Fatigue in patients with hereditary neuropathy with liability to pressure palsies

OBJECTIVE

Hereditary Neuropathy with Liability to Pressure Palsies (HNPP) is caused by a heterozygous deletion of peripheral myelin protein-22 (PMP22) gene resulting in focal sensorimotor deficits. Our lab has identified a disruption of myelin junctions in excessively permeable myelin that impairs action potential propagation. This mechanism is expected to cause fatigue in patients with HNPP. Therefore, the objective was to characterize fatigue in patients with HNPP and determine the relationship of fatigue to nerve pathology, disability, and quality of life.

METHODS

Nine females with HNPP participated in a single visit that included genotyping, nerve conduction studies, neurological exam, quantitative magnetic resonance imaging, and a physical therapy exam incorporating upper and lower extremity function and survey measures of fatigue. This visit was followed by 2 weeks of ecological momentary assessment (wrist-worn device) that captured fatigue ratings five times per day.

RESULTS

Participants demonstrated mild neurological impairment (CMTNS: 5.7 ± 2.8), yet reported high fatigue levels (average fatigue intensity over 2 weeks: 5.9 out of 10). Higher fatigue levels were associated with poorer quality of life and more pain. Higher fatigue was associated with significantly greater distal nerve proton density changes on peripheral nerve MRI, which is in line with hyper-permeable myelin in HNPP.

INTERPRETATION

Fatigue is common and severe among patients with HNPP whose disabilities are minimal by conventional outcome measures. Therapeutic interventions targeting fatigue have the potential to improve quality of life and may serve as a robust outcome measure to show longitudinal changes for patients with HNPP.

Compression neuropathy of common peroneal nerve caused by a popliteal cyst: A case report

RATIONALE

Popliteal cyst developing in the sheath of a peripheral nerve or joint capsule may cause compression neuropathy. Although popliteal cyst is very common lesion, it seldom causes serious complications. Common peroneal nerve compression is rarely caused by an extraneural popliteal cyst.

PATIENT CONCERNS

We presented the case of a 52-year-old female with common peroneal nerve compression caused by an extraneural popliteal cyst.

DIAGNOSES

Electromyography showed the damage of common peroneal nerve. MRI magnetic resonance imaging showed the lump to be a popliteal cyst. She was diagnosed as peroneal nerve injury and popliteal cyst.

INTERVENTIONS

The patient was performed peroneal nerve decompression and popliteal cyst excision surgery. We excised the cyst completely and soluted the common peroneal nerve thoroughly. The cyst was filled with thick mucinous material.

OUTCOMES

The pathological report showed that the excised mass was a popliteal cyst. There were no postoperative complications. Pain and hypoesthesia resolved 6 months after surgery.

LESSONS

In this case, compression of the common peroneal nerve was due to an extraneural popliteal cyst, a situation rarely encountered. MRI can show in better detail their size and internal contents as well as their relation with surrounding anatomic structures. Patients with nerve entrapment caused by enlarged or ruptured cysts must be microsurgically excised if symptomatic.

[Clinical and epidemiological characteristics of hereditary motor-sensory neuropathy 1X caused by the mutation c. 259C> G (p. P87A) in the GJB1 gene of patients from the Republic of Bashkortostan]

BACKGROUND

Hereditary motor-sensory neuropathy 1X (НМСН 1X) is the second frequent form of hereditary motor-sensory neuropathies caused by mutations in the GJB1 gene (gap junction B1 type). The authors have established earlier that the с.259C>G (р.P87A) mutation is the most frequent cause of НМСН 1Х (92%) in patients from the Republic of Bashkortostan.

AIM

To study in details the territorial ethnic distribution and clinical manifestations of the с.259C>G (р.P87A) in the GJB1 gene in patients with НМСН 1Х from the Republic of Bashkortostan.

MATERIAL AND METHODS

Clinical/neurological data were assessed in 52 patients (32 men and 20 women) from 13 families with this НМСН 1Х mutation in accordance to the diagnostic criteria of the European neuromuscular center. Twenty-three patients underwent standard electroneuromyographic study ('Nicolet Viking quest') using cutaneous electrodes. Data analysis was performed with Statistica ver.6.0 ('Stat Soft, Inc.', 2003) software.

RESULTS

The с.259C>G (р.P87A) mutation was more frequent in Bashkir (61%) and Russian (31%) families from 6 areas of the Republic of Bashkortostan. The age-at-onset was 13.24±4.33 years in men. In women, the age-at-onset varied from 7 to 45 years, it was difficult to detect this parameter in several patients due to the absence of complaints and symptoms of disease. A comparative analysis revealed the higher degree of peripheral nerve lesions in men compared to women. There was the distinct difference in electrophysiological parameters (excitation spreading velocity and M-response amplitude) along motor fibers of the middle nerves between men and women that indicated the predominantly demyelinating character of the pathological process in men and the axonal character in women.

CONCLUSION

Clear clinical/electrophysiological sex differences (intra- and inter family) were shown in patients with НМСН IX with the с.259C>G (р.P87A) mutation in the GJB1 gene. The disease was less severe and often with the absence of symptoms in women. Genetic testing for mutations in the GJB1 gene, including the с.259C>G (р.P87A) mutation, can be recommended to female patients with excitation spreading velocity >38m/s.

Towards a functional pathology of hereditary neuropathies

A growing number of hereditary neuropathies have been assigned to causative gene defects in recent years. The study of human nerve biopsy samples has contributed substantially to the discovery of many of these neuropathy genes. Genotype-phenotype correlations based on peripheral nerve pathology have provided a comprehensive picture of the consequences of these mutations. Intriguingly, several gene defects lead to distinguishable lesion patterns that can be studied in nerve biopsies. These characteristic features include the loss of certain nerve fiber populations and a large spectrum of distinct structural changes of axons, Schwann cells and other components of peripheral nerves. In several instances the lesion patterns are directly or indirectly linked to the known functions of the mutated gene. The present review is designed to provide an overview on these characteristic patterns. It also considers other aspects important for the manifestation and pathology of hereditary neuropathies including the role of inflammation, effects of chemotherapeutic agents and alterations detectable in skin biopsies.

Genetic heterogeneity of motor neuropathies

OBJECTIVE

To study the prevalence, molecular cause, and clinical presentation of hereditary motor neuropathies in a large cohort of patients from the North of England.

