UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
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Reduced depression of transmitter release from Ia afferents following previous activation (post-activation depression) has been suggested to be involved in the pathophysiology of spasticity. However, the effect of this mechanism on the myotatic reflex and its possible contribution to increased reflex excitability in spastic participants has not been tested. To investigate these effects, we examined post-activation depression in Soleus H-reflex responses and in mechanically evoked Soleus stretch reflex responses. Stretch reflex responses were evoked with consecutive dorsiflexion perturbations delivered at different intervals. The magnitude of the stretch reflex and ankle torque response was assessed as a function of the time between perturbations. Soleus stretch reflexes were evoked with constant velocity (175 degrees /s) and amplitude (6 degrees) plantar flexion perturbations. Soleus H-reflexes were evoked by electrical stimulation of the tibial nerve in the popliteal fossa. The stretch reflex and H-reflex responses of 30 spastic participants (with multiple sclerosis or spinal cord injury) were compared with those of 15 healthy participants. In the healthy participants, the magnitude of the soleus stretch reflex and H-reflex decreased as the interval between the stimulus/perturbation was decreased. Similarly, the stretch-evoked torque decreased. In the spastic participants, the post-activation depression of both reflexes and the stretch-evoked torque was significantly smaller than in healthy participants. These findings demonstrate that post-activation depression is an important factor in the evaluation of stretch reflex excitability and muscle stiffness in spasticity, and they strengthen the hypothesis that reduced post-activation depression plays a role in the pathophysiology of spasticity.
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PMID:Post-activation depression of soleus stretch reflexes in healthy and spastic humans. 1793 63

Disease progression and advancing disability will supervene in the majority of multiple sclerosis patients who are followed over the long-term. This process can begin insidiously from the onset of the disease (primary progression) or after one or more clinical flares (secondary progression). The factors which lead to progression of disability are incompletely understood. The progressive forms of multiple sclerosis have been remarkably resistant to treatment. The legacy of heroic immunosuppression as a treatment for the disease progression has been modest indeed although there is some recent enthusiasm for immunosuppression with agents like mitoxantrone. In the last decade, the treatment of relapsing forms of multiple sclerosis has been revitalised by the interferons and glatiramer acetate. The robust treatment effect on the magnetic resonance imaging burden of the disease and the modest treatment effect in the suppression of clinical attacks have raised hopes that these agents might stall the disease in its progressive phase. Recent clinical trials with the interferons are indeed showing promise for modest clinical efficacy in patients selected for treatment on the basis of chronic progression. Given the weakness of the current treatment, the essence of disease management remains the handling of the complications of the disease. The management of bladder disturbances, spasticity, pain, depression, emotional lability, paroxysmal disorders, fatigue and heat intolerance, tremor and sexual dysfunction is reviewed.
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PMID:Treatment of secondary progressive multiple sclerosis: current recommendations and future prospects. 1803 Nov 81

Multiple sclerosis (MS) is a chronic, unpredictable, progressive, disabling disease. It is generally diagnosed in young adult females between the ages of 20 and 40 years. Symptoms of MS may include profound fatigue, depression, gait disorder, spasticity, blurred vision, and bladder and bowel problems. It is an unpredictable disease and has the potential to create a stressful family life. Because MS is frequently diagnosed in early adulthood, it may affect developmental experiences such as raising a family and building and sustaining a career. Satisfaction with relationships can also be altered. MS has a significant social, psychological, and physical impact on the affected individual as well as his or her family. Partners of people with MS often become caregivers, adding to the demands and challenges of family life. As the individual's disease progresses, the capacity for self-care may decrease, and the individual may require daily assistance from family members. However, the daily assistance that family members provide to a disabled spouse, parent, partner, or child can take a physical and economic toll on the caregiver, causing caregiver burden. Caregiver burden is a multidimensional response to physical, psychological, emotional, social, and financial stressors associated with the caregiving experience. Caregivers who experience burden are more likely to have a higher risk of depression and a lower quality of life. Early recognition of caregiver burden is important in determining appropriate interventions.
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PMID:Assessment of caregiver burden in families of persons with multiple sclerosis. 1833 Apr 7

