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To determine potential predictors of long-term survival in a large set of Hispanic (Mexican) patients with chronic myeloid leukemia (CML) treated with imatinib. We conducted an analysis with data from 411 patients with CML treated at the National Cancer Institute - Mexico, between January 2000 and December 2016. We found a median age at diagnosis of 40 years (range: 18-84 years). The survival rate at 150 months was 82.02%, and we found that phase at diagnosis (ß: 0.447, 95% Confidence Interval [95% CI]: 0.088, 0.806; P = 0.015), prognostic scales (Sokal [P = 0.021] and Hasford [ß: 0.369, 95% CI: 0.049, 0.688; P = 0.024]) and hematological response at 3 months (ß: 0.717, 95% CI: 0.443, 0.991; P < 0.001), but not molecular response (P = 0.834 for 6 months, P = 0.927 for 12 months, P = 0.250 for 18 months), were independently associated with overall survival. Survival analysis in subsets, according to the initial phase (chronic, accelerated and blastic phase) did not show any effect according to prognostic scales (P > 0.05). Mexican patients with CML have repeatedly been diagnosed at earlier ages. Prognostic factors in CML may differ according to the ethnic or geographical context. We found that phase at diagnosis, prognostic scale and hematological response at 3 months were independent predictors of survival.

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There is an emerging belief that electrically elicited blink reflexes (BR) may distinguish Alzheimer's disease (AD) from other disorders characterized by memory dysfunction. To qualitatively and quantitatively distinguish the effects that electrical stimulation has over the blink reflex (eBR) recorded from patients with AD and healthy controls (HCs), we did a systematic review of the literature, and conducted a meta-analysis. Following our selected criteria, 94 AD patients and 97 HCs were identified from articles published in English between 1950 and 2017. Although the 3 responses (R1, R2 and R3) of the eBR were studied in a number of patients, only the R2 response was quantified in all studies. Thresholds and stimulation intensities parameters were found to be used in a miscellaneous form, and the majority of times, such parameters deviated from validated guidelines. The stimulation frequencies used to elicit the BR responses ranged between 0.14 and 0.2 Hz. These frequencies favored HCs compared with AD patients (odds ratio = 1.08; 95% CI = 0.30-1.85), I2 = 0% [P = .99]; Q = 271.89 [df = 7, P < .000]). Egger's regression test suggested publication bias (intercept = 32.38; 95% CI = -8.98 to -3.2; P = .001). Our results unveiled key shortcomings in the data reported; such shortcomings need to be corrected in future AD research looking for obtaining more reliable and reproducible eBR studies; otherwise, interventions may be misleading.

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OBJECTIVE:: The nasal cycle, which is present in a significant number of people, is an ultradian side-to-side rhythm of nasal engorgement associated with cyclic autonomic activity. We studied the nasal cycle during REM/non-REM sleep stages and examined the potentially confounding influence of body position on lateralized nasal airflow. METHODS:: Left- and right-side nasal airflow was measured in six subjects during an eight-hour sleep period using nasal thermistors. Polysomnography was performed. Simultaneously, body positions were monitored using a video camera in conjunction with infrared lighting. RESULTS:: Significantly greater airflow occurred through the right nasal chamber (relative to the left) during periods of REM sleep than during periods of non-REM sleep (p<0.001). Both body position (p < 0.001) and sleep stage (p < 0.001) influenced nasal airflow lateralization. CONCLUSIONS:: This study demonstrates that the lateralization of nasal airflow and sleep stage are related. Some types of asymmetrical somatosensory stimulation can alter this relationship.

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ABSTRACT Objective: The nasal cycle, which is present in a significant number of people, is an ultradian side-to-side rhythm of nasal engorgement associated with cyclic autonomic activity. We studied the nasal cycle during REM/non-REM sleep stages and examined the potentially confounding influence of body position on lateralized nasal airflow. Methods: Left- and right-side nasal airflow was measured in six subjects during an eight-hour sleep period using nasal thermistors. Polysomnography was performed. Simultaneously, body positions were monitored using a video camera in conjunction with infrared lighting. Results: Significantly greater airflow occurred through the right nasal chamber (relative to the left) during periods of REM sleep than during periods of non-REM sleep (p<0.001). Both body position (p < 0.001) and sleep stage (p < 0.001) influenced nasal airflow lateralization. Conclusions: This study demonstrates that the lateralization of nasal airflow and sleep stage are related. Some types of asymmetrical somatosensory stimulation can alter this relationship.

