Tag Archives: risk

Clinical decisions, Cognition and mental health

Medical gaslighting – what is it, and how to avoid it?

Doctors have a long history of ignoring patients’ symptoms and complaints. In MS, this phenomenon tends to affect the so-called ‘hidden’ symptoms and related problems that are difficult to treat. 

Key points

  • Medical ‘gaslighting’, where healthcare professionals (HCPs) dismiss or downplay a patient’s symptoms, is an issue that patients and HCPs should be aware of. It affects women more than men.
  • Safety-netting is a legitimate strategy whereby the HCP and the patient adopt a wait-and-see approach to avoid over-investigation and overdiagnosis. It is part of a shared decision-making process and should not be interpreted as gaslighting.
  • Medical gaslighting can be subtle, but useful strategies exist for detecting and avoiding it.
  • If you are being gaslighted, despite efforts to push back, don’t be afraid to make your healthcare system aware of the problem rather than suffer in silence.

A case scenario

Whenever I see my neurologist, he seems to fob me off as if I don’t have a problem. He disagrees with me when I tell him that my MS is getting worse. He tells me I am not getting worse as my MRI is stable and my neuro exam is unchanged. He doesn’t believe me when I tell him that I am becoming more forgetful and that my fatigue is affecting the quality of my work.  

Origin of the term ‘gaslighting’

The volume of medicolegal case studies where doctors have ignored patients’ symptoms and complaints illustrates the extent of a problem that is now being referred to as medical gaslighting. Medical gaslighting may occur if:

  • your symptoms or concerns are dismissed of ignored without cause
  • your symptoms are dismissed as being normal, without explanation
  • you are made to feel your healthcare provider is blaming you.

The term ‘gaslighting’ comes from the 1944 film Gaslight starring Ingrid Bergman. The movie tells of a man who manipulates his wife to such an extent that she begins to doubt her own sanity. Since then, the term gaslighting has been used to describe emotional abuse that makes someone question their version of reality. People are beginning to share their personal experiences of medical gaslighting on social media with the hashtag #medicalgaslighting. 

Prevalence and severity of medical gaslighting

An article in the British Medical Journal (BMJ) suggests women are more likely than men to suffer from medical gaslighting, particularly with ‘health problems such as endometriosis, fibromyalgia, and irritable bowel syndrome’.1 Worryingly, the article states: ‘when compared with men, women face longer waits to be given a diagnosis of cancer or heart disease’. The article goes on to imply that medical gaslighting is becoming more common and the term has been ‘used widely in connection with long COVID, particularly early on in the pandemic’, when some patients who were still experiencing symptoms months after infection with SARS-CoV-2 thought they were not treated seriously or investigated fully.

A short online survey I did among MS-Selfie readers in 2022 revealed that 88% of 423 responders reported being gaslighted.

Responses to the survey question, ‘Have you ever experienced medical gaslighting in relation to your MS?’ (based on results from 423 MS-Selfie readers).

I am probably guilty of medical gaslighting too; in some cases, this may be deliberate. Many patients come to me with pages of problems, and I simply don’t have the time to deal with all of them. Time, or more correctly, lack of time is therefore one reason for medical gaslighting. Another is lack of knowledge or experience and not being able to admit you don’t know. However, the most worrying reason is the power dynamic, with HCPs wanting to be in control or remain in control. 

MS-Selfie as an initiative tries to address this power dynamic by giving you useful information to self-manage your MS – or at least to ask the right questions

Safety-netting

I suspect safety-netting may be misinterpreted as gaslighting. Safety-netting describes activities both within the HCP consultation and at healthcare systems levels (diagnostic and treatment algorithms) to avoid over-investigation and overdiagnosis. Many symptoms are non-specific and because of uncertainty the HCP and the patient adopt a wait-and-see approach. The patient is given clear instructions on how to identify the need to seek further medical help if their condition fails to improve, changes, or if they have ongoing concerns about the problem. Safety-netting is considered good clinical practice. A recent BMJ article2 on safety-netting makes the following points:

  • Aggressively treating or investigating all patients with early undifferentiated illness is poor medical practice and can be harmful.
  • Time is an important diagnostic tool but creates a period of uncertainty and risk for patients with serious underlying conditions.
  • Safety-netting can help mitigate this risk, and a traffic light framework provides a structure for delivering safety-netting advice.

The point about safety-netting is that it needs to be done as a part of a shared-decision making process and it should therefore not be interpreted as gaslighting. 

How to identify and tackle medical gaslighting

A New York Times article on medical gaslighting warns that it can be subtle, and lists some red flags to watch for.3 

  1. Your HCP continually interrupts you, doesn’t allow you to elaborate and doesn’t appear to be an engaged listener.
  2. Your HCP minimises or downplays your symptoms, for example questioning whether you have pain.
  3. Your HCP refuses to discuss your symptoms.
  4. Your HCP will not order key investigations to rule out or confirm a diagnosis.
  5. You feel that your HCP is being rude, condescending or belittling. Your symptoms are blamed on a mental problem, but you are not provided with a mental health referral or screened for such a problem.

Now that we have recognised medical gaslighting as a significant problem in MS, please don’t allow a neurologist to gaslight you. The New York Times article suggests practical steps you can take to prevent this. 

  • Keep detailed notes and records. Patient-held notes transform consultations and force you to become a partner in your healthcare.
  • Record the consultation. Many HCPs don’t like this; just tell them you must listen to the conversation again to ensure you don’t forget things or miss important information. You will be surprised how this changes the HCP’s behaviour. 
  • Ask questions. Then ask some more. And don’t be fobbed off; if you are dissatisfied with the answer, ask the question again. 
  • Take someone with you for support. Having a witness during the consultation has a similar effect to recording the conversation or documenting it with notes. 
  • Focus on your most pressing issues to make the best use of your consultation time. If your HCP is pressed for time, say you understand, but you would like to prioritise the following issues today. This helps you to frame the limits of the consultation and promote a two-way discussion. Also, don’t expect the HCP to have all the answers at their fingertips, but do expect them to come back to you later with the answers.
  • Try and pin down the next steps for your problem; ask what the action points are. For example, if the MRI shows this, how will that change my management? Do I need further investigations? How soon should I switch treatments?

If you are still being ignored, here are some of your options.

Get a second opinion and ask to switch to a new HCP
Look to support groups or forums. Many MS charities have helplines where you can discuss these issues
Appeal to a higher authority, the person above your HCP (their line manager). In the NHS, we have a straightforward procedure for patients to complain or question their care. It is called PALS (Patient Advice and Liaison Service)
Some courses of action open to you if you experience medical gaslighting.

Abuse, manipulation, gaslighting and delaying a diagnosis are potentially reportable events which HCPs need to know about. Therefore, make your healthcare system aware of the problem rather than suffer in silence. 

