosed with IEI and AA amyloidosis, along with an additional 10 patients previously reported from Türkiye, were reviewed retrospectively.

The median ages at diagnosis of IEI and amyloidosis were 20 years (2-61) and 25 years (7-70), respectively. Renal (74%) and gastrointestinal involvement (44%) were the most common, followed by skin(9%), pulmonary (9%), and cardiac involvement (9%). Primary antibody deficiencies(48%), combined immunodeficiencies(31%), hyperimmunoglobulin E syndrome(9%), congenital neutropenia (4%), autoinflammatory disorders (4%), and chronic mucocutaneous candidiasis (4%) were the IEI types associated with amyloidosis. Bronchiectasis (74%) and malignancy (17%) were observed in given ratio of patients. Treatment modalities for amyloidosis include colchicine (n = 12, 52%), steroids (n = 5, 22%) and tocilizumab (n = 2, 9%) without significant benefit. Thirteen patients (57%) died with a median age of 24 years (8-45), predominantly due to sepsis (52%). Familial Mediterranean fever (FMF) gene analysis was negative in all patients except for one, who had a heterozygous MEFV gene defect (M694V).

AA amyloidosis in IEI is associated with severe morbidity and mortality. Early diagnosis and management of IEI are crucial to prevent amyloidosis development. However, colchicine appears ineffective once amyloidosis has occurred, highlighting the need for further research into early diagnostic biomarkers and novel treatment options.

Background: Almost all patients undergoing dialysis develop renal anemia and receive medicines such as erythropoietin and iron preparations. However, the conventional intravenous treatment with saccharated ferric oxide (SFO) is insufficient for these patients when they have incurable and persistent iron deficiency anemia due to secondary amyloidosis. Therefore, we administered 500 mg of ferric carboxymaltose (FCM) to such a patient with Crohn's disease. Case presentation: A 56-year-old man on maintenance hemodialysis had secondary amyloidosis due to Crohn's disease. Additionally, he was anemic and received 40 mg of SFO weekly; however, his hemoglobin (Hb) level remained low at 7 g/dL. Therefore, 500 mg of FCM was administered bimonthly from the first to the fourth dose, and the Hb level temporarily increased compared to that after the previous SFO administration. Since bimonthly administration did not adequately maintain the Hb level, FCM was administered monthly from the 5th to 12th dose, which stabilized the Hb level at 10-12 g/dL. No side effects, such as hypophosphatemia, were observed. Conclusions: A single dose of 500 mg FCM administered once every 1-2 months stabilizes the Hb level and contributes to efficient iron utilization in patients with incurable anemia undergoing hemodialysis.

Serum amyloid A (SAA), a small lipophilic plasma protein elevated in inflammation, is a precursor of amyloid A (AA) amyloidosis, the major life-threatening complication of chronic inflammation in animals and humans. Although heparan sulfate (HS) is a potent amyloid agonist, particularly in AA amyloidosis, therapeutic targeting of SAA-HS interactions using a small-molecule HS/heparin decoy was unsuccessful. To understand molecular underpinnings, we used recombinant lipid-free human and murine SAA1 and human SAA2 to explore their interactions with various glycosaminoglycans at pH 5.5-7.4 during amyloid formation, from native protein to amyloid oligomers and fibrils. Effects of pH and glycosaminoglycan sulfation/charge supported by prior computational studies indicate electrostatic origin of SAA-glycosaminoglycan interactions. HS/heparin can promote amyloidogenesis by inducing non-native β-sheet and apparently causing liquid droplet formation in SAA in solution. Structural and binding studies by spectroscopy and ELISA reveal previously unknown synergy between amyloid formation and heparin/HS binding by SAA. We propose that this synergy potentially extends to other protein amyloids and stems from longitudinal binding of HS polyanions to basic residue arrays on amyloid oligomers or fibrils. This binding mode explains our finding that a minimal heparin chain length exceeding 20 monosaccharides is necessary to compete with HS for binding to amyloid oligomers. The results help explain prior failure of a small-molecule drug in targeting of SAA-HS interactions and consider alternative HS-targeting approaches for AA and, potentially, other amyloid diseases.

AA amyloidosis is a rare renal complication of Waldenström's macroglobulinemia/lymphoplasmacytic lymphoma (WM/LPL). A 66-year-old man with WM/LPL presented with nephrotic syndrome. A renal biopsy showed AA amyloidosis. Chemotherapy resulted in the remission of hematologic and nephrotic syndromes. Two years into follow-up, he became infected with coronavirus disease 2019 and had massive proteinuria, despite no relapse of WM/LPL. A second renal biopsy confirmed a diagnosis of AA amyloidosis. However, increased prednisolone did not improve proteinuria. The patient ultimately died of cryptococcal meningitis. This case highlights the diverse spectrum of renal involvement in monoclonal IgM-secreting diseases and difficulty in managing fatal complications.

Familial Mediterranean fever (FMF) is the most common monogenic autoinflammatory disease despite being a rare disease for many rheumatologists. These evidence-based recommendations update the ones issued in 2016 to account for the recent developments in the field and aim to guide rheumatologists and other health professionals in the treatment and follow-up of patients with FMF.

