Multimodal magnetic resonance imaging of subjective tinnitus related mood disorder / 中华行为医学与脑科学杂志

Subjective tinnitus refers to the subjective sound perception of patients in the absence of an external sound stimulus.Tinnitus patients are often accompanied by emotional disorders, such as depression and anxiety, which seriously affect the quality of life of patients.Therefore, understanding the mechanism underlying the occurrence of tinnitus emotional disorders can help relieve the pain of tinnitus.Tinnitus was considered a simple ear disease in the early stages, but with the progress of neuroimaging technology and the development of animal models, increasing attention has been given to the changes in the neural structure and function of tinnitus patients.As a powerful technique for in vivo investigation of neural activity in the brain, multimodal magnetic resonance has been widely used in the study of subjective tinnitus.By observing the changes of brain structure in subjective tinnitus patients, the neural mechanism of the occurrence and development of tinnitus has been explored.This article reviewed recent multimodal magnetic resonance imaging studies on the neuroimaging mechanisms of tinnitus with mood disorders, compared the differences in neural activity between subjective tinnitus patients and healthy people, and found that the limbic system, default mode network and other neural network abnormalities were closely related to the mood disorders of tinnitus.The application and development of multimodal magnetic resonance techniques in subjective tinnitus were also discussed to elucidate the neural mechanism of subjective tinnitus accompanied by mood disorders with the help of multimodal magnetic resonance techniques.

Progress in the mechanism of acupuncture intervention on pain emotion and pain cognition mediated by limbic system / 针灸推拿医学（英文版）

Pain is a complex physiological and psychological activity, involving at least three dimensions, including pain sensation, pain emotion, and pain cognition. Acupuncture can clearly relieve the pain sensation of patients and improve pain emotion and pain cognition induced by pain; acupuncture participates in the multi-dimensional regulation of pain through brain regions of the limbic system such as anterior cingulate cortex (ACC), amygdala (AMY), and hippocampus. By analyzing relevant literature, it has been found that the regulation of acupuncture on pain emotion is mainly related to the activation of pertinent opioid receptors in the ACC, the decrease of the expression of extracellular signal-regulated kinase (ERK), and the promotion of the expression of glutamic acid (Glu) A1, metabotropic glutamate receptor-1 (mGluR1), and γ-aminobutyric acid aminobutyric acid (GABA) B2 protein in the AMY. The regulation of acupuncture on pain cognition is mainly related to the elevation of the expression of protein kinase A (PKA) and phospho-p38 mitogen-activated protein kinase (phospho-p38 MAPK) and the inhibition of cyclic adenosine monophosphate (cAMP)/PKA/cAMP response element-binding protein (CREB) signaling pathway in the ACC.

A volumetric study of hippocampus in cadaveric human brains

Background: Hippocampus is one of the key parts of limbic system. It is located in the floor of the inferior hornof lateral ventricle.Materials and methods: The study is conducted on 50 Hippocampi removed from 25 cadaveric brains in MedicalCollege Baroda, Gujarat. The volume of each is measured by water displacement method.Results: It is observed that the mean volume for the sample is 2.26+0.88cc. The mean volume on right side is2.37+0.88cc and on the left side is 2.12+0.88cc. The mean volumes seen in male and female hippocampi are2.14+0.70cc and 2.52+1.21cc respectively. The mean volume in the age group 60-80 years is 2.55+0.65cc and inthe age group 81 years onwards, it is 2.0+1.03cc. The difference in volumes of the two age groups is found to bestatistically significant.Conclusion: The study will be useful to anatomists, Neurologists, Neurosurgeons and psychiatrists alike.