Healthcare systems and the medical professions

We need to include medical gaslighting as part of the medical curriculum so that HCPs are made aware of it during their training. HCPs must buy into the model of patients being equal partners in the diagnosis and management of their disease. The paternalistic or older patronising model of healthcare where the HCP knows best is outmoded.

Gaslighting is another form of abuse or discriminatory behaviour, no different from sexism, racism or ageism. This raises the question, is it deliberate or an institutional problem, i.e. part of the dominant medical culture? I suspect the latter, and this is why it will need a wider campaign to tackle the problem, with clearly defined carrots (incentives/rewards) and sticks (disincentives/punishment) to change our behaviour. 

References

  1. Wise J. Sixty seconds on . . . medical gaslighting. BMJ 2022;378:o1974.
  2. Edwards PJ et al. Safety-netting in the consultation. BMJ 2022;378:e069094.
  3. Caron C. Feeling dismissed? How to spot ‘medical gaslighting’ and what to do about it. New York Times, 29 July 2022.
Pregnancy and childbirth, Women's health

Breastfeeding if you are on a DMT

This section explains how relapse is managed during breastfeeding and provides detailed guidance on which DMTs are safe (or not safe) to use while breastfeeding.

Will I be able to breastfeed after delivery?

Yes, I see no reason why you can’t breastfeed if you have MS. However, certain DMTs cross over into the breast milk and may affect the baby; these include teriflunomide, cladribine and S1P modulators (fingolimod, siponimod, ozanimod and ponesimod). Although monoclonal antibodies (natalizumab, ocrelizumab, ofatumumab, rituximab) cross over in small amounts, the levels are generally too low to affect the newborn. In addition, the level of the antibodies will likely be further reduced by their digestion as proteins in the baby’s intestinal tract.

Please be aware that most DMTs are licensed with no breastfeeding safety data. Hence, the information in the manufacturer’s Summary of Product Characteristics (SmPC) is not the same as that given to you by neurologists and other HCPs. For example, SmPC information for the fumarates (dimethyl fumarate and diroximel fumarate) states:

“It is unknown whether dimethyl fumarate or its metabolites are excreted in human milk. A risk to the newborns/infants cannot be excluded. A decision must be made whether to discontinue breastfeeding or to discontinue Tecfidera therapy. The benefit of breastfeeding for the child and the benefit of therapy for the woman should be taken into account.”

This is very unhelpful as their active compound, monomethyl fumarate, is a naturally occurring metabolite compounded with many other medications considered safe in pregnancy, e.g. ferrous fumarate, an iron supplement. This is why I tell my female patients on fumarates they can breastfeed without concern for their baby.

We normally don’t recommend alemtuzumab treatment during breastfeeding simply because it carries the risk of listeriosis and infusion reactions, and the medications used to prevent these adverse events cross over into breast milk. In addition, the acute immunosuppression associated with alemtuzumab may increase the risk of breast infections. In general, I advise my female patients to breastfeed for 4 ̶ 6 weeks to give the baby the health benefits of breastfeeding and then to start or be retreated with alemtuzumab after this period.

For cladribine, it is important not to breastfeed whilst being dosed with the drug and for 10 days after the last pill. The recommended 10-day requirement is probably a bit long as cladribine is undetectable in the body after 48 ̶ 72 hours. In my experience, the requirement of a 14- or 15-day gap (4 or 5 days of dosing plus an additional 10 days) in breastfeeding is hard; therefore, most women who want to be treated with cladribine either delay treatment until they have completed breastfeeding or breastfeed for 4 ̶ 6 weeks before stopping and being treated with cladribine.

Disease-modifying treatmentGuidance
AlemtuzumabNot recommended during breastfeeding; consider breastfeeding for 4 ̶ 6 weeks before restarting alemtuzumab treatment
CladribineCrosses over into the breast milk and may affect the baby. Do not breastfeed whilst taking cladribine and for 10 days after the last pill; consider breastfeeding for 4 ̶ 6 weeks before restarting cladribine treatment
Fumarates (dimethyl fumarate, diroximel fumarate)The manufacturer’s licence recommends caution; however, monomethyl fumarate, a naturally occurring metabolite of the fumarates, is compounded with other medications that are considered safe in pregnancy
Monoclonal antibodies (natalizumab, ocrelizumab, ofatumumab, rituximab)Cross over into breast milk in small amounts, but at low levels that do not generally affect the newborn
S1P modulators (fingolimod, siponimod, ozanimod, ponesimod)Cross over into the breast milk and may affect the baby
TeriflunomideCrosses over into the breast milk and may affect the baby

Guidance for women who are considering whether it is safe to breastfeed while taking a specific DMT.

I am aware that many women feel pressured into breastfeeding. However, if you are anxious about having MS rebound post-partum, deciding not to breastfeed and starting or resuming your DMT as soon as possible is not unreasonable. The decision is a personal choice.

How is a relapse managed during breastfeeding?

In the event of a relapse during breastfeeding, a short course of high-dose corticosteroids can be considered. Methylprednisolone – the steroid often used to manage MS relapses – is transferred into breast milk. However, the amount an infant is exposed via breast milk is low (equivalent to less than 1% of the adult dose). Some clinicians recommend women breastfeed before a steroid infusion, express breast milk 1 ̶ 2 hours after the infusion and discard it, to limit the baby’s exposure to methylprednisolone. I don’t think this is necessary.

References

Krysko KM et al. Treatment of women with multiple sclerosis planning pregnancy. Curr Treat Options Neurol 2021;23:11.

Other articles in this series on Pregnancy and childbirth
Planning for pregnancy
Managing MS during pregnancy
Preparing to give birth
Concerns about parenting

Pregnancy and childbirth, Women's health

Managing MS during pregnancy

Opinion on how MS impacts pregnancy is based largely on data that predate the current era of active treatment and the newer generation of disease-modifying therapies (DMTs). In this section I have therefore addressed many of the important issues that women who are considering pregnancy need to understand, including:

  • the effect of pregnancy on the course of MS
  • how to manage relapse during pregnancy
  • the role of naturally occurring interferon-beta and its possible implications for women with MS taking therapeutic interferon-beta
  • management of MS symptoms and morning sickness during pregnancy
  • the crucial issue of DMT safety and possible teratogenic effects on the developing foetus.

Will pregnancy affect the course of my MS?

Yes, pregnancy effects on MS have been observed at a group level, though it is difficult to notice changes in individuals. It is well known that MS attack rates drop during the second and third trimesters of pregnancy and relapses rebound again in the first 6 months after delivery. However, only a minority of women with MS have post-partum relapses. Breastfeeding may blunt the post-partum rebound, but this is not absolute. Therefore, most neurologists now recommend starting or restarting DMTs soon after delivery to try and prevent post-partum relapses.

At a population level, the more children you have, the better your overall prognosis. This effect is small and is based on studies done in the pre-DMT era. It may be due to the immunological effects of pregnancy that work like a DMT in MS. Immunologists have tried to understand this phenomenon in the hope of developing treatments for MS that mimic the pregnancy state.

