symptoms

Many of us with multiple sclerosis have heard the saying, “I go to bed wired and wake up tired.” This is quite accurate, as fatigue is one of the most prevalent aspects of living with MS. So often I hear from well-meaning individuals who,…

Coming down with the flu can provoke relapses in multiple sclerosis patients by activating glial cells that surround and protect nerve cells. In a study in mice, scientists found that activated glial cells increase the levels of a chemical messenger in the brain that, in turn, triggers an immune reaction and, potentially, autoimmune attacks. The flu is caused by the human influenza virus and, despite being unpleasant, usually resolves itself within days. However, for people with MS and other neurological conditions, the flu can lead to disease relapse. Researchers at the University of Illinois investigated what happens in the brain of MS patients during upper-respiratory viral infections, such as the flu. "We know that when MS patients get upper respiratory infections, they're at risk for relapse, but how that happens is not completely understood," Andrew Steelman, an assistant professor at the university and the study's senior author, said in a press release. "A huge question is what causes relapse, and why immune cells all of a sudden want to go to the brain. Why don't they go to the toe?" The team used a mouse model characterized by autoimmune responses within the brain and spinal cord — the type of deregulated immune responses seen in MS patients. Researchers infected the animals with a version of human influenza virus adapted to mice, and looked at changes that occurred in the animal’s central nervous system. While the virus was never detected in the animals' brains, upon infection some of the mice developed MS-like symptoms. "If you look at a population of MS patients that have symptoms of upper respiratory disease, between 27 and 42 percent will relapse within the first week or two," Steelman said. "That's actually the same incidence and timeframe we saw in our infected mice, although we thought it would be much higher given that most of the immune cells in this mouse strain are capable of attacking the brain." The team then investigated how a peripheral influenza infection could contribute to disease onset. They infected a wild-type (normal) strain of mice with the flu virus and looked at alterations in the brain and spinal cord. Scientists found that infection increased the activation of glial cells in the mice's brains. Moreover, it induced infiltration of several immune cells — T-cells, monocytes and neutrophils — into the brain within eight hours of infection. Overall, these findings suggest that the chemokine CXCL5 plays a key role in mediating an autoimmune attack in MS, and might be explored for therapeutic potential.

Last week saw much of the Pacific Northwest blanketed by smoke from wildfires in British Colombia. As I pondered the gray haze Thursday, I recalled a piece from a fellow columnist in June about air pollution and MS. In addition to MS, I also have asthma. Therefore, the health…

It’s been an incredibly bad few weeks, so I’m not surprised that I spent recent days wondering if I had incurable liver disease. Living with chronic illness, plus the internet, plus now justifiable hypochondria, is a very dark nexus. It started with a UTI that has been persistent for nigh…

Two compounds found in sunscreens suppressed multiple sclerosis symptoms in mice, a study shows. The substances, known as salate derivatives, belong to a class of compounds called nonsteroidal anti-inflammatory drugs. Evidence from the 1970s suggested that higher vitamin D levels from getting more sunlight could reduce the rate of MS. Subsequent studies indicated this was unlikely, however. Researchers who noticed that ultraviolet light suppresses MS in mice hypothesized that this could be the reason for the reduced prevalence of the disease in tropical areas. University of Wisconsin researchers wondered if sunscreen would prevent ultraviolet light from suppressing MS in mice. The team, led by Dr. Hector F. DeLuca, an emeritus professor in the university's Department of Biochemistry, chose six commercially available sunscreens, then exposed the mice to UV radiation. Confirming previous findings, they observed that UV radiation decreased the severity of MS. But, unexpectedly, they discovered that when mice were not receiving ultraviolet light, some of the sunblocks suppressed their MS for up to 30 days anyway. An analysis revealed that the salate derivatives homosalate and octisalate were the sunscreen components responsible for suppressing MS. The two are esters of salicylic acid, a common medication for acne, psoriasis, warts, and dandruff. Further analysis showed that homosalate was able to suppress MS by itself, but octisalate needed to be combined with homosalate to achieve significant results. The team also discovered that the salates' effectiveness depended on the dose. The more that homosalate was applied, the better the result, they said. The only adverse effect of homosalate and octisalate was temporary skin irritation. The study indicated that salate esters' ability to suppress MS is not due to their sunblocking ability per se, because some of the sunscreen brands that did a good job of blocking sunlight did not suppress the disease. Salate derivatives are well-known inhibitors of the enzyme cyclooxygenase, or COX. Because COX-2 has been found in MS lesions, salate derivatives might improve MS by suppressing COX, the researchers said. Overall, “salates may be useful in stopping the progression of MS, and may provide new insight into mechanisms of controlling autoimmune disease,” the researchers concluded.