RESUMO Objetivo: O ciclo nasal é um ritmo ultradiano de lado a lado de ingurgitamento associado com o ciclo da atividade autônoma. O objetivo deste estudo foi abordar a questão assim como a relação presente entre o ciclo nasal e os estágios de sono REM/não-REM. Também analisamos a confusão potencial da influência da posição corporal no fluxo de ar nasal. Métodos: Mensuramos o ciclo nasal em seis sujeitos durante um sono de oito horas usando um termistor nasal. Foi realizada uma polissonografia. Simultaneamente, nós monitoramos a posição corporal usando uma câmera de vídeo juntamente com luzes infravermelhas. Resultados: Um fluxo de ar maior ocorreu através da cavidade nasal direita durante as fases de sono REM do que nos períodos de sono não-REM (p < 0,001). Assim como a posição corporal [F(2.2340) = 86,99, p < 0,001] e o estágio de sono [F(1.2340) = 234.82, p < 0,001] influenciaram a lateralização do fluxo de ar nasal. Conclusões: Este estudo evidencia que a lateralização do fluxo de ar nasal e o estágio do sono estão relacionados. Alguns tipos de estimulação somatosensitiva assimétrica podem alterar esta relação.

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We report a 33-year-old female patient, who arrived to the emergency ward with an abdominal pain that suddenly started 10 days before admission. Simultaneously, the patient developed sudden arterial hypertension and smell disturbances. Conventional medical treatment for pain and arterial hypertension was effortless. Laboratory tests ruled out pancreatitis. Metanephrines in her urine were also normal. A dual-phase intravenous contrast computed tomography of the abdomen showed a large mass within left adrenal gland. Adrenocortical adenoma was diagnosed. The mass was not hypervascularized but positive for synaptophysin and chromogranin A. Importantly, these proteins are heavily involved with acetylcholine metabolism. The triad of olfactory disorders, pain and arterial hypertension normalized after surgically extracting the adrenal mass. To our knowledge, this medical case is the first reported patient exhibiting immediate recovery of such unclassical triad of local and remote findings. The function and dysfunction of key nanocholinergic pathways involved with smell, blood pressure and nociception would explain the pathophysiology of this unique medical case.

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The resting sensory discomfort transiently relieved upon movement of the affected area in restless legs syndrome suggests that sensorimotor integration mechanisms, specifically gating, may be altered in the disease. The authors sought to determine the effects of prepulse auditory and tactile stimulation applied to lower limbs on the blink reflex of patients with restless legs syndrome and healthy subjects. Seventeen patients with restless legs syndrome and 17 age- and sex-matched healthy controls were investigated. Auditory stimuli and tactile lower limb stimulation were applied as prepulses. The R2 response of the blink reflex induced by electrical stimulation applied to the right supraorbital nerve was selected as the test stimulus. Time intervals between prepulses and response-eliciting stimuli were 40, 70, 90, 110, and 200 milliseconds. There were no differences in either the auditory or tactile prepulse conditions between patients and controls and no differences between these measures within subject groups. We concluded that the tactile lower limb and the auditory prepulse effects on the brainstem interneurons mediating the blink reflex share common neural pathways. Because forebrain interneurons mediate these prepulse effects, they are likely not involved in the disordered sensorimotor interaction of restless legs syndrome.

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Motion sickness or kinetosis is the result of the abnormal neural output originated by visual, proprioceptive and vestibular mismatch, which reverses once the dysfunctional sensory information becomes coherent. The space adaptation syndrome or space sickness relates to motion sickness; it is considered to be due to yaw, pith, and roll coordinates mismatch. Several behavioural and pharmacological measures have been proposed to control these vestibular-associated movement disorders with no success. Galvanic vestibular stimulation has the potential of up-regulating disturbed sensory-motor mismatch originated by kinetosis and space sickness by modulating the GABA-related ion channels neural transmission in the inner ear. It improves the signal-to-noise ratio of the afferent proprioceptive volleys, which would ultimately modulate the motor output restoring the disordered gait, balance and human locomotion due to kinetosis, as well as the spatial disorientation generated by gravity transition.

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Motion sickness or kinetosis is the result of the abnormal neural output originated by visual, proprioceptive and vestibular mismatch, which reverses once the dysfunctional sensory information becomes coherent. The space adaptation syndrome or space sickness relates to motion sickness; it is considered to be due to yaw, pith, and roll coordinates mismatch. Several behavioural and pharmacological measures have been proposed to control these vestibular-associated movement disorders with no success. Galvanic vestibular stimulation has the potential of up-regulating disturbed sensory-motor mismatch originated by kinetosis and space sickness by modulating the GABA-related ion channels neural transmission in the inner ear. It improves the signal-to-noise ratio of the afferent proprioceptive volleys, which would ultimately modulate the motor output restoring the disordered gait, balance and human locomotion due to kinetosis, as well as the spatial disorientation generated by gravity transition.