Nociceptive stimuli are modulated at the dorsal horn of the spinal cord. This modulation is performed by various systems working independently complementarily, additively or supra-additively. Non-opioid analgesics relieve pain without a motor blockade. In contrast to spinal opioids a reduced risk of respiratory depression is expected. In the therapy of chronic pain non-opioid analgesics may be an alternative, given alone or in combination with an opioid. Clinically relevant dosages for antinociception mediated by the alphaadrenoceptoragonistclonidine are >/=150 mug epidurally. Clonidine is effective in reducing acute and chronic pain. In combination with opioids the action of the opioids is intensified. Clonidine intensifies and prolongs the action of local anesthetics. If opioid tolerance occurs, epidural clonidine alone or in combination with an opioid has good antinociceptive action.Midazolam, a water-soluble benzodiazepine, was injected spinally for the reduction of pain for various indications (postoperative, malignancy, chronic back pain, spinal spasticity). Spinal benzodiazepine should not be injected into the spine in patients until it has been proven that there are no neurotoxic effects. Intrathecally injectedbaclofen is a well-known means of reducing spinal spasticity. Used in this way, it may have a secondary analgesic effect. No significant direct analgesic effect has so far been demonstrated. Spinalcalcitonin often leads to insufficient pain relief when given alone. Combination with an opioid may reduce the dosage of the opioid. Nausea and vomiting are frequent side effects of spinal calcitonin. Intrathecalsomatostatin produces antinociception. However, in animal studies neurotoxic action has been observed. Administration in man has not yet been proved to be safe. Spinalketamine has procluted controversial results in clinical studies, and has not yet been excluded that the substance is not neurotoxic.Lysine acetylsalicylic acid (L-ASA) has been given intrathecally for the therapy of severe cancer pain and chronic back pain. In most patients good analgesia was observed up to 2 months after a single injection. If neurotoxity can be excluded, L-ASA may be an alternative in the therapy of cancer pain before neurodestructive therapy is done.
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PMID:[Intrathecal and epidural administration of non-opioid analgesics in acute and chronic pain treatment.]. 1841 40

Adjuvant analgesics are drugs that are not primarily used as analgesics but can produce analgesia in certain types of pain. Adjuvant analgesics can be administered together with non-opioid and opioid analgesics on each step of the WHO analgesic ladder. They should be given when an additional or specific indication exists, but should not be used as a substitute for a thorough treatment with opioids and nonopioids. Adjuvant analgesics can be classified into groups according to the type of pain to be treated: continuous neuropathic pain or lancinating neuropathic pain, sympathetically maintained pain, bone pain and those for multipurpose use. Adjuvant drugs used for continuous neuropathic pain include local anaesthetics, clonidine, capsaicin, and antidepressants. Tricyclic antidepressants are the group that have been best investigated, and are therefore the drugs of choice. An analgesic effect is probably produced via enhancement of transmitter concentrations in pain-modulating pathways. This occurs at lower doses than those necessary to treat depression. Anticholinergic actions, acute glaucoma, constipation, orthostatic hypotension and cardiac arrhythmias are adverse effects that are seen predominantly with teritiary amine drugs and less often with secondary amine compounds. Initial doses should be small to avoid these adverse effects. Local anaesthetics are used less often, because of the high incidence of side effects (especially with tocainide, flecainide). An analgesic effect has been described in neuropathic pain, however, probably due to membrane stabilization and reduction of aberrant signal conduction. Mexiletine is considered to be the safest local anaesthetic, and should be used initially in small doses (100-150 mg/d). If side effects do not occur, doses can be increased step-wise up to 900 mg/d. Local anaesthetics are indicated for the treatment of severe neuropathic pain; this treatment is contraindicated in patients with cardiac arrhythmias. Systemic or intrathecal clonidine can be tried in neuropathic pain refractory to opioid therapy. The same stands for the topical application of capsaicin in certain types of pain. Lancinating neuropathic pain is an indication for anticonvulsant drugs. Carbamazepine, clonazepam, valproate and phenytoin seem to reduce aberrant signal conduction in damaged nerves in a manner similar to the supression of epileptiform activities in the brain. Common side effects include sedation, dizziness and nausea. Of greater concern are the more severe side effects, such as bone marrow depression (carbamazepine) and hepatotoxicity (phenytoin, valproate). Low initial doses and stepwise increases in dosage, repeated blood counts, and monitoring of plasma levels are helpful in recognizing and avoiding these adverse effects. Baclofen, a GABA agonist primarily used for spasticity, is effective in the treatment of trigeminal neuralgia and is often used in the management of lancinating pain of unspecific origin. The initial dosage is 10-15 mg/d, increasing to 30-90 mg/d, or higher. If neural blockade fails to reduce sympathetically maintained pain sufficiently specific adjuvants can be used. Sympatholytic drugs, e.g. phenoxybenzamine (60-120 mg/d) or prazosin, can be administered to patients without major cardiovascular dysfunction. There is experimental evidence of the involvement of calcium channels in nociception, and a beneficial clinical effect of nifidepine in reflex sympathetic dystrophy (RDS) has been demonstrated. Bone pain is common in tumor patients and can often be treated effectively with non-steroidal anti-inflammatory drugs. Biphosphonates (etidronate, clodronate, pamidronate derivates) also produce analgesic effects in patients with bone metastases. However, differences among the various compounds have not been clearly evaluated yet. Potent and specific radioisotopes are still under development and the use of calcitonin in bone pain is considered controversial.
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PMID:[Pharmacotherapy of cancer pain. 3. Adjuvant drugs.]. 1841 35

Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease affecting the motor neurons, in both the spinal cord and medulla (lower motor neurons) and cerebral cortex (upper motor neurons). Even though ALS remains fatal, several advances have been made during the last decade in improving the consequences of motor dysfunction, quality of life and survival time of patients. Treatment of ALS cannot be restricted to riluzole, the only molecule that has been proved to modify the evolution of the disease. Symptomatic treatments have an important role in controlling the major consequences of the disease, such as pain, sleep disorders, spasticity, hypersialhorroea, emotional lability, depression and digestive disorders (constipation and reflux). All these symptoms need to be recognized and their possible causes identified in order to provide the most appropriate management of patients with ALS. However, an advance in the daily care of patients is the identification of two important phenomena that occur during the evolution of the disease: swallowing difficulties and the occurrence of diaphragmatic dysfunction. For both, specific medical interventions have been developed to allow correction of the consequences (i.e. weight loss and respiratory insufficiency). Although no controlled trials have been performed, observational studies suggest that gastrostomy and non-invasive ventilation may improve at least quality of life and survival. All of these various approaches, pharmaceutical and non-pharmaceutical therapies, are prescribed according to individual symptoms and require the involvement of a large range of health professionals. This multidisciplinary approach in ALS clinics is considered to be one of the more important factors impacting on survival rate and appears to be the gold standard of medical care of ALS patients. Important findings have been made in understanding the nature of the degenerative process that affects the motor neurons. All these data have allowed new therapeutic molecules to be tested alone or in combination with riluzole. Despite the negative results obtained until now, we hope to demonstrate very soon a greater improvement in therapy.
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PMID:Management of amyotrophic lateral sclerosis. 1848 97