Multiple sclerosis (MS) patients in the first year of diagnosis frequently suffer from depression, pre-morbid personality, self-perception issues and other psychological problems, an Italian study finds. Yet it is hard to predict the degree of symptoms since MS takes a different course in each individual. The study, “The first year after…

Editor’s note: Tamara Sellman continues her occasional series on the MS alphabet with this second of two columns about words starting with the letter F. Read the first “F” column here. When it comes to multiple sclerosis, mastering an understanding of the disease means you…

A new study draws a reverse link between the number of MRI scans of multiple sclerosis patients who are on interferon-beta 1a and doctors declaring there is evidence of the patients’ disease worsening. When doctors looked at one scan, rather than multiple ones, they were more likely to say that…

After 10-odd ― indeed, increasingly odd ― years, I presumed I’d become something of a gnarled hand at MS. If you read about something on practically a daily basis, you begin to think you’ve got pretty comprehensive knowledge of a subject. Sure, in the past, events happened that I…

(Editor’s note: Tamara Sellman continues her occasional series on the MS alphabet with this first of two columns about terms starting with the letter “G.”) When it comes to multiple sclerosis, mastering an understanding of the disease means you need to…

Fatigue, limited mobility, and poor self-esteem or resiliency were found to be associated with periods of serious depression among multiple sclerosis patients, according to a recent study. Previous research has suggested that MS patients are at risk of major depression, with potentially profound impact on their quality of life. But only a few studies have addressed the incidence of depression among MS patients or the risk factors that may underlie its occurrence. Researchers in Canada enrolled 188 MS patients being treated an Alberta clinic, who were interviewed to assess potential risk factors for depression: namely, socioeconomic status, disease-related factors, childhood risk factors, psychosocial factors, and health behaviors. Participants were also asked to complete the Patient Health Questionnaire every two weeks for six months to identify depressive symptoms in real-time. Over a six-month follow-up, 36 cases of depression were reported among the group of MS patients analyzed. The incidence of depression was 0.019 for women, but higher — 0.044 — for men. Importantly, several factors seemed to be associated with depression in these patients — fatigue, limited mobility, and low resiliency, self-esteem, and self-efficacy, as well as poor coping skills. Results also showed that gender and income were associated with depression. Overall, the researchers concluded that "depression in MS exhibits a risk factor profile similar to that of depression in the general population, with the additional impact of MS illness-related factors. Potentially modifiable risk factors, such as coping with stress and resiliency, present opportunities for focus of further research in depression in MS treatment and prevention efforts." Concerning treatment, the team also emphasized that "while there is evidence in the clinical context that supports the efficacy for pharmacologic and non-pharmacologic treatments for depression in the general population, there is currently insufficient evidence to support/or refute the efficacy of depression treatment for individuals with MS ... Clearly this is an area that requires additional research."

Trigeminal neuralgia is a term used for facial pain which begins in the trigeminal nerve. It usually occurs in people over the age of 50 and affects women more than men. However, it is more common in people who have multiple sclerosis (MS). We’ve put together a list of facts about…

I am an emotional, sensitive woman. I like to believe that I have a warm heart in a very cold world. Isn’t this what the world needs? Love, warmth, acceptance and transparency? Recently I find that my emotions change within a millisecond. So, instead of being sensitive, I…

I was watching my son’s baseball game in the early 1990s when suddenly, my left eye went blurry and blocked my vision. It was a startling incident that lasted about two hours, and then it was gone. That was my introduction into the unpredictable world of multiple sclerosis…

