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Background Only few studies describe the impact of nutritive factors on chronic inflammatory demyelinating polyneuropathy (CIDP), an inflammatory disease of the peripheral nervous system. The active component of chili pepper, capsaicin, is the direct agonist of the transient receptor potential channel vanilloid subfamily member 1. Its anti-inflammatory effect in the animal model experimental autoimmune neuritis (EAN) has been previously demonstrated. Methods In the present study, we describe the anti-inflammatory and anti-oxidative influence of capsaicin on Schwann cells (SCs) in an in vitro setting. Hereby, we analyze the effect of capsaicin on Schwann cells’ gene expression pattern, major histocompatibility complex class II (MHC-II) presentation, and H 2 O 2 -induced oxidative stress. Furthermore, the effect of capsaicin on myelination was examined in a SC-dorsal root ganglia (DRG) coculture by myelin basic protein staining. Finally, in order to investigate the isolated effect of capsaicin on SCs in EAN pathology, we transplant naïve and capsaicin pre-treated SCs intrathecally in EAN immunized rats and analyzed clinical presentation, electrophysiological parameters, and cytokine expression in the sciatic nerve. Results In SC monoculture, incubation with capsaicin significantly reduces interferon gamma-induced MHC-II production as well as toll-like receptor 4 and intercellular adhesion molecule 1 mRNA expression. Calcitonin gene-related peptide mRNA production is significantly upregulated after capsaicin treatment. Capsaicin reduces H 2 O 2 -induced oxidative stress in SC in a preventive, but not therapeutic setting. In a SC-DRG coculture, capsaicin does not affect myelination rate. After intrathecal transplantation of naïve and capsaicin pre-treated SCs in EAN-immunized rats, naïve, but not capsaicin pre-treated intrathecal SCs, ameliorated EAN pathology in rats. Conclusions In conclusion, we were able to demonstrate a direct immunomodulatory and anti-oxidative effect of capsaicin in a SC culture by reduced antigen presentation and expression of an anti-inflammatory profile. Furthermore, capsaicin increases the resistance of SCs against oxidative stress. A primary effect of capsaicin on myelination was not proven. These results are in concordance with previous data showing an anti-inflammatory effect of capsaicin, which might be highly relevant for CIDP patients.

Background: The novel criteria for the diagnosis of chronic inflammatory demyelinating polyneuropathy (CIDP) have established imaging with nerve ultrasound (NUS) and magnetic resonance neurography (MRN) as complementary methods for CIDP diagnosis. Objectives: Our goal was to investigate the role of MRN and NUS for CIDP monitoring. Methods and design: We longitudinally examined 12 CIDP patients from 2016 to 2022 using NUS, MRN, nerve conduction studies (NCS), and clinical parameters (inflammatory neuropathy cause and treatment (INCAT)/overall disability sum score (ODSS)). NUS evaluated the cross-sectional area (CSA) of the median, ulnar, radial, tibial, fibular, and sural nerve as well as the intranerve CSA variability (INVcsa) of the tibial, fibular, ulnar, and median nerve, whereas MRN evaluated T2-weighted sequences of the fibular and tibial nerve at the popliteal fossa. Results: Five patients showed clinical improvement/stability with corresponding improved or stable NCS/NUS parameters (number of nerves with increased CSA and INVCSA). Seven deteriorating patients showed deteriorating NCS and either increasing or decreasing NUS markers possibly indicating inflammatory activity or degenerative CSA reduction. The difference ΔINCAT/ODSS2022–2016 correlated positively with NUS ΔINVCSA2022–2016 (p = 0.007, r = 0.731, n = 12) and with NUS ΔCSA2022–2016 of the tibial nerve (p = 0.0005, r = 0.865, n = 12). Further, NUS-CSA of the tibial nerve in the popliteal fossa in 2016 correlated inversely with the difference of the INCAT/ODSS score (ΔINCAT/ODSS2022–2016; r = −0.653; p = 0.033; n = 11). Finally, the Bland–Altman analyses for the tibial and fibular nerve showed a bias of −1.903 and 2.195 mm2 (bias = NUS-CSA − MRN-CSA) accordingly revealing a difference between MRN and NUS measurements for deeper nerves. Conclusion: CSA and INVCSA of the tibial and fibular nerve can be used for monitoring in CIDP, and increased CSA of the tibial nerve is a good prognostic marker. MRN is more reliable for evaluating inflammation in proximal leg nerve segments.