A cinetose ou doença do movimento resulta de uma resposta neural anormal originada do desequilíbrio entre estímulos visuais, proprioceptivos e vestibulares, que melhora quando esse desequilíbrio é corrigido. A síndrome de adaptação espacial ou doença do espaço está relacionada à doença do movimento e é desencadeada por mudanças bruscas de direção, inclinação e rotação da cabeça. Têm sido propostas várias medidas comportamentais e farmacológicas para controlar esses transtornos do movimento associados com o sistema vestibular, mas sem sucesso. A estimulação galvânica vestibular pode regular o desequilíbrio sensitivo-motor causado pela cinetose e pela doença do espaço modulando os canais iônicos GABA, relacionados à transmissão de impulsos nervosos no ouvido interno. Essa estimulação melhora a relação sinal-ruído dos impulsos proprioceptivos que acabam modulando a resposta motora, restabelecendo o equilíbrio e a marcha, recuperando a desorientação espacial causada pelos diversos gradientes de gravidade.

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Magnetic stimulation has called the attention of neuroscientists and the public due to the possibility to stimulate and "control" the nervous system in a non-invasive way. It has helped to make more accurate diagnosis, and apply more effective treatments and rehabilitation protocols in several diseases that affect the nervous system. Likewise, this novel tool has increased our knowledge about complex neural behavior, its connections as well as its plastic modulation. Magnetic stimulation applied in simple or paired-pulse protocols is a useful alternative in the diagnosis of diseases such as multiple sclerosis, Parkinson disease, epilepsy, dystonia, amyotrophic lateral sclerosis, cerebrovascular disease, and sleep disorders. From the therapeutic perspective, magnetic stimulation applied repetitively has been found useful, with different degrees of efficacy, in treating resistant depression, tinnitus, psychogenic dysphonia, Alzheimer disease, autism, Parkinson disease, dystonia, stroke, epilepsy, generalized anxiety as well as post traumatic stress disorder, auditory hallucinations, chronic pain, aphasias, obsessive-compulsive disorders, L-dopa induced dyskynesia, mania and Rasmussen syndrome, among others. The potential of magnetic stimulation in neurorehabilitation is outstanding, with excellent range of safety and, in practical terms, without side effects.

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La estimulación magnética transcraneal ha llamado la atención de neurocientíficos y público en general por la posibilidad de estimular y “controlar” el sistema nervioso de forma no invasiva, realizar diagnósticos más exactos, y aplicar tratamientos y programas de rehabilitación más efectivos en múltiples enfermedades que afectan el sistema nervioso. Así mismo, esta novedosa herramienta ha ayudado a develar la complejidad del comportamiento neural, sus conexiones y su modulación plástica. La estimulación magnética aplicada de manera simple o pareada, se ha convertido en una alternativa útil en el diagnóstico de enfermedades como esclerosis múltiple, enfermedad de Parkinson, epilepsia, distonía, esclerosis lateral amiotrófica, enfermedad cerebro vascular, así como el sueño y sus trastornos, entre otras alteraciones. A nivel terapéutico, se ha sugerido el uso de la estimulación magnética repetitiva con diferentes niveles de evidencia en depresión refractaria a tratamiento farmacológico convencional, tinitus, afonía psicógena, enfermedad de Alzheimer, autismo, enfermedad de Parkinson, distonías, accidente cerebro vascular, epilepsia, trastornos de ansiedad generalizada, estrés post-traumático, alucinaciones auditivas, dolor crónico, afasias, trastorno obsesivo compulsivo, disquinesias inducidas por L-Dopa, manía y síndrome de Rasmussen, entre otros trastornos. Su beneficio en neurorehabilitación es una realidad inocultable, en cuyo caso se ha podido usar con efectividad y, prácticamente, sin efectos secundarios.

