Legend: RF, rheumatoid factor, normal range: 0–25 IU/mL; C4, complement fraction C4, normal range: 10–40 mg/dl; ALT, alanine aminotransferase, normal range: 6–36 IU/L; GN, Glomerulonephritis, CS, Corticosteroids, CYC, cyclophosphamide, RTX, Rituximab, MMF, mycophenolate mofetil, PE, plasma exchange.
Some case reports have shown that viral suppression induced by NAs was associated with serum clearance of cryoglobulins, rheumatoid factor (RF) normalization and disappearance of purpura, arthralgia, Raynaud phenomenon and peripheral neuropathy
[35][36][37][38][39][40][41][42]. In particular, Visentini and colleagues
[43] reported the regression of VH1-69+ B-cell clones, which have been implicated also in the pathogenesis of HCV-related CV, in two patients successfully treated with antiviral therapy. In a wider population where NAs treatment was effective in suppressing HBV replication, a significant improvement of peripheral neuropathy was reported in 2/6 patients, while skin ulcers persisted in two
[28]. However, other authors obtained skin ulcer improvement combining entecavir therapy with corticosteroids and plasma exchange
[40]. In 2016, the GISC conducted a retrospective observational multicenter study, recruiting 17 HBV-DNA-positive CV subjects. Seven patients were treated with NAs for 48 months: five with entecavir, one with adefovir, and one with lamivudine
[29]. After 12 months of NAs therapy, HBV-DNA was undetectable in all subjects, while HBsAg remained positive in all cases (100%). Purpura disappeared in all cases (100%), an improvement of arthralgia was observed in five patients (71%), while one patient experienced regression of leg ulcer. NAs induced a reduction of cryocrit levels in all cases, but only two patients showed undetectable levels of cryoglobulins during treatment. RF levels decreased in all seven patients, though a normal RF was observed only in one. C4 serum level remained low during treatment at 48 months of therapy.
Viganò and colleagues
[40] reported purpura disappearance, reduction of cryoglobulins and normalization of RF, C4, creatinine and proteinuria in one patient treated with entecavir after negativization of HBV-DNA. Terrier and colleagues
[22] studied 324 cases of non-HCV-related CV, including eight patients with HBV disease. Three patients with glomerulonephritis received lamivudine or entecavir with improvement of renal function and remission of purpura in one case while rituximab combined with entecavir was necessary to induce remission of nephropathy in the remaining two cases.
In a recent study, Li and coworkers
[30] described 12 patients affected by HBV-associated glomerulonephritis. Seven were treated with entecavir for 16 months and 2 with lamivudine for 12 months. The main clinical, biochemical, histological characteristics of the patients and NAs therapy are shown in
Table 2. Nephrotic syndrome was present in nine subjects and a rapidly progressive glomerulonephritis in three. Nine patients had impaired renal function with a mean eGFR of 35.7 ± 24.3 mL/min at diagnosis. At the end of the follow-up (6–60 months), viremia was undetectable in all patients. In five patients treated with entecavir alone, a complete response was observed in two and a partial response in three; of these five cases, two had also purpura and arthralgia and one gastrointestinal vasculitis. Four patients were treated with steroids and immunosuppressants associated with NAs, but they had no response showing a progressive worsening of the renal failure requiring dialysis, and two of them died from sepsis, and cerebral hemorrhage, respectively.
2.2. Pegylated-Interferon Alfa
Compared with NAs therapy, Pegylated-interferon-α (PEG-IFN-α) has the advantage of finite treatment duration and slightly higher rates of HBsAg and HBeAg seroconversion. However, there are several contraindications and severe side effects, which discourage its use in HBV-related CV
[44]. Löhr and colleagues
[45] reported a single case of a young female with chronic hepatitis B and purpura due to type II MC treated with PEG-IFN-α 2b, three times weekly for twelve months. After one month of treatment, ALT returned to the normal range, while cryoglobulins disappeared from the serum. HBV-DNA was undetectable after two months, and purpura disappeared. Among the 17 patients with HBV-associated CV studied by Mazzaro and colleagues
[29], PEG-IFN-α 5MU/day for six months was administrated to two patients with CV glomerulonephritis. In both, purpura and arthralgia did not improve and serum HBV-DNA remained positive. Also, the levels of cryocrit, RF, C4, creatinine and proteinuria remained unchanged and they were considered as non-responders. Visentini and colleagues
[42] reported one case with HBV-related MC treated with PEG-IFN-α 2b. After six months of therapy, HBV-DNA was undetectable, purpura was resolved and cryocrit decreased, whereas C4 and RF remained stable. In addition, La Civita and colleagues
[46] described a single HBV-positive MC patient with recurrent purpura, mild sensory peripheral neuropathy, and active hepatitis treated with PEG-IFN-α. The authors noted a rapid improvement of the purpura associated with ALT normalization and disappearance of cryocrit and serum HBV-DNA after four months of treatment. However, the concomitant worsening of the peripheral neuropathy prompted discontinuance of PEG-IFN-α.
