The effect of combination therapy with interferon and cryofiltration on mesangial proliferative glomerulonephritis originating from mixed cryoglobulinemia in chronic hepatitis C virus infection

Cryoglobulinemia and double-filtration plasmapheresis: Personal experience and literature review

BACKGROUND

Cryoglobulinemia is defined as the presence of an abnormal immunoglobulin that may be responsible for vasculitis of small-caliber vessels. Apheresis can be used in order to temporarily eliminate circulating cryoglobulins. The aim of this study was to assess the effectiveness of apheresis (double-filtration plasmapheresis-DFPP-) in symptomatic and/or severe cryoglobulinemias.

METHODS

Four male patients presenting cryoglobulinemic vasculitis and who received DFPP sessions were included.

RESULTS

Their mean age was 57 ± 15 years. One patient had hepatitis-C virus (HCV)-related cryoglobulinemia and the other three patients were carriers of an IgM Kappa monoclonal gammopathy. Mean duration of follow-up was 15 ± 2 months. DFPP allowed healing of ulcerative skin lesions in the first patient and remission of nephrotic syndrome in the other patients after a median of 6(5-10) sessions.

CONCLUSION

DFPP can be used safely in cryoglobulinemic-vasculitis and can be considered early to achieve a faster and sustained clinical-biological response.

Treatment of Hepatitis C in Patients Undergoing Immunosuppressive Drug Therapy

With 185 million people chronically infected globally, hepatitis C is a leading bloodborne infection. All-oral regimens of direct acting agents have superior efficacy compared to the historical interferon-based regimens and are significantly more tolerable. However, trials of both types of regimens have often excluded patients on immunosuppressive medications for reasons other than organ transplantation. Yet, these patients-most often suffering from malignancy or autoimmune diseases-could stand to benefit from these treatments. In this study, we systematically review the literature on the treatment of hepatitis C in these neglected populations. Research on patients with organ transplants is more robust and this literature is reviewed here non-systematically. Our systematic review produced 2273 unique works, of which 56 met our inclusion criteria and were used in our review. The quality of data was low; only 3 of the 56 studies were randomized controlled trials. Sustained virologic response was reported sporadically. Interferon-containing regimens achieved this end-point at rates comparable to that in immunocompetent individuals. Severe adverse effects and death were rare. Data on all-oral regimens were sparse, but in the most robust study, rates of sustained virologic response were again comparable to immunocompetent individuals (40/41). Efficacy and safety of interferon-containing regimens and all-oral regimens were similar to rates in immunocompetent individuals; however, there were few interventional trials. The large number of case reports and case series makes conclusions vulnerable to publication bias. While firm conclusions are challenging, given the dearth of high-quality studies, our results demonstrate that antiviral therapy can be safe and effective. The advent of all-oral regimens offers patients and clinicians greatly increased chances of cure and fewer side effects. Preliminary data reveal that these regimens may confer such benefits in immunosuppressed individuals as well. More prospective interventional trials would greatly benefit the many patients with chronic hepatitis C on immunosuppressive therapies.

Purpura with ulcerative skin lesions and mixed cryoglobulinemia in a quiescent hepatitis B virus carrier

Mixed cryoglobulinemia is occasionally seen in patients with hepatitis B virus (HBV) infection. This report presents the case of a quiescent HBV carrier who had type II mixed cryoglobulinemia, protracted purpura, ulcerative skin lesions and advanced chronic kidney disease. The cutaneous manifestations of the patient improved along with a decrease in the serum cryoglobulin and HBV-deoxyribonucleic acid levels following the initiation of oral entecavir in combination with plasmapheresis. However, the patient ultimately required prednisolone due to the limited benefits of these treatments. We also discuss various concerns regarding steroid treatment in patients with mixed cryoglobulinemia complicated by HBV infection.