A multidisciplinary panel was assembled, including rheumatologists, internists, paediatricians, a nephrologist, an occupational therapist, a physiotherapist, 2 methodologists, and 2 patient representatives, all from the Eastern Mediterranean area and Europe. Several systematic reviews were performed on the pharmacological treatment of FMF and its complications. The previous recommendations were revised considering the updated evidence, and the new levels of evidence were incorporated. The agreement with the recommendations was obtained through a Delphi survey.

The final set comprises 4 overarching principles and 12 recommendations, each presented with its degree of agreement (0-10), level of evidence, and rationale. The degree of agreement was greater than 9/10 in all instances, and the level of evidence improved in most updated statements. Improving adherence is emphasised as an important aspect in several statements. These new recommendations include a priority set, quality indicators, and other suggested implementation strategies.

This article presents a set of widely accepted recommendations for treating and monitoring FMF, supported by the best available evidence and expert opinion. These recommendations are valuable for guiding physicians in caring for patients with FMF.

In the northwest of Portugal, AA amyloidosis was reported as the most frequent amyloid nephropathy, but it is unclear if the disease's incidence and outcomes have changed. The authors studied the changing epidemiology, aetiologies, and outcomes of patients with renal AA amyloidosis over the last 40 years.

This is a retrospective single-center cohort study involving patients with renal biopsy-proven AA amyloidosis diagnosed in the northwest of Portugal between 1978 and 2019. The patients were grouped into 14-year cohorts based on the year of diagnosis (CA 1978-1991; CB 1992-2005; CC 2006-2019), and clinical course and outcomes were analyzed.

Sixty-nine AA amyloidosis patients were included. The incidence of the disease remained stable in CA (64%) and CB (62.7%) as opposed to the significant decrease in the most recent cohort (44%, p = 0.027). The mean age at presentation increased by ten years from CA to CC. Overall, infections were the leading cause of death, with a significant rise over time (9.1% in CA to 76.9% at CC, p = 0.002). There were no significant global and renal survival differences between the three cohorts. However, the CC patients died at an older age (61.4 years) than the CA (52.3 years).

The incidence of AA amyloidosis has been declining over the last 40 years. In contrast, the age at presentation of amyloid nephropathy has been increasing. Global and renal outcomes did not improve, but the average life expectancy increased, suggesting progress in general management and supportive care of renal and underlying pathology.

Long-term outcomes of Familial Mediterranean fever (FMF)-associated amyloidosis (FMF-amyloidosis) have been rarely evaluated. This study aimed to investigate renal and overall survival in patients with FMF-amyloidosis and define the factors affecting outcomes.

We retrospectively analyzed patients with FMF-amyloidosis treated between 2000 and 2022. The primary outcome was the rate of end-stage renal disease or death during the study period. Patients not achieving this outcome served as references to identify factors affecting the outcome.

The study included 61 patients with FMF-amyloidosis, of whom 82% attained the primary outcome within a mean of 10.8 ± 9.6 years from the diagnosis of amyloid nephropathy. Lower estimated glomerular filtration rate (eGFR) and increased concomitant medication usage at the time of amyloidosis diagnosis were significant outcome determinants. Maximally selected rank statistics followed by survival analysis determined that an optimal eGFR cutoff <67 mL/min/1.73 m2 at amyloidosis diagnosis was significantly associated with a shorter time to endpoint, with a 10-year kidney or overall survival of 17% versus 59% below or above this cutoff, respectively. Kaplan-Meier analysis revealed that treatment with interleukin-1 (IL-1) blockers, administered to 13 timely relevant patients, had no impact on outcomes.

FMF-amyloidosis generally has poor long-term prognosis, significantly influenced by the amyloid burden at diagnosis. IL-1 blocker efficacy in altering these outcomes remains uncertain owing to the small sample size.

Development of specific therapies addressing the underlying diseases' mechanisms constitutes the basis of precision medicine. Transthyretin cardiac amyloidosis (ATTR-CM) is an exemplar of precise therapeutic approach in the field of heart failure and cardiomyopathies. A better understanding of the underlying pathophysiology, more precise data of its epidemiology, and advances in imaging techniques that allow non-invasive diagnosis have fostered the development of new and very effective specific therapies for ATTR-CM. Therapeutic advances have revolutionized the field, transforming a rare, devastating, and untreatable disease into a more common disease with several therapeutic alternatives available. Three main types of therapies (stabilizers, suppressors, and degraders) that act at different points of the amyloidogenic cascade have been developed or are currently under investigation. In this review, the key advances in pathophysiology and epidemiology that have occurred in the last decades along with the different therapeutic alternatives available or under development for ATTR-CM are described, illustrating the role of precision medicine applied to cardiovascular disorders. Pending questions that would need to be answered in upcoming years are also reviewed.

Amyloidosis is characterized by the deposition of insoluble amyloid fibrils formed by disease-specific precursor proteins in the extracellular interstitium of various organs throughout the body, resulting in organ damage. Patients with amyloidosis often develop end-stage kidney disease (ESKD), which can be managed with dialysis or kidney transplantation. Peritoneal dialysis (PD) is advantageous over hemodialysis (HD) in managing the circulatory dynamics and removing the precursor proteins of amyloid fibrils. However, the clinical course of PD using an amyloid-deposited peritoneum has not been reported. In this paper, we describe a rare case of systemic AA amyloidosis with amyloid deposition in the peritoneum at the beginning of PD. The peritoneal equilibrium test (PET) at PD initiation revealed a high transport rate. The dialysis solution was temporarily changed to a high-glucose concentration peritoneal dialysate, and a weekly extracorporeal ultrafiltration method was added. The patient continued with PD treatment without any complications. The PET category changed from "high" to "high average" during the subsequent PD treatment course. The serum amyloid A levels improved post-nephrectomy and remained in the normal range. Amyloid A was not detected in the dialysate drainage. In conclusion, the amyloid-deposited peritoneum has no uniform effect on the clinical course of PD. Moreover, amyloidosis therapy can alter the peritoneal function with amyloid deposition. However, future studies should investigate the exact mechanism of the alteration of peritoneal function with amyloidosis therapy.