Chemical intolerance: involvement of brain function and networks after exposure to extrinsic stimuli perceived as hazardous

BACKGROUND@#Chemical intolerance (CI) is a chronic condition characterized by recurring and severe symptoms triggered by exposure to low levels of odorous or pungent substances. The etiology of CI has been a controversial subject for a long time. The aim of this review is to summarize findings on the neurological processing of sensory information during and after exposure to low levels of odorous or pungent substances in individuals with CI, focusing on the brain function and networks.@*METHODS@#Scientific studies on CI published between 2000 and 2019 in academic peer-reviewed journals were systematically searched using medical and scientific literature databases. Only peer-reviewed articles reporting original research from experimental human studies directly associated with CI, and involving related neurological responses or brain imaging after exposure to odorous or pungent substances (i.e., in chemical provocation tests), were considered.@*RESULTS@#Forty-seven studies were found to be eligible for a full-text review. Twenty-three studies met the selection criteria and were included in this review. Evidence indicated that differences between subjects with CI and healthy controls were observed by brain imaging during and after exposure to odorous or pungent substances. Differences in brain imaging were also observed between initial exposure and after exposure to these substances. Neurological processing of sensory information after exposure to extrinsic stimuli in the limbic system and related cortices were altered in subjects with CI. A previous documentable exposure event was likely to be involved in this alteration.@*CONCLUSIONS@#This review documents consistent evidence for the altered neurological processing of sensory information in individuals with CI. Further neurophysiological research exploring the processing of extrinsic stimuli and cognition of sensation through the limbic system and related cortices in CI, and the appearance of symptoms in individuals with CI, are required.

Efecto de la amigdalotomía e hipotalamotomía unilateral en pacientes con agresividad refractaria / Effect of tonsillotomy and unilateral hypothalamotomy in patients with refractory aggressiveness

Resumen Antecedentes: El tratamiento neuroquirúrgico, aunque polémico, se considera un recurso útil en el tratamiento de enfermedades psiquiátricas crónicas como la agresividad refractaria. Objetivo: Evaluar los resultados clínicos y los efectos colaterales de la hipotalamotomía posteromedial (HPM) asociada a amigdalotomía en pacientes con agresividad refractaria. Método: Se realizó un ensayo clínico en pacientes con agresividad crónica y refractaria a tratamiento farmacológico. Se les realizó amigdalotomía central asociada a HPM mediante termocoagulación por radiofrecuencia. El grado de agresividad se cuantificó mediante la escala global de agresividad de Yudofsky. Los cambios postoperatorios en la conducta agresiva continuaron siendo evaluados cada 6 meses durante al menos 36 meses. Resultados: Se observó un cambio estadísticamente significativo de la conducta agresiva, a lo largo de 36 meses de seguimiento. Se describen los efectos colaterales de la asociación de ambos procedimientos, siendo el de mayor frecuencia la somnolencia y algunos casos de reducción en la conducta sexual. Conclusión: Las lesiones unilaterales simétricas y simultáneas del núcleo central de la amígdala y del hipotálamo posteromedial contralaterales a la dominancia motora dan el mismo efecto clínico en la reducción de la agresividad patológica que las lesiones bilaterales.

Abstract Background: Neurosurgical treatment, although controversial, is considered a useful resource in the treatment of chronic psychiatric diseases such as refractory aggressiveness. Objective: To evaluate the clinical results and side effects of posteromedial hypothalamotomy associated with amygdalotomy in patients with refractory aggressiveness. Method: A clinical trial was conducted in patients with chronic aggressiveness and refractory to pharmacological treatment. A central amygdalotomy associated with posteromedial hypothalamotomy was performed using thermo-coagulation by radiofrequency. The degree of aggressiveness was quantified by the Yudofsky's global scale of aggression. Postoperative changes in aggressive behavior continued to be evaluated every 6 months for at least 36 months. Results: A statistically significant change in aggressive behavior was observed during 36 months of follow-up. The collateral effects of the association of both procedures are described, the most frequent being drowsiness and some cases of reduction in sexual behavior. Conclusion: Symmetric and simultaneous unilateral lesions of the central nucleus of the amygdala and the posteromedial hypothalamus contralateral to motor dominance give the same clinical effect in the reduction of the pathological aggression that the bilateral lesions.