How is a relapse managed during pregnancy?

In the event of having a relapse during pregnancy, a short course of high-dose corticosteroids can be considered. However, I limit using steroids to disabling and/or severe relapses, especially early in the first trimester, as there is a small risk of orofacial abnormalities (cleft lip and palate) and reduced birth weight from exposure of the developing foetus to high-dose steroids. There is also a risk of precipitating gestational diabetes in women receiving high doses of steroids during pregnancy. In the rare situation of a severe relapse unresponsive to high-dose steroids, plasma exchange may need to be considered.

Could neutralising antibodies to therapeutic interferon-beta affect my baby?

Naturally occurring interferon-beta is a cytokine (cell-signalling agent) produced by the body to help fight infections. As there is only one human interferon-beta, antibodies to therapeutic interferon-beta (IFN-beta) will neutralise the body’s own natural interferon-beta. If you are taking IFN-beta for your MS, there is thus a theoretical risk that neutralising antibodies (NABs) to the DMT might cross the placenta and affect the role of human interferon-beta in foetal development.

Interferon-beta is important for innate immunity and neutralising your own interferon-beta may put you at risk of getting viral infections. Interferon-beta also plays a role in foetal bone development, but the placenta does not mature in relation to immunoglobulin transfer until near the end of the second trimester of pregnancy, so it is unlikely that sufficient NABs cross the blood ̶ placental barrier to affect foetal bone development. However, in the third trimester, NABs will cross over the placenta into the foetal circulation and may impact the baby’s innate immunity. Despite these theoretical concerns, there is no indication from published data to support these potential adverse effects of NABs on IFN-beta.

If I fall pregnant while on a DMT, will this affect the baby?

This depends on which DMT you are taking and what you mean by ‘affecting the baby’. We worry most about teratogenic effects, which describe congenital malformations. Teriflunomide, S1P modulators and cladribine are generally classified as drugs that may be teratogenic, and hence precautions need to be taken so as not to fall pregnant on these agents. Foetal malformations usually occur very early in foetal development, often before the woman knows she is pregnant; therefore, it is difficult to do anything about it once foetal exposure occurs. Despite this, even for women who are on these agents and fall pregnant, we don’t automatically recommend termination of pregnancy. We refer them to the high-risk pregnancy clinic to discuss the options with an obstetrician. Many women continue their pregnancies with an uneventful outcome and a normal baby. On the other hand, some women choose the option of terminating their pregnancy.

A large amount of data from MS pregnancy registries and post-marketing surveillance indicates no increased risk of major congenital anomalies or spontaneous abortions (miscarriages) after exposure to interferon-beta or glatiramer acetate. Most neurologists are, therefore, comfortable with their female patients falling pregnant on these agents, continuing the treatment through pregnancy and then breastfeeding their babies.

Fumarates (dimethyl fumarate [Tecfidera], diroximel fumarate [Vumerity]) are not teratogenic and are unlikely to have a negative impact on pregnancy outcomes. We need more data from registries and post-marketing surveillance before we can be confident that the fumarates are safe during pregnancy. However, these agents are prodrugs and converted to monomethyl fumarate, which is part of our metabolism, so it is very unlikely that the fumarates will cause problems. I don’t have an issue with women falling pregnant on the fumarates and continuing them through pregnancy, but there is conflicting advice about this.

Should I continue taking drugs for my MS symptoms during pregnancy?

Yes and no. It depends on what the medications are for and whether they are safe during pregnancy. Ideally, you should wean off any symptomatic therapies or at least change to alternative medications that are safe to take during pregnancy. It is important to try and plan your pregnancy and if necessary be referred to a special medical pregnancy clinic so that these issues can be addressed. Many women with MS find that their MS-related symptoms improve during pregnancy, and they can do without symptomatic therapies. However, unless you are prepared to wean yourself off symptomatic therapies you won’t know.

Physical therapies should be continued during pregnancy. One could argue that everyone with MS should be physically active and do pelvic floor exercises. Pregnancy and childbirth may impact bladder and bowel function, so it is important to see a pelvic floor therapist to start pelvic floor exercises. The latter are taught to women in antenatal classes.

How do you treat morning sickness or hyperemesis gravidarum during pregnancy?

Treating morning sickness or hyperemesis gravidarum is no different in women with MS than in the general population. It involves hydration, vitamin supplements (in particular, thiamine) and the judicious use of antiemetics (for example, cyclizine, prochlorperazine, promethazine, chlorpromazine, metoclopramide and domperidone). If the vomiting extends into the second trimester, ondansetron can be used. In very severe cases of morning sickness, steroids may be required; for example, hydrocortisone 100 mg twice daily can be converted to prednisolone 40 ̶ 50 mg daily by mouth, which can then be tapered to the lowest level that still controls symptoms. For patients taking a fumarate, try and take your medication later in the morning when you are less likely to vomit.

What dose of vitamin D do you advise during pregnancy?

During pregnancy vitamin D requirements are increased and I recommend doubling the dose for supplementation from 4,000 IU of vitamin D3 to 8,000 IU per day. At the same time, women who are pregnant should be on iron and folate supplements that should ideally be started before falling pregnant.

References

Krysko KM et al. Treatment of women with multiple sclerosis planning pregnancy. Curr Treat Options Neurol 2021;23:11.

Other articles in this series on Pregnancy and childbirth
Planning for pregnancy
Preparing to give birth
Breastfeeding if you are on a DMT
Concerns about parenting

Pregnancy and childbirth, Women's health

Concerns about parenting

Being disabled or unemployed because of MS does not mean you cannot be a good parent. Here I cover some of these practical considerations as well as the steps you can take to reduce the potential risk of your child developing MS.

Can I be a good parent if I become disabled from my MS?

This is difficult to answer and depends on how disabled you are, the nature of your disabilities and whether you have support. For example, some patients who are wheelchair users, or close to being wheelchair users, when they give birth manage to nurse and look after their children. On the other hand, some patients with cerebellar problems find it very difficult to bathe, change and feed their babies due to poor coordination and tremor. If you have advanced MS, the decision to start or extend your family needs to be discussed with your partner. If necessary, ask an occupational therapist to assess you and discuss all the issues relevant to you becoming a parent. Disability per se is not a reason not to have children, but it does raise important issues that need careful consideration. The decision to have children needs to be taken by you and not by your HCP.

If I become disabled or unemployed because of MS, will I be able to support my children?

This is another difficult question, and the answer depends on your circumstances. In the modern era having children and supporting them is expensive, but most high-income countries have social safety nets to protect you and your family in times of adversity. We now have effective DMTs that prevent or delay disability, so deciding to have children is easier than it was in the pre-DMT era.

What is the risk of my children getting MS?

