Huppke P, Huppke B, Ellenberger D, Rostasy K, Hummel H,
Stark W, Brück W, Gärtner J. Therapy of highly active pediatric multiple
sclerosis. Mult Scler. 2019 Jan;25(1):72-80.
Abstract
OBJECTIVE:
Study aims were to determine the frequency of highly active
disease in pediatric multiple sclerosis (MS), the response to natalizumab (NTZ)
and fingolimod (FTY) treatment, and the impact of current treatment modalities
on the clinical course.
METHODS:
Retrospective single-center study in the German Center for
MS in Childhood and Adolescence.
RESULTS:
Of 144 patients with first MS manifestation between 2011 and
2015, 41.6% fulfilled the criteria for highly active MS. In total, 55 patients
treated with NTZ and 23 with FTY demonstrated a significant reduction in
relapse rate (NTZ: 95.2%, FTY: 75%), new T2 lesions (NTZ: 97%, FTY: 81%), and
contrast-enhancing lesions (NTZ: 97%, FTY: 93%). However, seven patients
switched from NTZ to FTY experienced an increase in disease activity. Comparing
pediatric MS patients treated in 2005 with those treated in 2015 showed a 46%
reduction in relapse rate and a 44% reduction in mean Expanded Disability
Status Scale (EDSS).
CONCLUSION:
The rate of highly active disease among pediatric MS
patients is high; more than 40% in our cohort. Response to NTZ and FTY
treatment is similar if not better than observed in adults. Current treatment
modalities including earlier treatment initiation and the introduction of NTZ
and FTY have significantly improved the clinical course of pediatric MS.
Huppke B, Ellenberger D, Hummel H, Stark W, Röbl M, Gärtner
J, Huppke P. Association of Obesity With Multiple Sclerosis Risk and
Response to First-line Disease Modifying Drugs in Children. JAMA Neurol. 2019 Jul
15. doi:10.1001/jamaneurol.2019.1997. [Epub ahead of print]
Abstract
IMPORTANCE:
Obesity reportedly increases the risk of pediatric multiple
sclerosis (MS), but little is known about its association with disease course.
OBJECTIVE:
To investigate the association of obesity with pediatric MS
risk and with first-line therapy response among children with MS.
DESIGN, SETTING, AND PARTICIPANTS:
This single-center retrospective study used the medical records
and database at the Center for MS in Childhood and Adolescence, Göttingen,
Germany. The study included 453 patients with relapsing-remitting pediatric MS
and body mass index (BMI) measurement taken within 6 months of diagnosis. Onset
of the disease occurred between April 28, 1990, and June 26, 2016, and the mean
disease duration was 38.4 months. Data were collected from July 14, 2016, to
December 18, 2017.
MAIN OUTCOMES AND MEASURES:
Data on BMIs were stratified by sex and age using German BMI
references and compared with the BMI data of 14 747 controls from a nationwide
child health survey for odds ratio (OR) estimates. Baseline magnetic resonance
imaging findings, intervals between first and second MS attacks, annualized
relapse rates before and during treatment with interferon beta-1a or -1b and
glatiramer acetate, frequency of second-line treatment, and Expanded Disability
Status Scale (EDSS) scores were compared between nonoverweight (BMI≤90th
percentile), overweight (BMI>90th-97th percentile), and obese (BMI>97th
percentile) patients.
RESULTS:
In total, 453 patients with pediatric MS were included, of
whom 306 (67.5%) were female, and the mean (SD) age at diagnosis was 13.7 (2.7)
years. At diagnosis, 126 patients (27.8%) were overweight or obese, with
obesity associated with statistically significant twofold odds of MS in both
sexes (girls OR, 2.19; 95% CI, 1.5-3.1; P < .001 vs boys OR, 2.14; 95% CI,
1.3-3.5; P = .003). Obese patients, compared with nonoverweight patients, had
statistically significantly more relapses on first-line treatment with
interferon beta and glatiramer acetate (ARR, 1.29 vs 0.72; P < .001) and a
higher rate of second-line treatment (21 [56.8%] of 37 vs 48 [38.7%] of 124;
P = .06). Baseline neuroimaging, interval between first and second MS attacks,
pretreatment relapses, and EDSS progression scores were not correlated with
BMI.
