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Meta-Analysis
. 2018 May 7;5(5):CD011403.
doi: 10.1002/14651858.CD011403.pub2.

Treatment for hepatitis C virus-associated mixed cryoglobulinaemia

Nuria Montero  1 Alexandre FavàEva RodriguezClara BarriosJosep M CruzadoJulio PascualMaria Jose Soler
Affiliations
Meta-Analysis

Treatment for hepatitis C virus-associated mixed cryoglobulinaemia

Nuria Montero et al. Cochrane Database Syst Rev. .

Abstract

Background: Hepatitis C virus (HCV)-associated mixed cryoglobulinaemia is the manifestation of an inflammation of small and medium-sized vessels produced by a pathogenic IgM with rheumatoid factor activity generated by an expansion of B-cells. The immune complexes formed precipitate mainly in the skin, joints, kidneys or peripheral nerve fibres. Current therapeutic approaches are aimed at elimination of HCV infection, removal of cryoglobulins and also of the B-cell clonal expansions. The optimal treatment for it has not been established.

Objectives: This review aims to look at the benefits and harms of the currently available treatment options to treat the HCV-associated mixed cryoglobulinaemia with active manifestations of vasculitis (cutaneous or glomerulonephritis).

Search methods: We searched the Cochrane Kidney and Transplant Specialised Register to 30 November 2017 through contact with the Information Specialist using search terms relevant to this review. Studies in the Register are identified through searches of CENTRAL, MEDLINE, and EMBASE, conference proceedings, the International Clinical Trials Register (ICTRP) Search Portal and ClinicalTrials.gov.

Selection criteria: All randomised controlled trials (RCTs) and quasi-RCTs looking at interventions directed at treatment of HCV-associated cryoglobulinaemic vasculitis (immunosuppressive medications and plasma exchange therapy) have been included.

Data collection and analysis: Two authors independently assessed the retrieved titles and abstracts. Authors of included studies were contacted to obtain missing information. Statistical analyses were performed using random effects models and results expressed as risk ratio (RR) or mean difference (MD) with 95% confidence interval (CI). The planned primary outcomes were kidney disease, skin vasculitis, musculoskeletal symptoms, peripheral joint arthralgia, peripheral neuropathies, liver involvement, interstitial lung involvement, widespread vasculitis and death. Other planned outcomes were: therapy duration, laboratory findings, adverse effects, antiviral therapy failure, B-cell lymphoma, endocrine disorders and costs of treatment.

Main results: Ten studies were included in the review (394 participants). None of them evaluated direct-acting antivirals. Seven studies were single-centre studies and three were multicentre. The duration of the studies varied from six to 36 months. The risk of bias was generally unclear or low. Three different interventions were examined: use of rituximab (3 studies, 118 participants); interferon (IFN) (IFN compared to other strategies (5 studies, 223 participants); six IFN months versus one year (1 study, 36 participants), and immunoadsorption apheresis versus only immunosuppressive therapy (1 study, 17 participants).The use of rituximab may slightly improve skin vasculitis (2 studies, 78 participants: RR 0.57, 95% CI 0.28 to 1.16; moderate certainty evidence) and made little of no difference to kidney disease (moderate certainty evidence). In terms of laboratory data, the effect of rituximab was uncertain for cryocrit (MD -2.01%, 95% CI -10.29% to 6.27%, low certainty evidence) and HCV replication. Rituximab may slightly increase infusion reactions compared to immunosuppressive medication (3 studies, 118 participants: RR 4.33, 95%CI 0.76 to 24.75, moderate certainty evidence) however discontinuations of the treatment due to adverse reactions were similar (3 studies, 118 participants: RR 0.97, 95% CI 0.22 to 4.36, moderate certainty evidence).Effects of lFN on clinical symptoms were evaluated only in narrative results. When laboratory parameters were assessed, IFN made little or no difference in levels of alanine transaminase (ALT) at six months (2 studies, 39 participants: MD -5.89 UI/L, 95%CI -55.77 to 43.99); rheumatoid factor activity at six months (1 study, 13 participants: MD 97.00 UI/mL, 95%CI -187.37 to 381.37), or C4 levels at 18 months (2 studies, 49 participants: MD -0.04 mg/dL, 95%CI -2.74 to 2.67). On the other hand, at 18 months IFN may probably decrease ALT (2 studies, 39 participants: MD -28.28 UI/L, 95%CI -48.03 to -8.54) and Ig M (-595.75 mg/dL, 95%CI -877.2 to -314.3), but all with low certainty evidence. One study reported infusion reactions may be higher in IFN group compared to immunosuppressive therapy (RR 27.82, 95%CI 1.72 to 449.18), and IFN may lead to higher discontinuations of the treatment due to adverse reactions (4 studies, 148 participants: RR 2.32, 95%CI 0.91 to 5.90) with low certainty evidence. Interferon therapy probably improved skin vasculitis (3 studies, 95 participants: RR 0.60, 95% CI 0.36 to 1.00) and proteinuria (2 studies, 49 participants: MD -1.98 g/24 h, 95% CI -2.89 to -1.07), without changing serum creatinine at 18 months (2 studies, 49 participants: MD -30.32 μmol/L, 95%CI -80.59 to 19.95).Six months versus one year treatment with IFN resulted in differences terms of the maintenance of the response, 89% of patients in the six months group presented a relapse and only 11% maintained a long-term response at one year, while in the one year group only 78% relapsed and long-term response was observed in 22%. The one-year therapy was linked to a higher number of side-effects (severe enough to cause the discontinuation of treatment in two cases) than the six-month schedule.One study reported immunoadsorption apheresis had uncertain effects on skin vasculitis (RR 0.44, 95% CI 0.05 to 4.02), peripheral neuropathies (RR 2.70, 95%CI 0.13 to 58.24), and peripheral joint arthralgia (RR 2.70, 95%CI 0.13 to 58.24), cryocrit (MD 0.01%, 95%CI -1.86 to 1.88) at six months, and no infusion reactions were reported. However when clinical scores were evaluated, they reported changes were more favourable in immunoadsorption apheresis with higher remission of severe clinical complications (80% versus 33%, P = 0.05) compared to immunosuppressive treatment alone.In terms of death, it was not possible to present a pooled intervention effect estimate because most of the studies reported no deaths, or did not report death as an outcome.

