Multiple Sclerosis (MS) is a chronic inflammatory disease of the central nervous system (CNS) and is characterized by inflammation, demyelination and desctruction of oligodendrocytes and axons. The immunology of MS is complex, involving autoreactive Th1 and Th17 lymphocytes, cells of the innate immune system including dedritic, natural killer (NK) and microglia cells, as well as vascular endothelial cells. Multiple Sclerosis (MS) is based by a series of biochemical changes affecting to different extent neuronal functions; great attention has been focused on: liver enzymes, thyroid function tests, autoantibodies, lipid profile and uric acid levels. Following the introduction of therapy with drugs that modify the course of disease, more attention has been paid to the change of biochemical parameters, in particular to evaluate possible adverse effects. Aim of this study was to perform a review of the literature on biochemical alterations in treated and untreated MS patients and to assess laboratory parameters alterations in a cohort of MS patients, before and during treatment. On a total of 624 patients followed at our center, we selected those who practiced for the first time a therapy with IFN beta 1a at various doses, IFN beta 1b and Glatiramer acetate, that were 595 (95%), with baseline biochemical evaluation available in 488 (82%) (307 females, mean age 36.6 years). We considered the evolution of various biochemical parameters during treatment. The following outcome variables were evaluated: laboratory changes, in particular liver function, thyroid function, lipids and blood cell count. Percentages were compared using the chisquare test. ANOVA was performed to evaluate changes of laboratory tests over time between therapy groups. Our finding confirm the presence of biochemical alterations at baseline, in particular regarding liver enzymes, thyroid hormones and lipids. Treatment effects were more evident on liver enzymes elevation, anti thyroid antibodies production and blood cholesterol decrease. These effects were mainly transient and self remitting without suspension of therapy. Biochemical alterations, mainly related to autoimmune pathology and lipid metabolism change were encountered. Treatments increased transient biochemical alterations particulary in patients with baseline changes, suggesting a stricter monitoring of blood exams in this category of patients.
Multiple Sclerosis (MS) is a progressive, invalidating pathological state, the exact etiology of which is still uncertain [
Hypertransaminasemia: autoimmune diseases are associated with an increased risk of hypertransaminasemia. In the course of MS, cases of autoimmune hepatitis and primary biliary cirrhosis have been reported [
Dysthyroidism: dysthyroidism and autoimmune thyroiditis are more frequent in the course of MS. In particular it was demonstrated that males with MS have the same prevalence of thyroid disorders as women, with or without MS [
Dyslipidemia: an increase in total cholesterol and HDL cholesterol levels were found in patients at onset of MS, without correlations between lipid levels and clinical parameters. In a study evaluating during 6 months followup with monthly brain MRI with gadolinium, Pozzilli et al. showed a correlation between total cholesterol and LDL cholesterol levels with the number of active plaques at brain MRI [
Changes of uric acid: in the course of MS a reduced value of uric acid (UA) was found, in normal range, compared to healthy subjects, in the absence of correlations with disease activity, duration, course or degree of disability [
Following the introduction of therapy with drugs that modify the course of disease, more attention has been focused on biochemical parameters changes, particulary to evaluate possible adverse effects: Liver effects: a transient, but significant, increase in transaminases in 30% - 40% of patients treated with IFNs was demonstrated, especially in the first six months of therapy [
Thyroid effects: alterations of thyroid hormones have been attributed to the Interferon in MS, but recently dysthyroidism did not appear significantly increased on IFN treatment compared to the risk of MS dependent comorbidity [
Hematological effects: dose-related cytopenias were observed in 10% of patients treated with IFNs, especially regarding the white cells. Severe leukopenia, lymphopenia and neutropenia are uncommon. These alterations are usually early (within 3 months), asymptomatic and not associated with increased risk of infection [
Lipid profile changes: pro-inflammatory cytokines have a prominent role in determining changes in lipids metabolism. Several studies have emphasized that the effect of IFNs results in a decrease of cholesterol and increased triglycerides [
Uric acid: during treatment with various immunomodulatory drugs currently on the market, there was evidence of increased levels of uric acid only with Glatiramer acetate, but not with Interferon. It has been suggested that the natural inhibitor of free radicals role of uric acid can intervene in the mechanism of action of Glatiramer acetate [
We considered the evolution of various biochemical parameters during treatment with IFN beta 1a at various doses, IFN beta 1b and Glatiramer acetate. On a total of 624 patients followed at our center, those who practiced for the first time therapy with IFN or Glatiramer acetate were 595 (95%), with baseline biochemical evaluation available in 488 (82%) (307 females, mean age 36.6 years). Blood sampling was performed in the morning after a 12-hours fasting. The follow-up data of these patients were considered for statistical analysis. The following outcome variables were evaluated: laboratory changes, in particular liver function, thyroid function, lipids and blood cell count. Percentages were compared using the chi-square test.
ANOVA was performed to evaluate changes of laboratory tests over time between therapy groups.