AA amyloidosis is a prototypic example of systemic amyloidosis: it results from the prolonged overproduction of SAA protein produced in response to chronic inflammation. AA amyloidosis primarily affects the kidneys, liver, spleen, gastrointestinal tract, leading to a variety of symptoms. First, this review examines AA amyloidosis in humans, focusing on pathogenesis, clinical presentation, and diagnosis and then in animals. In fact AA amyloidosis is the only systemic amyloidosis that has been largely documented in a remarkable number of vertebrate species: mammals, birds, and fishes, especially in individuals with comorbidities, chronic stress, or held in captivity. Secondly, here, we summarise independent sets of evidence obtained on different animal species, exploring the possible transmissibility of AA amyloidosis especially in crowded or confined populations. Finally, biochemical and structural data on native SAA and on AA amyloid fibrils from human, murine, and cat ex vivo samples are discussed. The available structural data depict a complex scenario, where SAA can misfold forming highly different amyloid assemblies. This review highlights the complexity of AA amyloidosis, emphasising the need for further research into its spread in the animal kingdom, its structural aspects, and pathogenetic mechanisms to evaluate its impact on human and animal health.

Rheumatoid arthritis (RA) is a chronic inflammatory disease characterized by joint pain, swelling, and stiffness, affecting approximately 1% of the adult population. Tocilizumab (TCZ), a monoclonal antibody targeting the IL-6 receptor, has emerged as an effective treatment for RA. This narrative review provides an update on TCZ's efficacy and safety based on data from randomized controlled trials (RCTs) and real-world evidence (RWE). TCZ, available in subcutaneous (SC) and intravenous (IV) formulations, has shown significant benefits in RA management. Key clinical trials, including SAMURAI, OPTION, RADIATE, and TOWARD, have demonstrated TCZ's efficacy as monotherapy and in combination with conventional synthetic disease-modifying antirheumatic drugs (csDMARDs), particularly in patients with inadequate responses to methotrexate or TNF inhibitors. Long-term studies, such as STREAM, have highlighted TCZ's sustained efficacy and favorable safety profile over 5 years. The impact of TCZ on cardiovascular health, lipid profiles, and the risk of infections has been a focal point, with findings suggesting no significant increase in cardiovascular disease risk compared to other RA therapies. RWE further highlights the effectiveness of TCZ, identifying predictors of response, such as age, and emphasizes its suitability for biologic-naïve and overweight patients. Special considerations include TCZ use in RA-associated interstitial lung disease and amyloidosis. Overall, TCZ remains a pivotal option in RA treatment, with a well-established safety and efficacy profile supported by extensive clinical and real-world data.

Amyloidosis, a polymeric deposition disease classified according to protein subtype, may have varied pulmonary manifestations. Its anatomic-radiologic phenotypes include nodular, cystic, alveolar-septal, and tracheobronchial forms. Clinical presentation may range from asymptomatic parenchymal nodules to respiratory failure from diffuse parenchymal infiltration or diaphragmatic deposition.

In this review, we systematically describe the molecular subtypes of amyloidosis and their clinical and radiologic findings in the lungs as well as key extrapulmonary organ systems. We detail novel treatment approaches to systemic amyloidosis. We also discuss prognostic elements for each subtype. We identify key clinical scenarios where reaching a precise diagnosis can be complicated, and we offer insights on the varied presentations of pulmonary amyloidosis.

Pulmonary amyloidosis is often difficult to diagnose as it may mimic other conditions, including fibrotic interstitial lung diseases and neoplasms, or can co-exist with certain connective tissue diseases. Despite some early artificial intelligence screening tools, improved familiarity among clinicians can aid in the more accurate and timely diagnosis of this multidimensional clinical entity. We additionally believe that multidisciplinary clinical pathwaysto diagnose and/or treat pulmonary amyloidosis have the potential to improve awareness, decrease diagnostic delay, and further elucidate knowledge on this multifaceted disease.

Amyloidosis is a rare infiltrative multisystemic disorder characterized by protein misfolding, leading to progressive organ failure. It can be either acquired or hereditary. Very few case reports regarding hepatic amyloidosis with Budd-Chiari syndrome have been reported up to date. We report the case of a 45-year-old man presenting with abdominal distension, pain in the abdomen, and jaundice. Through right hepatic vein cannulation, HVPG (hepatic venous pressure gradient) was found to be 10 mmHg. The liver biopsy revealed near-total replacement of hepatic parenchyma by amorphous congophilic deposits with obliteration of sinusoids. Hepatic amyloidosis with hepatic venous occlusion is a rare entity.