MS is not a genetic disease in the Mendelian sense that you pass on to your children with a well-defined inheritance pattern. However, there are genetic factors that increase your risk of getting MS. In high-prevalence countries such as the UK, the lifetime chances of a woman developing MS is about 1 in 375 ̶ 400; for a man, it is close to 1 in 750 ̶ 800. However, for a daughter whose mother has MS, the risk is close to 1 in 40, and for a son, it is lower than 1 in 80. In some studies, the latter risk is no higher than the background rate. If the father has MS, the risk of his daughter developing MS is about half the risk of mother ̶ daughter pairing, i.e. 1 in 70. For a son of a father with MS, the risk is likely lower than this, but the results across studies are inconsistent.  

Can I prevent my children from getting MS?

Based on the known and modifiable risk factors for MS, you should try and keep your children vitamin D replete. To do this, you will likely need to supplement your children’s vitamin D intake as follows:

  • for children less than 2 years of age, 600 IU per day
  • for children 2 ̶ 10 years of age 2,000 IU per day
  • for children above 10 years of age, 4,000 IU vitamin D3 per day (the same dose we recommend for adults).

Other modifiable risk factors are childhood and adolescent obesity and smoking. We estimate that about 15 ̶ 20% of new or incident new cases could potentially be prevented by eliminating obesity and smoking in the general population. I must stress that these suggested interventions are based on studies that show associations between the risk factors and MS but may not necessarily be cause and effect. I should also point out that most people with all the risk factors for MS will not get the disease. This implies that the development of MS involves other random factors, or bad luck, that can’t necessarily be modified.

The issues raised above show you how complex the management of MS has become, which is why there is a push for people with MS to be managed in specialist MS units.

References

Krysko KM et al. Treatment of women with multiple sclerosis planning pregnancy. Curr Treat Options Neurol 2021;23:11.

Other articles in this series on Pregnancy and childbirth
Planning for pregnancy
Managing MS during pregnancy
Preparing to give birth
Breastfeeding if you are on a DMT

Pregnancy and childbirth, Women's health

Planning for pregnancy

This article discusses the effects of MS on fertility, decisions about starting or stopping a DMT, the use and safety of oral contraceptives and the possible impact of in vitro fertilisation on MS disease course.

Does MS affect my fertility?

No, MS does not affect fertility. Women and men with MS are as fertile as people without MS. However, MS does not protect women and men from other causes of infertility. Fertility treatment may impact MS (see below). Please be aware that mitoxantrone, AHSCT (autologous haemopoietic stem cell treatment) and other chemotherapy treatments, such as cyclophosphamide used off-label to treat MS, may be toxic to ovarian and testicular function and require egg and sperm banking before treatment.

Should I go onto a DMT and get my MS under control before starting a family or first start my family?

In general, I recommend that women with active MS delay pregnancy until their disease is under control, optimise their general health and prepare properly for becoming a parent. There is no point in having active MS, not starting a DMT and having a catastrophic relapse in the period during which you are trying to fall pregnant.

However, a desire to start or extend your family should not change the way you want your MS managed. Early effective treatment, treating to a target of NEIDA, potentially flipping the pyramid, preventing end-organ damage and the holistic management of MS are all compatible with pregnancy. There are no rules for implementing this strategy in pregnancy because all decisions should be personalised. For example, a woman with rapidly evolving severe MS may choose natalizumab and stay on it throughout pregnancy and while breastfeeding because her MS was so active and potentially devastating. Another woman who is young, risk adverse and with a very good prognosis may choose to delay starting a DMT until she has had a child. Yet another woman, diagnosed at 40, may not want to delay falling pregnant and may opt for a DMT that is safe during pregnancy.

It is up to the person with MS, their partner and sometimes their extended family to make the final decisions about how to manage their MS during pregnancy. The healthcare professional (HCP) is there to provide information and guidance in this process.

Are oral contraceptives safe in people with MS?

To my knowledge, contraceptives are safe and effective in women with MS. The same contraindications and relative contraindications to specific contraceptives apply to women with MS as to the general population. Hormonal contraceptives are associated with an increased risk of thrombosis; women with MS who are immobile thus have a higher risk of deep vein thrombosis than those who are mobile.

Which contraceptive would you recommend?

MS should not be the deciding factor around the choice of contraceptive unless the degree of MS-related disability makes managing menstrual hygiene difficult. In this case, contraceptives that suppress menstruation have advantages, for example, continuous hormonal contraceptives or the progestin-tipped intrauterine contraceptive device (Mirena).

Inclusion criteria for participation in specific drug trials sometimes mandate double contraception, for example, a hormonal contraceptive and a barrier method. This is to try and avoid accidental pregnancies while taking an investigational compound without a safety track record in humans.

How long before I fall pregnant must I stop my DMT?

It depends on which DMT you are taking. Only the DMTs that are teratogenic or potentially teratogenic (i.e., may cause foetal malformations) need to be stopped before you fall pregnant. It is essential to allow sufficient time for these agents to be eliminated from the body.

Teriflunomide

Teriflunomide has a very long half-life because it is reabsorbed in the intestine and is eliminated slowly from the plasma. Without an accelerated elimination procedure, it takes up to 8 months to reach plasma concentrations of less than 0.02 mg/l, which are considered safe. Remarkably, due to individual variations in teriflunomide clearance, it may take up to 2 years to fall to acceptable levels. An accelerated elimination procedure with cholestyramine or activated charcoal can be used at any time after the discontinuation of teriflunomide.

Teriflunomide accelerated elimination procedure

After stopping treatment with teriflunomide:

• Cholestyramine 8 g is administered three times daily for 11 days, or cholestyramine 4 g three times a day can be used if cholestyramine 8 g three times a day is not well tolerated.

• Alternatively, 50 g of activated powdered charcoal is administered every 12 hours for 11 days.

Following either of the accelerated elimination procedures, it is recommended to verify elimination by checking teriflunomide blood levels and allow a waiting period of 1.5 months between the first occurrence of a plasma concentration below 0.02 mg/l and planned fertilisation.

S1P modulators

S1P modulators are contraindicated during pregnancy, owing to the risk to the foetus. Before starting treatment in women of childbearing potential, we do a urine pregnancy test. Women taking an S1P modulator must use effective contraception during treatment and then continue for:

  • 2 months after stopping treatment with fingolimod (Gilenya)
  • 10 days after stopping treatment with siponimod (Mayzent)
  • 3 months after stopping treatment with ozanimod (Zeposia)
  • 7 days after stopping treatment with ponesimod (Ponvory).

Stopping the S1P modulators brings the potential for rebound disease activity, so most neurologists now prefer to transition women on one of these therapies to another class of DMT that is considered safer in pregnancy.

Safer options

Safer options during pregnancy include an injectable (interferon-beta or glatiramer acetate), a fumarate, an anti-CD20 therapy, natalizumab or an immune reconstitution therapy (cladribine or alemtuzumab). I cover some of the issues related to anti-CD20 therapies in the MS-Selfie case study ‘Wait to fall pregnant or start a DMT now?’.