METHODS

Detailed neurologic and electrophysiologic assessments and next-generation panel testing or whole exome sequencing were performed in 105 patients with clinical symptoms of distal hereditary motor neuropathy (dHMN, 64 patients), axonal motor neuropathy (motor Charcot-Marie-Tooth disease [CMT2], 16 patients), or complex neurologic disease predominantly affecting the motor nerves (hereditary motor neuropathy plus, 25 patients).

RESULTS

The prevalence of dHMN is 2.14 affected individuals per 100,000 inhabitants (95% confidence interval 1.62-2.66) in the North of England. Causative mutations were identified in 26 out of 73 index patients (35.6%). The diagnostic rate in the dHMN subgroup was 32.5%, which is higher than previously reported (20%). We detected a significant defect of neuromuscular transmission in 7 cases and identified potentially causative mutations in 4 patients with multifocal demyelinating motor neuropathy.

CONCLUSIONS

Many of the genes were shared between dHMN and motor CMT2, indicating identical disease mechanisms; therefore, we suggest changing the classification and including dHMN also as a subcategory of Charcot-Marie-Tooth disease. Abnormal neuromuscular transmission in some genetic forms provides a treatable target to develop therapies.

Hereditary Neuropathy With Liability to Pressure Palsies: Diverse Phenotypes in Childhood

Hereditary neuropathy with liability to pressure palsies (HNPP) is a rare autosomal-dominant disorder that most commonly produces recurrent painless focal sensory and motor neuropathies often preceded by minor, mechanical stress, or minor trauma. Herein, we report 2 pediatric cases of HNPP with atypical presentations; isolated muscle cramping and toe walking. Electrophysiologic testing disclosed multifocal sensorimotor polyneuropathy with slowing of sensory conduction velocities in both cases, which prompted PMP 22 gene deletion testing. Multifocal sensorimotor electrophysiologic abnormalities, with slowing of sensory conduction velocities should raise consideration of HNPP in childhood. These case reports emphasize that the diagnosis of HNPP in children requires a high index of suspicion.

DTI Study of Cerebral Normal-Appearing White Matter in Hereditary Neuropathy With Liability to Pressure Palsies (HNPP)

The majority of previous studies on hereditary neuropathy with liability to pressure palsies (HNPP) were focused on peripheral nerves, whereas cerebral alterations in HNPP have been less attended to. In this work, Diffusion tensor imaging (DTI) was used to detect the changes in WM, especially in the normal-appearing white matter (NAWM) in HNPP patients for its sensitivity in probing the microstructure of WM, the sensitive metric was searched for probing cerebral alterations and the regional distribution of cerebral abnormalities was identified. Twelve HNPP patients and 12 age- and gender-matched healthy controls underwent the conventional MRI, DTI scan, and electrophysiological examination. The conventional MRI images were first analyzed to identify abnormal intense regions and the NAWM regions. NAWM refers to the white matter regions that do not include the lesions on conventional MRI. The apparent diffusion coefficient and fractional anisotropy (FA) values of the NAWM were then measured and compared between patient and control groups. The sensitivity and specificity of 3 methods and the cerebral regional distribution of MR signal abnormalities were further analyzed. Hyperintense foci were observed on T2 weighted image and fluid attenuated inversion recovery images in 6 patients. Compared to the controls, FA values of the patients were significantly lower in bilateral frontal, orbitofrontal, and temporal NAWMs; whereas the electrophysiological examination results of patients and controls exhibited no statistically significant difference. The sensitivity of FA value was higher than that of electrophysiological examination and conventional MRI. The majority of abnormal signals on conventional MRI images and abnormal FA values were located in the frontal and temporal lobes. The results of our study show cerebral WM changes in HNPP patients. FA value in DTI has been shown to be sensitive to the cerebral microstructural changes in HNPP. The frontal lobe is the predilection site that is most involved in HNPP.

[Analysis of the clinical, electrophysiological and genetic features of a family affected with hereditary neuropathy with liability to pressure palsies]

OBJECTIVE

To delineate the clinical, electrophysiological and genetics features of a family where 4 members were affected with hereditary neuropathy with liability to pressure palsies (HNPP).

METHODS

Clinical features of the 4 patients were summarized. Electrophysiological examination and genetic analysis were carried out.

RESULTS

All of the patients showed recurrent motor and sensory disturbances after minor traction or constriction. Electrophysiology study revealed that the prolonged latency and reduced conduction velocity of peripheral nerve were general and with multiple sites of affection. The nerve locations liable to entrapment showed conduction block. A deletion mutation of peripheral myelin protein 22 (PMP22) gene was identified by genetic analysis.

CONCLUSION

HNPP usually affects areas where nerves are liable to entrapment, and presents with motor and sensory disturbances of the innervated areas. Electrophysiological study reveals general nervous demyelination. Genetic analysis can clarify the diagnosis of HNPP.

[Two cases of hereditary motor and sensory neuropathy with proximal dominant involvement (HMSN-P)]

We, herein, report two independent cases with hereditary motor and sensory neuropathy with proximal dominant involvement (HMSN-P) inherited in an autosomal dominant fashion. Their common clinical features are slowly progressive proximal dominant muscular atrophy, fasciculations and mild to moderate distal sensory disturbance with areflexia. Nerve conduction study revealed an absence of sensory nerve action potentials, in contrast to almost normal compound muscle action potentials. Gene analysis in both patients elucidated heterozygous mutation (c.854C>T, p.Pro285Leu) in the TFG, which is an identical mutation, already described by Ishiura et al. Okinawa and Shiga are two foci of HMSN-P in Japan. Eventually, one patient is from Okinawa and the other is from a mountain village in Shiga prefecture. When we see a patient who has symptoms suggestive of motor neuron disease with sensory neuropathy, HMSN-P should be considered as a differential diagnosis despite the patient's actual resident place.

