Mathilde Duchesne

Value of nerve biopsy in patients with latent malignant hemopathy and peripheral neuropathy: a case series.

AbstractHematological malignancies include several diseases that may affect the peripheral nervous system (PNS) through various mechanisms. A common and challenging situation is represented by the occurrence of an active peripheral neuropathy in a patient with a supposed inactive hematological disorder.We report clinical, electrophysiological, biological, and pathological data of 8 patients with latent malignant hemopathies (most were considered in remission): B-cell chronic lymphocytic leukemia in 3 patients, B-cell lymphoma in 1 patient, low-grade non-Hodgkins lymphoma in 1 patient, Waldenströms macroglobulinemia in 1 patient, smoldering multiple myeloma in 1 patient, and monoclonal gammopathy of undetermined significance in 1 patient.In all these cases, the nerve biopsy (NB) helped to diagnose the hematological relapse or detect a pathological mechanism linked to the hematological disorder: epineurial lymphocytic infiltration in 5 patients (including one with antimyelin-associated glycoprotein antibodies), cryoglobulin deposits in 1 patient, chronic inflammatory demyelinating polyneuropathy in 1 patient, and necrotizing vasculitis in 1 patient. In each case, pathological findings were crucial to select the adequate treatment, leading to an improvement in the neurological and biological manifestations.These observations illustrate the value of NB and the need for active collaboration between neurologists and hematologists in such cases.

Simultaneous Quantification of Unmyelinated Nerve Fibers in Sural Nerve and in Skin.

Peripheral polyneuropathies are common and their diagnosis may be challenging. We compared the results from sural-nerve and skin biopsies in 33 patients with a polyneuropathy and neuropathic pain examined in our hospital over a 6-year period. The biopsies were all from the same lower limb of each patient. Intraepidermal nerve fiber (IENF) densities in the skin were determined by fluorescence microscopy; unmyelinated fiber densities in sural-nerve biopsies (UFNB) were determined by electron microscopy. There was no correlation with age or gender in either biopsy type; there was a weak trend to correlation between UFNB density and IENF density, possibly because of the small sample size. The sensitivity of detection of quantitative abnormalities of unmyelinated fibers was better in the skin than in the nerves. Proximal and distal IENF densities were strongly correlated; and counts of UFNB were highly reproducible. Thus, quantification of unmyelinated fibers in sural-nerve and skin biopsies seem to be complementary. Sural-nerve biopsy may be required to confirm a specific diagnosis, to identify lesion mechanisms, and to devise therapeutic strategies, whereas skin biopsy seems to be more efficient in the follow-up of length-dependent polyneuropathies and in the diagnosis of neuropathic pain.

Nerve Biopsy Is Still Useful in Some Inherited Neuropathies

In hereditary neuropathies, next-generation sequencing techniques are producing a vast number of candidate gene mutations that need to be verified or excluded by careful genotype-phenotype correlation analysis. In most cases, clinical acumen is still important but needs to be combined with data from nerve conduction studies and, in some cases, from nerve biopsy examinations. Indeed, characteristic clinical, electrophysiological, and sometimes pathological features may be suggestive of a particular subtype of Charcot-Marie-Tooth (CMT) disease. Microscopical (mainly ultrastructural) human nerve biopsy patterns may be related to CMT diseases and gene defects. Even today, it is important to recognize these characteristic lesions in the context of a chronic idiopathic neuropathy as they may help search for or reveal a sporadic form of CMT. In practice, these different types of lesions are often linked to the known function of the mutated genes. Only a few patients diagnosed or suspected as having a CMT disease need a nerve biopsy that can help find or confirm the causative gene mutation. The indication for this procedure should be based on a case-by-case discussion.

Simultaneous Combined Myositis, Inflammatory Polyneuropathy, and Overlap Myasthenic Syndrome

Immune-mediated neuromuscular disorders include pathologies of the peripheral nervous system, neuromuscular junction, and muscles. If overlap syndromes (or the association of almost two autoimmune disorders) are recognized, the simultaneous occurrence of several autoimmune neuromuscular disorders is rare. We describe two patients presenting the simultaneous occurrence of inflammatory neuropathy, myositis, and myasthenia gravis (with positive acetylcholine receptor antibodies). For each patient, we carried out a pathological analysis (nerve and muscle) and an electrophysiological study (and follow-up). To our knowledge, this is the first description of such a triple immune-mediated neuromuscular syndrome. We compared our observations with a few other cases of simultaneous diagnosis of two inflammatory neuromuscular disorders.