Magnetic stimulation has called the attention of neuroscientists and the public due to the possibility to stimulate and “control” the nervous system in a non-invasive way. It has helped to make more accurate diagnosis, and apply more effective treatments and rehabilitation protocols in several diseases that affect the nervous system. Likewise, this novel tool has increased our knowledge about complex neural behavior, its connections as well as its plastic modulation. Magnetic stimulation applied in simple or paired-pulse protocols is a useful alternative in the diagnosis of diseases such as multiple sclerosis, Parkinson disease, epilepsy, dystonia, amyotrophic lateral sclerosis, cerebrovascular disease, and sleep disorders. From the therapeutic perspective, magnetic stimulation applied repetitively has been found useful, with different degrees of efficacy, in treating resistant depression, tinnitus, psychogenic dysphonia, Alzheimer disease, autism, Parkinson disease, dystonia, stroke, epilepsy, generalized anxiety as well as post traumatic stress disorder, auditory hallucinations, chronic pain, aphasias, obsessive-compulsive disorders, L-dopa induced dyskynesia, mania and Rasmussen syndrome, among others. The potential of magnetic stimulation in neurorehabilitation is outstanding, with excellent range of safety and, in practical terms, without side effects.

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The highly sensitive trait present in animals, has also been proposed as a human neurobiological trait. People having such trait can process larger amounts of sensory information than usual, making it an excellent attribute that allows to pick up subtle environmental details and cues. Furthermore, this trait correlates to some sort of giftedness such as higher perception, inventiveness, imagination and creativity. We present evidences that support the existance of key neural connectivity between the mentioned trait, higher sensory processing sensitivity, introversion, ectomorphism and creativity. The neurobiological and behavioral implications that these biomarkers have in people living in developing rural areas are discussed as well.

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This article has been withdrawn at the request of the author(s) and/or editor. The Publisher apologizes for any inconvenience this may cause. The full Elsevier Policy on Article Withdrawal can be found at http://www.elsevier.com/locate/withdrawalpolicy.

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Since ancient times, several cultures including those from China, Egypt, India and Rome gave rigid solutions to improve physical problems of affected people by several neurological disorders. These measures were applied, at that time, by individuals prepared for doing such task. It evolved throughout the years supported by the discovery and comprehension of the so-called neural plasticity as well as the current evidences that the nervous system is able of remodelating itself even in adult times. It is known today that synaptic modulation is the base of neurorehabilitation improved by use and application of specific protocols to each neurological disorder. Among these, we have to consider not only all of the already known on rehabilitation measures but also on neurorobotic, neurorestauration, neuromodulation, neurostimulation as well as virtual reality, among others interventions. Neurorehabilitation has been able to put together modern science with ancient manual therapies helping to change, in a positive way, the attitude toward people with disabilities in the twenty one century; likewise, it offers new hopes for functional recovery where before was nothing. Further, it gives opportunities to get a better quality of life to affected people and its corresponding families. It is very interesting to know that the modern concepts of neurorehabilitation performed in a multidisciplinary approach are very useful for humans on the Earth and people interested in conquer Space.

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El reflejo mandibular o maseterino posee conexiones nerviosas únicas, diferentes de las exhibidas por otros reflejos monosinápticos humanos, y permite evaluar, de forma fácil y eficiente, el tallo cerebral por medio de la estimulación mecánica, eléctrica o magnética. Diversos estudios han demostrado la participación en este reflejo de las interneuronas del tallo cerebral y su modulación por estructuras supraespinales, que hacen parte fundamental de su integración motora. El reflejo mandibular es útil para evaluar la afectación trigémino-trigeminal en polineuropatías como la diabetes, neuromiopatías como la esclerosis múltiple y en pacientes con trastornos del movimiento, con o sin disfunción oromandibular. La evaluación neurofuncional de este reflejo craneofacial ayuda a identificar la integración sensorimotora del tallo cerebral y las posibles alteraciones de estas vías reflejas, debidas a anormalidades del sistema nervioso central o del periférico. Su apropiada ejecución e interpretación, clínica y neurológica, permite aplicar de manera más personalizada diversos protocolos de neurorrehabilitación, con el fin de ayudar a mejorar la calidad de vida de los individuos con afectación de estas vías neurales.

The masseter or mandibular reflex has unique neural connections, different from those exhibited by other human monosynaptic reflexes; thus, it is useful to evaluate in an easy and efficient way the human brain stem. It is possible to elicit this reflex by using mechanical, electrical or magnetic stimulation. Several investigations have demonstrated the participation of brain stem interneurons in this human reflex, as well as its modulation by supraspinal structures, which are a fundamental part of its motor integration. This reflex is useful to evaluate the trigemino-trigeminal involvement in poly-neuropathies such as diabetes, neuromyeolopathies such as multiple sclerosis, and in patients with movement disorders, regardless of oromandibular dysfunction. Neurofunctional evaluation of this reflex may be useful to study the sensorimotor integration of the brain stem and the alterations due to abnormalities of the central or peripheral nervous system. Its proper interpretation may be the basis to apply different neuro-rehabilitation protocols thus improving the quality of life of individuals with involvement of these neural pathways.