Small amounts of functional ATP7A protein permit mild phenotype

Mutations in ATP7A lead to at least three allelic disorders: Menkes disease (MD), Occipital horn syndrome and X-linked distal motor neuropathy. These disorders are mainly seen in male individuals, but a few affected females have been described. More than 400 different mutations have been identified in the ATP7A gene. We have conducted several studies in the hope of uncovering the relationship between genotype and phenotype. We have examined the X-inactivation pattern in affected females, the effect of exon-deletions and--duplications, and splice-site mutations on the composition and amount of ATP7A transcript, and we have examined the structural location of missense mutations. The X-inactivation pattern did not fully explain the manifestation of MD in a small fraction of carriers. Most of the affected females had preferential inactivation of the X-chromosome with the normal ATP7A gene, but a few individuals exhibited preferential inactivation of the X-chromosome with the mutated ATP7A gene. The observed mild phenotype in some patients with mutations that effect the composition of the ATP7A transcript, seems to be explained by the presence of a small amount of normal ATP7A transcript. The location of missense mutations on structural models of the ATP7A protein suggests that affected conserved residues generally lead to a severe phenotype. The ATP7A protein traffics within the cells. At low copper levels, ATP7A locates to the Trans-Golgi Network (TGN) to load cuproenzymes with copper, whereas at higher concentrations, ATP7A shifts to the post-Golgi compartments or to the plasma membrane to export copper out of the cell. Impaired copper-regulation trafficking has been observed for ATP7A mutants, but its impact on the clinical outcome is not clear. The major problem in patients with MD seems to be insufficient amounts of copper in the brain. In fact, prenatal treatment of mottled mice as a model for human MD with a combination of chelator and copper, produces a slight increase in copper levels in the brain which perhaps leads to longer survival and more active behavior. In conclusion, small amounts of copper at the right location seem to relieve the symptoms.

Ultrasonographic findings in hereditary neuropathy with liability to pressure palsies

OBJECTIVES

The aims of this study were to evaluate the sonographic findings of patients with hereditary neuropathy with liability to pressure palsies (HNPP) and to examine the correlation between sonographic and electrophysiological findings.

METHODS

Nine patients whose electrophysiological findings indicated HNPP and whose diagnosis was confirmed by genetic analysis were enrolled in the study. The median, ulnar, peroneal, and tibial nerves were evaluated by ultrasonography.

RESULTS

We ultrasonographically evaluated 18 median, ulnar, peroneal, and tibial nerves. Nerve enlargement was identified in the median, ulnar, and peroneal nerves at the typical sites of compression. None of the patients had nerve enlargement at a site of noncompression. None of the tibial nerves had increased cross-sectional area (CSA) values. There were no significant differences in median, ulnar, and peroneal nerve distal motor latencies (DMLs) between the patients with an increased CSA and those with a normal CSA. In most cases, there was no correlation between electrophysiological abnormalities and clinical or sonographic findings.

DISCUSSION

Although multiple nerve enlargements at typical entrapment sites on sonographic evaluation can suggest HNPP, ultrasonography cannot be used as a diagnostic tool for HNPP. Ultrasonography may contribute to the differential diagnosis of HNPP and other demyelinating polyneuropathies or compression neuropathies; however, further studies are required.

Compression and entrapment neuropathies

Peripheral nerve entrapments are frequent. They usually appear in anatomical tunnels such as the carpal tunnel. Nerve compressions may be due to external pressure such as the fibular nerve at the fibular head. Malignant or benign tumors may also damage the nerve. For each nerve from the upper and lower limbs, detailed clinical, electrophysiological, imaging, and therapeutic aspects are described. In the upper limbs, carpal tunnel syndrome and ulnar neuropathy at the elbow are the most frequent manifestations; the radial nerve is less frequently involved. Other nerves may occasionally be damaged and these are described also. In the lower limbs, the fibular nerve is most frequently involved, usually at the fibular head by external compression. Other nerves may also be involved and are therefore described. The clinical and electrophysiological examination are very important for the diagnosis, but imaging is also of great use. Treatments available for each nerve disease are discussed.

Coenzyme Q10 therapy in hereditary motor sensory neuropathy type VI with novel mitofusin 2 mutation

Hereditary motor sensory neuropathy type VI (HMSN VI) is hereditary neuropathy accompanied by optic neuropathy. The feasibility of Coenzyme Q10 (CoQ10) as a treatment for subacute visual impairment of HMSN VI was examined. A 37-year-old patient with HMSN VI with a novel mitofusin 2 mutation was treated with high dose of CoQ10 (200 mg/day) for eight months. Visual impairment was partially resolved after CoQ10 therapy. High dose CoQ10 therapy may improve the prognosis of subacute visual impairment in HMSN VI. To confirm the effectiveness of CoQ10 on HMSN VI, further studies are needed.

A report of hereditary neuropathy with liability to pressure palsy (HNPP) presenting with brachial plexopathy: the value of complete electrodiagnostic testing

Patients with hereditary neuropathy with liability to pressure palsy (HNPP) typically present with a mononeuropathy (particularly peroneal or ulnar palsy) or a brachial plexopathy. Careful electrodiagnostic testing has an important role in establishing the diagnosis of HNPP differentiating this condition from other inherited or acquired neuropathies as well as obviating the need for unnecessary surgeries. We present a case of a patient who presented with a painless brachial plexopathy who was found to have multiple sites of segmental demyelination on nerve conduction studies, consistent with HNPP. We review the clinical and electrodiagnostic features of HNPP including the key electrodiagnostic findings to screen for this disorder.

Reduced penetrance in hereditary motor neuropathy caused by TRPV4 Arg269Cys mutation

Incomplete penetrance has rarely been reported in Charcot-Marie-Tooth disease. Our aim is to describe reduced penetrance in a hereditary motor neuropathy pedigree due to mutation in the transient receptor potential vallinoid 4 (TRPV4) gene. The pedigree comprised two affected members, the proband aged 44 years and her affected daughter aged 7 years, and seven additional related subjects, three of whom were subclinical gene mutation carriers aged 9, 40 and 70 years. Clinico-electrophysiological studies, MRI of lower-limb musculature and genetic testing of the TRPV4 were performed. The proband presented with a moderate facio-scapulo-peroneal syndrome, whereas her symptomatic daughter suffered from severe congenital spinal muscular atrophy with arthrogryposis, laryngomalacia, and vocal cord paresis. Electrophysiological evaluation revealed a pure motor axonal neuropathy. In the proband, MRI showed extensive and widespread fatty atrophy of lower-leg musculature, whereas in thigh musculature there was just mild distal fatty infiltration of vastus lateralis. Genetic testing revealed a heterozygous Arg269Cys mutation in the TPRV4 gene. In all three mutation carriers results from clinical and electrophysiological examination, and MRI of foot and lower-leg musculature were normal. We conclude that non-penetrance may be an integral feature of neuropathic syndromes associated with TRPV4 gene mutation.