Which Neural Tract Plays a Major Role in Memory Impairment After Multiple Cerebral Infarcts? A Case Report

Injury to the thalamocortical tract (one in the Papez circuit) that leads to memory impairment following brain injury is very rare. In this study, we present a case of partial injury to the thalamocortical tract that causes memory impairment after concurrent thalamic and hippocampal infarct. A 20-year-old male complained of memory impairment 1 month after partial injury to the thalamocortical tract. Using a probabilistic diffusing tensor tractography, it was found that the right thalamocortical tract was thinner than the left thalamocortical tract. However, all other neural tracts including the fornix, cingulum, and mammillothalamic tract were intact on both hemispheres. Therefore, the memory impairment in this patient was considered as being due to thalamic infarct based on the observation that the fornix from hippocampal infarct was intact. This case suggests that the assessment of lesions in the neural tracts of the Papez circuit might be useful for understanding the mechanism of memory impairment following cerebral infarction.

Current progress in neuroimaging research on treatment resistant depression / 生物医学工程学杂志

Depression is a common psychiatric disorder, and approximately 30% patients with depression do not respond effectively to standard antidepressant medication; this condition is termed treatment resistant depression (TRD) and its neurobiological mechanism remains unclear. Neuroimaging techniques can non-invasively explore changes in brain structure, function and metabolism. These techniques have been applied in neurobiological research of TRD and revealed critical abnormalities in brain structure, function and metabolism in fronto-limbic system. In this paper, we reviewed the latest progress in neuroimaging researches on TRD, providing new insight and imaging evidence for further neurobiological studies of TRD.

Reduction of prefrontal thickness in military police officers with post-traumatic stress disorder

Abstract Background Brain-imaging studies in post-traumatic stress disorder (PTSD) have consistently revealed alterations in brain structure and function and this is correlated to symptomatology. However, few studies have investigated the role of biomarkers in PTSD some specific groups, as police officers. Objective To evaluate prefrontal and limbic volumes, and cortical thickness of police officers exposed to trauma during work who developed post-traumatic stress disorder, resilient matched controls (without PTSD), and compared to healthy civilians. Methods Prefrontal and limbic volumes, and cortical thickness of 12 police officers with PTSD, 12 resilient police officers, and 12 healthy civilians who underwent brain MRI were analyzed. Results Differences in limbic structures volume were not significative after Bonferroni correction. A significant reduction in cortical thickness on right rostral cingulate, right and left middle frontal gyrus, left superior frontal, left lingual, calcarine and cuneus were observed in PTSD group in comparison to controls was observed. Discussion Although preliminary, our results suggested not only the association between cortical thickness and PTSD, but also indicated that patients and controls have anatomical differences.

Diffusion tensor imaging tractography in assessing damage of limbic system pathways of relapsing-remitting multiple sclerosis patients / 中国医学影像技术

Objective To assess the damage of limbic system pathways in relapsing-remitting multiple sclerosis (RRMS) by diffusion tensor imaging (DTI) tractography.Methods DTI tractography was used to acquire fiber numbers,fractional anisotropy (FA),mean diffusivity (MD) of cingulum,fornix,and uncinate fasciculus (UF) in 20 RRMS patients (MS group) and 20 healthy volunteers (control group),and statistical analysis was performed.Results Compared with control group,lower FA value (P＜0.01) and higher MD value (P＜0.05) were found in cingulum,fornix and UF of MS group,and the fiber numbers of fornix decreased in MS group (P＜0.001).There were significant differences between the left and the right UF in fiber numbers and FA value of control group and the fiber numbers of MS group.Negative correlations were found between FA value of cingulum and UF and EDSS scores in MS group (r=-0.572,-0.665,both P＜0.05),and positive correlations were found between MD value and EDSS scores (r=0.627,0.603,both P＜0.05).Conclusion DTI tractography is valuable in assessing MS associated limbic system damage and in monitoring the clinical progression of the disease.

