Quality of Life Improves with Alemtuzumab Over 6 Years in Relapsing-Remitting Multiple Sclerosis Patients with or without Autoimmune Thyroid Adverse Events: Post Hoc Analysis of the CARE-MS Studies.

INTRODUCTION: In clinical trials of alemtuzumab, autoimmune thyroid adverse events (AEs) were frequent. Here, we assess the impact of thyroid AEs on health-related quality of life (HRQL) in alemtuzumab-treated patients with relapsing-remitting multiple sclerosis (RRMS).
METHODS: In phase 3 CARE-MS I (NCT00530348) and II (NCT00548405) trials, patients with RRMS were administered alemtuzumab 12 mg/day on 5 consecutive days at baseline and on 3 consecutive days 12 months later. Patients could participate in an extension study (NCT00930553) through year 6. HRQL was assessed at baseline and annually using the Functional Assessment of Multiple Sclerosis (FAMS), EuroQoL-5 Dimension Visual Analog Scale (EQ-5D VAS), and 36-Item Short-Form Survey (SF-36) questionnaires. Outcomes were analyzed in patients with or without thyroid AEs (nonserious or serious). A subset of patients with thyroid AEs was analyzed to assess HRQL before and during the onset of thyroid AEs.
RESULTS: A total of 811 CARE-MS patients were treated with alemtuzumab. Of these, 342 (42%) patients experienced thyroid AEs over 6 years; serious thyroid AEs occurred in 44 (5%) patients. At year 6, HRQL outcomes generally remained slightly improved or similar to core study baseline in alemtuzumab-treated patients with or without thyroid AEs: FAMS (least-squares mean change from baseline without thyroid AEs, 0.7; with nonserious thyroid AEs, 5.1; with serious thyroid AEs, - 5.3), EQ-5D VAS (2.0; 3.0; - 6.8), SF-36 mental component summary (MCS [0.6; 1.6; - 2.8]), SF-36 physical component summary (PCS [0.8; 1.0; 1.1]). Over 6 years, 63-82% of patients in each group had improved/stable SF-36 MCS and PCS scores. Among patients with thyroid AE onset in year 3 (peak incidence), there were minimal differences between HRQL outcomes before onset (year 2) and after onset (year 3).
CONCLUSION: Autoimmune thyroid AEs (serious and nonserious) had minimal impact on HRQL in alemtuzumab-treated patients. These data may aid therapeutic decisions in patients with relapsing MS.

Key Summary Points

Introduction

Multiple sclerosis (MS) is a chronic, autoimmune, neurodegenerative disease that reduces health-related quality of life (HRQL) in affected individuals and impairs activities of daily living. Disease-modifying therapies (DMTs) for MS aid in symptom management and slow the course of disease, and can thus improve HRQL in patients with MS [1]; however, because all DMTs carry risks for unwanted side effects, the net impact of a DMT on HRQL reflects therapeutic efficacy as well as adverse events (AEs) [2].

Alemtuzumab (Lemtrada®, Sanofi Genzyme, Cambridge, MA) is a humanized anti-CD52 monoclonal antibody indicated for patients with relapsing forms of MS. The efficacy and safety of alemtuzumab were evaluated in the 2-year, phase 3 CARE-MS I (NCT00530348) and II (NCT00548405) trials, and for an additional 4 years in the CAMMS03409 extension study (NCT00930553) [3-6]. Alemtuzumab significantly reduced relapses, disability, magnetic resonance imaging (MRI) lesions, and brain volume loss compared with subcutaneously administered interferon beta-1a (SC IFNB-1a) in the core studies, and alemtuzumab efficacy was maintained through year 6. In parallel with these clinical and MRI improvements, alemtuzumab-treated patients reported significantly greater HRQL improvements from baseline to year 2 compared with SC IFNB-1a-treated patients, and HRQL with alemtuzumab remained above baseline or similar to baseline through year 6 [7-9].

