Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-25T23:11:38.370Z Has data issue: false hasContentIssue false
  • English
  • Français

Nothing Ventured, Nothing Gained? Navigating Disease-Modifying Treatment in Multiple Sclerosis

Published online by Cambridge University Press:  20 September 2018

Jodie M. Burton  and
Anthony Traboulsee
Jodie M. Burton*
Affiliation:
Department of Clinical NeurosciencesHotchkiss Brain Institute, University of Calgary, CalgaryAlbertaCanada
Anthony Traboulsee
Affiliation:
Department of Medicine, Division of NeurologyUniversity of British Columbia, Vancouver, Canada
*
Correspondence to: Jodie M. Burton, Department of Clinical Neurosciences, University of Calgary, 3330 Hospital Drive NW, Calgary, AB, Canada T2N 4N1. Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content. As you have access to this content, full HTML content is provided on this page. A PDF of this content is also available in through the ‘Save PDF’ action button.

Keywords

Multiple sclerosisDisease-modifying treatmentsNEDA
Type
Editorial
Information
Canadian Journal of Neurological Sciences , Volume 45 , Issue 5 , September 2018 , pp. 487 - 488
Copyright
Copyright © 2018 The Canadian Journal of Neurological Sciences Inc. 

In this issue of the CJNS, Freedman et al (2018) provide a detailed guide to the dual potential approaches to disease-modifying therapy (DMT) choice in relapsing multiple sclerosis (MS). 1 The classic, and as of yet unresolved, debate is typically between an induction and escalation approach. With the introduction of natalizumab in 2004 and subsequent additions to our arsenal, the greater potency of agents has brought with them considerable concern about potential rare, but serious, adverse events.

In recent years, MS DMTs potentially offer upwards of 70+% relapse reduction rates (vs. ~ 30% with first-generation injectables), reduced sustained accumulation of disability, and, in addition to marked reduction in new MRI lesions, the possibility of reduced rates of brain atrophy.Reference Kappos, Radue and O'Connor 2 - Reference Fogarty, Schmitz, Turbidy, Walsh and Barry 7 This is in tandem with our gains in the knowledge that brain volume, and seemingly normal-appearing white and grey matter, start to undergo damage and degeneration in the earliest days of the disease.Reference Simon 8 In addition, in recent years, MS treatment goals have been centred around the concept of “no evidence of disease activity, or NEDA”, namely no clinical or conventional radiological evidence of activity (NEDA-3 if no evidence of new T2/gadolinium lesions and NEDA-4 with the addition of no evidence of brain atrophy).Reference Parks, Flanagan, Lucchinetti and Wingerchuk 9 Those who meet NEDA criteria appear to be at a relatively lower risk of disability accumulation, as NEDA rates at 2 years have shown a 78% positive predictive value of no progression at year 7.Reference Parks, Flanagan, Lucchinetti and Wingerchuk 9 That being said, claims about NEDA remain controversial as several studies have not shown NEDA to predict some of the more progressive elements of disease advancement.Reference Parks, Flanagan, Lucchinetti and Wingerchuk 9

One argument is that an “as-needed” escalation approach to DMTs, starting with the gentlest agents first, will abrogate adverse events, particularly in a young adult who may live another 40-50 years. However, such a simplistic view does not take into account disease behaviour before DMT selection, which may predict the severity of MS activity to come, nor does it address how and when the decision to escalate should occur. The opposite argument is that, like our colleagues in rheumatology, we should choose from among the most potent agents at the start with the goal of eliminating all signs of disease activity (i.e., a NEDA-like state), which may result in less MS-associated disability in the long term.Reference Giovanonni 10 , Reference Sormani, Arnold and De Stefano 11 Furthermore, it might be better to use these agents while the patient is young and relatively disability-free rather than wait. Newer therapies are more effective than the first-generation therapies, yet NEDA remains an elusive goal, with only 48% of ocrelizumab trial patients achieving NEDA at year 2, whereas at 5 years in alemtuzumab trial patients, the proportion was between 58% and 62%.Reference Parks, Flanagan, Lucchinetti and Wingerchuk 9 , Reference Coles, Cohen and Fox 12 Reserving these therapies for early use in a select group of patients may be a dis-service to other relapsing remitting MS (RRMS) patients with an uncertain prognosis.

With respect to second- and third-line agents, and even some first-line agents, we have had to acknowledge and become well versed in a host of new potential serious adverse events, with the need for much closer monitoring and diligence. It is now well known that the risk of progressive multifocal leukoencephalopathy (PML) with natalizumab can be significant and, to some degree, predictable, based on risk factors of time on drug (>24 months), John Cunningham virus (JCV) serology positivity and titre, and past immunosuppressive exposure. In a small percentage of patients, dimethyl fumarate (DMF) is associated with a potential drop in lymphocytes, rarely grade 3 or 4 in severity.Reference Gold, Kappos and Arnold 13 , Reference Fox, Miller and Phillips 14 Left unaddressed, this exposes a patient to both common and opportunistic infections, including tuberculosis (TB) reactivation and PML. In fact DMF has been associated with five cases of PML, although in most cases, unaddressed chronic severe lymphopaenia and older age appeared to be common factors.Reference Berger 15 Fingolimod is associated with rare but potentially serious cardiac complications including symptomatic bradycardia and long QT syndrome.Reference Kappos, Radue and O'Connor 2 , Reference Cohen, Barkhof and Comi 3 In addition, although disseminated zoster is likely avoidable with proper screening for varicella zoster virus (VZV) immune status, zoster eruptions are not uncommon. Most concerning are the ten and counting known cases of PML in fingolimod users, and without any obvious common predictable features to guide care providers.Reference Berger 15 Alemtuzumab is linked to moderate infusion reactions and has a 30+% risk of thyroid dysfunction, a 2% risk of idiopathic thrombocytopenic purpura (ITP) based on clinical trials, and rare glomerular nephropathy syndromes (0.3%).Reference Cohen, Coles and Arnold 4 , Reference Coles, Twyman and Arnold 5 Furthermore, these adverse events can occur up to 4 years after dosing, necessitating monthly lab monitoring for a minimum of 5-6 years.Reference Cohen, Coles and Arnold 4 , Reference Coles, Twyman and Arnold 5 There are also multiple cases of Listeria monocytogenes infections, including meningitis, associated with alemtuzumab, probably in those who have ingested unpasteurised dairy products.Reference Holmoy, von der Lippe and Leegaard 16 Ocrelizumab is associated with infusion reactions, infections including zoster, and an as of yet to be clarified potential association with malignancy, particularly breast cancer.Reference Hauser, Bar-Or and Comi 6 These risks can be mitigated, and the risk of future disability with inadequately treated MS cannot be underestimated.