Ruptura del paradigma subcortical en los procesos emocionales / Rupture of the subcortical paradigm in the emotional processes

El estudio de las emociones, su desarrollo, procesamiento y comprensión, se ha limitado a la funcionalidad de estructuras subcorticales; sin embargo, recientemente se han propiciado investigaciones que reorientan y amplían el campo de estudio del procesamiento emocional hacia vínculos con regiones corticales del cerebro. Pese a lo anterior, no se había planteado claramente la importancia de eliminar el sesgo localizacionista en los procesos emocionales; este artículo realiza un recorrido por los inicios griegos con tendencia científica en el abordaje y estudio de las emociones, y la evolución que estos preconceptos y resultados han tenido a lo largo del último par de siglos donde se ha intensificado la comprensión de la actividad cerebral, así como las limitantes que han logrado trascender a lo largo del último siglo y que presentan perspectivas parciales del funcionamiento y procesamiento emocional en los circuitos biológicos del cerebro. De igual forma, se hace pertinente resaltar la importancia de las emociones en regiones corticales, que intervienen en la actividad cognitiva y motora que allí se suscita, y cómo éstas pueden afectar o favorecer su funcionalidad.

The study of emotions, development, processing and understanding has been limited to the functionality of subcortical structures; however, recently been reoriented led reearch and expand the field of study of emotional processing to links with cortical regions of the brain. Despite this, they had not clearly stated the importance of eliminating the bias localizationist emotional processes; This article takes a journey through the Greek incios with scientific trend in the approach and study of emotions, and the evolution of these preconceptions and results have had over the last couple of centuries where there is increased understanding of brain activity, as well as the limitations that have managed to transcend throughout the last century and have partial perspectives of functioning and emotional processing in biological brain circuits. Similarly, it is pertinent to highlight the importance of emotions in cortical regions involved in cognitive and motor activity that arises there, and how they can affect or favor their functionality.

Tinnitus neural mechanisms and structural changes in the brain: the contribution of neuroimaging research

Introduction Tinnitus is an abnormal perception of sound in the absence of an external stimulus. Chronic tinnitus usually has a high impact in many aspects of patients' lives, such as emotional stress, sleep disturbance, concentration difficulties, and so on. These strong reactions are usually attributed to central nervous system involvement. Neuroimaging has revealed the implication of brain structures in the auditory system. Objective This systematic review points out neuroimaging studies that contribute to identifying the structures involved in the pathophysiological mechanism of generation and persistence of various forms of tinnitus. Data Synthesis Functional imaging research reveals that tinnitus perception is associated with the involvement of the nonauditory brain areas, including the front parietal area; the limbic system, which consists of the anterior cingulate cortex, anterior insula, and amygdala; and the hippocampal and parahippocampal area. Conclusion The neuroimaging research confirms the involvement of the mechanisms of memory and cognition in the persistence of perception, anxiety, distress, and suffering associated with tinnitus.

Reward and aversion systems of the brain as a functional unit. Basic mechanisms and functions / Sistemas de recompensa y aversión del cerebro como una unidad funcional. Mecanismos básicos y funciones

INTRODUCTION: It is increasingly important to recognize the reward and aversion systems of the brain as a functional unit. A fundamental task of the mammalian brain is to assign an emotional/motivational valence to any stimuli by determining whether they are rewarding and should be approached or are aversive and should be avoided. Internal stimuli are also assigned an emotional/motivational valence in a similar fashion.OBJECTIVE: To understand the basic mechanisms and functions of the reward and aversion system of the brain.METHOD: A bibliographical search was conducted in the Pubmed database using different key words. Documents on relevant aspects of the topic were selected.RESULTS: In the ventral tegmental area, dopaminergic (VTA-DA) neurons play a role in reward-dependent behaviors. It is also known that the inhibition of the VTA-DA neurons by GABAergic neurons contributes to a reward prediction error calculation that promotes behaviors associated with aversion. The ventral dopaminergic mesolimbic system and the nucleus accumbens are activated during reward and inhibited during aversions. The amygdala is activated during aversive behavior.DISCUSSION AND CONCLUSION: The reward/aversion system is highly relevant for survival, which is most likely its primary function. It is involved in important pathologies such as addiction, depression and autonomic and endocrine disturbances. Therefore, its knowledge has become of clinical importance.Although great advances have been made in the knowledge of the basic mechanisms of the reward/aversion system, the detailed circuits within the VTA that mediate reward and aversion and the anatomical substrates are not completely clear.