We report the case of a 27‐year‐old patient with subacute anti‐neurofascin‐155 neuropathy with bifacial palsy, who showed excellent response to rituximab. We provide longitudinal data of established clinical scores, nerve conduction studies, antibody titers, and novel imaging methods (nerve ultrasonography and corneal confocal microscopy). Clinical and electrophysiological improvement followed the reduction of serum antibody titer and correlated with a reduction of corneal inflammatory cellular infiltrates whereas the increase in the cross‐sectional area of the peripheral nerves remained 12 months after first manifestation. Our findings suggest that novel techniques provide useful follow‐up parameters in paranodopathies.

Severe autoimmune-mediated neuropathies, such as chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) and paranodopathies, often remain refractory to established immunotherapies. 1–3 Anti-CD19 chimeric antigen receptor (CAR) T cells have shown promising therapeutic potential in autoimmune conditions through substantial and sustained B-cell depletion. 4,5 Here, we report treatment of two patients with severe, treatment-refractory autoimmune neuropathies using autologous anti-CD19 CAR T cells ( appendix pp 2–3). In March, 2023, the patient first presented to our university hospital with rapid progression to symmetric tetraplegia despite extensive immunotherapy (intravenous immunoglobulin, corticosteroids, plasmapheresis, cyclophosphamide, rituximab, obinutuzumab, and bortezomib; appendix pp 4–6). JM declares stock ownership from Amgen, Bayer, and Sanofi; travel grants from Alnylam, Biogen Idec, Novartis, Teva, Eisai, Neuraxpharm, Bristol Myers Squibb, and Kyverna; consulting fees from Novartis and Alnylam; and research funding from Klaus Tschira Foundation, Ruhr-University Bochum (FoRUM program), Deutsche Multiple Sklerose Gesellschaft, Hertie Foundation, Novartis, and Kyverna, not related to this work.

Introduction Ofatumumab (Kesimpta ® ) is a subcutaneous CD20-targeting antibody approved in Germany in 2021 for the treatment of relapsing multiple sclerosis (RMS). After careful instruction, patients can administer the treatment themselves. We previously reported data of 101 patients (Klimas et al. in Nervenarzt 94:923–933, 2023). The objective of this longitudinal study is to explore the tolerability and acceptability of ofatumumab from a patient perspective over a follow up period of 6 months. Methods In this prospective observational real-world study, we report follow up data of 81 patients. We evaluated sociodemographic data, disease duration, duration and side effects of ofatumumab use, expanded disability status scale (EDSS), Beck Depression Inventory II (BDI-II), Short-Form 36 (SF-36), Fatigue Scale of Motor and Cognitive Functions (FSMC), and modified Multiple Sclerosis Functional Composite Test (MSFC). In addition, we asked for subjective treatment outcomes, such as impact on quality of life, walking distance, concentration, mood, medication adherence, fatigue and the subjective course of MS on a numerical rating scale (1 = very negative; 5 = very positive). Furthermore, treatment discontinuations were recorded. Results The average duration of ofatumumab treatment was 10 months. In comparison to previous published data of our cohort, patients reported a significant increase in headache (10% up to 26%, p = 0.004) and limb pain (5% up to 26%, p < 0.001) as persistent side effects after the injections. More patients reported a very positive effect (p < 0.0001) on quality of life. 4 confirmed relapses occurred but no EDSS worsening, and no treatment discontinuations were documented during the observation period. Discussion As previously described, our prospective study indicates that patients have a good tolerability of ofatumumab, precisely because of the mild and few side effects at the first administration. However, the longer the observation period, the more headaches and limb pain occurred after the injections. Despite this, patients’ subjective quality of life improved. There were no discontinuations during the follow-up period, with the limitation of a high loss to follow-up.