Amyloidosis is characterized by the extracellular deposition of insoluble protein fibrils that cause cellular damage and dysfunction in organs and tissues. Multiple types of amyloidosis and their causative precursor proteins have been identified in humans and animals. In toxicological studies, a high incidence of spontaneous amyloidosis has been reported in CD-1 mice; however, the precursor protein responsible remains unclear. In contrast, B6C3F1 mice have a low incidence of amyloidosis. This study aimed to identify the types of amyloidosis and causative precursor proteins in CD-1 mice and investigate the role of copy number variations (CNVs) in genes encoding precursor proteins in different mouse species. Histopathological examination revealed amyloids in multiple organs, which were confirmed by direct fast scarlet staining. Immunohistochemistry and liquid chromatography-tandem mass spectrometry analyses revealed that the deposition was derived from serum amyloid A (SAA1 and 2), suggesting that the CD-1 mice had AA amyloidosis. Copy number variation assays demonstrated higher copy numbers of SAA1 and SAA2 in CD-1 mice with amyloidosis than in C3H/He mice (the parent strain of B6C3F1 mice). These findings suggest that the high copy numbers of SAA1 and SAA2 may contribute to the high incidence of AA amyloidosis in CD-1 mice. This study examined spontaneous amyloidosis in CD-1 mice and revealed the correlation between SAA1 and SAA2 CNVs in the pathogenesis of the disease and the genetic factors influencing amyloidosis in mice.

The factors contributing to the development of severe coronavirus disease 2019 (COVID-19) following infection with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) remain unclear. Although the presence of immune complexes (ICs), formed between antibodies and their antigens, has been linked to COVID-19 severity, their role requires further investigation, and the antigens within these ICs are yet to be characterized.

Here, a C1q enzyme-liked immunosorbent assay and immune complexome analysis were used to determine IC concentrations and characterize IC antigens, respectively, in the sera of 64 unvaccinated COVID-19 patients with PCR-confirmed SARS-CoV-2 infection, enrolled at seven participating centers in 2020. For the analysis, the patients were split into the severe (n = 35) and non-severe (n = 28) groups on the basis of their COVID-19 symptoms.

We found that neither serum IC concentration nor IC antigen number was associated with COVID-19 severity. However, we identified six IC antigens, which were significantly enriched in the severe versus non-severe group. These IC antigens were all derived from human proteins, namely haptoglobin, the serum amyloid A-2 protein, the serum amyloid A-1 protein, clusterin, and lipopolysaccharide-binding protein, and complement-factor-H-related protein 3. Meanwhile, we found no association between COVID-19 severity and IC antigens derived from SARS-CoV-2 proteins. Collectively, the six IC antigens predicted COVID-19 severity with a moderate degree of accuracy (area under the receiver operating characteristic curve = 0.90, sensitivity = 94 %, specificity = 79 %).

The IC antigen signature identified in this study may have important implications for the diagnosis and treatment of severe COVID-19.

Amyloidosis is a relatively rare condition with an array of complex pathophysiology. Localized amyloidosis is a rare and benign condition that practically never results in any clinical repercussions in the head and neck area. Multiple soft nodules of the tongue, lip, and cheek are the most commonly described defining characteristics of localized oral amyloidosis. These nodules originate due to the proliferation of abnormally folded protein aggregates in the body's extracellular tissue compartments, which destroy organ structure and function. Herein, we address the case of a female infant aged one with a smooth nodule in the labial mucosa who was diagnosed with primary localized amyloidosis. When a patient is diagnosed with amyloidosis of the oral mucosa, the possibility of systemic amyloidosis or an underlying plasma cell dyscrasia must be ruled out. Surgical treatment may be beneficial for eliminating any functional impairment if primary localized amyloidosis is established.

Transthyretin amyloidosis with cardiomyopathy (ATTR-CM) is a progressive, often fatal disease. Nexiguran ziclumeran (nex-z) is an investigational therapy based on CRISPR-Cas9 (clustered regularly interspaced short palindromic repeats and associated Cas9 endonuclease) targeting the gene encoding transthyretin (TTR).

In this phase 1, open-label trial, we administered a single intravenous infusion of nex-z to patients with ATTR-CM. Primary objectives included assessment of the effect of nex-z on safety and pharmacodynamics, including the serum TTR level. Secondary end points included changes in N-terminal pro-B-type natriuretic peptide (NT-proBNP) levels, high-sensitivity cardiac troponin T levels, the 6-minute walk distance, and the New York Heart Association (NYHA) class.

A total of 36 patients received nex-z and completed at least 12 months of follow-up. Of these patients, 50% were in NYHA class III and 31% had variant ATTR-CM. The mean percent change from baseline in the serum TTR level was -89% (95% confidence interval [CI], -92 to -87) at 28 days and -90% (95% CI, -93 to -87) at 12 months. Adverse events were reported in 34 patients. Five had transient infusion-related reactions, and two had transient liver-enzyme elevations that were assessed as treatment-related. Serious adverse events, most of which were consistent with ATTR-CM, were reported in 14 patients. The geometric mean factor change from baseline to month 12 was 1.02 (95% CI, 0.88 to 1.17) in the NT-proBNP level and 0.95 (95% CI, 0.89 to 1.01) in the high-sensitivity cardiac troponin T level. The median change from baseline to month 12 in the 6-minute walk distance was 5 m (interquartile range, -33 to 49). A total of 92% of the patients had either improvement or no change in their NYHA class.

