Neuromodulation : journal of the International Neuromodulation Society
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In neuromodulation treatment and research, the informed consent of the patient or research subject is considered to be a moral precondition. In order to be morally valid, the consent of the person should be informed and voluntarily given, and the person should have decision-making capacity. Decision-making capacity matters from a moral point of view because it enables the patient or research subject to make a well-considered decision about treatment or research participation. ⋯ In this paper, it is argued that full decision-making capacity in the context of neuromodulation is an illusion. This does not imply that we should do away with the moral ideals of decision-making capacity and valid informed consent. It is part of the responsibility of clinicians involved in neuromodulation to be aware of and sensitive to the different threats to the decision-making capacity of patients suffering from neurological and neuropsychiatric disorders, and to assist patients in making decisions that are as well considered as possible in the given circumstances.
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Objectives. The probability of success with spinal cord stimulation (SCS) depends largely on appropriate patient selection. Here, we have assessed the predictive value of pain etiology as it relates to pain relief with SCS as part of a prospective multicenter clinical trial. Methods. Sixty-five subjects with chronic and intractable pain tested an epidural SCS system. ⋯ No predictive value of pain etiology was observed. Conclusions. Spinal cord stimulation is an effective therapy for neuropathic pain arising from a variety of causes. Failed back surgery syndrome, complex regional pain syndrome, and pain of other etiologies responded equally well to SCS.
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Objectives. This paper describes an experimental investigation of variable frequency stimulation patterns as a means of increasing torque production and, hence, performance in cycling induced by functional electrical stimulation. Materials and Methods. Experiments were conducted on six able-bodied subjects stimulating both quadriceps during isokinetic trials. Constant-frequency trains (CFT) with 50-msec interpulse intervals and four catchlike-inducing trains (CIT) were tested. ⋯ Conclusions. The use of CITs improves the functional electrical stimulation cycling performance compared with CFT stimulation. This application might have a relevant clinical importance for individuals with stroke where the residual sensation is still present and thus the maximization of the performance without an excessive increase of the stimulation intensity is advisable. Therefore, exercise intensity can be increased yielding a better muscle strength and endurance that may be beneficially for later gait training in individuals with stroke.
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Objective. Classically, a decerebrated animal by mesencephalic lesioning is considered the paradigm for experimental study of spasticity that accompanies cerebral palsy, but, the model does not actually correspond with anatomical and pathologic realities. Therefore, a new and novel animal model is needed. Our objective was to create a more adapted animal model to be used in neuromodulation and functional electrical stimulation research. ⋯ Conclusions. This animal model presents anatomic similarities to lesions currently present in cerebral palsy and related diseases. The model also shows electrophysiologic differences that signal chronic brain damage. Therefore, this method is useful in research when spastic syndromes produced by upper motor lesions need to be modeled.
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Objective. The aim of our work was to investigate whether lateral stimulation of the spinal cord, lateral cord stimulation (LCS), results in inhibition of the spastic phenomena of upper motor lesions in an animal model. Methods. This study was conducted using an animal model consisting of surgically brain damaged pigs subjected to unilateral cortical and subcortical brain lesions. ⋯ Results. Experiments in 12 animals showed a significant increase of threshold after LCS, with a marked posteffect, signaling a less abnormal threshold. Conclusions. This experiment demonstrated that LCS produces threshold increases to abolish abnormally propagated electromyographic evoked responses induced by the electrical stimulation of the fourth lumbar root in pigs with experimental cortical and subcortical brain lesions.