INTRODUCCIÓN: Es muy importante reconocer el sistema de recompensa y aversión del cerebro como una unidad funcional. Una de las funciones fundamentales del cerebro de los mamíferos es la capacidad para designar un valor emocional/motivacional a cualquier estímulo. Esta capacidad permite identificar un estímulo como gratificante y aproximarnos a él, o reconocerlo como aversivo y evitarlo.OBJETIVO: Comprender los mecanismos fisiológicos del sistema de recompensa-aversión.MÉTODO: Se realizó una búsqueda bibliográfica en la base de datos Pubmed con las diferentes palabras clave. Se seleccionaron los documentos sobre los aspectos relevantes.RESULTADOS: Las neuronas dopaminérgicas del área tegmental ventral (ATV) cumplen un papel importante en los comportamientos dependientes de la recompensa. Asimismo, la inhibición de las neuronas dopaminérgicas ATV por parte de las neuronas GABAérgicas contribuye a predecir la recompensa y promueve comportamientos aversivos. Este sistema se activa durante actividades de recompensa y se inhibe durante la aversión. La amígdala es la principal estructura relacionada con la aversión.DISCUSIÓN Y CONCLUSIÓN: Este sistema se considera de gran importancia para la supervivencia de las especies, la que parece ser su función primordial. Interviene en distintas patologías como adicciones, depresión, trastorno por estrés postraumático, fobias y trastornos endocrinos y autonómicos, por lo que el conocimiento de este sistema es de gran importancia clínica.Aunque se ha avanzado mucho en el estudio y entendimiento de este sistema y de sus circuitos anatómicos ubicados en el ATV mesencefálica y sus conexiones con áreas subcorticales, el conocimiento de este sistema funcional sigue siendo un desafío científico.

Regional Gray Matter Volume Reduction Associated with Major Depressive Disorder: A Voxel-Based Morphometry

BACKGROUND AND PURPOSE: The association between the low emotional regulation and the brain structural change of major depressive disorder (MDD) has been proposed, but the voxel-based morphometry (VBM) studies on female MDD are rare. The purpose of the present study was to show the regional volume changes of gray matter (GM) in female patients with MDD by optimized VBM. METHODS: To control subjects homogeneity, twenty female MDD patients and age, sex matched 21 normal controls were included for the VBM analysis. To identify the change of regional gray matter volume (GMV), the optimized VBM was performed with T1 MRIs. The amounts of gray/white matter and intracranial cavity volumes (ICV) were measured. The analysis of covariance (ANCOVA) and partial correlation analyses covariate with age and ICV were applied for VBM. RESULTS: The age and ICV distributions were similar between the two groups. In the ANCOVA, the total GMV of MDD was smaller than that of normal controls. In the VBM, regional GMV was relatively decreased in the limbic system (amygdalae, ambient gyri, hippocampi heads, subiculum, posterior parahippocampal gyri, pulvinar nuclei, dorsal posterior cingulate gyri, and left pregenual cingulate gyrus). The lingual gyri, short insular gyri, right fusiform gyrus, and right inferior frontal gyrus were also showed decreased regional GMV. CONCLUSION: The results of this study indicate that the female MDD is mainly associated with the structural deficits of the limbic system and limbic system related cortices, which were known to the center of emotions.