Authors' conclusions: To treat HCV-associated mixed cryoglobulinaemia, it may be beneficial to eliminate HCV infection by using antiviral treatment and to stop the immune response by using rituximab. For skin vasculitis and for some laboratory findings, it may be appropriate to combine antiviral treatment with deletion of B-cell clonal expansions by using of rituximab. The applicability of evidence reviewed here is limited by the absence of any studies with direct-acting antivirals, which are urgently needed to guide therapy.

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Conflict of interest statement

  1. Nuria Montero: none known

  2. Alexandre Fava: none known

  3. Eva Rodriguez: none known

  4. Clara Barrios: none known

  5. Josep M Cruzado: none known

  6. Julio Pascual: has advisory board and/or clinical trial involvement with Novartis, Astellas, Roche, Wyeth and Genzyme, and has also been an invited speaker at national and international meetings sponsored by Novartis and Astellas

  7. Maria Jose Soler: none known

Figures

1
1
Flow chart showing source and identification of studies for inclusion.
2
2
Risk of bias summary: review authors' judgements about each risk of bias item for each included study.
3
3
Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.
1.1
1.1. Analysis
Comparison 1 Rituximab versus no rituximab, Outcome 1 Death.
1.2
1.2. Analysis
Comparison 1 Rituximab versus no rituximab, Outcome 2 Clinical manifestations.
1.3
1.3. Analysis
Comparison 1 Rituximab versus no rituximab, Outcome 3 Laboratory findings.
1.4
1.4. Analysis
Comparison 1 Rituximab versus no rituximab, Outcome 4 Adverse effects of the medication.
1.5
1.5. Analysis
Comparison 1 Rituximab versus no rituximab, Outcome 5 Antiviral therapy failure or not indicated.
2.1
2.1. Analysis
Comparison 2 Interferon versus control, Outcome 1 Death.
2.2
2.2. Analysis
Comparison 2 Interferon versus control, Outcome 2 Clinical manifestations.
2.3
2.3. Analysis
Comparison 2 Interferon versus control, Outcome 3 Laboratory findings.
2.4
2.4. Analysis
Comparison 2 Interferon versus control, Outcome 4 Adverse effects of the medication.
2.5
2.5. Analysis
Comparison 2 Interferon versus control, Outcome 5 Antiviral therapy failure or not indicated.
3.1
3.1. Analysis
Comparison 3 Interferon for 6 months versus 1 year, Outcome 1 Death at 24 months.
4.1
4.1. Analysis
Comparison 4 Immunoadsorption apheresis versus immunosuppressive drug therapy, Outcome 1 Death at 24 months.
4.2
4.2. Analysis
Comparison 4 Immunoadsorption apheresis versus immunosuppressive drug therapy, Outcome 2 Clinical manifestations.
4.3
4.3. Analysis
Comparison 4 Immunoadsorption apheresis versus immunosuppressive drug therapy, Outcome 3 Laboratory findings.
4.4
4.4. Analysis
Comparison 4 Immunoadsorption apheresis versus immunosuppressive drug therapy, Outcome 4 Adverse effects of the medication.
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References to other published versions of this review

Montero 2014
    1. Montero N, Barrios C, Rodriguez E, Pascual J, Soler MJ. Treatment for hepatitis C virus‐associated cryoglobulinaemic vasculitis. Cochrane Database of Systematic Reviews 2014, Issue 11. [DOI: 10.1002/14651858.CD011403] - DOI - PMC - PubMed

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