Background Diagnosing chronic inflammatory demyelinating polyneuropathy (CIDP) can be challenging, leading to delays in initiating therapy. As disability in CIDP is mainly dependent on axonal damage, the impact of delayed immunotherapy remains unclear. We multimodally investigated the clinical outcomes of patients with early CIDP regarding different treatment strategies and time points. Methods Patients with CIDP diagnosis within 1 year before study inclusion were systematically selected from the prospective Immune-mediated Neuropathies Biobank (INHIBIT) registry. Clinical and therapeutic data, and findings from nerve conduction study (NCS), and nerve and muscle ultrasound were correlated at inclusion and 12 months later. The patient outcomes were compared between immunotherapies. The effect of timing immunotherapy on clinical outcomes was determined using regression analysis. Results In total, 30 patients were included (time from diagnosis to inclusion 22 ± 19 weeks). Low amplitudes of compound muscle potential were significantly associated with pathological spontaneous activity (PSA, r  = 0.467) and correlated with the Heckmatt scale ( r Sp  = 0.391). All three parameters were significantly associated with higher overall disability sum scores (NCS score r Sp  = 0.581, PSA r  = 0.385, Heckmatt scale r Sp  = 0.472). The delays in initiating therapy resulted in progression of axonal damage ( r Sp  = 0.467) and disability ( R 2  = 0.200). The combination of first-line therapies led to reduced disability progression ( r  = 0.773), while second-line therapies resulted in improved overall axonal damage ( r  = 0.467). Conclusions Axonal damage occurs early and is the main cause of clinical disabilities. Prompt initiation of therapy is crucial to prevent axonal damage and thereby disability progression. A comprehensive therapeutic approach, including a combination of first- or second-line therapies, may improve long-term outcomes.

Introduction The value of a sural nerve biopsy for the diagnosis of chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) is controversial. Evidence-based recommendations for its implementation are lacking. We investigated factors leading to biopsy and analyzed biopsy outcomes and consequences, assessed the predictability of biopsy outcomes through clinical parameters to avoid unnecessary biopsies, and compared results with electrophysiological and clinical severity to determine their prognostic value. Methods 190 sural nerve biopsies were analyzed in two cohorts. One consisted of 163 biopsies and the second of 72 biopsies from the prospective Immune-mediated Neuropathies Biomaterial and Data registry (INHIBIT). Both have an intersection of 45 patients. 75 data sets from patients without biopsy were used. Analysis of nerve conduction studies, treatment, overall disability sum score (ODSS), biopsy outcomes, and diagnosis was performed. Results 51% of biopsied patients received the diagnosis CIDP (77% fulfilled EFNS/PNS criteria), 21% were not CIDP typical, and 27% were unspecific. Biopsied patients responded less frequently to immunotherapies at time of biopsy than non-biopsied patients ( p  = 0.003). Immunotherapy was initiated more frequently after biopsy ( p  < 0.001) and more often with intravenous immunoglobulins ( p  < 0.0001). 76% of all biopsied patients met the electrophysiological criteria for CIDP. Sensory nerve action potential amplitudes of 0 µV still provide 73% of histological diagnostic value. Histologic signs of degeneration predicted ODSS worsening after 1 year ( p  = 0.028) but disease severity did not correlate with histological damage severity. Discussion The main indication for nerve biopsy was the treatment of refractory cases of autoimmune neuropathies with the therapeutic consequence of treatment initiation or escalation. Sural biopsy also provided prognostic information. Even with extinguished sural SNAP, the biopsy can still have diagnostic value.

