Tanya J. Lehky

Acute Oxaliplatin-Induced Peripheral Nerve Hyperexcitability

PURPOSE Oxaliplatin is a novel platinum compound with clinical activity in several malignancies. Neurotoxicity is dose-limiting and occurs in two distinct forms, an acute neurologic symptom complex that occurs within hours or days of therapy and a chronic, cumulative sensory neuropathy. PATIENTS AND METHODS Patients were treated in a phase I study designed to establish the maximum-tolerated dose of capecitabine given with oxaliplatin. Because of the unusual neurosensory toxicity of oxaliplatin, detailed neurologic examination, needle electromyography (EMG), and nerve conduction studies (NCS) were performed before and the day after oxaliplatin in a subset of 13 patients. Carbamazepine therapy was tried in 12 additional patients to determine whether the neurologic effects might be relieved. RESULTS All patients experienced acute, reversible neurotoxicities with oxaliplatin. Symptoms included paresthesias, dysesthesias, cold hypersensitivity, jaw pain, eye pain, pain in the arm used for drug infusion, ptosis, leg cramps, and visual and voice changes. Serial EMG and NCS revealed striking signs of hyperexcitability in motor nerves after oxaliplatin. In patients who achieved therapeutic levels, carbamazepine did not alter the clinical or electromyographic abnormalities. CONCLUSION The acute neurotoxicity seen with oxaliplatin is characterized by peripheral-nerve hyperexcitability, and the findings are similar to the clinical manifestations of neuromyotonia. Carbamezepine, which provides symptomatic relief in acquired neuromytonia, did not seem to be beneficial. Efforts to identify a successful neuroprotectant strategy would have a major impact on improving patient quality of life and the ability to deliver full doses of oxaliplatin.

Oxaliplatin‐induced neurotoxicity: Acute hyperexcitability and chronic neuropathy

Oxaliplatin, a platinum‐based chemotherapeutic agent, is effective in the treatment of solid tumors, particularly colorectal cancer. During and immediately following oxaliplatin infusion, patients may experience cold‐induced paresthesias, throat and jaw tightness, and occasionally focal weakness. We assessed nerve conduction studies and findings on needle electromyography of patients with metastatic colorectal cancer before and during treatment with oxaliplatin. Twenty‐two patients had follow‐up studies within 48 h following oxaliplatin infusions, and 14 patients had follow‐up studies after 3–9 treatment cycles. Repetitive compound muscle action potentials and neuromyotonic discharges were observed in the first 24–48 h following oxaliplatin infusion, but resolved by 3 weeks. After 8–9 treatment cycles, sensory nerve action potential amplitudes declined, without conduction velocity changes or neuromyotonic discharges. The acute neurological symptoms reflect a state of peripheral nerve hyperexcitability that likely represents a transient oxaliplatin‐induced channelopathy. Chronic treatment causes an axonal neuropathy similar to other platinum‐based chemotherapeutic agents. Muscle Nerve 29: 387–392, 2004

Clinical features of spinal and bulbar muscular atrophy

Spinal and bulbar muscular atrophy is an X-linked motor neuron disease caused by a CAG repeat expansion in the androgen receptor gene. To characterize the natural history and define outcome measures for clinical trials, we assessed the clinical history, laboratory findings and muscle strength and function in 57 patients with genetically confirmed disease. We also administered self-assessment questionnaires for activities of daily living, quality of life and erectile function. We found an average delay of over 5 years from onset of weakness to diagnosis. Muscle strength and function correlated directly with serum testosterone levels and inversely with CAG repeat length, age and duration of weakness. Motor unit number estimation was decreased by about half compared to healthy controls. Sensory nerve action potentials were reduced in nearly all subjects. Quantitative muscle assessment and timed 2 min walk may be useful as meaningful indicators of disease status. The direct correlation of testosterone levels with muscle strength indicates that androgens may have a positive effect on muscle function in spinal and bulbar muscular atrophy patients, in addition to the toxic effects described in animal models.