Neuroprotective effect of angiotensin II type 2 receptor stimulation in vincristine-induced mechanical allodynia

Abstract Peripheral neuropathy is the major dose-limiting side effect of many currently used chemotherapies, such as vincristine (VCR). We recently demonstrated that candesartan, an angiotensin II type 1 receptor antagonist, was neuroprotective against resiniferatoxin-induced sensory neuropathy, and that this effect is mediated by stimulation of the angiotensin II type 2 receptor (AT2R). Thus, we evaluated the effect of preventive treatment with candesartan and a specific AT2R agonist, C21, on a mouse model of VCR-induced neuropathy. Vincristine was administered daily for 7 days to male Swiss mice. Treatment with candesartan and C21 was started on day 1, before VCR treatment, and continued until day 7. We evaluated the development of VCR-induced neuropathy and the effect of treatment by functional tests, immunohistochemical analyses of intraepidermal nerve fibers and dorsal root ganglia neurons, and ultrastructural analysis of the sciatic nerve. Mice treated with VCR showed high mechanical allodynia but no modifications of motor performance or mechanical/thermal nociception. Treatment with candesartan and C21 completely restored normal tactile sensitivity of VCR-treated mice. Both drugs prevented VCR-induced nonpeptidergic intraepidermal nerve fiber loss. Only C21 displayed neuroprotective effects against VCR-induced loss and enlargement of myelinated nerve fibers in the sciatic nerve. Our finding that candesartan and C21 are protective against VCR-induced neuropathic pain through AT2R stimulation favors evaluation of its therapeutic potential in patients receiving chemotherapy.

History and current difficulties in classifying inherited myopathies and muscular dystrophies

The wide spectrum of hereditary muscular disorders leads to unavoidable difficulties in their classification, even for specialists. For this reason, new proposals are required that would ultimately replace our current rather complex classifications by a simpler structure. Our proposal will be limited to dystrophic and non-dystrophic myopathies (excluding metabolic disorders, mitochondriopathies, and channelopathies) for which similar proposals would also be relevant. Various genes (encoding structural proteins associated with the sarcolemma, nuclear membrane proteins, and proteins involved in myofiber metabolism have now been sequenced and mutations ascribed to specific forms of inherited muscular disorders. Based on our observations and our recent proposals in other neurogenetic conditions and informal discussions with specialists of neuromuscular disorders, the prerequisite for a simple and sound classification for inherited muscular disorders should encompass the clinical and pathological phenotypes (described in a simple and clear manner), the mode of inheritance, and the mutated gene. We think that the denomination of the different subtypes could be simplified considerably, although any new proposal of classification of muscular disorders will need to be discussed in the neurological and genetic communities.

Pathology of Nerve Biopsy and Diagnostic Yield of PCR-Based Clonality Testing in Neurolymphomatosis

Infiltration of the peripheral nervous system (PNS) by lymphoma, called neurolymphomatosis, is a rare condition among the spectrum of lymphoma-associated neuropathies; its diagnosis is challenging. Cerebrospinal fluid (CSF) analysis is of great value, but nerve biopsy (NB) may be necessary to prove invasion by malignant cells. Clonality polymerase chain reaction (PCR)-based analysis is a validated method in the diagnosis of hematological malignancies, but there are very little data on its diagnostic yield on NB samples. We explored the contribution of NB with clonality analysis to the diagnosis of neurolymphomatosis in 15 patients with negative CSF analysis. Moreover, we assessed the performance of clonality testing in a case-control manner, using patients with inflammatory infiltrates on NB as controls. Neurolymphomatosis was the first manifestation of lymphoma in 60% and could be diagnosed on routine histology alone in 40%. Clonality testing showed monoclonal rearrangement in 86.7% and was unsuccessful in 8.1%. Performance of clonality testing was as follows: 92.9% positive predictive value, 90% negative predictive value, 86.7% sensitivity, 94.7% specificity. This study confirms the diagnostic challenge of neurolymphomatosis, the usefulness of NB in patients with negative CSF analysis, and highlights the high yield of PCR-based clonality testing to assess the malignant nature of PNS lymphoid infiltrates.