People with multiple sclerosis have high levels of pro-inflammatory TH17 immune cells in their intestines that correlate with change in the micro-organism mix in their gut and the levels of their disease activity, a study reports. Researchers said the findings suggest that diet, probiotics and therapies that regulate TH17 cells could help treat MS. Probiotics are supplements containing beneficial bacteria. The study, “High frequency of intestinal TH17 cells correlates with microbiota alterations and disease activity in multiple sclerosis,” was published in the journal Science. Research has shown that TH17 cells, also known as T helper 17 cells, play a role in the development of MS. In fact, they were the first harmful immune T-cells to infiltrate the central nervous system, according to studies in animals Where TH17 cells become activated has been unclear, however. Studies in mice suggested it was mainly in the small intestine. Research has also indicated that their activation increases the potential for a person to develop an autoimmune brain disease like multiple sclerosis. An autoimmune disease occurs when the immune system, which defends the body against disease, decides that a person's healthy cells are foreign, and attacks those cells. Researchers decided to see if the findings in mouse models of MS applied to people with the disease. They discovered a link between higher levels of TH17 cells in MS patients' intestines and autoimmune brain problems. They also found a correlation between higher levels of TH17 cells and changes in patients' gut microbiome. The team then identified which bacteria were changing in the gut. Patients with increased levels of TH17 cells and higher disease activity had a higher ratio of Firmicutes to Bacteroidetes bacteria and more Streptococcus strains in their gut, particularly Streptococcus mitis and Streptococcus oralis. Previous studies have shown that these species promote TH17 cell differentiation in humans. Cell differentiation involves a cell transforming from one cell type to another — usually a more specialized type. This dramatically changes a cell's size, shape, metabolic — or fuel-burning — activity, and responsiveness to signals. Some studies have suggested a link between T-cell differentiation and brain autoimmune diseases. “On the basis of our findings, we speculate that, under certain conditions, or because of still unknown virulence factors, these Streptococcus strains can colonize the small intestine and favor TH17 cell differentiation in the human gut mucosa [linings],” researchers wrote. In addition to more Streptococcus bacteria, the team detected lower levels of Prevotella bacteria in MS patients with disease activity than in healthy controls or patients with no disease activity. This decrease may also promote TH17 cell differentiation because “Prevotella is capable of producing the anti-inflammatory metabolite propionate that limits intestinal TH17 cell expansion in mice," the researchers wrote. Overall, the team concluded that “our data demonstrate that brain autoimmunity is associated with specific microbiota modifications and excessive TH17 cell expansion in the human intestine.” The findings suggest that regulating TH17 cell expansion, along with changes in diet aimed at regulating intestinal linings, could be ways to help treat MS.

I live in the best place in the U.S. during the summer — the Pacific Northwest, with its temperate climate and easy access to nature and culture. Rarely do we experience heatwaves, and humidity levels run lower than in most places. We may joke that “it rains…

Patient questionnaires can be sensitive to signs of disease progression and worsening in neurological disorders like multiple sclerosis just as they are in other diseases, helping doctors to better predict clinical outcomes in patients, a study reports. Particularly, the study found that MS patients with higher scores on a specific disease questionnaire were nearly six times more likely to die within 10 years than those with lower scores, and that mortality risk also jumped among people whose scores rose on a second taking of same questionnaire. But the researchers cautioned that their study was not a tool for predicting mortality but a way to help patients be more active participants in their care. “Our research shows that by answering a set series of questions, patients can have an important role in predicting long-term prognosis in diseases like MS, and that these types of questionnaire should be used by doctors to get a better idea of the patient’s health,” Joel Raffel, study’s first author, from the Imperial College London, United Kingdom, said in a university news release written by Ryan O'Hare. “We hope that using patient-reported outcomes like these more and more will mean a shift towards empowering patients," he added. "They will be able to provide their own data, so rather than the doctor telling the patient how they are doing, it’s the other way around.” Among tools often used in the clinic are patient-reported outcomes; that is, questionnaires for patients that focus on their disease and treatment. But while these questionnaires have many uses, from screening for symptoms or evaluating treatment response to improving communications, they are often under-utilized when people have MS or other neurological diseases, "in part because it is not clear if PROs [patient-reported outcomes] relate to ‘hard clinical outcomes’ like disability or mortality," the team noted. Researchers wanted to determine whether the Multiple Sclerosis Impact Scale–29 (MSIS-29) — a 29-question survey assessing quality of life and disease impact over the previous two weeks — might serve as a way of predicting a patient's risk of death. The questionnaire was completed by 2,126 people, registered with the MS Society Tissue Bank in the U.K., beginning in 2004. Of these, 872 patients repeated it one year later. By 2014, the researchers reported that 264 of the original group of MS patients (12.4%) had died, and an evaluation revealed that MSIS-29 scores were associated with 10-year mortality risk regardless of age, gender, and disability score at the time the questionnaire was completed. Indeed, patients with high scores on the MSIS-29 questionnaire, indicative of a poor quality of life, were 5.7 times more likely to die within 10 years than those whose scores were lower. The mortality risk rose further among people whose MSIS-29 score worsened between the first and second year of answering the questionnaire. “Ideally, these questionnaires should be administered routinely, once a year in the clinic or online,” Raffel said. “This could help doctors to understand what issues the patients are facing and could also help to answer big research questions around prognosis and which of the available treatments we have for MS are working.” The team believes that questionnaire responses, together with usual clinical assessment tools like imaging data through MRI scans, could help doctors and patients choose the best course of treatment.