Efficacy and safety of dutasteride in patients with spinal and bulbar muscular atrophy: a randomised placebo-controlled trial

BACKGROUND Spinal and bulbar muscular atrophy (SBMA) is caused by polyglutamine expansion in the androgen receptor, which results in ligand-dependent toxicity. Animal models have a neuromuscular deficit that is mitigated by androgen-reducing treatment. We aimed to assess the efficacy and safety of the 5α-reductase inhibitor dutasteride in patients with SBMA, and to identify outcome measures for use in future studies of the disease. METHODS We undertook a randomised, double-blind, placebo-controlled, single-site clinical trial in ambulatory, symptomatic men with genetically confirmed SBMA. Participants were assigned by random number table to receive dutasteride (0·5 mg per day) or placebo orally for 24 months. Patients and investigators were masked to treatment allocation. The primary outcome measure was quantitative muscle assessment (QMA). The final efficacy analysis included all patients who were compliant with study treatment at 24 months. This trial was registered with ClinicalTrials.gov, NCT00303446. FINDINGS 50 men were randomly assigned to treatment groups (25 dutasteride, 25 placebo), and 44 were included in the efficacy analysis (21 dutasteride, 23 placebo). At 24 months, the placebo group showed a decrease of 4·5% (-0·30 kg/kg) from baseline in weight-scaled muscle strength as indicated by QMA, and the dutasteride group had an increase in strength of 1·3% (0·14 kg/kg); the difference between groups (5·8%, 95% CI -5·9 to 17·6; p=0·28) was not significant. Prespecified secondary outcome measures of creatine kinase, muscle strength and function, motor nerve conduction, activities of daily living, and erectile function did not show a significant difference between the study groups in change from baseline. Quality of life, as measured by the physical component summary of the Medical Outcomes Study 36-item Short Form version 2, favoured dutasteride (change in score from baseline: placebo, -3·6%, vs dutasteride, 2·1%; p=0·01), whereas the mental component summary favoured placebo (3·3%vs -3·2%; p=0·03). The dutasteride group had fewer patients reporting falls than did the placebo group (9 vs 16; p=0·048); there were no other significant differences in reported adverse events. INTERPRETATION Our study did not show a significant effect of dutasteride on the progression of muscle weakness in SBMA, although there were secondary indications of both positive and negative effects compared with placebo. A longer trial duration or larger number of patients might be needed to show an effect on disease progression. Performance testing, QMA, and quality of life measures were identified as potentially useful endpoints for future therapeutic trials.

Discovering cytokines as targets for chemotherapy-induced painful peripheral neuropathy

Chemotherapy-induced peripheral neuropathy (CIPN), a dose-limiting neurotoxic effect of chemotherapy, is the most common reason for early cessation of cancer treatment. This can result in an increased risk of recurrence and decreased survival rate. Inflammatory cascade activation, proinflammatory cytokine upregulation, and neuro-immune communication pathways play essential roles in the initiation and progression of CIPN. Most notably, TNF-α, IL-1β, IL-6, and CCL2 are involved in neuropathic pain. Further elucidation of the role of these cytokines could lead to their development and use as biomarkers for predicting the onset of painful peripheral neuropathy and early axonal damage. In this review, we provide evidence for the involvement of cytokines in CIPN, the possible underlying mechanisms, and their use as potential therapeutic targets and biomarkers to prevent and improve the painful peripheral neuropathy related to chemotherapeutic agents.

Early onset and novel features in a spinal and bulbar muscular atrophy patient with a 68 CAG repeat

Spinal and bulbar muscular atrophy (SBMA) is an X-linked neuromuscular disease caused by a trinucleotide (CAG) repeat expansion in the androgen receptor gene. Patients with SBMA have weakness, atrophy, and fasciculations in the bulbar and extremity muscles. Individuals with CAG repeat lengths greater than 62 have not previously been reported. We evaluated a 29year old SBMA patient with 68 CAGs who had unusually early onset and findings not seen in others with the disease. Analysis of the androgen receptor gene confirmed the repeat length of 68 CAGs in both peripheral blood and fibroblasts. Evaluation of muscle and sensory function showed deficits typical of SBMA, and in addition the patient had manifestations of autonomic dysfunction and abnormal sexual development. These findings extend the known phenotype associated with SBMA and shed new insight into the effects of the mutated androgen receptor.