Immunoadsorption apheresis (Selesorb) in the treatment of chronic hepatitis C virus-related type 2 mixed cryoglobulinemia

In this short-term open label clinical pilot study, conducted at one center, the immune complex dextran sulphate adsorber (Selesorb) was used to treat four female patients aged 59-69 with HCV-related cryoglobulinaemia, vasculitis and/or neuropathy. The primary trial objective was to assess the clinical efficacy of the immunoadsorber. The secondary objective of the trial was to determine the safety of the adsorber and to investigate the adsorption capacity, measured as the adsorption of cryoglobulin-related immune complexes and the resulting influence on plasma components of the immune system. The patients have been submitted to treatment with the immunoadsorber, at approximately 1-3 days intervals, completing six sessions. The follow-up was one month. In the patients treated with Selesorb, we observed a statistically significant decrease in plasma of all classes of immunoglobulins (IgA: 5-28%; IgG: 14-44%; IgM: 8-38%). In two patients with peripheral neuropathy secondary to cryoglobulinemia, the symptomatology was improved. In a third patient the neurological involvement was substantially unchanged, and the same unsuccessful outcome was observed for Sjögren syndrome is concerned. Nevertheless, the two patients with lower extremity vasculitis showed an appreciable improvement. We failed to observe significant side effects directly related to the use of this immunoadsorbent.

Current topics on cryofiltration technologies

In the last 40 years, therapeutic plasmapheresis techniques have been improving considerably. These include cryofiltration technologies providing novel ways of removing large amounts of cryoproteins from plasma. The concept of cryofiltration involves exposure of plasma to below core (37 degrees C) and room temperatures (25 degrees C) without freezing. It was initially used to treat diseases such as cryoglobulinemia with systemic vasculitis, rheumatoid arthritis, systemic lupus erythematosus, and ABO-incompatible transplants. There are 2 basic types of cryofiltration. The first method removes cryoproteins, namely cryoglobulins that precipitate at 4 degrees C. Several filters have been used for this procedure like the AP06M (Asahi Medical, Tokyo, Japan) with a 0.2 microm pore size, a 0.65 m2 surface area, and a cellulose diacetate (CDA) membrane. It has been used in the United States and Japan for treatment of rheumatoid arthritis and cryoglobulinemia. A major disadvantage was frequent filter plugging, which was cumbersome and it is no longer used in the United States. The G3 cryofilter (Gelman Sciences, Ann Arbor, MI, U.S.A.) with a 3 microm pore size was tried in vitro but proved inadequate by design. Currently in our institution, the cryoglobulin filter (Pall Medical, Ann Arbor, MI, U.S.A.) is used with a 4.3 microm pore size, a 0.135 m2 surface area, and an acrylic co-polymer pleat membrane. We performed over 1,200 procedures in 40 patients in the last 8 years. The second type of cryofiltration removes cryogel, which is an agglutination complex of fibrinogen, fibronectin, fibrin split products, and cold insoluble proteins with a heparin core, at temperatures between 2 and 10 degrees C. The AP06M, the AC1740 (Asahi Medical) with a 0.02 microm pore size, a 1.70 m2 surface area, and a CDA membrane, and the Evaflux-4A (Kuraray Company, Osaka, Japan) with a 0.03 microm pore size, a 2 m2 surface area, and an ethylene vinyl alcohol membrane are used to remove cryogel to treat ABO-incompatible transplants as well as rheumatoid arthritis and other previously mentioned diseases. This article will discuss each cryofiltration treatment modality.

The cryoglobulins: an overview

Cryoglobulins are cold-precipitable immunoglobulins associated with a number of infectious, autoimmune and neoplastic disorders. Their appearance along with rheumatoid factor (RF) can be considered a normal event in the clearance of immune complexes and rarely produces any symptoms. The association between hepatitis C virus (HCV) and mixed cryoglobulinemia (MC) has been rendered evident since the recognition of serological markers of HCV infection. There is thus every reason to suppose that direct or indirect involvement of B cells on the part of the HCV results in their persistent stimulation, clonal expansion and release of molecules with RF activity. The formation of RF/IgG immune complexes is the key pathogenetic mechanism. The close correlation between HCV infection and MC also throws new light on the interpretation of autoimmune phenomena in the course of viral infection and on the close link between autoimmune diseases and lymphoproliferative disorders. The higher risk of non-Hodgkin's lymphoma (NHL) displayed by HCV positive subjects, especially in the Mediterranean basin, suggests that the HCV's chronic lymphoproliferative drive may progress towards frank lymphoid neoplasia. The presence of MC does not represent an in situ or 'occult' NHL, because recent evidences indicate that none of the clones interpreted as predominant displays the molecular features of a true neoplastic process. The cryoglobulinemic syndrome is probably the consequence of pathogenic noxae that act upon the immune system of a host in which regulation of the peripheral T cell response appears to be in some way altered.