AEs associated with alemtuzumab in clinical trials and postmarketing experience include infusion-associated reactions, increased frequency of infection, and the potential for opportunistic infections, secondary autoimmunity (thyroid disorders, immune thrombocytopenia, nephropathies, autoimmune cytopenias, autoimmune hepatitis, and other less common autoimmune events), acute acalculous cholecystitis, and cardiovascular and pulmonary events possibly related to infusion [3, 4, 10–13]. Thyroid AEs were the most frequent autoimmune AEs associated with alemtuzumab. In the phase 3 alemtuzumab trials and their extension study, the overall rate of thyroid AEs was 42% over 6 years, peaking in year 3 following the first alemtuzumab course, which was received at baseline, and declining thereafter [3-6].

Information is currently lacking on the consequences of thyroid AEs on patients’ lives after treatment with alemtuzumab. The purpose of this study was to evaluate the impact of autoimmune thyroid AEs on HRQL in alemtuzumab-treated patients from the CARE-MS studies.

Methods

Patients and Procedures

CARE-MS I and II were randomized, rater-blinded, active-controlled, head-to-head trials of alemtuzumab (12 mg/day on 5 consecutive days at baseline and on 3 consecutive days 12 months later) compared with SC IFNB-1a (44 µg three times/week) [3, 4]. In the CARE-MS extension study, patients randomized to alemtuzumab could receive additional courses (12 mg/day on 3 consecutive days at least 12 months after the previous alemtuzumab course) as needed for disease activity [10, 12]. Patients could also receive other licensed DMTs at the trial investigator’s discretion (Fig. 1). The CARE-MS extension study was carried out in 178 study centers in 23 countries.

Fig. 1

Designs of the CARE-MS I/II and CARE-MS extension studies, including timing of alemtuzumab dosing and annual incidence of thyroid AEs. Patients randomized to alemtuzumab in the core CARE-MS I/II trials received treatment on 5 consecutive days at baseline and on 3 consecutive days 12 months later. In the CARE-MS extension (CAMMS03409) study, patients could receive additional courses of alemtuzumab (12 mg/day on 3 consecutive days at least 12 months after the previous course) as needed for predefined disease activity at the investigator’s discretion; other approved DMTs were also permitted. aFirst occurrence of thyroid AE for a patient. AE adverse event, C course, DMT disease-modifying therapy, IV intravenous, Y year

In alemtuzumab-treated patients, thyroid function testing was carried out through a comprehensive monitoring program. Thyroid AEs listed in this study were reported as AEs by the investigators, and did not include patients with thyroid events reported as lab abnormalities but not reported as AEs (n = 25). Thyroid-stimulating hormone (TSH) was measured at baseline and quarterly until 48 months after the last alemtuzumab infusion. In the event of abnormal TSH levels (normal range, 0.4–4.0 mU/L), further investigation was done by assessing thyroid symptoms (hyperthyroidism or hypothyroidism), free T3, free T4, and thyroid autoantibodies at the investigator’s discretion [14-16]. Serious thyroid AEs were defined as those that were life threatening, required hospitalization, or resulted in persistent or significant disability, congenital anomaly, or death. Nonserious thyroid AEs were those that did not meet the criteria for serious thyroid AEs.

Thyroid AE severity was evaluated using the National Cancer Institute Common Terminology Criteria for Adverse Events (CTCAE) version 3.0 [17]: grade 1 AEs are mild or asymptomatic, and no treatment is necessary; grade 2 AEs are moderate and symptomatic, but do not interfere with daily activities, and noninvasive intervention is indicated (e.g., thyroid suppression therapy for hyperthyroidism or thyroid replacement for hypothyroidism); grade 3 AEs are severe, requiring hospitalization or prolongation of hospitalization; grade 4 AEs are life threatening or disabling and require urgent intervention; grade 5 AEs are fatal.

HRQL Assessments

HRQL questionnaires were administered to patients at baseline and every year, and included the Functional Assessment of Multiple Sclerosis (FAMS), Quality of Life-5 Dimension Visual Analog Scale (EQ-5D VAS), and 36-Item Short-Form Survey (SF-36).