Advance in per2 Gene on Circadian Rhythm of Limbic System (review) / 中国康复理论与实践

@#Per2 gene plays one of the most critical roles of clock gene which modulates circadian rhythm both in the physiological, biochemical and behavioral processes of organisms. The distributions of per2 gene include suprachiasmatic nucleus of the hypothalamus, central nucleus of amygdala, bed nucleus of the stria terminalis, hippocampus and other components of limbic system; it affects the emotional and visceral activities through participating in the system of circadian rhythm. The central per2 gene regulates the hypothalamus-pituitaryadrenal axis through integration of light input, steroid hormones and other neurotransmitters integration, acting on the target organs, and presentes a circadian rhythm of movement. This article reviewed the morphology and biology of per2 gene, and its participation in limbic system regulating the circadian rhythm of motional and visceral activities.

Searching for the Origin through Central Nervous System: A Review and Thought which Related to Microgravity, Evolution, Big Bang Theory and Universes, Soul and Brainwaves, Greater Limbic System and Seat of the Soul

Cerebrospinal fluid (CSF) serves buoyancy. The buoyancy thought to play crucial role in many aspects of the central nervous system (CNS). Weightlessness is produced mainly by the CSF. This manuscript is purposely made to discuss its significance which thought contributing towards an ideal environment for the CNS to develop and function normally. The idea of microgravity environment for the CNS is supported not only by the weightlessness concept of the brain, but also the noted anatomical position of the CNS. The CNS is positioned in bowing position (at main cephalic flexure) which is nearly similar to an astronaut in a microgravity chamber, fetus in the amniotic fluid at early gestation, and animals and plants in the ocean or on the land. Therefore, this microgravity position can bring us closer to the concept of origin. The hypothesis on ‘the origin’ based on the microgravity were explored and their similarities were identified including the brainwaves and soul. Subsequently a review on soul was made. Interestingly, an idea from Leonardo da Vinci seems in agreement with the notion of seat of the soul at the greater limbic system which has a distinctive feature of “from God back to God”.

Mapeamento de potencial nicho neurogênico no lobo temporal humano / Mapping of potential neurogenic niche in the human temporal lobe

No final do século 19, o neurônio foi descrito como a unidade funcional básica do sistema nervoso e sua formação era considerada inexistente na fase adulta, explicando a ausência de recuperação significativa em doenças neurológicas. Evidências de geração de neurônios em mamíferos adultos surgiram na década de 1960 e foram confirmadas três décadas depois. Atualmente, predomina a visão de que mamíferos adultos possuem dois nichos neurogênicos independentes: a zona subventricular (ZSV) e a zona subgranular (ZSG) do giro denteado. No entanto, a existência de nichos neurogênicos em humanos adultos é controversa. Nossa hipótese foi de que o mapeamento de nichos neurogênicos no lobo temporal humano poderia esclarecer aspectos sobre a neurogênese adulta. A detecção destes nichos foi buscada em 28 lobos temporais através de imuno-histoquímica para nestina, o marcador mais comum de células-tronco neurais, que são aquelas capazes de se autorrenovar e de gerar novas células neurais. A neurogênese foi pesquisada no hipocampo pelo uso de DCX (do inglês "doublecortin"), o principal marcador de neuroblastos e neurônios imaturos. Nestina foi observada em uma camada contínua formada pela ZSV, zona subpial do lobo temporal medial e ZSG, terminando no subículo. A partir do subículo, uma intensa expressão de DCX ocorreu através da principal via eferente do hipocampo até a fímbria. A visão panorâmica das marcações por nestina e DCX mostrava em conjunto uma linha que circundava as estruturas límbicas do lobo temporal. Por isto, foi denominada linha externa de células do sistema límbico (LECEL). Uma possível explicação para os resultados é que a LECEL seja um nicho neurogênico no qual a ZSV, a zona subpial do lobo temporal medial e a ZSG formam uma unidade contendo células-tronco neurais que se diferenciam em neurônios no subículo. Curiosamente, a área identificada previamente como sendo a corrente migratória rostral humana (formada por células neurais imaturas migrando a partir da...