In this phase 1 study involving patients with ATTR-CM, treatment with a single dose of nex-z was associated with transient infusion-related reactions and consistent, rapid, and durable reductions in serum TTR levels. (Funded by Intellia Therapeutics and Regeneron Pharmaceuticals; ClinicalTrials.gov number, NCT04601051.).

AA amyloidosis (AAA) is a multisystem disease related to the deposition in tissues of serum amyloid A protein which complicates chronic inflammation. It is a potentially fatal complication.  Renal involvement is the most common manifestation of AAA. Pregnancy in women with chronic kidney disease  is considered to be at risk for specific pregnancy complications and the worsening of their underlying renal dysfunction. Our aim was to report pregnancy in our AAA patients and discuss the outcome through a literature review.

French cases were identified through the Reference Center for Auto-Inflammatory Diseases and Amyloidosis and a systematic literature review was performed.

Three new patients were identified: two with Familial Mediterranean fever (FMF) and one with cryopyrin-associated periodic syndrome; one was under anakinra therapy and one had received a kidney transplantation before her pregnancy. One patient was diagnosed with AAA following the detection of post-partum nephrotic syndrome. Among the 27 patients from literature and our case, FMF was the main cause of AAA (69%). Eight of the patients were diagnosed with AAA during their pregnancy or in immediate post-partum and gestational complications appeared in 23/25 cases, mostly intrauterine growth retardation (n = 10), prematurity (n = 11) and preeclampsia (n = 4). No bleeding complication was reported.

Pregnancy can occur in patients (eight overall) with AAA and the diagnosis is frequently made during pregnancy. Pregnant women with AAA are at risk for adverse pregnancy-associated outcomes and require special and closer monitoring.

Systemic amyloidoses are a group of disorders that can be hereditary or acquired and have various renal manifestations and outcomes. Light chain amyloid has been considered the most common renal amyloid and, thus, has been the focus of substantial research and therapeutic interest but with improvement in diagnostic techniques. However, there has been growing interest in rarer forms of renal amyloid, including amyloid serum A protein, leukocyte chemotactic factor 2 amyloid, and transthyretin amyloid. In this review, we provide an update on diagnostics, renal outcomes, and therapeutic landscape in these specific types of amyloid.

Amyloidosis is a rare multisystem disorder characterized by extracellular accumulation of insoluble fibrils in various organs and tissues. The most common subtype in the pediatric population is systemic reactive amyloidosis, typically developing secondary to chronic inflammatory conditions and resulting in deposition of serum amyloid A protein in association with apolipoprotein HDL3. Clinical presentation is highly variable and is mostly influenced by specific organs involved, precursor protein type, and extent of amyloid deposition, often closely reflecting clinical features of the underlying disease. The most critical determinants of prognosis are cardiac and renal involvement. Diagnosis of amyloidosis is confirmed by tissue biopsy, which remains the gold standard, followed by precise amyloid fibril typing. The primary therapeutic approach is directed towards controlling underlying disease and reducing serum levels of precursor proteins to prevent further amyloid deposition. This study aims to highlight the main clinical characteristics of amyloidosis with onset in childhood, emphasizing the key differences compared to adult form.

The three most common varieties of systemic amyloidosis are transthyretin amyloidosis (ATTR), immunoglobulin amyloidosis (AL) and inflammatory amyloidosis (AA). There are two forms of transthyretin amyloidosis: the wild type, the most common, represents approximately 15% of heart diseases and the genetic, or "mutated" form, which is a rare disease and manifests mainly by peripheral neuropathy and heart disease. Major therapeutic advances have been made in recent years thanks to molecules that stabilize transthyretin and/or prevent its translation by destroying messenger RNA. Immunoglobulin amyloidosis (AL) is a hematological disease whose severity is due to the toxicity of immunoglobulin light chains forming amyloid deposits that are toxic to tissues, particularly the heart and kidneys. Treatments for immunoglobulin amyloidosis are increasingly effective, and target the plasma cell, leading to an overall improvement in the prognosis, with cardiac involvement being the most worrying condition. Inflammatory amyloidosis (AA) complicates chronic inflammatory diseases less often due to the effectiveness of anti-inflammatory biotherapies in inflammatory rheumatism, chronic inflammatory bowel diseases and genetic auto-inflammatory diseases. The causes of inflammatory amyloidosis are now more diverse with an increase in cases of unknown cause associated or not with obesity.

Primary tracheal diffuse large B-cell lymphoma (DLBCL) is a rare, aggressive, but potentially curable malignancy that is difficult to diagnose and treat. We herein report a 93-year-old Japanese man diagnosed with primary tracheal DLBCL after presenting with progressive dyspnea due to severe upper tracheal stenosis during follow-up for pulmonary amyloidosis. Following the diagnosis, the patient was treated with corticosteroids, followed by R-CHOP chemotherapy, resulting in a therapeutic response. The patient's history of pulmonary amyloidosis may have contributed to the development of tracheal DLBCL. An evaluation of the risks and benefits of various therapeutic interventions is crucial for providing optimal patient-specific care.