In the group of 488 de novo patients followed at our MS center, abnormal liver enzyme (>40 U/L) were present in 3.5% and 12.3% for AST and ALT respectively (
Thyroid function tests showed a 3.5% of patients with altered thyroid hormones, while anti thyroid antibodies with values > 100 U/L were present in 6.9% and 8.9% for anti-thyroglobulin (TgAb) and for anti-thyreoperoxidase (TPOAb) respectively (
In a subgroup of patients we focused attention on lipid profile: at baseline, total cholesterol ranged between 2.5 and 7.6 mmol/L (normal laboratory range: 2.4 - 5.5 mmol/L; desirable value: <4.9 mmol/L). LDL ranged between 0.7 and 5 mmol/L (normal laboratory range: 1.5 - 3.9 mmol/L; desirable value: <3.4 mmol/L).
Patients were divided into five treatment groups (IFN beta 1a 30 mcg 27.5%, IFN beta 1a 22 mcg 17.6%, IFN beta 1a 44 mcg 13.5%, IFN beta 1b 26.6% and Glatiramer acetate 14.8%). The mean follow-up was 25.1 months. We have documented a transient increase of liver enzymes in the first 6 - 12 months of therapy in all subgroups, statistically significant for the higher IFN dose regimens, with a tendency to return to baseline levels by the end of follow-up, without change of dosage of the drug (Figures 3 and 4). In particular, a peak of AST and ALT levels was registered at month 2 for IFN beta 1b and at month 3 for the two s.c. IFN beta 1a formulations.
Anti-thyroglobulin antibodies with clinically significant values (>100 U) increased and remained persistently high at 24 months of treatment with IFN beta 1a 22 mcg (13.3%) and with Glatiramer acetate (23.5%) with values even higher than 5000 IU. High levels of antiTPO antibodies (>100 U/L) were detected at 24 months only in the group treated with Glatiramer acetate (14.3%). Thyroid function analysis showed a transient increase in free-tri-iodothyronine (fT3) levels (3.09 pg/ml, F = 2.25, P < 0.01) at the first month of therapy, without any clinical correlate, with spontaneous normalization.
The lipid profile, in particular, has been studied in a subgroup of 253 consecutive patients during treatment with Interferon Beta 1a or 1b, showing modest but significant decrease in total cholesterol (up to −8%) over 1 year follow-up, while for triglycerides was found only a slight and not significant increase (up to +6%). We have not revealed differences between the different IFN therapies in the influence on lipid values [
Triglycerides did not show any significant change. Patients with higher relapse rate during treatment did not show significantly higher cholesterol levels, contrarily to other literature evidences [
Uric acid did not show significant changes during therapy.
Regarding peripheral blood counts, white blood cells (WBC) decreased significantly in treatment at month 3 (6.04 × 103/dl, p < 0.001) and remained below baseline.
The study of biochemical alterations in patients with MS has a historical value. It was one of the few tools to investigate this disease in last century, in the pre-MRI era, giving rise to pathogenetical hypothesis, such as the acid linolenic deprivation hypothesis [
Lipids too have been largely investigated, and their study, also if not completely clarifying the primary or secondary role of their alteration in MS, has, anyhow, addressed the research towards statins mechanism of action in this disease. The use of such a class of drugs has been recognized effective as add-on therapy in patients not satisfactorily performing on IFNs alone [22,23].
Our data confirm that in the course of MS there are some biochemical alterations, mainly due to the co-morbidity with other autoimmune disorders, but also to other mechanisms and in some cases even secondary to the disease itself. The secondary effects of the disease modifying treatments, analyzed in our cohort of patients, even if not clinically relevant were evident for all of the drugs, with some differences: we found a more pronounced alteration of liver enzymes and, with an inversion of tendency of the cholesterol levels, for the IFNs, with a dose dependent mechanism, and more evident effect on antithyroid antibodies production in the Glatiramer acetate group. This data is unexpected, since this drug is not related to autoantibodies production, but we cannot exclude that the production of anti-thyroid antibodies was more significant in this treatment group because of a bias in the treatment assignment: a history of previous autoimmune disorders or of a familiarity for these diseases might have led to the Glatiramer acetate therapy choice in some cases.
From the data of the literature we took the message that one of the most interesting metabolite altered in the course of MS is uric acid: its renown deficit in MS deserves further pathogenetic elucidation aimed at future therapeutic strategies. Regarding the aspects of disease modifying therapies adverse effects, mainly hepatic injury and thyroid function alterations, from the data retrieved from literature and our clinical experience, we might extrapolate some general observations:
1) Monitoring of blood chemistry parameters under immunomodulatory therapies for MS is warranted in the first year, in particular for liver enzymes, thyroid antibodies, blood cells.
2) Those subjects with abnormal baseline parameters require monitoring in the longer term, since blood analysis can be altered even at 24 months of therapy.
3) Therapies considered as “low dose” are not free from hepatotoxic risks.
4) Production of anti thyroid antibodies should be monitored also during treatment with Glatiramer acetate, given the high incidence of clinically significant values of auto antibodies up to two years of therapy in our population.