At the end of the 19th century, the neuron was described as the basic functional unit of the nervous system. The formation of neurons was thought to be absent in adulthood, thus explaining the lack of significant recovery from neurological diseases. Evidence for the generation of neurons in adult mammals was reported in the 1960s and confirmed three decades later. Currently, the prevailing view is that adult mammals harbour two neurogenic niches: the subgranular zone (SGZ) of the dentate gyrus and the subventricular zone (SVZ). Nonetheless, the existence of these niches in adult humans is controversial. We hypothesised that mapping neurogenic niches in the human temporal lobe could clarify this issue. The presence of neurogenic niches was examined in 28 temporal lobes via immunostaining for nestin, the most common marker for neural stem cells, which are cells with the capacities of self-renewal and the generation of neural cells. The presence of neurogenesis was examined in the hippocampus with doublecortin (DCX), a prominent marker for neuroblasts and immature neurons. Nestin was observed in a continuous layer that was formed by the SVZ, the subpial zone of the medial temporal lobe and the SGZ, terminating in the subiculum. In the subiculum, remarkable DCX expression was observed through the principal efferent pathway of the hippocampus to the fimbria. A panoramic view of nestin and DCX staining collectively displayed a line that surrounded the limbic structures of the temporal lobe. Hence, we termed it the external line of cells of the limbic system (EXCEL). A possible explanation for the results is that the EXCEL is a neurogenic niche, in which the SVZ, the subpial zone of the medial temporal lobe and the SGZ form a unit containing neural stem cells that differentiate into neurons in the subiculum. Curiously, the area previously identified as the human rostral migratory stream (formed by immature neural cells that migrate from the SVZ of the frontal horn)...

El Homo sapiens, la fe y el efecto placebo / Homo sapiens, faith and the placebo effect

Los llamados efecto placebo y nocebo son efectos reales que resultan de la interacción entre la actividad mental y el estado funcional del organismo. Esta interacción se puede describir hoy en términos precisos a través de la influencia que las estructuras del sistema límbico ejercen sobre el hipotálamo y las regiones del tallo cerebral que controlan las funciones endocrina, motora y vegetativa. El conocimiento de estos mecanismos pone de relieve la importancia de factores sugestivos, como la confianza en el terapeuta o en el tratamiento indicado, en la curación de enfermedades o de sus secuelas. Existen evidencias de que algunas terapias sin una base científica sólida como la acupuntura, la homeopatía o la terapia floral, logran sus resultados a través de estos mecanismos. Incorporar los principios psicobiológicos que origina el efecto placebo a la relación médico paciente, puede resultar una contribución positiva para una medicina más efectiva y humana, pero siempre dentro de los límites que imponen la ética de no mentir y el respeto a la integridad e inteligencia de los pacientes

The so called placebo and nocebo effects are real, and result from the interaction between the mental activity and the functioning of the body. This interaction is presently described in precise terms as the influence exerted by limbic structures on the hypothalamus and on the brain stem's nuclei that control the endocrine, motor and vegetative functions. Understanding of these mechanisms discloses the important role played by suggestion, like trusting your therapist or trusting the treatment, in the cure of diseases and their sequels. There is also evidence that therapies without a strong scientific foundation, like acupuncture, homeopathy or flower therapy, can achieve some results based on these mechanisms. The introduction of the psychobiological principles governing the effect of placebo into the medical practice could contribute to a more effective and human medicine, provided that the ethical limits imposed by the truth and the respect to the patient´s integrity and intelligence are observed

Crisis de pánico, un reto diagnóstico / Panic attack a diagnostic challeng

Las manifestaciones de pánico asociadas a la epilepsia del lóbulo temporal pueden ser difíciles de diferenciar de los ataques de pánico que hacen parte de los trastornos de ansiedad. Presentamos el caso de una paciente con crisis de pánico de difícil control médico, en la que fueron considerados en el diagnóstico diferencial estas dos entidades.Se describen las características clínicas específicas que permiten aproximarse al diagnóstico.