[Hereditary motor and sensory neuropathy type 4A]

The first in the Russian Federation clinical cases of patients with autosomal-recessive type of hereditary motor and sensory neuropathy, type 4A, (HMSN 4A) are presented. In all cases, the diagnosis has been verified using molecular-genetic methods (DNA diagnostics). An analysis of features of clinical manifestations was performed in patients, aged from 5 to 34 years, with different disease duration (from 3-to 29 years). Criteria of selection of patients for DNA diagnostics for searching mutations in the GDAP1 gene are specified.

Hereditary neuropathies

PURPOSE OF REVIEW

The purpose of this review is to help neurologists understand new concepts in hereditary neuropathies, from the clinician's point of view, in the molecular era after the burst of information regarding peripheral nerve biology.

RECENT FINDINGS

Recent studies have focused on understanding the pathomechanisms involved in hereditary neuropathies. In the past year identification of new genes has slowed down since scientists have concentrated more on the function of genes causing Charcot-Marie-Tooth disease and Schwann cell-axon interactions to reveal the molecular cell biology of the disease. Animal models for the most common subtypes of human Charcot-Marie-Tooth disease are now available.

SUMMARY

Rapid advances in the molecular genetics and cell biology of hereditary neuropathies have highlighted the great genetic complexity of Charcot-Marie-Tooth disease. The evolution from a simple clinical classification to a complex molecular one has not facilitated our understanding of the disease. Moreover, the new molecular classification is not simple to use as different mutations of the same gene produce a range of phenotypes. The clinicians have to look for specific clinical and electrophysiological clues to direct the patient to appropriate genetic testing.

[Clinical report of hereditary motor and sensory neuropathy with proximal dominance in Shiga prefecture]

We followed eight hereditary motor and sensory neuropathy patients with proximal dominance (HMSN-P) in Shiga prefecture from 1984 to 2007. There were 4 men and 4 women from two families showing autosomal and dominant prepotency. These families were related by marriage. The average onset of disease was at 53.4 +/- 8.9 (40-68) years-old. Initial symptoms were difficulty of standing up, difficulty elevating their arms, limping, or numbness. The main feature was neurogenic muscular atrophy with proximal dominance. All deep tendon reflexes were decreased or nonexistent. Paresthesia in the hands and feet and/or decreased vibratory sense in the legs were found in six patients. High CK blood levels were recognized in three patients. EMG in four patients revealed neurogenic pattern. Nerve conduction study was conducted in two patients. MCV of the median nerve and of the tibial posterior nerve, also SCV of the median nerve and of the sural nerve were within normal range in all nerves. Amplitudes of sensory action potential or of M wave were decreased or nonexistent in five of eight nerves, and distal latency of M waves was delayed in three of four nerves. These data suggests dysfunction of distal parts of the peripheral nerve fibers and axonal degeneration of the nerve trunk. Seven patients have died, and their average death age was 69.1 +/- 8.2 (52-77) years-old. Their average affected period was 16.6 (4-30) years. Their clinical history resembles Okinawa-type HMSN-P, but without the painful muscle cramps which are distinctive Okinawa-type signs.

Functional, histopathologic and natural history study of neuropathy associated with EGR2 mutations

Mutations in the EGR2 gene cause a spectrum of Charcot-Marie-Tooth disease and related inherited peripheral neuropathies. We ascertained ten consecutive patients with various EGR2 mutations, report a novel de novo mutation, and provide longitudinal clinical data to characterize the natural history of the peripheral neuropathy. We confirmed that respiratory compromise and cranial nerve dysfunction are commonly associated with EGR2 mutations and can be useful in guiding molecular diagnosis. We also contrast morphological studies in the context of the I268N homozygous recessive mutation affecting the NAB repressor binding site and the R359W dominant-negative mutation in the zinc-finger domain.

Inherited focal, episodic neuropathies: hereditary neuropathy with liability to pressure palsies and hereditary neuralgic amyotrophy

Hereditary neuropathy with liability to pressure palsies (HNPP; also called tomaculous neuropathy) is an autosomal-dominant disorder that produces a painless episodic, recurrent, focal demyelinating neuropathy. HNPP generally develops during adolescence, and may cause attacks of numbness, muscular weakness, and atrophy. Peroneal palsies, carpal tunnel syndrome, and other entrapment neuropathies may be frequent manifestations of HNPP. Motor and sensory nerve conduction velocities may be reduced in clinically affected patients, as well as in asymptomatic gene carriers. The histopathological changes observed in peripheral nerves of HNPP patients include segmental demyelination and tomaculous or "sausage-like" formations. Mild overlap of clinical features with Charcot-Marie-Tooth (CMT) disease type 1 (CMT1) may lead patients with HNPP to be misdiagnosed as having CMT1. HNPP and CMT1 are both demyelinating neuropathies, however, their clinical, pathological, and electrophysiological features are quite distinct. HNPP is most frequently associated with a 1.4-Mb pair deletion on chromosome 17p12. A duplication of the identical region leads to CMT1A. Both HNPP and CMT1A result from a dosage effect of the PMP22 gene, which is contained within the deleted/duplicated region. This is reflected in reduced mRNA and protein levels in sural nerve biopsy samples from HNPP patients. Treatment for HNPP consists of preventative and symptom-easing measures. Hereditary neuralgic amyotrophy (HNA; also called familial brachial plexus neuropathy) is an autosomal-dominant disorder causing episodes of paralysis and muscle weakness initiated by severe pain. Individuals with HNA may suffer repeated episodes of intense pain, paralysis, and sensory disturbances in an affected limb. The onset of HNA is at birth or later in childhood with prognosis for recovery usually favorable; however, persons with HNA may have permanent residual neurological dysfunction following attack(s). Episodes are often triggered by infections, immunizations, the puerperium, and stress. Electrophysiological studies show normal or mildly prolonged motor nerve conduction velocities distal to the affected brachial plexus. Pathological studies have found axonal degeneration in nerves examined distal to the plexus abnormality. In some HNA pedigrees there are characteristic facial features, including hypotelorism. The prognosis for recovery of normal function of affected limbs in HNA is good, although recurrent episodes may cause residual deficits. HNA is genetically linked to chromosome 17q25, where mutations in the septin-9 (SEPT9) gene have been found.