Although AA amyloidosis is primarily caused by inflammatory conditions, associations between AA amyloidosis and solid cancers have occasionally been described. Herein, we report the case of a 48-year-old man in whom resection of a proliferating pilomatricoma with deposition of AA amyloid resulted in remission of concomitant AA gastrointestinal amyloidosis. A rapidly growing, giant, reddish, ulcerated tumor measuring 16 × 13 cm in size was identified on the upper left arm on a visit to our hospital. Gastrointestinal AA amyloidosis was diagnosed from colorectal mucosal biopsy at the same time, and weight loss and profuse diarrhea were clinically evident. As treatment, the tumor was resected with a 10-mm surgical margin. Histologically, the tumor predominantly comprised a lobular proliferation of basophilic cells peripherally, filled with eosinophilic, cornified material and shadow cells with mitoses observed in basophilic cells. Specimens revealed eosinophilic, homogeneous deposits around tumor nests, which were confirmed as amyloid deposits by positive staining with Congo red stain. These deposits were immunohistochemically positive on staining with anti-serum amyloid A antibody. Collectively, proliferating pilomatricoma with AA amyloidosis was diagnosed. After tumor resection, chronic diarrhea resolved and no amyloid deposition was apparent in colorectal biopsy. It is important to remember that if amyloid deposition is present in a tumor, aggressive tumor excision may alleviate systemic amyloidosis.

Secondary amyloidosis (AA) is a disorder of protein conformation associated with inflammatory disorders. Detailed reports of patients diagnosed with AA and inflammatory bowel disease (IBD) are limited. This study reports the cases of eight patients, across three tertiary medical centers, diagnosed with both IBD and AA between 2000 and 2020. Seven patients had a diagnosis of Crohn disease (CD), while one had ulcerative colitis (UC). All patients were diagnosed with AA after being diagnosed with IBD (median: 15 years later). The small bowel (62.5%) and the colon (62.5%) were the most common IBD locations. 4 patients had undergone TNF-alpha inhibitor therapy and all CD patients required surgical treatment of their IBD. A history of fistula or abscess was identified in 5 patients. The most common initial site of AA was the kidney (75%). All 8 patients presented with some form of renal dysfunction and proteinuria (median: 1500 mg/24 h). Hypoalbuminemia was found in most patients. Six patients developed chronic kidney disease and 4 required dialysis. Anti TNF-alpha antibody therapy led to rapid improvement of renal function in one of four patients who received it. Three patients required a renal transplant. Four patients had died upon the latest follow-up (5-year survival: 75%). The presence of proteinuria, fistula, or abscess should serve as indicators for potentially increased AA risk in CD patients.

Inflammatory bowel disease (IBD) is a chronic condition characterized by immune-mediated inflammation in the gastrointestinal tract, which follows a relapsing and remitting course. Apart from affecting the gastrointestinal tract, IBD also has extra-intestinal manifestations (EIMs). While the etiology of extraintestinal manifestation remains unclear, it is theorized to be based on immunological responses influenced by genetic factors. Renal involvement is one of the EIMs observed in ulcerative colitis and Crohn's disease. The renal manifestations in IBD patients encompass a range of conditions including nephrolithiasis, amyloidosis, tubulointerstitial nephritis, glomerulonephritis (GN), obstructive pathologies, and chronic kidney disease (CKD). The incidence of CKD in IBD patients varies from 5%-15%. The decline in renal function can stem from various factors such as direct inflammatory damage to the kidneys leading to glomerular or tubular injury, or from complications like recurrent stones, amyloidosis, or GN. Additionally, nephrotoxic medications used in treating IBD, such as TNF-α inhibitors, calcineurin inhibitors, and aminosalicylates, can exacerbate the decline in renal function. Currently, there is a lack of consensus regarding these patients' screening and renal function monitoring. This review aims to assess the existing literature on the different renal complications among individuals with IBD, shedding light on their pathophysiology and management.

Inflammatory bowel disease [IBD] is associated with various immune-mediated disorders including spondylarthritis, pyoderma gangrenosum, primary sclerosing cholangitis, and uveitis. Chronic kidney disease [CKD] is defined by a reduction in kidney function (estimated glomerular filtration rate [eGFR] less than 60 ml/min/1.73m2] and/or damage markers that are present for at least 3 months, regardless of the aetiology. Case reports and cohort studies suggest that IBD is associated with CKD. The extent and magnitude of a potential association is unknown. A comprehensive search was conducted in EMBASE, MEDLINE, Web of Science, the Cochrane database, and SCOPUS. Two separate reviewers were involved in the process of article selection and evaluation. Odds ratios were calculated in those papers with a comparison between an IBD population and a non-IBD control population, the Mantel Haenszel test was employed, using a random effect model. The systematic review was registered in PROSPERO [RD42023381927]. A total of 54 articles was included in the systematic review. Of these, eight articles included data on prevalence of CKD in IBD patients [n = 102 230] vs healthy populations [n = 762 430]. Of these, diagnosis of CKD was based on International Classification of Diseases [ICD] codes in five studies vs on eGFR in three studies. The overall odds ratio of developing CKD in the IBD population is 1.59, [95% CI 1.31-1.93], without any difference between studies using diagnostic coding (odds ratio [OR] 1.70, 95% CI 1.33-2.19] vs diagnosis based on eGFR [OR 1.36, 95% CI 1.33-1.64]. IBD is associated with a clinically meaningful increased CKD prevalence. We provide recommendations on diagnostic evaluation, as well as suggestions for future research.