Standard and modified statistical mune evaluations in spinal-bulbar muscular atrophy

Motor unit number estimation (MUNE), a technique used in amyotrophic lateral sclerosis (ALS) clinical trials to quantitatively assess motor neuron loss, should also be valuable in assessing progression in spinal bulbar muscular atrophy (SBMA), an x‐linked neuronopathy. In ALS, instability of single motor units (SMUP) prompted Shefner et al. 66 to modify the statistical MUNE method to exclude SMUPs ≤ 40 μV. It is unknown if there is similar SMUP instability in the more chronic degenerative disease of SBMA. In this study the standard parameter of excluding SMUP < 10 μV was compared with the exclusion of SMUP < 40 μV in the calculation of the statistical MUNE. The mean statistical MUNE, using the standard method and the Shefner et al. method, was 60 ± 21 to 47 ± 23, respectively. Similar to ALS, SBMA showed an increased proportion (17%) of individual SMUPs ≤ 40 μV compared to normal controls. In conclusion, excluding SMUPs ≤ 40 μV from the statistical MUNE calculations is appropriate for SBMA subjects because their SMUP, characteristics are similar to ALS. Exclusion of the low‐amplitude SMUPs reduces the calculated MUNE. Muscle Nerve, 2009

Unrelated umbilical cord blood transplant for juvenile metachromatic leukodystrophy: a 5-year follow-up in three affected siblings.

Unrelated umbilical cord blood transplantation (UCBT) was used to treat three siblings with juvenile metachromatic leukodystrophy (jMLD). The efficacy of this therapy was measured over a 5-year period with serial neurological examinations, neuroimaging, nerve conduction studies (NCS), and neuropsychological evaluations (NPE). Outcomes were a function of disease stage at time of UCBT with alteration of disease course occurring in the first 2 years after UCBT and then subsequent halting of progression and stabilization of symptoms and disease.

Myelin basic protein-specific T cell lines and clones derived from SJL/J mice with experimental allergic encephalomyelitis.

Myelin basic protein (BP)-specific T-cell lines and clones have been derived from SJL/J mice which had been sensitized with BP in complete Freunds adjuvant. Cell lines which were initiated and maintained in the presence of BP were specific for this antigen. Cell lines specific for tuberculin-purified protein derivative (PPD) were also established. BP-reactive cell lines maintained for 1 month in culture produced experimental allergic encephalomyelitis (EAE) when transferred to recipient mice. The number of cells required was only slightly less than that necessary for transfer of disease after 3-day culture of sensitized lymph node cells. In contrast, proliferative responses to BP were significantly enhanced after 1 month in culture. Cell lines lost the capacity to transfer EAE after 4 months in culture, but retained a vigorous proliferative response to BP. Similarly, cloned BP-reactive T cells failed to transfer disease, even when recipient mice were treated with IL-2, pertussis vaccine, or low-dose irradiation. Serial FACS analyses demonstrated alterations in cell surface antigen expression, particularly loss of reactivity with anti-Ia antibody, which correlated temporally with loss of ability to transfer disease. Persistence of antigen-induced proliferation by both cloned and uncloned T-cell lines should render these populations suitable for detailed study of the T-cell BP receptor.

Novel SNP array analysis and exome sequencing detect a homozygous exon 7 deletion of MEGF10 causing early onset myopathy, areflexia, respiratory distress and dysphagia (EMARDD)

Early-onset myopathy, areflexia, respiratory distress and dysphagia (EMARDD) is a myopathic disorder associated with mutations in MEGF10. By novel analysis of SNP array hybridization and exome sequence coverage, we diagnosed a 10-years old girl with EMARDD following identification of a novel homozygous deletion of exon 7 in MEGF10. In contrast to previously reported EMARDD patients, her weakness was more prominent proximally than distally, and involved her legs more than her arms. MRI of her pelvis and thighs showed muscle atrophy and fatty replacement. Ultrasound of several muscle groups revealed dense homogenous increases in echogenicity. Cloning and sequencing of the deletion breakpoint identified features suggesting the mutation arose by fork stalling and template switching. These findings constitute the first genomic deletion causing EMARDD, expand the clinical phenotype, and provide new insight into the pattern and histology of its muscular pathology.