A Japanese family with early-onset ataxia with motor and sensory neuropathy

We report the case of a Japanese family with hereditary ataxia with peripheral neuropathy. Three affected siblings from this family exhibited very similar clinical features: teenage-onset, slowly progressive ataxia, followed by distal weakness, which developed after the age of 30 years. Magnetic resonance imaging studies showed marked atrophy in the cerebellar hemisphere and vermis, and a sural nerve biopsy revealed a marked reduction in the number of both myelinated and unmyelinated fibers. All patients exhibited hyperglutamatemia, but serum levels of albumin and lipid were normal. The clinicopathological and biochemical features of these cases suggest that they form a distinct entity of autosomal recessive hereditary ataxia with peripheral neuropathy.

Molecular genetics of hereditary sensory neuropathies

Hereditary sensory neuropathies (HSN), also known as hereditary sensory and autonomic neuropathies (HSAN), are a clinically and genetically heterogeneous group of disorders. They are caused by neuronal atrophy and degeneration, predominantly affecting peripheral sensory and autonomic neurons. Both congenital and juvenile to adulthood onset is possible. Currently, the classification of the HSN depends on the mode of inheritance, age at onset, and clinical presentation. Hallmark features are progressive sensory loss, chronic skin ulcers, and other skin abnormalities. Spontaneous fractures and neuropathic arthropathy are frequent complications and often necessitate amputations. Autonomic features vary between different subgroups. Distal muscle weakness and wasting may be present and is sometimes so prominent that it becomes difficult to distinguish HSN from Charcot-Marie-Tooth syndrome. Recent major advances in molecular genetics have led to the identification of seven gene loci and six-disease causing genes for autosomal-dominant and autosomal-recessive HSN. These genes have been shown to play roles in lipid metabolism and the regulation of intracellular vesicular transport, but also a presumptive transcriptional regulator, a nerve growth factor receptor, and a nerve growth factor have been described among the causative genes in HSN. Nevertheless, it remains unclear how mutations in the known genes lead to the phenotype of HSN. In this review, we summarize the recent progress of the molecular genetics of the HSN and the implicated genes.

Early-onset hereditary neuropathy with liability to pressure palsy

The clinical onset of hereditary neuropathy with liability to pressure palsy (HNPP) in childhood is rarely reported. On the basis of a 5-year-old affected patient, we reviewed the cases reported in the literature to evaluate the clinical and genetic characteristics of patients with an early onset (<10 years) of HNPP.

[Hereditary motor and sensory Lom-neuropathy--first Hungarian case report]

Hereditary motor and sensory neuropathy-Lom is an autosomal recessive disorder of the peripheral nervous system, which occurs only in the european Roma population. The symptoms start in the first decade with slowly progressive gait disturbance, weakness and wasting of distal upper extremity muscles, joint deformities and hearing loss develop later in the second and third decades. This disorder is caused by a homozygous missense mutation of the NDRG1 gene, located in the 8q24 region. The Schwann cell dysfunction is most probably caused by altered lipid metabolism as a consequence of the NDRG1 mutation. Molecular genetic testing can be a first diagnostic step among roma individuals showing a Lom neuropathy phenotype, making evaluation of such patients and also genetic counselling faster and easier. Screening for hereditary neuromuscular disorders in this genetically isolated community may become an important public health issue in the near future.

CNS involvement in hereditary neuropathy with pressure palsies (HNPP)

We assessed seven patients with hereditary neuropathy with liability to pressure palsies (HNPP) with 16 electrophysiological tests and cranial MRI for CNS abnormalities. Mean latencies differed between patients with HNPP and controls for the blink reflex, the jaw-opening reflex, and acoustic evoked potentials. MRI abnormalities were observed in four patients. Our study suggests subclinical but functionally relevant CNS myelin damage in HNPP.

Macrophage colony stimulating factor is a crucial factor for the intrinsic macrophage response in mice heterozygously deficient for the myelin protein P0

Mouse mutants heterozygously deficient for the myelin protein P0 (P0+/-) resemble certain forms of human hereditary neuropathies. Endoneurial macrophages of intrinsic origin are intimately involved in the pathogenesis of the demyelinating neuropathy in these mutants. We have previously shown that deficiency for macrophage colony stimulating factor (M-CSF) prevents an increase of the number of endoneurial macrophages and alleviates the mutants' demyelinating phenotype. The aim of this study was to investigate which population of endoneurial macrophages - long-term resident macrophages or recently infiltrated macrophages - is affected by M-CSF deficiency. For this purpose, we generated bone marrow chimeric mice by transplanting GFP+ bone marrow into P0 mutants (P0+/-) and P0 mutants that lack M-CSF (P0+/- mcsf-op). This enabled us to discriminate recently infiltrated short-term resident GFP+ macrophages from long-term resident GFP- macrophages. Three months after bone marrow transplantation, P0+/- mice expressing M-CSF showed a substantial upregulation and activation of both GFP- and GFP+ macrophages in femoral nerves when compared to P0+/+ mice. In contrast, in P0+/- mcsf-op mutants, both GFP- and GFP+ macrophages did not substantially increase. Only small numbers of GFP+ but no GFP- macrophages were activated and phagocytosed myelin in chimeric P0+/- mcsf-op mutants, possibly reflecting recent activation outside the endoneurium before entering the nerve. Our findings demonstrate that M-CSF is crucial for the activation, in situ increase and myelin phagocytosis of both long-term and short-term resident endoneurial macrophages in P0+/- myelin mutants. M-CSF is, therefore, considered as a target candidate for therapeutic strategies to treat human demyelinating neuropathies.

Bilateral hand amyotrophy with PMP-22 gene deletion

Hereditary neuropathy with liability to pressure palsies (HNPP) phenotypes are heterogeneous. We report the case of a 52-year-old woman without medical history, who complained of bilateral hand weakness suggestive first of a motor neuron disorder. The presence of a diffuse predominant distal demyelinating neuropathy suggested a deletion of PMP-22 gene, which was confirmed by genetic analysis. This case report underlines a novel phenotype related to the deletion of PMP-22 gene.