In summary, effectiveness of PEG-IFN-α in HBV-related CV is inconsistent. Right now, the NAs therapy should be preferred over PEG-IFN-α as first-line therapy in HBV-related CV.
2.3. Rituximab
Rituximab is a chimeric monoclonal antibody anti-CD20 antigen, selectively expressed in B-cells, which are expanded and abnormally activated in MC. Many reports have indicated that rituximab is effective in severe clinical manifestations of HCV-related MC, including skin ulcers, glomerulonephritis, peripheral neuropathy, and hyper-viscosity syndrome
[47][48][49][50][51]. Pasquet and colleagues
[52] reported a single case of HBV-associated type I membrano-proliferative glomerulonephritis, initially treated with corticosteroids in association with antiviral therapy (lamivudine). Because of a gradual worsening of renal function despite treatment with plasmapheresis, the patient received rituximab (375 mg/m
2 in 4 weekly infusions) and lamivudine was substituted with entecavir. The purpura remitted, creatinine returned to normal, proteinuria, cryocrit, and RF decreased, and HBV-DNA became undetectable. Terrier and colleagues
[22] used NAs therapy in 3 patients with glomerulonephritis obtaining improvement of renal function and remission of purpura in one. The other two patients received rituximab in combination with entecavir, leading to remission of kidney disease. Nonetheless, subjects treated with rituximab should be carefully monitored for infection complications.
In summary, there are plenty of works
[47][48][49][50][51] that demonstrate the effectiveness of rituximab for non-responders to the antiviral therapy, relapsing patients or for patients with severe or life-threatening CV (glomerulonephritis, peripheral neuropathy, extended cutaneous ulcers, gastrointestinal vasculitis, acute hyper-viscosity syndrome). A highly active antiviral therapy must always be associated with rituximab, not disregarding the risk of a possible viral reactivation in HBV-positive subjects, including those with a past infection (HBcAb-positive only)
[44]. In fact, several investigators have reported fulminant hepatitis caused by HBV reactivation
[53] after rituximab therapy. Moreover, HBV reactivation was reported even several months after the completion of rituximab treatment
[5].
2.4. Plasma exchange
Removing circulating cryoglobulins by means of apheresis procedures is still considered the most efficient way to improve acute conditions in patients with severe CV
[54]. Data from small series of patients and one small randomized study have shown that plasma exchange associated with immunosuppressive agents or corticosteroids was more effective in a severe CV than with plasma exchange alone
[55][56][57]. A recent retrospective cohort survey including 22 Italian GISC centers evaluated 159 patients with severe CV who underwent apheresis
[58].
The authors found that patients with life-threatening CV were significantly less likely to respond and significantly more likely to die during the first year after the initiation of the apheresis sessions (59%) than those without life-threatening CV; apheresis failure was associated with an increased risk of death. Cyclophosphamide has been used in association with apheresis to reduce the post apheresis rebound in cryoglobulinemic production
[59], but it was only used in 19.5% of the patients reported by Marson and colleagues
[58], mainly in association with the first apheresis session. The cost–benefit ratio of adding cyclophosphamide to apheresis is a subject of debate, and the choice should be evaluated in each case
[60]. Data from small case series support the effectiveness of pulse high-dose corticosteroid therapy in controlling CV flares
[59], and corticosteroids were associated with apheresis at different times and doses in treating 86% of the patients included in the study by Marson and colleagues
[58]. In most reported cases, pulsed high-dose corticosteroid therapy was administered in association with the first apheresis session
[58]. The guidelines of the American Society for Apheresis (ASFA)
[61] include severe/symptomatic cryoglobulinemia amongst the disorders for which this procedure should be considered as second-line treatment. Few case reports have been published on plasmapheresis in HBV-associated CV. Terrier and colleagues
[22] administered lamivudine, corticosteroids, and plasmapheresis to one patient with HBV-CV with nephropathy and purpura not obtaining a clinical response. Subsequently, the patient underwent rituximab, attaining clinical remission of purpura and nephropathy. A second patient affected by HBV-related nephropathy and purpura received entecavir, plasmapheresis, corticosteroid, and cyclophosphamide, obtaining clinical remission of nephropathy and purpura. In one recent study
[30], two patients with HBV-related CV with rapidly progressive glomerulonephritis were initially treated with entecavir, corticosteroid, and plasmapheresis, without appreciable changes in the clinical and biochemical features. Subsequently, one of them was treated with rituximab, obtaining purpura remission, reduction of cryoglobulins and RF, but renal failure worsened, requiring dialysis.