CONCLUSIONS AND RELEVANCE:
In this study, increased pediatric MS risk appeared to be
associated with obesity, and obese patients did not respond well to first-line
medications; altered pharmacokinetics appeared to be most likely factors in
treatment response, suggesting that achieving healthy weight or adjusting the
dose according to BMI could improve therapy response.
McKay KA, Manouchehrinia A, Berrigan L, Fisk JD, Olsson T,
Hillert J. Long-term Cognitive Outcomes in Patients With
Pediatric-Onset vs Adult-Onset Multiple Sclerosis. JAMA Neurol. 2019 Jun 17. doi:
10.1001/jamaneurol.2019.1546. [Epub ahead of print]
Abstract
IMPORTANCE:
Cognitive impairment in multiple sclerosis (MS) can lead to
reduced quality of life, social functioning, and employment. Few studies have
investigated cognitive outcomes among patients with pediatric-onset MS (POMS)
over the long term.
OBJECTIVE:
To compare long-term information-processing efficiency
between patients with POMS and adult-onset MS (AOMS).
DESIGN, SETTING, AND PARTICIPANTS:
This population-based longitudinal cohort study accessed the
Swedish MS Registry (SMSreg), which collates information from all 64 neurology
clinics in Sweden. Registered cases with definite MS in the SMSreg with an
onset before April 15, 2018, and at least 2 Symbol Digit Modalities Test (SDMT)
scores recorded were included. Only persons aged 18 to 55 years and with
duration of disease of less than 30 years at the time of SDMT administration
were included, to ensure comparable ranges between patients with POMS and AOMS.
Of 8247 persons with an SDMT recorded in the SMSreg, 5704 met inclusion
criteria, 300 (5.3%) of whom had POMS. Data were collected from April 1, 2006,
through April 15, 2018 and analyzed from April through August 2018.
EXPOSURES:
Pediatric-onset MS (onset <18 years of age) vs AOMS
(onset ≥18 years of age).
MAIN OUTCOMES AND MEASURES:
Information-processing efficiency measured every 6 or 12
months by the SDMT. Linear mixed-effects models were used to compare all
available SDMT scores between patients with POMS and those with AOMS. Persons
with cognitive impairment (ever vs never) were identified using
regression-based norms and compared between POMS and AOMS groups using logistic
regression.
RESULTS:
Of the 5704 participants, 4015 were female (70.4%), and 5569
had a relapsing-onset disease course (97.6%). Most participants were exposed to
a disease-modifying therapy (DMT) during follow-up (98.8%). Median age at
baseline for the POMS group was 25.6 years (interquartile range, 21.0-31.7
years) and for the AOMS group, 38.3 years (interquartile range, 31.4-45.2
years). A total of 46 429 unique SDMT scores were analyzed. After adjustment
for sex, age, disease duration, disease course, total number of SDMTs completed,
oral or visual SDMT form, and DMT exposure, the SDMT score for patients with
POMS was significantly lower than that of patients with AOMS (β coefficient,
-3.59 [95% CI, -5.56 to -1.54]). The SDMT score for patients with POMS declined
faster than that of patients with AOMS (β coefficient, -0.30 [95% CI, -0.42 tp
-0.17]). The odds of cognitive impairment were also significantly elevated in
the POMS group (odds ratio, 1.44; 95% CI, 1.06-1.98).
CONCLUSIONS AND RELEVANCE:
In adulthood, patients with POMS demonstrated a more rapid
reduction in information-processing efficiency over time and were more likely
to experience cognitive impairment than patients with AOMS, independent of age
or disease duration. Further investigation is required to understand the
mechanisms by which early MS onset influences cognitive outcomes.
Courtesy of: https://www.mdlinx.com/neurology/journal-summaries/index.cfm/317/1/latest/
No comments:
Post a Comment