[Multifocal motor neuropathies with conduction block: long-term follow-up of ten patients treated with IVIg]

Multifocal motor neuropathy (MMN) with conduction block responds to high-dose i.v. polyvalent immunoglobulins (IVIg) over the short term, but several studies have demonstrated a long-term increase in the degree of axonal degeneration and the number of conduction blocks, factors indicating a poor prognosis. The objective of this study was to evaluate the long-term effect of IVIg on clinical and neurophysiological parameters.

METHODS

We reviewed the records of ten patients who had initially responded well to IVIg and received regular, long-term treatment. The parameters studied were muscular strength, motor function status (modified Rankin scale), as well as the number and progression of conduction blocks and the degree of axonal degeneration. Patients were followed up for a mean of 7.25 years (range, 3.5-12). They were all initially treated with 2 g IgIV/kg in 5 days every 4 weeks for 3 months. Maintenance therapy was administered every 4 weeks with dose adjustment to prevent muscular strength deterioration.

RESULTS

We noted a significant and persistent improvement in muscular strength and in the Rankin motor function score over the long term, with no escape phenomenon. The number of conduction blocks and the degree of axonal degeneration decreased markedly.

CONCLUSION

IVIg treatment remains effective over the long term in MMN. These conclusions differ from those of other authors in earlier studies, but our patients were treated with significantly higher doses of IVIg. These results have important implications for long-term treatment of patients with MMN.

[Treatment of multifocal motor neuropathies with conduction block in France in 2005. Results of a national opinion survey]

INTRODUCTION

The epidemiology of multifocal motor neuropathies (MMNs) is unknown. Prevalence is estimated at 1-2/100,000 population.

METHODS

The objective of this study was to gain knowledge on MMN diagnosis and treatment in metropolitan France. An opinion survey was conducted by SOFRES from November 2004 to March 2005 on 4,040 hospital and private practice physicians (215 interviewed directly and 3,825 contacted only by mail) using two questionnaires (one for hospital physicians [HPs] and the other for physicians working for the most part in private practice [PPPs]). SOFRES received 424 questionnaires, 392 of which were included in the study, 32 having been excluded for incomplete responses, giving a high response rate for this type of survey.

RESULTS

The 392 responses were made up of 296 for the HPs and 96 for the PPPs. The HPs were neurologists (56 percent), followed by internists (23 percent), and rheumatologists (13 percent), while the PPPs were nearly all neurologists (96 percent). One of the most interesting results was the number of patients seen during a physician's career: 1,964, comprising 1,557 for the HPs, and 407 for the PPPs. The responses describing care in terms of diagnosis and treatment generally complied with good practices as well as the recommendations and guidelines published in the field of MMN.

CONCLUSION

MMN is a rare disorder whose prevalence in France, estimated by this survey, comes close to that published in the literature; diagnosis and treatment seem globally satisfactory.

[A motor function measurement scale for neuromuscular diseases - description and validation study]

A new scale for motor function measurement has been developed for neuromuscular diseases. After the study of a preliminary and a first version, the validation study included 303 patients, aged 6 to 62 years. Seventy-two patients had Duchenne muscular dystrophy, 32 Becker muscular dystrophy, 30 limb-girdle muscular dystrophy, 39 facio-scapulo-humeral dystrophy, 29 myotonic dystrophy, 21 congenital myopathy, 10 congenital muscular dystrophy, 35 spinal muscular atrophy and 35 hereditary neuropathy. The sensitivity for change was evaluated with 152 patients one year after. The scale comprised 32 items, in three dimensions: standing position and transfers, axial and proximal motor function, distal motor function. High correlations (>0.80) were found between the total score and other scores: Vignos and Brooke grades, Functional Independence Measure, the global severity of disability evaluated with visual analog scales by physicians and physiotherapists. This scale is reliable, does not require any special equipment and is well accepted by patients. It takes an average of 36 min (range 8-75) to complete the scale. Preliminary results of the second evaluation showed good sensitivity to change since last visit, considering rating by patient, investigator or physiotherapist. Also, significant differences in scores are obtained with the greatest deterioration observed in Duchenne patients.

A new POLG1 mutation with peo and severe axonal and demyelinating sensory-motor neuropathy

BACKGROUND

Progressive external ophthalmoplegia (PEO) is a mitochondrial disorder associated with defective enzymatic activities of oxidative phosphorylation (OXPHOS), depletion of mitochondrial DNA (mtDNA) and/or accumulation of mtDNA mutations and deletions. Recent positional cloning studies have linked the disease to four different chromosomal loci. Mutations in POLG1 are a frequent cause of this disorder.

METHODS

We describe two first-cousins: the propositus presented with PEO,mitochondrial myopathy and neuropathy, whereas his cousin showed a Charcot- Marie-Tooth phenotype. Neurophysiological studies, peroneal muscle and sural nerve biopsies, and molecular studies of mtDNA maintenance genes (ANT1, Twinkle, POLG1, TP) and non dominant CMT-related genes (GDAP1, LMNA, GJB1) were performed.

RESULTS

A severe axonal degeneration was found in both patients whereas hypomyelination was observed only in the patient with PEO whose muscle biopsy specimen also showed defective OXPHOS and multiple mtDNA deletions. While no pathogenetic mutations in GDAP1, LMNA, and GJB1 were found, we identified a novel homozygous POLG1 mutation (G763R) in the PEO patient. The mutation was heterozygous in his healthy relatives and in his affected cousin.

CONCLUSIONS

A homozygous POLG1 mutation might explain PEO with mitochondrial abnormalities in skeletal muscle in our propositus, and it might have aggravated his axonal and hypomyelinating sensory-motor neuropathy. Most likely, his cousin had an axonal polyneuropathy with CMT phenotype of still unknown etiology.

Polyneuropathies in teenagers: A clinicopathological study of 45 cases

The aim of the present study was to investigate the causes of polyneuropathy in teenagers and to describe some characteristic clinical, laboratory, electrophysiological and pathological features. Forty-five patients with peripheral nervous disorders aged 13-19 were studied. Hereditary polyneuropathy of different types was diagnosed in 28 patients (62%); nine showed chronic inflammatory demyelinating polyneuropathy (CIDP) and two showed vasculitic neuropathy. In two more cases polyneuropathy was attributed to toxic agents, while among the rest, one was diagnosed as metachromatic leucodystrophy (juvenile type), one as adrenoleucodystrophy, one as porphyric neuropathy and one as Fabry disease. The high incidence of hereditary neuropathies in teenagers differs from that in adults, but is similar to that encountered in children. In our study, CIDP appears to be a frequent cause of neuropathy in teenagers, while the other causes are broadly similar to those found in studies concerning children rather than adults.