Amyloidosis is a protein folding disease that causes organ injuries and even death. In humans, 42 proteins are now known to cause amyloidosis. Some proteins become amyloidogenic as a result of a pathogenic variant as seen in hereditary amyloidoses. In acquired forms of amyloidosis, the proteins form amyloid in their wild-type state. Four types (serum amyloid A, transthyretin, apolipoprotein A-IV, and β2-macroglobulin) of amyloid can occur either as acquired or as a mutant. Iatrogenic amyloid from injected protein medications have also been reported and AIL1RAP (anakinra) has been recently found to involve the kidney. Finally, the mechanism of how leukocyte cell-derived chemotaxin 2 (ALECT2) forms amyloid remains unknown. This article reviews the amyloids that involve the kidney and how they are typed.

Horses used for antisera production are repeatedly hyperimmunized to produce high levels of specific antibodies. This prolonged process can lead to various health issues, including amyloidosis, which involves the accumulation of amyloid proteins in organs and tissues, potentially causing organ dysfunction and failure. These horses are often retired when they no longer produce adequate antibody levels. This study aimed to evaluate the impact of prolonged antisera production on the health of retired horses by examining their blood biochemistry and serum amyloid A (SAA) levels, which are indicators of systemic inflammation and organ damage.

Blood samples were collected from 12 horses for this study. Nine horses were retired antisera-producing horses that had been discontinued for 2 years, while three healthy non-antisera-producing horses were used as controls. These twelve horses were divided into four groups based on the duration of their active period as antisera producers (never been used, 2-3 years, 4-5 years, and 6-7 years). We measured key blood biochemistry parameters and SAA levels to evaluate the health status of the horses.

Total protein, fibrinogen, and globulin levels were elevated, whereas other parameters remained normal. The findings indicate that despite normal SAA levels, the horses exhibited signs of ongoing health issues related to their previous use in antisera production, such as increased total plasma protein, fibrinogen, and globulin levels, as well as the presence of amyloid deposits in vital organs such as the liver and kidneys, as observed in post-mortem examinations.

Despite normal SAA levels, retired antisera-producing horses showed elevated total protein, fibrinogen, and globulin levels, indicating ongoing health issues.

AA amyloidosis (AA) can be the consequence of any chronic inflammatory disease. AA is associated with chronic inflammatory diseases (cid+AA), autoinflammatory syndromes (auto+AA) or AA of unknown origin or idiopathic AA (idio+AA). The major organ manifestation is renal AA that can progress to end-stage renal disease (ESRD) and multiple organ failure.

This study is a monocentric retrospective analysis of the renal outcome and survival of patients with cid+AA (n=34), auto+AA (n=24) and idio+AA (n=25) who were treated with cytokine-inhibiting biological disease-modifying antirheumatic drugs (bDMARDs).

83 patients with renal AA were identified and followed for a mean observational period of 4.82 years. C reactive protein (CRP), serum amyloid alpha and proteinuria were significantly reduced with bDMARD therapy. Progression to ESRD was prevented in 60% (cid+AA), 88% (auto+AA) and 81% (idio+AA) of patients. Tocilizumab was given to 34 patients with cid+AA and idio+AA and was more effective in reducing CRP and progression to ESRD and death compared with other bDMARDs.

bDMARDs reduce systemic inflammation in various diseases, leading to a reduction of proteinuria and prevention of ESRD. Importantly, tocilizumab was more effective than other bDMARDs in controlling systemic inflammation in patients with chronic inflammatory diseases and idiopathic AA, leading to better renal and overall survival.

Cryopyrin-associated periodic syndromes (CAPS) are orphan hereditary auto-inflammatory diseases with various phenotypes, including chronic kidney disease (CKD). Current therapies inhibit interleukin-1 (IL-1) to achieve clinical and serological remission; however, the effect on kidney involvement remains unclear. The objective of this study was to investigate the long-term efficacy of anti-IL-1 treatment with special emphasis on renal outcome. We retrospectively analysed clinical, genetic and laboratory data of patients with CAPS under anti-IL-1 therapy from a single-centre university outpatient clinic. Patients with CAPS (n = 28) were followed for a median of 11 (IQR 8.5-13) years. Four patients at various ages (19%), bearing the most common CAPS mutation R260W, had significant CKD at presentation. All affected patients were related; however, other family members with the same genetic variant did not develop CKD. While anti-IL-1 therapy was effective in lowering symptom burden and inflammatory parameters in all CAPS patients, two of the four individuals with significant CKD had persistent proteinuria and worsening kidney function. None of the patients without renal affection at therapy initiation developed relevant CKD in the follow-up period. We showed that in patients with CAPS: (1) CKD is a common complication; (2) renal involvement shows familial predisposition beyond the mutational status and is independent of age; (3) anti-IL-1 therapy results in sustained improvement of inflammatory parameters and symptom load and (4) may prevent development of CAPS-associated CKD but not affect kidney involvement when already present. Overall, early therapy initiation might sufficiently prevent renal disease manifestation and attenuate progression.