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Despite theoretical and experimental efforts to understand the space adaptation syndrome (SAS), which is responsible for spatial disorientation that severely affects physical and cognitive performance in astronauts, most of its pathophysiology is still unknown. As a consequence, countermeasures for SAS are not completely effective. Accordingly, in addition to the sensory-motor conflict theories, we propose that microgravity would affect the potassium channels of inner ear hair cells that would result in a temporal channelopathy as the most likely molecular origin for SAS, as well as being responsible for perpetuating movement disorders in gravity transition environments including those to be experienced by people visiting or living on the earth, moon, mars and beyond.

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El sistema nervioso es un sistema cerrado pero, a la vez, muy dinâmico, que asimila, reorganiza y modifica los mecanismos biológicos, bioquímicos y fisiológicos que posee. Esta capacidad se denomina neuroplasticidad e implica cambios en el tejido neural que incluye regeneración axonal, colateralización, neurogenesis, sinaptogénesis y reorganización funcional, entre otros mecanismos. Dichos mecanismos emplean neurotrasmisores como el N-metil-D-apartato (NMDA), el ácido gama-aminobutirico (GABA), la acetilcolina o la serotonina, involucrados en la potenciación o depresión sinâptica a corto o largo plazo, la cual puede durar horas o días, sostenida por segundos mensajeros como el AMP cíclico, cuyos efectos pueden ser transitorios o permanentes. Estos efectos son la base de la neuromodulación. Esta última genera cambios a largo plazo en la actividad metabólica neuronal y su respuesta a diversos estímulos eléctricos, magnéticos o químicos, empleados en la neurorrehabilitación clínica. Dicha neurorrehabilitación es una intervención necesaria en, al menos, el 75% de los pacientes que han padecido un insulto neural, cuyo fundamento es la recuperación funcional del paciente. Por esto, la responsabilidad de los neurólogos clínicos, los neurocirujanos, los pediatras, los neuropediatras, los ortopedistas, los siquiatras y los cirujanos en general, entre otros profesionales de la salud, debería no solo proveer un diagnóstico y suministrar un tratamiento médico o quirúrgico, sino reorientar al paciente hacia un programa formal de neurorrehabilitación, liderado por especialistas en el área, en el que le ayudaran a alcanzar una apropiada funcionabilidad,una óptima neurorrestauración y una adecuada calidad de vida, incluyendo la de sus correspondientes familias.

The nervous system is a closed system but, at the same time, is very dynamic and able to adapt, reorganize and modify the biological, biochemical and physiological mechanisms that it poses. This ability is called neuroplasticity and implies changes in neural structures such as axonal regeneration, collateralization, neurogenesis, synaptogenesis and functional reorganization, among other mechanisms. These mechanisms involve different neurotransmitters such as N-metil-D-apartate (NMDA), gama-amynobutiric acid (GABA), acetilcholine or serotonine; they are involved in short-term depression and potentiation which may last hours or days, maintained by second messengers such as cyclic AMP; its effects may be transient or permanents, and they are the basis of neuromodulation. This latter concept involves long term changes on the neuronal metabolism and its responses to electrical, magnetic or chemical stimuli are employed for neurorehabilitation. Neurorehabilitation is an intervention that must be applied in, at least, seventy five percent of patients suffering neural injuries being its main goal the functional recovery of patients. Accordingly, clinical neurologist, neurosurgeons, pediatricians, neuropediatricians, orthopedic surgeons, psychiatrists and general surgeons, among other health care professionals should offer not only a diagnosis and its corresponding medical or surgical treatment, but also to reorient patients toward neurorehabilitation programs led by a specialist properly trained in this area. This will help patients to obtain optimal functioning, better neurorestaurative condition and a more appropriate quality of life of patients and their relatives.