Novel myelin protein zero mutation (Arg36Trp) in a patient with acute onset painful neuropathy

We present a patient with acute onset painful polyneuropathy found to have a novel MPZ mutation (Arg36Trp). The Arg36Trp mutation described in this report occurs at a putative adhesion interface. An alternative explanation for his polyneuropathy was not found and his mother was identified to have polyneuropathy and carry the same mutation. Two hundred normal controls were without this base alteration. The temporal profile of the index case may provide further indirect evidence suggesting an immune mechanism contributing to the pathogenesis of some cases of MPZ mutations. We predict that other rapid symptom onset polyneuropathies will be found to have direct genetic susceptibility.

Unraveling the genetics of distal hereditary motor neuronopathies

The hereditary motor neuronopathies (HMN [MIM 158590]) are a heterogeneous group of disorders characterized by an exclusive involvement of the motor part of the peripheral nervous system. They are usually subdivided in proximal HMN, i.e., the classical spinal muscular atrophy syndromes and distal hereditary motor neuronopathies (distal HMN) that clinically resemble Charcot-Marie-Tooth syndromes. In this review, we concentrate on distal HMN. The distal HMN are clinically and genetically heterogeneous and were initially subdivided in seven subtypes according to mode of inheritance, age at onset, and clinical evolution. Recent studies have shown that these subtypes are still heterogeneous at the molecular genetic level and novel clinical and genetic entities have been delineated. Since the introduction of positional cloning, 13 chromosomal loci and seven disease-associated genes have been identified for autosomal-dominant, autosomal-recessive, and X-linked recessive distal HMN. Most of the genes involved encode protein with housekeeping functions, such as RNA processing, translation synthesis, stress response, apoptosis, and others code for proteins involved in retrograde survival. Motor neurons of the anterior horn of the spinal cord seems to be vulnerable to defects in these housekeeping proteins, likely because their large axons have higher metabolic requirements for maintenance, transport over long distances and precise connectivity. Understanding the molecular pathomechanisms for mutations in these genes that are ubiquitous expressed will help unravel the neuronal mechanisms that underlie motor neuropathies leading to denervation of distal limb muscles, and might generate new insights for future therapeutic strategies.

Neuronal intranuclear hyaline inclusion disease showing motor-sensory and autonomic neuropathy

BACKGROUND

Neuronal intranuclear hyaline inclusion disease (NIHID), a rare neurodegenerative disease in which eosinophilic intranuclear inclusions develop mainly in neurons, has not yet been described to present as hereditary motor-sensory and autonomic neuropathy.

METHODS

Patients in two NIHID families showing peripheral neuropathy were evaluated clinically, electrophysiologically, and histopathologically.

RESULTS

In both families, patients had severe muscle atrophy and weakness in limbs, limb girdle, and face; sensory impairment in the distal limbs; dysphagia, episodic intestinal pseudoobstruction with vomiting attacks; and urinary and fecal incontinence. No patients developed symptoms suggesting CNS involvement. Electrophysiologic study showed the reduced motor and sensory nerve conduction velocities and amplitudes, and also extensive denervation potentials. In sural nerve specimens, numbers of myelinated and unmyelinated fibers were decreased. In two autopsy cases, eosinophilic intranuclear inclusions were widespread, particularly in sympathetic and myenteric ganglion neurons, dorsal root ganglion neurons, and spinal motor neurons. These neurons also were decreased in number.

CONCLUSION

Patients with neuronal intranuclear hyaline inclusion disease (NIHID) can manifest symptoms limited to those of peripheral neuropathy. NIHID therefore is part of the differential diagnosis of hereditary motor-sensory neuropathy associated with autonomic symptoms. Intranuclear hyaline inclusions in Schwann cells and in the myenteric plexus may permit antemortem diagnosis of NIHID.

BSCL2 mutations in two Dutch families with overlapping Silver syndrome-distal hereditary motor neuropathy

Mutations in the BSCL2 gene have recently been identified in families with (SPG17-linked) Silver syndrome-type hereditary spastic paraparesis as well as in families with distal hereditary motor neuropathy (HMN). We describe the first two Dutch families with BSCL2 mutations and corroborate the phenotypic variability of this gene mutation, as features compatible with Silver syndrome, variant Silver syndrome (with predominant foot rather than hand muscle involvement), distal HMN type II, or distal HMN type V were all encountered.

Dispersion of compound muscle action potential in hereditary neuropathies and chronic inflammatory demyelinating polyneuropathy

Distal compound muscle action potential (DCMAP) dispersion, defined as a DCMAP duration > or = 9 ms, and proximal-distal (P-D) CMAP dispersion are considered useful in the electrodiagnosis of chronic inflammatory demyelinating polyneuropathy (CIDP). Distal and P-D CMAP dispersion have not been fully studied in hereditary neuropathies, and it is not known whether these measures distinguish hereditary from acquired demyelination. We compared DCMAP duration and P-D CMAP dispersion in 91 genetically characterized hereditary neuropathies and 33 subjects with CIDP. DCMAP dispersion was more frequent in nerves affected by CIDP (41.5%) than in Charcot-Marie-Tooth disease (CMT)1A (24.4%), CMT1B (7.4%), hereditary neuropathy with liability to pressure palsies (HNPP) (10.5%), or CMTX (9.8%). P-D CMAP dispersion was more frequent in CIDP (27.7% of nerves) than in hereditary neuropathies (16.3%) when applying American Academy of Neurology (AAN) criteria; however, its frequency was similar in CIDP and the hereditary neuropathies using the more restrictive criteria of the American Association of Neuromuscular and Electrodiagnostic Medicine (AANEM). Although dispersion is more common in CIDP than in the hereditary neuropathies, DCMAP and P-D dispersion occur in at least one motor nerve in a significant proportion of hereditary neuropathies, and cannot be used in isolation to distinguish acquired from hereditary demyelination.