FAMS version 4 is a reliable, MS-specific questionnaire consisting of 44 scored items in six clinically relevant domains including mobility, symptoms, emotional well-being, general contentment, thinking/fatigue, and family/social well-being. FAMS (total) scores range from 0 to 176 [18]. The EQ-5D VAS is a validated, generic HRQL measure consisting of a single-item scale comprising five dimensions: mobility, self-care, usual activities, pain/discomfort, and anxiety/depression. EQ-5D VAS scores range from 0 to 100 [19]. SF-36 version 2 is a widely used generic measure of a patient’s state of health, comprising 36 items organized into eight scales and combined into two summary measures: the mental component summary (MCS) and physical component summary (PCS) survey [20]. The SF-36 utilizes a norm-based scoring method in which scores have a mean of 50 and standard deviation of 10 in healthy populations [21]. Clinically meaningful worsening and improvement on the SF-36 are defined as at least a 5-point decrease and increase from baseline norm-based scores, respectively [22]. The 5-point cutoff is based on half a standard deviation, which represents a minimally important difference. Higher scores in all of the above mentioned questionnaires represent better HRQL.

Statistical Analysis

Thyroid AE incidences were based on the first occurrence of a thyroid AE to avoid double counting an ongoing event. Patients were stratified initially into subgroups on the basis of the presence or absence of autoimmune thyroid AEs, then further stratified on the basis of the presence of nonserious and serious thyroid AEs. Changes in HRQL outcomes from core study baseline and group differences at each time point were estimated by least-squares mean and 95% confidence interval, using a mixed-effect repeated measure model, with unstructured covariance model with a time-by-group interaction and covariate adjustment for group, time, geographic region, and baseline score. No imputation was made for patients with missing HRQL outcomes at any postbaseline time points, due to the high patient retention rate. The subset of alemtuzumab-treated CARE-MS patients with thyroid AE onset during year 3 (i.e., third year after receiving the first alemtuzumab course at baseline) was also analyzed separately to investigate HRQL outcomes before (year 2) and during/after onset (year 3).

Compliance with Ethics Guidelines

The CARE-MS I and II studies and the CARE-MS extension study were registered with ClinicalTrials.gov (NCT00530348, NCT00548405, and NCT00930553, respectively). The studies were conducted in accordance with the ethical principles outlined in the Declaration of Helsinki. All procedures were approved by local institutional ethics review boards of participating sites (see Table S1 in the electronic supplementary material for details). Patients provided written informed consent.

Results

Autoimmune Thyroid AEs and Patient Baseline Characteristics

A total of 811 patients were treated with alemtuzumab 12 mg in the CARE-MS I (n = 376) and II (n = 435) trials. Of these, 742 (91%) patients entered the extension and 659 (81%) remained on study from core study baseline to year 6 post alemtuzumab initiation. Forty-eight (6%) patients completed the core studies and did not enroll in the extension, and 104 (13%) discontinued from the core or extension studies (due to withdrawal of consent [7.3%], lost to follow-up [1.8%], physician decision [1.2%], death [0.7%], lack of efficacy [0.4%], and AE [0.1%]; ”other” reasons reported for 1.2% of patients). Over 6 years, 342 (42%) patients experienced a first thyroid AE, with nonserious events in 298 (37%) patients and serious events in 44 (5%) patients. Thyroid AEs were mostly mild (grade 1, 42%) to moderate (grade 2, 56%); few were severe (grade 3, 3%); and none were life threatening (grade 4) or fatal (grade 5; sum of percentages greater than 100% as a result of rounding). Nonserious thyroid AEs were most frequently hyperthyroidism (42% of patients with thyroid AEs), followed by hypothyroidism (20%) and thyroiditis (13%). Of the 44 patients with serious thyroid AEs, 34 (77%) had hyperthyroidism; serious goiter (n = 3; 7%), hypothyroidism (n = 3; 7%), thyroiditis (n = 2; 5%), endocrine ophthalmopathy (n = 1; 2%), and increased free thyroxine (n = 1; 2%) were less common. Incidence of thyroid AEs peaked in year 3 (16%) after receiving the first course of alemtuzumab at baseline and declined thereafter; thyroid AE rate in year 6 was 4% (Table 1). Among patients who experienced thyroid AEs through 6 years, 61 (18%) received no thyroid-related treatment, 281 (82%) were managed with oral medications, 30 (9%) were treated with radioiodine therapy, and 33 (10%) were treated with thyroidectomy.