The good news is that several DMT options are now available to women with MS wanting to fall pregnant.

Can I have IVF, and what will IVF do to my MS?

There is no reason why a person with MS cannot have IVF (in vitro fertilisation). However, there appears to be a slightly increased risk of relapse after IVF and egg harvesting. Whether this is due to stopping DMTs before undergoing IVF or due to the drugs used to stimulate ovulation is unknown. Studies reporting an increase in disease activity after IVF are more likely to be published than studies not showing such an increase so that publication bias may affect the findings. I recommend viewing IVF as a planned pregnancy and giving women with MS the option of receiving a DMT that is relatively safe in pregnancy or treating their MS with immune reconstitution therapy before IVF.

References

Krysko KM et al. Treatment of women with multiple sclerosis planning pregnancy. Curr Treat Options Neurol 2021;23:11.

Other articles in this series on Pregnancy and childbirth:
Managing MS during pregnancy
Preparing to give birth
Breastfeeding if you are on a DMT
Concerns about parenting

Pregnancy and childbirth, Women's health

What impact does MS have on pregnancy and having children?

MS affects mainly women during their childbearing years and, as a result, impacts pregnancy, family planning and decisions about starting or extending a family. Opinion on this subject is based largely on data that predate the current era of active treatment and the newer generation of disease-modifying therapies (DMTs). I have addressed the many issues around this subject by answering several questions that have arisen in my MS practice over the years. Please see below for details of topics that you can find in the section on Pregnancy and childbirth.

Planning for pregnancy

Here I discuss the effects of MS on fertility, decisions about starting or stopping a DMT, the use and safety of oral contraceptives and the possible impact of in vitro fertilisation on MS disease course.

Managing MS during pregnancy

Some important topics discussed in this section include:

  • the effect of pregnancy on the course of MS
  • how to manage relapse during pregnancy
  • the role of naturally occurring interferon-beta, and its possible implications for women with MS taking therapeutic interferon-beta
  • management of MS symptoms and morning sickness during pregnancy
  • the crucial issue of DMT safety and possible teratogenic effects on the developing foetus.

Preparing to give birth

Some of the concerns that people with MS raise about giving birth are covered here, such as the possible need for assisted delivery, the likelihood of a normal vaginal delivery and the use of pain-relieving measures.

Breastfeeding if you are on a DMT

This section explains how relapse is managed during breastfeeding and provides detailed guidance on which DMTs are safe (or not safe) to use while breastfeeding.

Concerns about parenting

Being disabled or unemployed because of MS does not mean you cannot be a good parent. In this section, I consider some important issues to explore with your partner and/or family before deciding. I also discuss the anxiety many of you may have about your children getting MS and the steps you can take to reduce this potential risk.

You may find the following review of managing pregnancy in women with MS helpful:

Krysko KM et al. Treatment of women with multiple sclerosis planning pregnancy. Curr Treat Options Neurol 2021;23:11.

DMTsSafety, Monitoring MS

How can I reduce my chances of adverse events on specific DMTs?

The complications associated with immunosuppression vary from DMT to DMT. You will find it helpful to understand what investigations to expect before and during treatment and how these may vary depending on the DMT(s) you are considering.

Key points

  • Numerous tests are carried out at the start of your treatment (baseline); these include blood, urine and tests for a range of infections.
  • Some patients will need tests or procedures specific to their DMT that are inappropriate for everyone with MS – for example, vaccination against some infections; pregnancy and/or genetic counselling; prevention of cardiovascular complications; and management of infusion reactions.
  • Ongoing monitoring is required for many but not all of the above factors.
  • All licensed MS DMTs have had a thorough risk ̶ benefit assessment, and their benefits are considered to outweigh the potential risks.

Standard tests … and why we do them

If you have read the article on immunosuppression, you will know that immunosuppressive DMTs may reduce white blood cell counts and antibody responses to vaccines and increase the likelihood of some infections and cancers. However, we can reduce the risk of many complications associated with long-term immunosuppression (we use the shorthand ‘de-risk’). This article explains what needs to be done at the start of DMT administration (baseline) and during subsequent monitoring. The specifics, however, vary from DMT to DMT.

Baseline tests

Tests at baseline (before starting DMT administration) include full blood count, platelets, liver, kidney and thyroid function tests, and a urine screen. Recording baseline immunoglobulin levels is particularly important if you are about to start an anti-CD20 therapy (ocrelizumab, ofatumumab or rituximab) so that we have a reference level for future comparisons. 

Serum protein electrophoresis is done for patients considering starting interferon-beta; having a so-called monoclonal gammopathy (an abnormal immunoglobulin) is a contraindication to starting an interferon-beta formulation in people with MS. The drug has been associated with a form of capillary leak syndrome, leading in rare cases to death from an adult respiratory distress syndrome.

The table below summarises the routine investigations required at baseline; subsequent sections provide further detail.

Tests routinely carried out at the start of treatment (baseline).
AHSCT, autologous haematopoietic stem cell transplantation; CMV, cytomegalovirus; CSF, cerebrospinal fluid; DMT, disease-modifying therapy; EBV, Epstein ̶ Barr virus; ECG, electrocardiogram; FBC, full blood count; HIV, human immunodeficiency virus; HPV, human papillomavirus; JCV, JC virus; LFTs, liver function tests; MMR, measles/mumps/rubella; MRI, magnetic resonance imaging; PCP, pneumocystis pneumonia; PML, progressive multifocal leukoencephalopathy; TB ELISpot, tuberculosis enzyme-linked immune absorbent spot; TFTs, thyroid function tests; U&E, urea and electrolytes; VZV, varicella zoster virus.

Infection screening

At our centre, we screen for a relatively large number of infectious diseases so that we can treat any subclinical infection before starting a DMT. This is particularly relevant for HIV-1 and 2, hepatitis B and C, syphilis and tuberculosis (TB).  

Screening for the JC virus (JCV), which causes progressive multifocal leukoencephalopathy (PML), is only really needed for people with MS considering starting natalizumab. Even if you are JCV positive, you can be treated with natalizumab for 6 ̶ 12 months and sometimes longer if you are prepared to take on the risk and the extra monitoring required to detect PML early. 

We only check measles/mumps/rubella (MMR) status in patients without documentation of full vaccination as children. We check varicella zoster virus (VZV) status before starting immunosuppression and vaccinate seronegative individuals. Currently, we are still using the live VZV vaccine. This will change, and we will likely be offering all people with MS in the UK the component inactive VZV vaccine (Shingrix, that has had its licence extended) to reduce the chances of zoster reactivation in all adults starting immunosuppression. This new Shingrix indication is similar to the pneumococcal vaccine (Pneumovax). Our centre is only recommending Pneumovax in patients about to start an anti-CD20. However, when Shingrix becomes available on the NHS, it will make sense to bundle this with the Pneumovax and make it routine for all people with MS before starting immunosuppressive therapy. Please check with your healthcare team which products are available locally.