A herpes virus that lies dormant in many people can hinder the repair of the neuron-protecting myelin sheath whose deterioration causes multiple sclerosis, a study reports. The finding about the HHV-6 virus may help explain differences in the symptoms and progression of the disease from person to person, researchers said.

According to a new clinical trial, the allergy treatment cetirizine fails to alleviate a flu-like condition that interferon-beta treatment generates in people with relapsing-remitting multiple sclerosis. The results, which surprised researchers, apply to flu-like syndrome, or FLS. Cetirizine is an over-the-counter medicine sold under the brand names Zirtec, Zyrtec, Reactine, and Triz. FLS affects roughly 75 percent of patients who take interferon-beta, also known as IFN-beta. It can cause fever, chills, muscle pain, weakness, and headache. The symptoms commonly occur three to six hours after an IFN-beta injection and last up to 24 hours. Although FLS usually subsides in the first three months of IFN-beta therapy, it persists in some patients, causing them to miss doses or even discontinue the treatment. Cetirizine is an antihistamine for hay fever and allergies. The purpose of the clinical trial was to determine whether cetirizine could alleviate RRMS patients' FLS. In order to determine study results, patients did self-assessments of how much discomfort their FLS caused them. There were no significant changes in the two groups' average self-assessment scores at four and eights weeks of treatment, suggesting that cetirizine does not offer significant benefits to RRMS patients with FLS. “The addition of a [cetirizine] to the standard of care for IFNβ-induced FLS in patients with RRMS does not seem to improve symptoms significantly compared with placebo," the team wrote. "FLS continues to be inadequately treated in many RRMS patients. Further investigations are needed to elucidate the underlying mechanisms of IFNβ-induced FLS and develop adequate strategies for prevention and treatment."

A new study on rats indicates that the antidepressant Luvox promotes the production of the neuron-protecting coating that is deficient in multiple sclerosis. It also significantly decreased the severity of the animals' disease, researchers said, adding that Luvox promoted the production of the protective coating by helping stem cells evolve into oligodendrocytes, or cells that generate what is known as the myelin sheath. Patients with MS often experience anxiety and depression, with recent studies suggesting their rate of depression is three times higher than those with other long-term medical conditions. In addition to drugs targeting the underlying mechanisms of MS, such as inflammation and myelin loss, doctors often recommend that patients take antidepressants. The most common treatments they prescribe for moderate or severe depression are a class of serotonin re-uptake inhibitors that include Luvox. Few studies have looked at antidepressants' effects on animal models of MS, however. That prompted researchers to investigate Luvox's impact on both laboratory and rat models of the disease. Researchers used embryonic neural stem cells in their study. Luvox prompted laboratory stem cells to evolve into other types of cells, including neurons, oligodendrocytes, and astrocytes, which have several roles, including supporting and repairing neurons. Prozac also promoted stem cell differentiation — but at levels 10 times higher than those of Luvox. A key finding was that that Luvox significantly decreased the severity of the disease in the rats. Another important finding was that Luvox significantly reduced demyelination and immune cell infiltration in the rats' spinal cords. It also decreased the rats' expression of pro-inflammatory proteins known as cytokines. Overall, this study “demonstrated that fluvoxamine, in addition to its confirmed role in mood disorder therapy, could serve as a candidate clinical treatment for attenuating [reducing] neuro-inflammation and stimulating oligodendrogenesis in neurological diseases, particularly MS patients.”

It has been a busy few weeks. Well, when I think about it, every week is busy. There is always something that must be done. Just when I think things will slow down, my schedule lengthens. Admittedly, I am not a technology expert, so I rely on the…

One of the earliest symptoms that appeared before my multiple sclerosis (MS) diagnosis was imbalance. I remember turning my head to look at something and feeling slightly off-balance. I didn’t think much of it at the time, but that wobbly sensation gradually increased through the years. Occasionally, I…

In case you missed them, here are some news stories that appeared in MS News Today that caught my eye over the past week. Younger MS Patients Who Are Hospitalized May Be at Higher Risk of Quitting Treatment, Study Reports   Why would young patients, whose MS is…