Table 1

Incidence of autoimmune thyroid AEs

	Incidence, n (%)						EAIR per 100 patient-yearsa
	Y1	Y2	Y3	Y4	Y5	Y6	Y0–6
	(N = 811)	(N = 810)	(N = 772)	(N = 731)	(N = 707)	(N = 692)	(N = 811)
Thyroid AEsb	46 (5.7)	74 (9.1)	125 (16.2)	48 (6.6)	24 (3.4)	25 (3.6)	10.29
Hyperthyroidismc	10 (1.2)	26 (3.2)	59 (7.6)	26 (3.6)	10 (1.4)	11 (1.6)	3.55
Hypothyroidismd	10 (1.2)	17 (2.1)	30 (3.9)	4 (0.5)	2 (0.3)	5 (0.7)	1.61
Thyroiditise	6 (0.7)	10 (1.2)	14 (1.8)	7 (1.0)	6 (0.8)	3 (0.4)	1.07
Decreased blood TSH	6 (0.7)	7 (0.9)	9 (1.2)	6 (0.8)	1 (0.1)	1 (0.1)	0.69
Goiter	5 (0.6)	4 (0.5)	3 (0.4)	2 (0.3)	2 (0.3)	1 (0.1)	0.39
Increased blood TSH	4 (0.5)	3 (0.4)	2 (0.3)	2 (0.3)	2 (0.3)	1 (0.1)	0.32
Antithyroid antibody positive	2 (0.2)	3 (0.4)	4 (0.5)	0	0	0	0.20
Abnormal blood TSH	0	0	0	0	1 (0.1)	2 (0.3)	0.07
Abnormal thyroid function test	1 (0.1)	1 (0.1)	2 (0.3)	0	0	1 (0.1)	0.11
Decreased free thyroxine	2 (0.2)	0	1 (0.1)	0	0	0	0.07
Decreased thyroxine	0	1 (0.1)	0	0	0	0	0.02
Increased free thyroxine	0	1 (0.1)	0	1 (0.1)	0	0	0.05
Toxic nodular goiter	0	0	1 (0.1)	0	0	0	0.02
Decreased free triiodothyronine	0	1 (0.1)	0	0	0	0	0.02
Serious thyroid AEsf	2 (0.2)	5 (0.6)	27 (3.5)	6 (0.8)	3 (0.4)	1 (0.1)	1.03
Hyperthyroidismc	1 (0.1)	2 (0.2)	24 (3.1)	5 (0.7)	2 (0.3)	0	0.79
Hypothyroidismd	0	1 (0.1)	1 (0.1)	1 (0.1)	0	0	0.07
Goiter	1 (0.1)	0	1 (0.1)	0	0	1 (0.1)	0.07
Endocrine ophthalmopathy	0	0	1 (0.1)	0	0	0	0.02
Thyroiditis	0	1 (0.1)	0	0	1 (0.1)	0	0.05
Increased free thyroxine	0	1 (0.1)	0	0	0	0	0.02

AE adverse event, EAIR exposure-adjusted incidence rate, TSH thyroid-stimulating hormone, Y year

aEAIR = (number of patients with first AE in the time interval)/(total follow-up duration [years] of all patients within the time interval, censoring at the time of AE for patients counted in the numerator)

bFirst occurrence of thyroid AE for a patient

cHyperthyroidism denotes hyperthyroidism and Basedow’s disease

dHypothyroidism denotes hypothyroidism and primary hypothyroidism

eThyroiditis denotes autoimmune thyroiditis, subacute thyroiditis, thyroiditis subacute, and thyroiditis

fFirst occurrence of serious thyroid AE for a patient

Mean time from alemtuzumab initiation to first thyroid AE was 2.5 years (median 2.3 [range 0.3–6.0]). Thyroid AEs were more prevalent in female patients, consistent with increased thyroid disorder prevalence reported in women in the general population, but other baseline characteristics were similar among patients with and without thyroid AEs [23, 24]. Baseline HRQL scores were comparable between these two groups (Table 2).