Routine tests and monitoring for Epstein-Barr virus (EBV) and cytomegalovirus (CMV) are only needed for subjects undergoing autologous haematopoietic stem cell transplantation (AHSCT), which causes profound short-term immunosuppression that can result in CMV and EBV reactivation. CMV reactivation also occurs with alemtuzumab, so this needs to be considered when investigating patients who develop complications after receiving alemtuzumab (please see Opportunistic infection in MS). 

For patients starting long-term immunosuppression, it is advisable to screen for active human papillomavirus (HPV) infection (by cervical smear or vaginal swab) and for warts or active infection with molluscum contagiosum. Warts are caused by HPV skin infection; molluscum contagiosum is due to a relatively benign pox virus that typically affects young children but occasionally affects adults. Warts and molluscum contagiosum can spread rapidly in patients receiving alemtuzumab, so I recommend treating these skin infections before starting immunosuppression for MS. 

Vaccinations

We encourage all patients to be vaccinated against COVID-19 and seasonal flu; outside the flu vaccine season, we remind people to get vaccinated during the next vaccine season. 

Hepatitis B, meningococcal and Haemophilus influenzae vaccines are considered only for people with MS who are at high risk of infection and have not had these vaccines as part of a national vaccine programme, i.e. healthcare and laboratory workers for hepatitis B, school and university students and military recruits for meningococcal vaccine and paediatric patients for Haemophilus influenzae

The issue around having the HPV vaccine as an adult is more complex. For example, in the UK, the NHS does not cover the cost of the vaccine for people over 25. In addition, most people have only had the quadrivalent vaccine (Gardasil-4), which covers about two-thirds of the strains that cause cancer. Some people with MS may want to upgrade their immunity with the polyvalent vaccine (Gardasil-9) that covers over 95% of the cancer-causing strains of HPV. For more information on HPV vaccination, please see Case study: cervical intraepithelial neoplasia (CIN) and ocrelizumab.

MMR is a live vaccine given in childhood (see MMR vaccine: to vaccinate or not? ). Owing to vaccine hesitancy, however, many people do not receive this vaccine as children. Therefore, if an adult with MS is about to start immunosuppressive therapy and has not been vaccinated against MMR, we advise them to do so. This is particularly important for people about to start natalizumab because these viruses are neurotropic and can infect the brain. Natalizumab blocks immune response within the brain; hence, exposure to a neurotropic virus could cause serious infection, similar to what we see with the JC virus – which causes PML.

Travel vaccines for people who travel as part of their work or plan to travel shortly need to be considered. In particular, the yellow fever vaccine is a live vaccine (made from a weakened yellow fever virus strain) and it should ideally be given before someone starts on immunosuppressive therapy. 

Cardiovascular screening

You may need an ECG (electrocardiogram), to rule out an abnormal heart rhythm or electrical conduction abnormality and to check your left ventricular function (ejection fraction). These abnormalities are a relative contraindication to using the S1P modulators (fingolimod, siponimod, ozanimod, ponesimod), which may affect the conduction of the heart. In patients treated with mitoxantrone, the left ventricular ejection fraction (LVEF) must be done at baseline and regularly monitored because mitoxantrone is toxic to the heart. If the LVEF drops significantly, further dosing of mitoxantrone is contraindicated. 

Pregnancy, family planning and genetic testing

Many chemotherapy agents used in AHSCT for ablating (extracting) the bone marrow are toxic to the ovaries and testes. Therefore, patients receive counselling before treatment and can have eggs (oocytes) or sperm banked for future use. Egg banking is also an issue for women with MS being treated with mitoxantrone. Men receiving mitoxantrone do not need to bank sperm, however, because mitoxantrone does not cross the testes ̶ blood barrier. 

Genetic testing is only required at present if you wish to receive siponimod. Siponimod is metabolised by a specific liver enzyme (biological catalyst) with two functional variants – slow metabolising and fast metabolising. People who carry two slow-metabolising variants of the enzyme cannot receive siponimod. Intermediate metabolisers (those that carry one slow- and one fast-metabolising version of the enzyme) receive low-dose siponimod, while those with two fast-metabolising enzymes receive high-dose siponimod. 

Protecting against progressive multifocal leukoencephalopathy

I have included magnetic resonance imaging (MRI) and lumbar puncture with cerebrospinal fluid (CSF) testing for JCV among the baseline tests. This is specific to patients at high risk of developing PML who are switching from natalizumab to a depleting immune reconstitution therapy such as alemtuzumab or another therapy that depletes their immune system (e.g. cladribine or an anti-CD20 therapy). These tests are done to exclude asymptomatic PML, which will otherwise be carried over to the new treatment. The effects of these immunosuppressive therapies on your immune system cannot be rapidly reversed, which is a problem because immune reconstitution is needed to clear PML. Most MS centres do not mandate CSF testing in this situation because it does not always reveal the presence of PML. However, I still request this test on my patients to gain as much information as possible on which to base potentially life-changing decisions.

Prophylactic antivirals and antibiotics

Patients in our centre undergoing AHSCT or receiving alemtuzumab will be given antivirals and antibiotics to reduce the likelihood of certain infections. This is particularly relevant for listeriosis, which is a rare infection transmitted via food. We also encourage all our patients to start and maintain a specific diet to reduce the chances of listeriosis. The risk of listeriosis is only present for a short period when both the adaptive and innate immune systems are compromised, that is, for 4 weeks after receiving alemtuzumab, so we recommend antibiotic prophylaxis for 4 weeks. Our online resource provides more information about listeriosis. If you live in the UK, you can order our free listeriosis prevention kit, which contains a booklet (also downloadable) and various practical items to help keep you safe.

Strategies for limiting the risks from immune reconstitution therapies and infusion DMTs.

Infusion reactions

When you use agents that cause cell lysis (breakdown), such as alemtuzumab and intravenous anti-CD20 therapies, the contents of cells cause infusion reactions. To prevent such reactions or reduce their severity, we pretreat patients with corticosteroids, antihistamines and antipyretics. The exact protocols for each DMT differ; for example, ocrelizumab infusion reactions are generally only a problem with the first and second doses; therefore, many centres don’t give steroids with the third and subsequent infusions. The latter was particularly important during the COVID-19 pandemic when it was shown that the recent administration of high-dose steroids increased your chances of severe COVID-19. 

Ongoing monitoring

Once someone has been treated with a DMT, ongoing monitoring is required. What gets monitored and how frequently depends on the individual DMT. For a list of DMTs associated with important adverse events, please see our summary Table in ‘De-risking’ guide: monitoring requirements of individual DMTs.

The regulatory authorities usually put in place specific monitoring requirements, which can differ worldwide. It is important that you also enrol in your national cancer screening programmes. Being on chronic immunosuppression increases your chances of developing secondary malignancies, so please remain vigilant. 