Neural plasticity occurs throughout adult life in response to maturation, use and disuse. Recent studies have documented that H-reflex amplitudes increase following a period of immobilization. To elucidate the mechanisms contributing to the increase in H-reflex size following immobilization we immobilized the left foot and ankle joint for 2 weeks in 12 able-bodied subjects. Disynaptic reciprocal inhibition of soleus (SOL) motoneurons and presynaptic control of SOL group Ia afferents was measured before and after the immobilization as well as following 2 weeks of recovery. Following immobilization, maximal voluntary plantar- and dorsiflexion torque (MVC) was significantly reduced and the maximal SOL H-reflex amplitude increased with no changes in the maximal compound motor response (M(max)). Decreased presynaptic inhibition of the Ia afferents probably contributed to the increase of the H-reflex size, since we observed a significant decrease in the long-latency depression of the SOL H-reflex evoked by peroneal nerve stimulation (D2 inhibition) and an increase in the size of the monosynaptic Ia facilitation of the SOL H-reflex evoked by femoral nerve stimulation. These two measures provide independent evidence of changes in presynaptic inhibition of SOL Ia afferents and taken together suggest that GABAergic presynaptic inhibition of the SOL Ia afferents is decreased following 2 weeks of immobilization. The depression of the SOL H-reflex when evoked at intervals shorter than 10 s (homosynaptic post-activation depression) also decreased following immobilization, suggesting that the activity-dependent regulation of transmitter release from the afferents was also affected by immobilization. We observed no significant changes in disynaptic reciprocal Ia inhibition. Two weeks after cast removal measurements returned to pre-immobilization levels. Together, these observations suggest that disuse causes plastic changes in spinal interneuronal circuitries responsible for presynaptic control of sensory input to the spinal cord. This may be of significance for the motor disabilities seen following immobilization as well as the development of spasticity following central motor lesions.
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PMID:Immobilization induces changes in presynaptic control of group Ia afferents in healthy humans. 1859 34

Late-onset Tay-Sachs (LOTS) disease is a chronic, progressive, lysosomal storage disorder caused by a partial deficiency of beta-hexosaminidase A (HEXA) activity. Deficient levels of HEXA result in the intracellular accumulation of GM2-ganglioside, resulting in toxicity to nerve cells. Clinical manifestations primarily involve the central nervous system (CNS) and lower motor neurons, and include ataxia, weakness, spasticity, dysarthria, dysphagia, dystonia, seizures, psychosis, mania, depression, and cognitive decline. The prevalence of peripheral nervous system (PNS) involvement in LOTS has not been well documented, but it has traditionally been thought to be very low. We examined a cohort of 30 patients with LOTS who underwent clinical and electrophysiologic examination, and found evidence of a predominantly axon loss polyneuropathy affecting distal nerve segments in the lower and upper extremities in eight patients (27%).
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PMID:Late-onset Tay-Sachs disease: the spectrum of peripheral neuropathy in 30 affected patients. 1864 77

A sixth month phase II multicenter-pilot trial with a low dose of the opiate antagonist Naltrexone (LDN) has been carried out in 40 patients with primary progressive multiple sclerosis (PPMS). The primary end points were safety and tolerability. Secondary outcomes were efficacy on spasticity, pain, fatigue, depression, and quality of life. Clinical and biochemical evaluations were serially performed. Protein concentration of beta-endorphins (BE) and mRNA levels and allelic variants of the mu-opiod receptor gene (OPRM1) were analyzed. Five dropouts and two major adverse events occurred. The remaining adverse events did not interfere with daily living. Neurological disability progressed in only one patient. A significant reduction of spasticity was measured at the end of the trial. BE concentration increased during the trial, but no association was found between OPRM1 variants and improvement of spasticity. Our data clearly indicate that LDN is safe and well tolerated in patients with PPMS.
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PMID:A pilot trial of low-dose naltrexone in primary progressive multiple sclerosis. 1872 58

Recent evidence indicates that the brain can remodel after stroke, primarily through synaptogenesis. Task-specific and repetitive exercise appear to be key factors in promoting synaptogenesis and are central elements in rehabilitation of motor weakness following stroke. Expert medical management ensures a patient is well enough to participate in rehabilitation with minimal distractions due to pain or depression. Contraint-induced motor therapy and body-weight-supported ambulation are forms of exercise that "force use" of an impaired upper extremity. Technologies now in common use include robotics, functional electrical stimulation, and, to a lesser degree, transcranial magnetic stimulation and virtual reality. The data on pharmacological interventions are mixed but encouraging; it is hoped such treatments will directly stimulate brain tissue to recovery. Mitigation of factors preventing movement, such as spasticity, might also play a role. Research evaluating these motor recovery strategies finds them generally good at the movement level but somewhat less robust when looking at functional performance. It remains unclear whether inconsistent evidence for functional improvement is a matter of poor treatment efficacy or insensitive outcome measures.
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PMID:Stroke rehabilitation: strategies to enhance motor recovery. 1892 33

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