Table 2

Baseline demographics and disease characteristics

Parameter	With thyroid AEs(N = 342)	No thyroid AEs(N = 469)
Age, years	34.1 (8.5)	33.8 (8.0)
Female, n (%)	263 (76.9)	267 (56.9)
Caucasian, n (%)	315 (92.1)	429 (91.5)
EDSS score	2.4 (1.1)	2.4 (1.1)
Years since initial relapse	3.3 (2.6)	3.4 (2.4)
No. of relapses in prior year	1.8 (0.84)	1.7 (0.84)
No. of relapses in prior 2 years	2.6 (1.00)	2.7 (1.09)
Gd-enhancing lesion count	2.36 (5.1)	2.28 (5.9)
Patients with Gd-enhancing lesions, n (%)	148 (43.9)	204 (44.1)
Brain parenchymal fraction	0.82 (0.02)	0.82 (0.02)
FAMS (total) score	126.8 (29.39)	124.9 (31.54)
EQ-5D VAS score	74.0 (17.29)	71.8 (19.70)
SF-36 MCS score	45.9 (11.58)	45.4 (11.37)
SF-36 PCS score	45.3 (9.48)	44.9 (10.13)

Data given as mean (SD) unless otherwise indicated

AE adverse event, EDSS Expanded Disability Status Scale, EQ-5D VAS Quality of Life-5 Dimension Visual Analog Scale, FAMS Functional Assessment of Multiple Sclerosis, Gd gadolinium, MCS mental component summary, PCS physical component summary, SD standard deviation, SF-36 36-Item Short-Form Survey

Through year 6, 302 (37%) patients received additional courses of alemtuzumab. Among those patients who received a total of 3, 4, or 5–6 alemtuzumab courses, 41%, 42%, and 38% experienced a thyroid AE, respectively. Among those patients who did not receive any additional alemtuzumab courses, 43% had a thyroid AE over 6 years.

HRQL Outcomes in Patients With and Without Thyroid AEs

In patients without thyroid AEs or with nonserious thyroid AEs, the FAMS total score was slightly improved or similar to core study baseline at all time points through year 6 (least-squares mean change from baseline at year 6: no thyroid AEs, 0.7; nonserious thyroid AEs, 5.1). In patients with serious thyroid AEs, the mean change from baseline showed nonsignificant worsening at year 6 (− 5.3) (Fig. 2a).

Fig. 2

HRQL changes from core study baseline over 6 years in a FAMS (total) score, b EQ-5D VAS score, c SF-36 MCS score, and d SF-36 PCS score. Data are least-squares means (95% CI). Higher scores represent better HRQL. *p < 0.05 for comparison of postbaseline time point with baseline. AE adverse event, CI confidence interval, EQ-5D VAS Quality of Life-5 Dimension Visual Analog Scale, FAMS Functional Assessment of Multiple Sclerosis, HRQL health-related quality of life, MCS mental component summary, PCS physical component summary, SF-36 36-Item Short-Form Survey, Y year

HRQL outcomes measured using EQ-5D VAS were slightly improved or similar to baseline in all subgroups of alemtuzumab-treated patients except that at year 6 scores were significantly lower than baseline in patients with serious thyroid AEs (least-squares mean change from baseline at year 6: no thyroid AEs, 2.0; nonserious thyroid AEs, 3.0; serious thyroid AEs, − 6.8) (Fig. 2b).