B-cells of patients with relapsing-remitting multiple sclerosis (RRMS) secrete substances that are toxic to both neurons and neuron-protecting myelin-forming cells, causing both kinds to die, according to a study. Despite analyses of numerous inflammatory and other factors believed to drive MS processes, researchers were unable to identify the molecules that are toxic, however. Dr. Robert Lisak of Wayne State University in Detroit, Dr. Amit Bar-Or of McGill University in Montreal and their teams are now working on identifying the factor, and learning if the process is also involved in progressive MS. Their study, “B-cells from patients with multiple sclerosis induce cell death via apoptosis in neurons in vitro,” was published in the Journal of Neuroimmunology. It demonstrated that B-cells gathered from the blood of RRMS patients killed lab-grown neurons and oligodendrocyte cells, which form myelin, a protecting coating for nerve cells. Deterioration of the myelin coating and the death of neurons are hallmarks of MS. An earlier study the team conducted indicated that B-cells from MS patients could kill oligodendrocytes. But since the experiments involved only three patients and three controls, the team scaled up their experiments to include 13 patients and an equal number of controls. Both rat and human neurons died when mixed with MS-derived B-cells. In contrast, B-cells from healthy people had little or no impact on the survival of the brain cells. Researchers also discovered that the secreted toxic molecules had no impact on other types of central nervous system cells — astrocytes and microglia. The toxins killed only neurons and myelin-producing cells. The B-cells triggered a process called apoptosis, or programmed cell death, researchers said. This is basically a suicide program. It tells a cell to die when exposed to stressful factors or toxins. The process differs from cell disintegration. Despite thoroughly screening about 40 inflammation-related substances, researchers were unable to identify any factors that caused the cells to die. The National MS Society and the Research Foundation of the MS Society of Canada funded the research, which the U.S. society highlighted in a news release. In the newest phase of the study, researchers will try to learn more about the processes underlying neuron and myelin-related cell deaths and identify the factors responsible. In addition to testing B-cells from progressive MS patients, the team will examine patients with other autoimmune conditions to see if the process is unique to MS or not. Researchers increasingly realize that B-cells are important to MS processes. This observation was underscored by U.S. regulators' approval of the B-cell depleting therapy Ocrevus (ocrelizumab) at treatment for both relapsing and primary progressive MS.

I’ve been considering writing about the fun, fun world of catheters. As this column is morphing into some sort of diary, let’s deal with this week’s medical procedural drama. Welcome to UTI (urinary tract infection) week. Anyone who uses a catheter is prone to a higher incidence of…

A gene mutation may explain the uncontrolled, inflammatory immune response seen in autoimmune and chronic inflammatory diseases like multiple sclerosis, scientists at the Research Institute of the McGill University Health Centre (RI-MUHC) report. It's a discovery that, they said, appears to be "a big step in the right direction." According to the study, published in the journal Science Immunology, alterations in the FOXP3 gene affect specific immune cells called regulatory T-cells, or Tregs. Those mutations hamper Tregs in performing a crucial regulatory role, leading to a loss of control over the immune system’s response to a perceived threat. “We discovered that this mutation in the FOXP3 gene affects the Treg cell’s ability to dampen the immune response, which results in the immune system overreacting and causing inflammation,” Ciriaco Piccirillo, the study's lead author and an immunologist in the Infectious Diseases and Immunity, Global Health Program, at the RI-MUHC, said in a news release. Tregs are known to be the immune system players responsible for keeping other immune cells under control, preventing them from attacking the host’s own tissues, while maintaining a proper immune response against harmful agents. The normal activity of Treg cells is essential for preventing excessive immune reactions. The FOXP3 gene is also well-known, and documented, to be essential for proper Treg cell function. However, the mechanisms by which FOXP3 gene is involved in Treg cell activities are still poorly understood. In the study, “Suppression by human FOXP3+ regulatory T cells requires FOXP3-TIP60 interactions,” the research team — in collaboration with researchers at University of Pennsylvania, University of Washington School of Medicine, and Teikyo University School of Medicine in Japan — evaluated the impact of a FOXP3 gene mutation in autoimmunity response. Taking advantage of cutting-edge technology, the team studied samples from two patients carrying a common FOXP3 gene mutation, which caused a genetic immune disorder called IPEX. Interestingly, the researchers found that this genetic variant did not reduce the number of Treg cells or the levels of FOXP3 protein. Instead, the mutation altered the way Tregs could suppress other immune cells to prevent overactivation. “What was unique about this case of IPEX was that the patient’s Treg cells were fully functional apart from one crucial element: its ability to shut down the inflammatory response,” said Piccirillo. “Understanding this specific mutation has allowed us to shed light on how many milder forms of chronic inflammatory diseases or autoimmune diseases could be linked to alterations in FOXP3 functions,” added Khalid Bin Dhuban, the study's first author and a postdoctoral fellow in Piccirillo’s laboratory. The team developed a compound capable of restoring Treg cells' ability to control the immune system in the presence of this specific FOXP3 gene mutation. Tested in animal models of colitis and arthritis, two chronic inflammatory diseases, the compound reduced inflammation and restored normal Treg function. Researchers now plan to develop similar drugs that may be of use in other diseases where Treg cells are known to be defective, including multiple sclerosis, type 1 diabetes, and lupus. "Currently, we have to shut down the whole immune system with aggressive suppressive therapies in various autoimmune and inflammatory diseases," said Piccirillo. “Our goal is to increase the activity of these Treg cells in certain settings, such as autoimmune diseases, but we want to turn it down in other settings, such as cancer.” “This discovery gives us key insights on how Treg cells are born and how they can be regulated,” Piccirillo added. “With this discovery, we are taking a big step in the right direction.”