Hereditary neuropathy with liability to pressure palsy

Hereditary neuropathy with liability to pressure palsy (HNPP) is an autosomal dominant disease with sensory and motor nerve palsies usually precipitated by trivial trauma or compression. In the majority of cases HNPP is caused by deletion of the peripheral myelin protein 22 gene (PMP22) on chromosome 17p11.2. The authors present a family case with genetically proven HNPP.

Hereditary neuropathy with liability to pressure palsy combined with schwannomas of the median and medial plantar nerves

A 42-year-old woman was surgically treated for carpal tunnel syndrome, revealing schwannoma of the median nerve. A year later, she developed a tarsal tunnel syndrome. At time of this diagnosis, hereditary neuropathy with liability to pressure palsies (HNPP) was diagnosed genetically and a schwannoma of the medial plantar nerve was treated surgically. The occurrence of HNPP and schwannomas in the same patient might be purely coincidental, but it is tempting to speculate that they share a common genetic basis.

Co-segregation of LMNA and PMP22 gene mutations in the same family

We report here clinical, electrophysiological, and molecular findings in a family affected with two inherited genetic diseases: limb girdle muscular dystrophy type 1B (LGMD1B) and hereditary neuropathy with liability to pressure palsies (HNPP). Members of the family carry a novel missense mutation in the LMNA gene and a nonsense mutation in the PMP22 gene. Interestingly, the double LMNA/PMP22 mutations carriers showed clinical features more severe than usually seen in HNPP, and electrophysiological findings suggesting an axonal loss in addition to a typical myelinopathy. This study provides further insights into the relevance of lamin A/C in muscle and nerve.

Marked phenotypic variation in a family with a new myelin protein zero mutation

Myelin protein zero (MPZ) is a member of the immunoglobulin gene superfamily, which has a role in myelin compaction. MPZ gene mutations cause mostly demyelinating neuropathies of the Charcot-Marie-Tooth 1B type (CMT1B), but axonal CMT have been described as well. There is a broad spectrum of phenotypic manifestation of neuropathies caused by MPZ mutations. Some mutations of MPZ cause severe early-onset neuropathies such as Dejerine-Sottas disease, while others cause the classical CMT phenotype with normal early milestones but development of disability during the first two decades of life. We describe a family in which five members of three consecutive generations had a heterozygous mutation in nucleotide position 143 with a T-C transition in exon 2 of the MPZ gene. The resulting substitution of Leu48 with proline has not been previously described. The age of onset of symptoms varied from 8 months to 41 years. The marked variation of the age of disease onset and clinical phenotype in this one family, related to the same MPZ mutation, suggests that in addition to the type and intragenic location of the mutation, other putative modifying gene(s) are regulating MPZ gene expression, mRNA stability and posttranslational protein modification and may have an important effect on the ultimate clinical phenotype.

Dejerine–Sottas syndrome and vestibular loss due to a point mutation in the PMP22 gene

We describe a father and daughter with Dejerine-Sottas syndrome and bilateral vestibular loss due to an L71P missense mutation in the peripheral myelin protein 22 (PMP22). The combination of vestibular loss and peripheral neuropathy led to profound imbalance at a young age. It is important to recognize this combination of peripheral nerve and vestibular deficits since rehabilitation strategies and prognosis are different.

A family with a novel frameshift mutation in the PMP22 gene (c.433_434insC) causing a phenotype of hereditary neuropathy with liability to pressure palsies

Hereditary neuropathy with liability to pressure palsies is usually due to PMP22 deletion. Point mutations of PMP22 causing an hereditary neuropathy with liability to pressure palsies phenotype are rare. We describe a clinical and electrodiagnostic phenotype of hereditary neuropathy with liability to pressure palsies in a 21-year-old woman, which led to our detecting a novel frameshift mutation of PMP22. This mutation was also found in her mother and brother and corresponded to an insertion of one cytidine between nucleotides 433 and 434 in the last coding exon (c.433_434insC). The mutated PMP22 protein lacks the last 15 amino acids and has a modified C terminus lengthened to 221 residues instead of 160 (Leu145fsX222). The mother and the proband had a clinical and electrophysiological hereditary neuropathy with liability to pressure palsies phenotype. The brother was asymptomatic, but the results of electrodiagnostic tests were suggestive of hereditary neuropathy with liability to pressure palsies. This observation of a new mutation mostly leading to a PMP22 haploinsufficiency provides further evidence of the diversity of phenotypes associated with frameshift PMP22 mutations.

Age associated axonal features in HNPP with 17p11.2 deletion in Japan

OBJECTIVE

To clarify age related changes in the clinicopathological features of hereditary neuropathy with liability to pressure palsy (HNPP) in Japanese patients with deletion of 17p11.2, particularly concerning axonal abnormalities.

METHODS

Forty eight proband patients from 48 HNPP families were assessed as to clinical, electrophysiological, and histopathological features, including age associated changes beyond those in controls.

RESULTS

Motor conduction studies showed age associated deterioration of compound muscle action potentials in nerves vulnerable to repetitive compression (median, ulnar, and peroneal nerves), but not in others such as the tibial nerve. Sensory conduction studies revealed more profound reduction of action potentials than motor studies with little age related change. Large myelinated fibre loss was seen in the sural nerve irrespective of age at examination.

CONCLUSIONS

Irreversible axonal damage may occur at entrapment sites in motor nerves in HNPP patients, progressing with aging. Sensory nerves may show more profound axonal abnormality, but without age association. The electrophysiological features of HNPP are presumed to be a mixture of abnormalities occurring from early in life and acquired features caused by repetitive insults at entrapment sites. Unlike Charcot-Marie-Tooth disease type 1A, age associated axonal damage may not occur unless the nerves are subjected to compression.

Hereditary neuropathy with liability to pressure palsies in childhood: report of a case and a brief review

We present a 10-year-old female diagnosed having hereditary neuropathy with liability to pressure palsies (HNPP). She had suffered from acute, recurrent monoplegic episodes affecting both the sciatic nerves and the left brachial plexus since the age of 7 years. The paresis seemed to be triggered by hiking and athletic training. Electrophysiological studies showed a conduction block in the proximal portions of affected nerves. The FISH method disclosed a deletion of the peripheral myelin protein 22 gene. This school child having HNPP is considered to be susceptible to the influence of abundant physical training, rather than minor trauma or compression at sites of entrapment of peripheral nerves.