The intricacies of choosing the best therapy for MS patients is unlikely to boil down to a simple, one size fits all guideline. Such choices must take into account the long-term benefit of avoiding disease activity early, aspiring to NEDA, as well as the individual patient’s goals and risk tolerance. At the very least, such decisions and oversight should ideally be under the care of an MS speciality clinic/centre to ensure optimal patient disease monitoring, as well as appropriate access, staffing, and expertise to move quickly on potential adverse events.

Statement of Authorship

Both authors contributed equally to the content of this manuscript.

Disclosure

JB reports grants from Novartis, grants from Sanofi Genzyme, grants from EMD Serono, and personal fees from Novartis, outside the submitted work. AT reports grants and personal fees from Biogen, grants and personal fees from Roche, grants and personal fees from Sanofi Genzyme, grants and personal fees from Teva, grants and personal fees from Novartis, grants and personal fees from Chugai, and personal fees from EMD Serono, outside the submitted work.

References

1. Freedman MS, Selchen D, Prat A, Giacomini PS. Managing multiple sclerosis: treatment initiation, modification, and sequencing. Can J Neurol Sci. 2018;45(5):489-503. Google Scholar
2. Kappos, L, Radue, EW, O'Connor, P, et al. A placebo-controlled trial of oral fingolimod in relapsing multiple sclerosis. N Engl J Med. 2010;362(5):387-401.Google Scholar
3. Cohen, JA, Barkhof, F, Comi, G, et al. Oral fingolimod or intramuscular interferon for relapsing multiple sclerosis. N Engl J Med. 2010;362(5):402-415.Google Scholar
4. Cohen, JA, Coles, AJ, Arnold, DL, et al. Alemtuzumab versus interferon beta 1a as first-line treatment for patients with relapsing-remitting multiple sclerosis: a randomised controlled phase 3 trial. Lancet. 2012;380:1819-1828.Google Scholar
5. Coles, AJ, Twyman, CL, Arnold, DL, et al. Alemtuzumab for patients with relapsing multiple sclerosis after disease-modifying therapy: a randomised controlled phase 3 trial. Lancet. 2012;380:1829-1839.Google Scholar
6. Hauser, SL, Bar-Or, A, Comi, G, et al. Ocrelizumab versus interferon beta-1a in relapsing multiple sclerosis. N Engl J Med. 2017;376:221-234.Google Scholar
7. Fogarty, E, Schmitz, S, Turbidy, N, Walsh, C, Barry, M. Comparative efficacy of disease-modifying therapies for patients with relapsing remitting multiple sclerosis: systematic review and network meta-analysis. Mult Scler Relat Disord. 2016;9:23-30.Google Scholar
8. Simon, J. Very early MS – insights from MRI. Mult Scler. 2012;18(10):1372-1376.Google Scholar
9. Parks, NE, Flanagan, EP, Lucchinetti, CF, Wingerchuk, DM. NEDA treatment target? No evident disease activity as an actionable outcome in practice. J Neurol Sci. 2017;383:31-34.Google Scholar
10. Giovanonni, G. Multiple sclerosis should be treated using a step-down strategy rather than a step-up strategy-YES. Mult Scler. 2016;22(11):1397-1400.Google Scholar
11. Sormani, MP, Arnold, DL, De Stefano, N. Treatment effect on brain atrophy correlates with treatment effect on disability in multiple sclerosis. Ann Neurol. 2014;75:43-49.Google Scholar
12. Coles, AJ, Cohen, JA, Fox, EJ, et al. Alemtuzumab CARE-MS II 5-year follow-up: efficacy and safety findings. Neurology. 2017;89(11):1117-1126.Google Scholar
13. Gold, R, Kappos, L, Arnold, DL, et al. Placebo-controlled phase 3 study of oral BG-12 for relapsing multiple sclerosis. N Engl J Med. 2012;367(12):1098-1107.Google Scholar
14. Fox, RJ, Miller, DH, Phillips, JT, et al. Placebo-controlled phase 3 study of oral BG-12 or glatiramer in multiple sclerosis. N Engl J Med. 2012;367(12):1087-1097.Google Scholar
15. Berger, JR. Classifying PML risk with disease modifying therapies. Mult Scler Relat Disord. 2017;12:59-63.Google Scholar
16. Holmoy, T, von der Lippe, H, Leegaard, TM. Listeria monocytogenes infection associated with alemtuzumab – a case for better preventive strategies. BMC Neurol 2017; 17: 65.Google Scholar