Skin Biopsy Findings in Patients With CMT1A: Baseline Data From the CLN-PXT3003-01 Study Provide New Insights Into the Pathophysiology of the Disorder

Charcot-Marie-Tooth disease type 1A (CMT1A), the most common form of Charcot-Marie-Tooth diseases, is a demyelinating neuropathy caused by a deletion encompassing the gene coding for PMP22, a myelin protein of the peripheral nervous system. Although myelinated fibers are mostly involved in CMT1A, some patients experience neuropathic pain. We thus investigated whether unmyelinated fibers are lost in CMT1A. Skin biopsies were taken from the distal portion of the leg of 80 patients with CMT1A as part of the PXT30003-01 study and processed for quantification of intraepidermal nerve fiber density (IENFD). Mean IENFD was significantly lower in CMT1A patients than in healthy controls. Although the data were highly dispersed, IENFD tended to decrease with age and was higher overall in female patients and controls than male patients and controls. This study shows that small nerve fibers are affected in CMT1A and that this correlates with pin sensitivity. The density of epidermal Langerhans cells (LCs) was also significantly reduced in CMT1A patients, suggesting the involvement of LCs in neuropathic pain processes. These findings raise several questions concerning the interactions of Schwann cells and LCs with unmyelinated fibers in CMT1A. Moreover, they suggest that factors other than PMP22 gene dosage are involved in small fiber pathology in CMT1A.

Value of nerve biopsy in the management of peripheral neuropathies

ABSTRACT Introduction: Peripheral neuropathy is a common symptom throughout the population, with numerous possible etiologies. The diagnosis of peripheral neuropathies (and their causes) is mainly based on clinical, electrophysiological, biological, and imaging features. Areas covered: This paper reviews the main causes of neuropathy and discusses the usefulness of nerve biopsy (NB) in such cases. Expert commentary: In most cases, NB is not mandatory in the diagnostic work-up of a peripheral neuropathy. However, NB is clearly an indication in cases of vasculitis. It is also valuable in peripheral neuropathies with severe and rapid worsening (without clear cause) in order to uncover a pathological hallmark (amyloid deposits). Although NB is considered an invasive method, it may be useful in the management of peripheral neuropathy, especially to guide treatment in certain cases. In summary, although NB is not a systematic procedure, it is a useful tool that should be discussed on a case-by-case basis within the clinical context.

Assessing sudomotor impairment in patients with peripheral neuropathy: Comparison between electrochemical skin conductance and skin biopsy

OBJECTIVE Sudoscan provides a rapid assessment of sudomotor function based on the measurement of electrochemical skin conductance (ESC), which is thought to be proportional to small nerve fibres innervating the sweat glands. However, the relationship between ESC and small nerve fibre density on skin biopsy remains unclear. METHODS In a retrospective single-centre study, we compared ESC measurements with autonomic sweat gland nerve fibre density (SGNFD) and somatic intraepidermal nerve fibre density (IENFD) in patients with polyneuropathy. RESULTS 63 patients were included (mean age: 60.6 ± 13.3 years). ESC was more strongly correlated with SGNFD (r = 0.49; p = 0.0005) than with IENFD (r = 0.42; p = 0.0005). Foot ESC was lower in patients with abnormal SGNFD (1.0 ± 0.3 µS/kg versus 0.7 ± 0.4 µS/kg; p = 0.0419) or abnormal IENFD (1.1 ± 0.3 µS/kg versus 0.8 ± 0.3 µS/kg; p = 0.0425). CONCLUSION ESC measurement is a novel method of potential value for assessing sudomotor function. More studies are required to define its place beside ancient well-established techniques. SIGNIFICANCE The weak correlation of ESC with skin biopsy results suggests that mechanisms other than the loss of innervating fibres may be responsible for sweat gland dysfunction in polyneuropathies.