SF-36 MCS scores remained above baseline at most time points in patients who experienced no thyroid AEs or nonserious thyroid AEs, but were not significantly different from baseline in patients with serious thyroid AEs (least-squares mean change from baseline at year 6: no thyroid AEs, 0.6; nonserious thyroid AEs, 1.6; serious thyroid AEs, − 2.8) (Fig. 2c). SF-36 PCS scores were slightly improved or similar to baseline throughout the study (least-squares mean change from baseline at year 6: no thyroid AEs, 0.8; nonserious thyroid AEs, 1.0; serious thyroid AEs, 1.1) (Fig. 2d). The occurrence of nonserious thyroid AEs throughout the study did not have an impact on SF-36 outcomes at study end (i.e., at year 6); similar percentages of patients without thyroid AEs (MCS, 74%; PCS, 82%), and with nonserious thyroid AEs (both MCS and PCS, 81%) had improved or stable SF-36 scores over 6 years (Fig. 3). The subgroup with serious thyroid AEs had more patients with worsened MCS scores (37%), but this was less apparent for PCS outcomes (23%).

Fig. 3

Improvement, stability, and worsening in SF-36 scores from core study baseline to year 6. Clinically meaningful worsening and improvement were defined as at least a 5-point increase and decrease from baseline norm-based scores, respectively. AE adverse event, MCS mental component summary, PCS physical component summary, SF-36 36-Item Short-Form Survey, Y year

HRQL Worsening Was Associated with Thyroidectomy and Radioiodine Treatment for Thyroid AEs

Among patients with serious thyroid AEs (n = 44), 24 experienced FAMS score worsening over 6 years. Of these, 71% had either thyroidectomy (n = 15) or radioiodine therapy (n = 2). A similar relationship between worsened HRQL and these treatments for thyroid AEs was observed for EQ-5D VAS (20 patients worsened, 75% with thyroidectomy [n = 13] or radioiodine treatment [n = 2]), SF-36 MCS (25 patients worsened, 72% with thyroidectomy [n = 17] or radioiodine treatment [n = 1]), and SF-36 PCS (19 patients worsened, 74% with thyroidectomy [n = 12] or radioiodine treatment [n = 2]).

HRQL During Peak Onset of Thyroid AEs

In patients who experienced a thyroid AE (nonserious or serious, n = 125) or serious thyroid AE (n = 27) in year 3, there were minimal changes in HRQL outcomes from the end of year 2 to the end of year 3, during the time of AE onset (Fig. 4). HRQL outcomes remained improved or similar to core study baseline at the end of year 3 in most patients with any thyroid AE (least-squares mean change from baseline: FAMS, 5.8; EQ-5D VAS, 2.8; SF-36 MCS, 1.8; SF-36 PCS, 1.2).

Fig. 4

HRQL changes during the time of onset of any thyroid AE or serious thyroid AE in a FAMS (total) score, b EQ-5D VAS score, c SF-36 MCS score, and d SF-36 PCS score. Analyses restricted to patients with thyroid AEs in year 3, comparing patients before onset of thyroid AE (end of year 2) and during or after onset of thyroid AE (end of year 3). Data are least-squares means (95% CI). *p < 0.05 for comparison of postbaseline time point with baseline. AE adverse event, CI confidence interval, EQ-5D VAS Quality of Life-5 Dimension Visual Analog Scale, FAMS Functional Assessment of Multiple Sclerosis, HRQL health-related quality of life, MCS mental component summary, PCS physical component summary, SF-36 36-Item Short-Form Survey, Y year

Discussion

The present study demonstrated that over 6 years, mean HRQL outcomes measured by FAMS, EQ-5D VAS, and SF-36 generally remained slightly improved or similar to baseline in most patients who developed thyroid AEs after initiating alemtuzumab treatment. HRQL outcomes were similar in patients with nonserious thyroid AEs and those without thyroid AEs, indicating that nonserious thyroid AEs did not adversely affect patients’ perceptions of their physical and mental health. Because the majority of patients had either no thyroid AEs or nonserious thyroid AEs, the magnitude of HRQL change in these subgroups is consistent with previous studies demonstrating HRQL improvement in the overall CARE-MS I and II populations after treatment with alemtuzumab, which stabilized over 6 years [7-9]. These HRQL findings likely reflect the efficacy of alemtuzumab, in which 78–81% of patients show stable or improved disability on the Expanded Disability Status Scale (EDSS) over 6 years [5, 6].