Tests carried out regularly as part of ongoing monitoring.
FBC, full blood count; LFTs, liver function tests; MRI, magnetic resonance imaging; PML, progressive multifocal leukoencephalopathy; TFTs, thyroid function tests; U&E, urea and electrolytes.

I want to reassure you that all licensed MS DMTs have undergone a thorough risk ̶ benefit assessment by the drug regulators, and the benefits of these treatments are considered to outweigh the potential risks. On balance, the level of immunosuppression associated with MS DMTs is typically mild to moderate; hence, the complications are relatively uncommon. MS is a bad disease and, if left to run its natural course, would result in most patients becoming disabled. To learn more about the natural course of MS, please read the section entitled What are the consequences of not treating MS?

DMTsSafety, Monitoring MS

‘De-risking’ guide: monitoring requirements of individual DMTs

Before you start taking a disease-modifying therapy (DMT), your MS team will carry out routine tests and investigations, many of which are repeated during subsequent monitoring or before switching to another DMT. The regulatory authorities that license the drugs specify their monitoring requirements. What gets monitored and how frequently depends on the individual DMT.

All licensed MS DMTs have undergone a thorough risk ̶ benefit assessment by the drug regulators, and the benefits of these treatments are considered to outweigh the potential risks. The table below summarises the main monitoring requirements of individual DMTs or DMT classes. For more detailed information, see the post on reducing your chances of adverse events.

AHSCT, autologous haematopoietic stem cell transplantation; CMV, cytomegalovirus; CSF, cerebrospinal fluid; EBV, Epstein ̶ Barr virus; ECG, electrocardiogram; HPV, human papillomavirus; JCV, JC virus; LVEF, left ventricular ejection fraction; MRI, magnetic resonance imaging; PML, progressive multifocal leukoencephalopathy.

Treatment strategy

Do I understand the concepts of treat-2-target and NEDA?

Has anyone discussed a treatment target with you, including the need to rebaseline your disease activity? Have the concepts of preventing end-organ damage to the central nervous system (the ‘end-organ’ in MS) and brain volume loss or atrophy been broached?

Key points

  • Achieving long-term remission is a well-established treatment target in MS and several other autoimmune diseases.
  • Key measures of MS disease activity are used to define composite treatment targets; they provide objective means for monitoring and decision-making.
  • To demonstrate a target of no evident disease activity (NEDA) requires a minimum of three criteria to be met: no relapses, no MRI activity and no disability progression.
  • More stringent definitions of NEDA targets have evolved and will continue to do so as new predictors of treatment response are developed.

If you are on a disease-modifying therapy (DMT), what is the objective or treatment target for your MS? This is another question to be answered before committing yourself to a specific treatment strategy.

Treat-2-target

Relapses and ongoing focal inflammatory activity on MRI (new or enlarging T2 lesions and T1 gadolinium-enhancing lesions [Gd-enhancing]) are associated with poor outcomes. This has led to the adoption of ‘no evident disease activity’ (NEDA) as a treatment target in MS. NEDA, or NEDA-3, is a composite of three related measures of MS disease activity: (i) no relapses, (ii) no MRI activity (new or enlarging T2 lesions or Gd-enhancing lesions) and (iii) no disability progression. NEDA is an important goal for treating individuals with MS.

When to rebaseline

To use NEDA as a treatment target in day-to-day clinical practice, it is advisable to be ‘rebaselined’ after the onset of action of the DMT you have been started on. The timing of the MRI to provide a new baseline depends on the DMT concerned. The recommendations for immune reconstitution therapies (IRTs) are very different from those for maintenance therapies. In the case of an IRT (for example alemtuzumab or cladribine, which are given as short courses), breakthrough disease activity can be used as an indicator to retreat rather than necessarily to switch therapy. Therefore, a rebaselining MRI should be delayed until after the final course of therapy, e.g. 2 years, or close enough to the time when a third, or subsequent course, can be administered.

Determining treatment failure: IRTs

Questions remain of how many treatment cycles need to be given before considering that a person has failed a specific IRT.

  • For alemtuzumab, the threshold is three cycles under NHS England’s treatment algorithm (based on their cost-effectiveness analysis). Alemtuzumab is a biological or protein-based treatment, so the risk of developing neutralising anti-drug antibodies increases with each infusion.
  • Cladribine on the other hand is a small molecule, so neutralising antibodies are not a problem and there is no real limit on the number of courses that can be given.
  • Although HSCT tends to be a one-off treatment, there are rare reports of people with MS receiving more than one cycle.

Please note there are potentially cumulative risks associated with multiple cycles of an IRT: secondary malignancies in the case of HSCT and persistent lymphopaenia with cladribine. 

Determining treatment failure: maintenance therapies

In comparison to IRTs, if you have disease activity on a particular maintenance DMT, and provided you have been adherent to your treatment, this is usually interpreted as a suboptimal response or non-response and it should trigger a switch to another class of DMT

A criticism of NEDA is the omission of so-called ‘non-relapse-associated disease worsening’ as a component of the treatment target (in addition to evidence of incomplete recovery from relapses). I refer to this disease worsening as smouldering MS. Worsening disability in the absence of relapses may have little to do with ongoing focal inflammatory activity. It may simply represent a delayed dying-off of axons and nerve fibres following earlier focal inflammatory lesions. As a result, many neurologists feel uncomfortable switching, or stopping a DMT, based simply on non-relapse-associated worsening disability. For more information, please see Getting worse – smouldering MS.

Beyond NEDA-3

The definition of NEDA is evolving with clinical practice. Some centres are now incorporating brain volume loss (that is, brain atrophy) and/or increased neurofilament light chain (NFL) in cerebrospinal fluid (CSF) into the treatment target. NEDA-4 refers to normalising brain atrophy rates to within the normal range. The problem we have found with this is that the measurement of brain atrophy in an individual with MS level is very unreliable. For example, dehydration, excessive alcohol consumption and some symptomatic medications can cause the brain to shrink temporarily. We, therefore, think that CSF NFL levels are a better treatment target, less prone to misinterpretation. Neurofilaments are proteins that are found in nerves and axons (nerve fibres) and are released in proportion to the amount of nerve fibre damage that occurs in MS. Normalising CSF NFL levels, which would indicate that nerve damage is stopped, is referred to as NEDA-5. From a scientific perspective, including a more objective end-organ biomarker makes sense and will almost certainly be incorporated into our treatment target in the future.  

Table

The components of NEDA-recommended targets are expanding as our ability to measure predictors of treatment response grows.
CSF, cerebrospinal fluid; MRI, Magnetic resonance imaging; NEDA, no evident disease activity; NEIDA, no evident inflammatory disease activity; NFL, neurofilament light; PROMS, patient-related outcome measures.

End-organ damage

The combination of relapses, the development of new MRI lesions and brain volume loss over 2 years in clinical trials predicts quite accurately who will become disabled over the same time period. From a treatment perspective, it is important to stop relapses, new MRI lesions and brain volume loss if we are to prevent or slow down worsening disability. Therefore, we must go beyond NEIDA (no evident inflammatory activity), which refers to relapses and focal MRI activity, and normalise brain volume loss if we can. 