Just when I thought I had experienced every multiple sclerosis (MS) symptom possible, another one emerges: sciatic nerve pain. It can happen to anyone, but it is also associated with MS. A couple of months ago, I woke up with a sharp knife-type pain on the upper back side…

(Editor’s note: Tamara Sellman continues her occasional series on the MS alphabet with this first of two columns about terms starting with the letter “F.”) When it comes to multiple sclerosis, mastering an understanding of the disease means you need to mind your Ps and…

Problems with sense of smell are more frequent and severe in patients with primary progressive multiple sclerosis (PPMS) than in those with relapsing-remitting multiple sclerosis (RRMS), a study reports. The research, “Olfactory dysfunction in patients with primary progressive MS,” was published in the journal Neurology: Neuroimmunology and Neuroinflammation. A distinguishing feature of RRMS, the most common form of the disease, is attacks of new or increasing neurologic symptoms, such as movement disorders, and then recovery periods. About 15 percent of patients have the primary progressive form, or PPMS. Its main feature is gradually increasing neurologic disability without recovery periods. Some scientists believe PPMS is a less inflammatory course of MS. The differences in the processes that underlie each form are not well understood, however. Several researchers think that studying differences in the two groups' ability to smell — or olfactory dysfunction — could shed light on these underlying processes. Autopsies of MS patients in one study showed that 71 percent had experienced demyelination, or loss of neurons, in the brain's olfactory pathway. The processes that led to this dysfunction were unclear, however. Researchers decided to test the hypothesis that olfactory impairment is more pronounced in patients with PPMS than RRMS. The team examined 32 patients with PPMS, 32 with RRMS, and 32 healthy controls. The yardstick they used to evaluate sense of smell was the olfactory Threshold Discrimination Identification (TDI) Test. It involves patients smelling 48 sniffin' sticks. In addition to an overall TDI, there were subscores on olfactory threshold, odor identification and odor discrimination. Olfactory threshold refers to the lowest concentration of an odor that a person can detect. Researchers found olfactory dysfunction in 27, or 84 percent, of the PPMS patients; 10, or 31 percent, of the RRMS patients; and 1, or 3 percent, of the healthy controls. The TDI score and all subscores were significantly worse in patients with PPMS than in the controls, when considering patients of similar age and the same sex. The TDI score was also worse in PPMS patients than in the RRMS group, after adjusting for age, sex, MS disability level, the length of time patients had the disease, and patients' ability to identify and discriminate among odors. Researchers acknowledged limitations to the study. One was the small size of the groups in the research. Another was not using magnetic resonance imaging, or MRI, to measure olfactory pathway deterioration. Comparing the brain's olfactory pathway region with other brain regions in both the RRMS and PPMS groups could have shed light on the processes underlying the olfactory dysfunction differences between the two, researchers said. “The findings suggest that olfactory dysfunction might be a surrogate of neurodegeneration in these patients," the researchers wrote. "Studies correlating olfactory function with radiologic and clinical markers of disease progression would be of interest.”

Though my first brush with MS came in 2000 or so, I wasn’t diagnosed until December 2013 with primary progressive MS. Shortly after the diagnosis, I began scouring the internet for information about the disease and how to live with it. Sound familiar? I found…