Hereditary transthyretin amyloidosis (ATTRv, also referred to as hATTR; ORPHA 271861) and wild-type ATTR amyloidosis (ATTRwt; ORPHA 330001) are rare, progressive, systemic protein misfolding disorders with heterogeneous clinical presentations. ATTRv and ATTRwt amyloidosis are characterized by the deposition of amyloid fibrils in multiple organs including the heart, nerves, eyes, and soft tissues. The management of ATTR amyloidosis is complex because of its multisystemic nature and progression despite available treatment options. Morbidity is high and there are many unmet medical needs for patients. While contemporary ATTR amyloidosis cohorts are diagnosed earlier, have lower risk disease and lower mortality compared with the previous era, these advances coupled with the emergence of effective disease-modifying therapies have confounded the design of future prospective clinical trials and interpretation of historical control data.

The Amyloidosis Forum is a public-private partnership between the US Food and Drug Administration Center for Drug Evaluation and Research and the nonprofit Amyloidosis Research Consortium ( www.arci.org ). This article summarizes proceedings from the 21 June 2023 Amyloidosis Forum on advancing drug development in ATTR amyloidosis in an evolving treatment landscape. The Forum focused on elements of clinical trial design to address these challenges and discussed their strengths and weaknesses from multiple stakeholder perspectives (i.e., patient, sponsor, statistician, clinician, and regulatory authorities).

Given rapid evolution of natural history in ATTR amyloidosis, the utility of historical control data is limited. Leveraging contemporary real-world data is essential for clinical trial design. Evidence generation from clinical trials should address clinically relevant questions. Key factors in successful trial design must be informed by up-to-date data on natural history, prognostic factors, clinically meaningful thresholds, and sharing available clinical trial data. The Amyloidosis Forum includes the community of patients with ATTR amyloidosis, the physicians who treat them, and the sponsors and regulators who collectively stand ready to support further studies in order to develop novel effective therapies.

Amyloidosis is a heterogenous group of disorders, caused by the deposition of insoluble fibrils derived from misfolded proteins in the extracellular space of various organs. These proteins have an unstable structure that causes them to misfold, aggregate, and deposit as amyloid fibrils with the pathognomonic histologic property of green birefringence when viewed under cross-polarized light after staining with Congo red. Amyloid fibrils are insoluble and degradation-resistant; resistance to catabolism results in progressive tissue amyloid accumulation. The outcome of this process is organ disfunction independently from the type of deposited protein, however there can be organ that are specifically targeted from certain proteins.

Amyloidosis is a complex group of rare disorders characterized by the deposition of misfolded proteins in the extracellular space of various tissues and organs, leading to progressive organ dysfunction. The kidneys constitute a very common site affected, most notably by immunoglobulin-mediated (light chain, heavy chain, and light and heavy chain amyloidosis), but other types that include serum amyloid A (AA) amyloidosis and leukocyte chemotactic factor 2 amyloidosis, along with mutant proteins in several hereditary forms of amyloidosis such as transthyretin, fibrinogen α-chain, gelsolin, lysozyme, and apolipoproteins AI/AII/AIV/CII/CIII amyloidosis have been incriminated as well. The clinical presentation is variable and can range from minimal proteinuria for leukocyte chemotactic factor 2 amyloidosis to a full-blown nephrotic syndrome for AA amyloidosis. Clinical correlation, genetic analysis, and adequate tissue typing through a kidney biopsy are essential to make the correct diagnosis, especially when a family history of amyloidosis is absent. Except for AA and transthyretin amyloidosis, the treatment is usually purely supportive. Kidney transplantation is an acceptable form of treatment for end-stage kidney disease in all types of non-Ig-mediated renal amyloidosis.

Amyloid A (AA) amyloidosis is an organ- or life-threatening complication of chronic inflammatory disorders. Here, we review the epidemiology, causes, pathogenesis, clinical features, and diagnostic and therapeutic strategies of AA amyloidosis.

The incidence of AA amyloidosis has declined due to better treatment of the underlying diseases. Histopathological examination is the gold standard of diagnosis, but magnetic resonance imaging can be used to detect cardiac involvement. There is yet no treatment option for the clearance of amyloid fibril deposits; therefore, the management strategy primarily aims to reduce serum amyloid A protein. Anti-inflammatory biologic agents have drastically expanded our therapeutic armamentarium. Kidney transplantation is preferred in patients with kidney failure, and the recurrence of amyloidosis in the allograft has become rare as transplant recipients have started to benefit from the new agents. The management of AA amyloidosis has been considerably changed over the recent years due to the novel therapeutic options aiming to control inflammatory activity. New agents capable of clearing amyloid deposits from the tissues are still needed.

Alkaptonuria (AKU) is a genetic disorder that affects connective tissues of several body compartments causing cartilage degeneration, tendon calcification, heart problems, and an invalidating, early-onset form of osteoarthritis. The molecular mechanisms underlying AKU involve homogentisic acid (HGA) accumulation in cells and tissues. HGA is highly reactive, able to modify several macromolecules, and activates different pathways, mostly involved in the onset and propagation of oxidative stress and inflammation, with consequences spreading from the microscopic to the macroscopic level leading to irreversible damage. Gaining a deeper understanding of AKU molecular mechanisms may provide novel possible therapeutical approaches to counteract disease progression. In this review, we first describe inflammation and oxidative stress in AKU and discuss similarities with other more common disorders. Then, we focus on HGA reactivity and AKU molecular mechanisms. We finally describe a multi-purpose digital platform, named ApreciseKUre, created to facilitate data collection, integration, and analysis of AKU-related data.