Background and purpose The role of high‐resolution nerve ultrasound (HRUS) and corneal confocal microscopy (CCM) in the early detection of taxane‐induced polyneuropathy (TIPN) is unclear. The present prospective longitudinal controlled observational pilot study estimates the role of HRUS and CCM in the early diagnosis of TIPN in breast cancer patients. Methods Fifteen breast cancer patients receiving paclitaxel and 15 healthy age matched controls were included. Visits before and 3 weeks, 8 weeks and 6 months after treatment included clinical examination, the total neuropathy score, nerve conduction studies (NCS), monocular CCM including corneal nerve fibre length, density and branching and HRUS of bilateral median, ulnar, radial, tibial, peroneal and sural nerves. Patients were compared between different visits and to healthy controls. Results Total neuropathy score increased from 2.2 at baseline to 5.8 (p < 0.001) at week 8. NCS showed a decreased sensory amplitude in the sural, radial, ulnar and median nerve after 6 months (p < 0.001). HRUS revealed a significant increase of cross‐sectional area in the sural nerve (p = 0.004), the median nerve (p = 0.003) at the carpal tunnel and the ulnar nerve in the forearm (p = 0.006) after 6 months. CCM showed no changes at different visits. Conclusions Corneal confocal microscopy and HRUS do not detect early signs of TIPN during the paclitaxel treatment period. HRUS and NCS might detect congruent signs of an axonal, predominantly sensory polyneuropathy after 6 months. The clinical examination remains the most sensitive tool in the early detection of TIPN in breast cancer patients.

Objective Chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) is an autoimmune neuropathy characterized by progressive or relapsing–remitting weakness and sensory deficits. This study aims to evaluate the utility of corneal confocal microscopy (CCM) in diagnosing and monitoring CIDP. Methods We analysed 100 CIDP patients and 31 healthy controls using CCM to measure corneal nerve fiber density (CNFD), length (CNFL), and branch density (CNBD). Standardized clinical and electroneurographic evaluation were conducted, and statistical analyses were performed to compare CCM parameters between groups and across disease stages. Results CIDP patients and subgroups exhibited significant reduction in CNFD, CNFL, and CNBD compared to controls. This reduction was observed in late disease stages and severe overall disability sum score (ODSS), and Inflammatory Neuropathy Cause and Treatment Sensory Sum Score (ISS). CCM parameters correlated with axonal pathology in electroneurography of sensory, but not motor nerves. Despite the significant differences, the diagnostic sensitivity (41%) and specificity (77%) of CCM parameters were limited. Conclusion While CCM effectively differentiates CIDP patients from healthy controls and was associated with disease severity, its diagnostic accuracy for routine clinical use is a posteriori. However, CCM shows promise as a non-invasive tool for monitoring sensory axonal pathology in CIDP.

Introduction SARS-CoV-2 pandemic is especially compromising for patients with autoimmune diseases with or without immunomodulatory treatment. This study aimed to investigate the longitudinal changes in the health care of patients with immune-mediated neuropathies during the COVID-19 pandemic. Methods We performed a longitudinal study using questionnaires in a prospective cohort of patients with immune-mediated neuropathies at two timepoints of the pandemic: May–July 2021 and May–July 2022. Results The cohort consisted of 73 patients (55 male), mean age 62 years, 68 patients with CIDP, 5 with other immune neuropathies. In 2021, 19.2% of the patients reported a reduced number of physician–patient-contacts, while 13.7% reported this in 2022. Nevertheless, the overall health-care situation worsened from 2021 to 2022: 15.1% reported reduced overall healthcare in 2021, 26.0% in 2022. In 2021, 29.4% of patients reported absence of physio-/occupational therapy, while 34.4% reported this in 2022. Switching immunomodulatory treatment and stretching of treatment intervals occurred more often in 2022 (38.4%) than in 2021 (27.4%). 12 COVID-19-infections occurred overall, with typical only mild symptoms. The rate of fully vaccinated patients was 61.6% and 98.6% in May–July 2021 and 2022, respectively. Only minor side-effects after vaccination were reported. Conclusion Despite mitigation of COVID-19 restrictions from 2021 to 2022, the health-care situation of patients worsened in this time. Reasons could be the international shortage of immunoglobulins during the pandemic and reduced physio/ergotherapy due to lingering regulatory restrictions. Vaccination rate was high in our cohort of patients compared to the general German population and CIDP did not seem to be a risk factor for severe SARS-CoV-2 infections.