Globally, plasmapheresis may be indicated in severe and life-threatening HBV-related CV. However, in patients with HBV-positive cirrhosis due to either hemodynamic changes and the immunological dysfunctions associated with this condition, plasmapheresis should be used very cautiously.
2.5. Steroids
In high doses or as pulse therapy, corticosteroids have been in use for many years in subjects with severe systemic CV (ulcer, progressive peripheral neuropathy, and glomerulonephritis)
[62]. The high doses of corticosteroids, both employed alone or associated with apheresis, are recommended by GISC to control severe CV flare
[60].
A previous study
[29] described the use of low-dose corticosteroids for 48 months in five patients, obtaining the remission of purpura and arthralgia in three patients while clinical symptoms persisted after the end of treatment in the remaining two. All patients obtained a reduction of the cryocrit level, but none of them showed a complete disappearance of cryoglobulins at the end of therapy. The RF serum levels remained elevated, and the C4 level remained unchanged at the end of treatment in all patients. Notably, in 8 patients treated with corticosteroids alone without NAs, no virological response was documented (HBsAg remained positive in all, with detectable HBV-DNA)
[29].
Low-dose and long-term treatments with steroids should not be used for chronic viral infections and are responsible for significant side effects. However, as stated in the GISC recommendation, such a treatment may be helpful if administered as short-term courses for chronic pain control
[63].
2.6. HBV-Related CV Treated with NAs: A Long-Term Follow-Up Analysis from GISC
An update of previous results with a long follow-up analysis of HBV-CV patients treated with NAs is herein provided.
Six Italian centers, belonging to the GISC, were invited to provide retrospectively anonymous data in subjects who had undergone NAs therapy between June 2010 and February 2020, with a standardized aggregate data collection form. The mean follow-up was 75 months (range: 9–123). The only inclusion criterion for this study was the presence of CV symptoms in HBsAg positive patients. All cases met the eligibility criteria for treatment with NAs according to guidelines for the management of chronic HBV-infection
[47].
The study comprised 18 patients with HBV-related CV, among whom seven had already been described in a previous paper
[29], and they were included herein since they were still on NAs therapy and regularly monitored.
Table 3 summarizes the main clinical, immune, and virological characteristics of the study population.
Table 3. Nucleotide analogues (NAs) therapy in 18 patients with HBV-related cryoglobulinemic vasculitis.
No. of Patients |
18 |
Female/Male |
10/8 |
Age/Years, Median (range) |
59 (33–81) |
Biochemical and Virological Features |
|
HBV-DNA positive, n (%) |
18 (100) |
HBV-DNA IU/mL, median |
6630 |
MC type II/type III |
17/1 |
Cryocrit %, median (range) |
4 (1–70) |
RF IU/mL, median (range) |
181 (10–5850) |
C4 mg/dl, median (range) |
9 (2–31) |
ALT IU/mL, median (range) |
51 (21–638) |
Creatinine mg/dl, median (range) |
1.0 (0.6–1.3) |
Clinical Features |
|
Purpura, n (%) |
18 (100) |
Arthralgias, n (%) |
11 (61) |
Skin Ulcers, n (%) |
3 (17) |
Sjögren’s syndrome, n (%) |
5 (28) |
Peripheral neuropathy, n (%) |
11 (61) |
Glomerulonephritis, n (%) |
1 (6) |
NHL |
2 (11) |
Chronic hepatitis, n (%) |
4 (22) |
Cirrhosis, n (%) |
1 (6) |
Antiviral Agent, n, Median Duration (months) |
|
Entecavir |
11 (78) |
Tenofovir |
6 (67) |
Lamivudine |
1 (58) |
Other treatment, n, Median Duration (months) |
|
Peg-IFN alone |
3 (17) |
CS-associated NAs |
4 (22) |
PE-associated NAs |
4 (22) |
RTX-associated NAs |
2 (11) |
Virological Response, n (%) |
18 (100) |
Cryocrit %, median (range) |
1 (0–14) |
RF IU/mL, median (range) |
181 (10–5850) |
C4 mg/dl, median (range) |
7 (1–24) |
ALT IU/mL, median (range) |
16 (12–34) |
Cryoglobulinemic Vasculitis Complete Response |
|
Purpura, n (%) |
14 (78) |
Arthralgia, n (%) |
8 (44) |
Skin Ulcers, n (%) |
2 (11) |
Sjögren’ssyndrome, n (%) |
2 (11) |
Peripheral neuropathy, n (%) |
6 (33) |
Cryoglobulinemic Vasculitis Partial Response |
|
Purpura, n (%) |
4 (22) |
Arthralgia, n (%) |
3 (17) |
Peripheral neuropathy, n (%) |
5 (28) |
Glomerulonephritis, n (%) |
1 (6) |
NHL |
2 (11) |
Legend: CS, Corticosteroids, CYC, cyclophosphamide, RTX, Rituximab, PE, plasma exchange, NHL, non-Hodgkin lymphoma, RF, rheumatoid factor. Normal range: RF (0–25 IU/mL); C4 (10–40 mg/dl); ALT (6–36 IU/L).