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Current research is in agreement with the presence of a magnetic compass in living beings including humans. The two most accepted explanations that demonstrate the existence of magnetoreceptors in living beings are, the radical pair and the biogenic magnetite, which are discussed here with its respective experimental evidence and support. It indicates the presence of magnetite crystals in otoliths, among different inferior species of animals. Moreover, the magnetite found in several organs of human body allows predicting the existence of such element, in otoliths of vestibular system as well; further, anticipates that human magnetoreception is an additional function of the vestibular system. These geomagnetic signals would modulate balance, movement and spatial positioning of man in concordance of gravity values. This new field of otomagnetism opens new research areas for understanding the mechanisms involved in balance, equilibrium, orientation, and space positioning in normal and disease populations. Likewise, this could be the starting point for application of new human neurorehabilitation procedures, in those magnetoreception-associated neurological disorders that happen in the earth, the sea or the air.

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Motor nerve conduction studies (MNCS) and blink reflexes (BR) were done on a 42-year-old female patient who presented with peripheral facial nerve palsy (PFNP); these investigations were done while she had her facial muscles relaxed ("A"), and contracted ("B"). While in the "A" state, MNCS of the facial nerves had prolonged latency and low amplitude and R3 of the blink reflex was absent in the affected side; an early contralateral R1 response was recorded on the unaffected side. In state "B," the third silent period was "prolonged" on the affected side and absent on the unaffected one. This is an illustrative case of a variant of facial nerve palsy in humans.

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OBJECTIVE: We aimed to better understand the involvement of the corticospinal tract, assessed by non-invasive transcranial stimulation, in order to determine the actual involvement of the motor system in patients with HAM/TSP and AIDS. METHOD: An exhaustive MEDLINE search for the period of 1985 to 2008 for all articles cross-referenced for "HTLV-I, HTLV-II, HTLV-III and HIV, HIV1, HIV2, evoked potential, motor evoked potential, high voltage electrical stimulation, transcranial magnetic stimulation, magnetic stimulation, corticomotor physiology, motor pathways, acquired immunodeficiency syndrome, AIDS, SIDA, tropical spastic paraparesis, HTLV-I-associated myelopathy, HAM, TSP, and HAM/TSP" were selected and analysed. RESULTS: Eighteen papers published in English, Spanish, Portuguese, French and Japanese were identified. Only the central motor conduction time has been analyzed in seropositive patients to human retroviruses. The investigations done on HAM/TSP support the involvement of the pyramidal tract mainly at lower levels, following a centripetal pattern; in AIDS, such an involvement seems to be more prominent at brain levels following a centrifugal pattern. CONCLUSION: The central motor conduction time abnormalities and involvement differences of the corticospinal tract of patients with AIDS and HAM/TSP dissected here would allow to re-orient early neurorehabilitation measures in these retroviruses-associated neurodegenerative disorders. Besides this, more sophisticated and sensitive non-invasive corticospinal stimulation measures that detect early changes in thalamocortical-basal ganglia circuitry will be needed in both clinically established as well as asymptomatic patients at times when the fastest corticospinal fibers remain uninvolved.

OBJETIVO: Investigar el compromiso del tracto piramidal, evaluado por estimulación trascranial no invasiva, en pacientes afectados por SIDA y HAM/TSP. MÉTODO: Se realizó una búsqueda en la base de datos MEDLINE, que abarcó el período de 1985 a 2008; se incluyeron los términos "HTLV-I, HTLV-II, HTLV-III and HIV, HIV1, HIV2, evoked potential, motor evoked potential, high voltage electrical stimulation, transcranial magnetic stimulation, magnetic stimulation, corticomotor physiology, motor pathways, acquired immunodeficiency syndrome, AIDS, SIDA, tropical spastic paraparesis, HTLV-I-associated myelopathy, HAM, TSP, and HAM/TSP". RESULTADOS: Se obtuvieron 18 artículos publicados en inglés, español, portugués, francés y japonés. El tiempo de conducción central es el único parámetro que se ha estudiado en individuos seropositivos a retrovirus humanos. Las investigaciones hechas en HAM/PET apoyan el compromiso del tracto piramidal, principalmente a nivel dorso-lumbar, de manera centrípeta. En SIDA, el compromiso parece ser mas prominente a nivel cortical, siguiendo un patrón centrifugo. CONCLUSION: El conocer las diferencias en el compromiso y anormalidades del tracto corticoespinal de los pacientes con SIDA y HAM/TSP podrán ser útiles para reorientar la neurorehabilitación temprana en estos desórdenes neurodegenerativos asociados a retrovirus. De otro lado, evaluaciones mas sensibles y sofisticadas del sistema piramidal, que permitan detectar cambios tempranos en los circuitos talamocorticoganglionicos serán mandatarios de realizar a partir de la fecha, bien sea que los individuos estén asintomáticos o no, en estadios clínicos donde las fibras corticoespinales rápidas no estén aun comprometidas.

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