Patients with serious thyroid AEs showed worsened mean HRQL scores at later time points in the study at the population level, but only about half of the individuals with serious thyroid AEs had worsened scores. Most individuals with worsened HRQL scores were treated with radioiodine therapy or thyroidectomy. It is possible that worsened HRQL was a result of these patients having more or prolonged symptoms since these treatments are usually reserved for severe or refractory cases. Other studies in non-alemtuzumab-treated patients have shown that thyroid-related symptoms contribute to worsening of HRQL [25, 26]. Analysis of HRQL during the peak year of thyroid AE onset showed little to no worsening of HRQL in CARE-MS patients during serious thyroid AE onset, supporting the idea that worsened HRQL results from persistent thyroid symptoms over an extended period of time. Additionally, worsened HRQL may be related to the more invasive thyroid treatments these patients ultimately underwent. Nevertheless, patients with serious thyroid AEs overall had only subtle worsening in mean HRQL scores. These results indicate that for many patients with serious thyroid AEs, net HRQL impact was likely minimal.

Considering the frequency of thyroid AEs, healthcare practitioners and patients may be concerned that these AEs are a tradeoff when treating with alemtuzumab, replacing one autoimmune condition with another. However, studies have shown that patients with MS have large decreases (at least 10 points) across all domains of the SF-36 compared with general population norms [27]; the ability of alemtuzumab to improve or stabilize HRQL over the long term, even in the presence of thyroid AEs, suggests positive benefit–risk for this tradeoff.

Thyroid function was tested regularly during the CARE-MS studies. Timely detection and treatment of thyroid dysfunction in alemtuzumab-treated patients may be key for preserving HRQL gains associated with clinical and MRI improvements. The monitoring protocol used in the CARE-MS studies later formed the basis for the postmarketing Risk Evaluation and Mitigation Strategy in the USA and the Risk Management Plan in Europe to ensure adequate follow-up of patients in real-world settings. The minimal impact of thyroid AEs on HRQL in the CARE-MS studies implies that the monitoring program successfully mitigated thyroid AE risk.

The present study has several limitations. First, SF-36 and EQ-5D VAS are generic measures and, therefore, may not be as sensitive to HRQL changes as the disease-specific FAMS. Second, patients had knowledge of their treatment assignment and thyroid AEs, which may have influenced their HRQL responses. Third, HRQL outcomes might also be influenced by unknown factors or individual differences in perception of disease. Finally, HRQL assessments were conducted annually, so the temporal relationship between HRQL assessment and the peak of thyroid AE impact (either AE onset or during thyroidectomy or radioiodine therapy) is variable between patients.

Conclusions

This is the first study to evaluate the impact of autoimmune thyroid AEs on HRQL in alemtuzumab-treated patients with relapsing-remitting MS (RRMS). Autoimmune thyroid AEs had minimal impact on HRQL outcomes for most alemtuzumab-treated patients with RRMS; worsened HRQL scores were associated with thyroidectomy or radioiodine treatment. These data provide context to patient experience with alemtuzumab-related thyroid AEs and can aid in therapeutic decision-making.

Below is the link to the electronic supplementary material.

Supplementary material 1 (DOCX 25 kb)

Why carry out this study?

Alemtuzumab is an approved disease-modifying therapy for the treatment of multiple sclerosis (MS) that improves health-related quality of life (HRQL) in patients with MS, but also carries a risk for autoimmune adverse events (AEs), mainly affecting the thyroid.

The aim of the study was to evaluate the impact of autoimmune thyroid AEs on HRQL in alemtuzumab-treated patients.

What was learned from the study?

Over 6 years, HRQL outcomes generally remained slightly improved or similar to baseline in most patients who developed thyroid AEs after initiating alemtuzumab.

In patients with serious thyroid AEs, transient worsening in HRQL was associated with treatment required for thyroid AEs (thyroidectomy or radioiodine ablation).

These findings reflect the patient-perceived therapeutic benefit of alemtuzumab despite the occurrence of thyroid AEs, and thus can aid therapeutic decisions in patients with relapsing MS.