Alternatives to NEDA?

Many neurologists are critical of using NEDA as a treatment target in clinical practice, fearing that the majority of people with MS might end up taking the ‘more risky’ highly effective DMTs (see short summaries of the available DMTs for information about individual drugs). Such neurologists, therefore, promote a less active approach and allow for some residual MS disease activity, but at a lower level. This treatment target is referred to as minimal evidence of disease activity, or MEDA.

In my opinion, MEDA flies in the face of the science of focal inflammatory lesions being ‘bad’ and it is associated with poor short-term, intermediate and long-term outcomes. If most people with MS end up receiving so-called high-efficacy therapies because of breakthrough disease activity, then this is what they probably need, that is, to have their MS treated adequately. Compelling evidence has emerged from trials, large registries and real-world data that people with MS treated early with highly effective DMTs (flipping the pyramid) do better than those who have delayed access to more effective DMTs.1,2,3 You can find a short summary of some key findings on the MS Brain Health website.

Implementing NEDA in clinical practice

Please note that achieving long-term remission, or NEDA, is a well-established treatment target in other autoimmune diseases, such as rheumatoid arthritis, autoimmune kidney disease and inflammatory bowel disease. People with MS treated to a target of NEDA do better than those with breakthrough disease activity. I would therefore strongly encourage you to discuss this treatment target with your own MS neurologist

The flowchart below illustrates how we implement a treat-2-target of NEDA strategy. The important take-home message is that the treatment targets in MS have moved; goal-setting and the active monitoring of outcomes is now required to achieve these goals. 

Treat to target NEDA algorithm

Recommended approaches to implementing a treat-2-target of NEDA strategy, using maintenance ̶ escalation or immune reconstitution therapy (IRT). The dotted lines indicate that if treatment fails you can either switch within the class (maintenance or IRT) or reassess the strategy. From Giovannoni, Curr Opin Neurol.4
Alem, alemtuzumab; Clad, cladribine; DMF, dimethyl fumarate; Fingo, fingolimod; GA, glatiramer acetate; HSCT, haematopoietic stem cell transplantation; IFNβ, interferon-beta; Mitox, mitoxantrone; NEDA, no evident disease activity; Nz, natalizumab; Ocre, ocrelizumab; Ofat, ofatumumab; Teri, teriflunomide.

There is also a clear need to update the definition of NEDA regularly as new technologies become available and are validated as predictors of treatment response. I therefore envisage the definition of NEDA changing still further in future to include more objective measures, particularly ones measuring end-organ damage and the inclusion of patient-related outcome measures.

References

DMTs, Treatment strategy

How immunosuppressed am I?

Do you understand the difference between short-term intermittent and long-term continuous immunosuppression? Here we address another of the key questions to consider before deciding on a specific disease-modifying therapy (DMT).

Key points

  • Immunosuppressive disease-modifying therapies (DMTs) reduce the immune system’s effectiveness.
  • It is important to weigh up the benefits and risks of short-term versus continuous immunosuppression.
  • Non-selective DMTs suppress the adaptive and innate immune systems; selective DMTs do not affect the innate immune system and are thus associated with a low risk of bacterial infections.
  • The implications of immunosuppression need to be considered within the context of other health and lifestyle factors.

Which DMTs cause immunosuppression?

A useful way of thinking about DMTs is based on whether they are immunosuppressive. Broadly speaking, an immunosuppressive is any DMT that reduces the immune system’s activation or effectiveness. 

From a regulatory perspective, for a drug to be classified as immunosuppressive, it should: 

  • cause significant lymphopaenia or leukopenia (reduced white cell counts)
  • be associated with opportunistic infections (infections that don’t occur in people with a normal, healthy immune system)
  • reduce antibody and/or T-cell responses to vaccines 
  • increase the risk of secondary malignancies. 

Based on the above criteria, the interferon-beta preparations and glatiramer acetate are immunomodulatory rather than immunosuppressive. Teriflunomide is also an immunomodulatory therapy with the potential, albeit small, to cause immunosuppression. In real life, however, very few people with MS treated with teriflunomide develop significant lymphopaenia or leukopenia; if they do, we tend to stop the drug. The other licensed DMTs are immunosuppressive to a greater or lesser degree. 

Short-term versus continuous immunosuppression

The duration and intensity of immunosuppression further determine the risks. Short-term or intermittent immunosuppression associated with an immune reconstitution therapy (IRT) front-loads the risks, which decrease substantially once the immune system has reconstituted itself. In comparison, long-term continuous or persistent immunosuppression, which occurs with most maintenance DMTs, accumulates problems over time, particularly opportunistic infections and secondary malignancies.

Live vaccines are, in general, contraindicated in patients on continuous immunosuppressive therapies. However, someone with MS on an IRT who has reconstituted their immune system can tolerate and respond to live vaccines. The benefits of administering live vaccines always need to be balanced against the risks of the vaccine.

How immunosuppressed are you table

The main characteristics of continuous persistent and short-term (intermittent) immunosuppression. Modified from Giovannoni, Curr Opin Neurol.1
AHSCT, autologous haematopoietic stem cell transplantation; PML, progressive multifocal leukoencephalopathy.

Selective versus non-selective immunosuppression

Immunosuppression that accompanies DMTs may be selective or non-selective. Non-selective therapies deplete and/or suppress both the adaptive immune system (T cells and B cells) and the innate immune system (monocytes, neutrophils and natural killer [NK] cells). Alemtuzumab, AHSCT (autologous haematopoietic stem cell transplantation) and mitoxantrone are non-selective and are therefore associated with acute bacterial infections such as listeriosis, nocardiosis and cytomegalovirus reactivation. In comparison, anti-CD20 agents (ocrelizumab and ofatumumab) and cladribine are selective, do not affect the innate immune system and are therefore associated with a low risk of acute bacterial infections. 

How immunosuppressed are you_MET vs IRT_6 Sept 2022

Classification of disease-modifying therapies for relapsing forms of MS. Modified from Giovannoni, Curr Opin Neurol.1
AHSCT, autologous haematopoietic stem cell transplantation.

Other considerations

Please note that the implications of immunosuppression are not black and white but interact with other factors such as:

These factors have been highlighted during the COVID-19 pandemic, particularly in relation to the risk of severe COVID-19 and the variations in vaccine responses among people with MS (including waning of the immune response).

It is important to realise that we can derisk (reduce the risk of) some complications associated with long-term immunosuppression and the use of DMTs. Please see the post entitled How can I reduce my chances of adverse events on specific DMTs?

References

  1. Giovannoni G. Disease-modifying treatments for early and advanced multiple sclerosis: a new treatment paradigm. Curr Opin Neurol 2018;31:233 ̶ 43.