Purpura was present in 18/18 (100%) patients, arthralgia in 11/18 (61%), ulcers in 3/18 (17%), Sjögren’s syndrome in 5/18 (28%), peripheral neuropathy in 11/18 (61%), glomerulonephritis in 1/18 (6%) and 2/18 (11%) had a NHL. Before the beginning of NAs therapy, 3 (17%) patients underwent treatment with PEG-IFN-α for 12 months and 2 patients achieved a transient vasculitis response despite a persistent HBV-DNA positivity.
Four out of 18 (22%) patients received a low dose of prednisone (≤10 mg/day) associated with NAs therapy to control purpura flares and arthralgia. Plasma exchange associated with NAs was used in 4 (22%) patients with severe CV: One had elevated cryocrit in low-grade NHL, 1 had nephropathy, 2 had debilitating neuropathy and skin ulcers. Low doses of rituximab (250 mg/m2/weekly for four times) associated with NAs was used in 2 patients (11%): one had low-grade NHL and peripheral neuropathy, while the other had severe peripheral neuropathy and skin ulcers. Eleven patients were treated with entecavir for a median of 78 months (range: 9–111), 6 cases with tenofovir for a median of 67 months (range: 48–120), and 1 case with lamivudine for 58 months. After 6–12 months of therapy with NAs, viremia was undetectable in all patients (100%) and remained undetectable during the entire follow-up. In all patients, HBsAg remained positive. During the NAs therapy, purpura disappeared in 14/18 (78%), in 8/11 (73%) improvement of arthralgia, while regression of the leg ulcers in 2/3 (67%). Disappearance of leg ulcers was observed in one patient treated with entecavir monotherapy, while another patient treated with entecavir required plasma exchange followed by rituximab. A third patient showed skin ulcers persistence. Peripheral neuropathy improved in 5/18 (45%) cases (2 treated with entecavir and 3 with tenofovir). One patient with glomerulonephritis showed no improvement of renal function with tenofovir treatment and underwent plasma exchange and, subsequently, low doses of rituximab infusions. Despite the therapeutic efforts, the kidney failure progressed, requiring dialysis. A low-grade NHL case treated with tenofovir did not show a hematologic response and underwent sequential treatment with plasma exchange and low-dose rituximab, with a partial response. One patient on entecavir developed a cerebral diffuse large B-cell lymphoma after 60 months of therapy. Despite chemotherapy, the patient died because of lymphoma progression. One patient with cirrhosis and CV was treated with entecavir and obtained a rapid improvement of the purpura, while the peripheral sensory neuropathy persisted. Despite virological suppression and reduction of cryocrit and RF, the patient died of decompensated cirrhosis after 60 months. NAs therapy induced a decrease in cryocrit levels in all cases, although only 6/18 (33%) showed disappearance of cryoglobulins. The RF decreased in all patients, but the C4 serum levels remained low during treatment. No exacerbations of the clinical manifestations and no side effects were observed.
Long-term therapy with NAs should take into account other factors such as the patient’s treatment compliance, the possible development of viral mutations causing drug resistance, and the potential toxicity, although the availability of different NAs guarantees a therapeutic coverage with multiple options. Treatment with NAs in subjects with HBV-related CV should be continued indefinitely even after the CV symptoms disappeared. The NAs treatment can be stopped only for those patients who achieve complete recovery from CV, HBsAg loss and HBsAg seroconversion.
Based on these reports, we can state that an optimal treatment for HBV-associated glomerulonephritis has not yet been established. The therapeutic schedule always includes the antivirals, but when HBV-CV is associated with nephrotic syndrome and a rapid decrease of renal function, the use of rituximab and plasma exchange should be considered
[47][48][49][50][51][52].