Panic symptoms associated with temporal lobe epilepsy can be difficult to distinguish from many cases of panicattacks that are part of anxiety disorders. We report the case of a patient with panic attacks difficult to control, which were considered in the differential diagnosis of these entities. We describe specific clinical features that allow diagnosis approach.

Aspectos neurobiológicos implicados en el miedo animal / Neurobiological aspects involved in animal fear

El miedo es una emoción que sirve para la expresión de comportamientos defensivos en situaciones de peligro. Posee un sustrato biológico, con base en el funcionamiento coordinado de los diferentes sistemas orgánicos. Particularmente, el sistema nervioso en su actividad intrínseca genera la vivencia y la acción motriz derivada. En efecto, se ha hallado la intervención de varias estructuras neuroanatómicas como la amígdala e hipotálamo, así como un gran conjunto de moléculas distintas como neurotransmisores y sus receptores. La interacción anatomofuncional causa la emoción. Al igual que se cuenta con la capacidad de producir el miedo, también se puede regular su generación. Para este mecanismo se encuentran determinadas estructuras neuroanatómicas como la corteza prefrontal y orbitofrontal, y sustancias como el GABA y los opiáceos, que inhiben o reducen la actividad en las zonas activas que actúan en el miedo. El equilibrio entre la activación y la inhibición posibilita la ocurrencia del miedo en las circunstancias requeridas y no de una manera descontextualizada o generalizada. En esta revisión se presenta una descripción de diferentes aspectos relevantes en la generación y regulación de la emoción.

Fear is an emotion that is useful for expressing defensive behaviors in dangerous situations. It has a biological support based on the coordinating functionality of different organic systems. Particularity, the nervous system in its intrinsic activity generates the experience and the derived motor action. In fact, researchers have discovered the participation of several neuroanatomical structures such as the amygdala and hypothalamus, as well as a wide range of molecules such as neurotransmitters and their receptors. The anatomical and physiological interactions cause emotion. Since the ability to produce fear exists, the nervous system may regulate it, too. Certain anatomical structures are found for this mechanism such as the prefrontal and orbitofrontal cortex and molecules like GABA and opiates, which inhibited or reduced the activity in the active zones that act upon fear. The balance between activation and inhibition enables the event of fear in the circumstances required and not in an out-of-context or generalized manner. This review presents a description of different relevant aspects in thegeneration and regulation of the emotion.

Cerebral Anatomy of the Spider Monkey Ateles Geoffroyi Studied Using Magnetic Resonance Imaging. First Report: a Comparative Study with the Human Brain Homo Sapiens / Anatomía Cerebral del mono araña Ateles geoffroyi estudiada utilizando imágenes de resonancia magnética. Primer reporte: estudio comparativo con el cerebro humano Homo Sapiens

The objective of the present qualitative study was to analyze the morphological aspects of the inner cerebral anatomy of two species of primates, using magnetic resonance images (MRI): spider monkey (A. geoffroyi) and human (H. sapiens), on the basis of a comparative study of the cerebral structures of the two species, focusing upon the brain of the spider monkey and, primarily, its limbic system. In spite of being an endemic Western hemisphere species, a fact which is by its own right interesting for research due to this animal’s social organization and motor functions, the spider monkey (A. geoffroyi) has hardly been studied in regard to its neuroanatomy. MRI was carried out, in one spider monkey, employing a General Electric Signa 1.5 T scanner. This investigation was carried in accordance to international regulations for the protection of animals in captivity, taking into account all protective means utilized in experimental handling, and not leaving behind any residual effects, either physiological or behavioral. From a qualitative point of view, the brains of the spider monkey and the human were found to have similar structures. In reference to shape, the most similar structures were found in the limbic system; proportionally, however, cervi cal curvature, amygdala, hippocampus, anterior commissure and the colliculi, were larger in the spider monkey than in the human.

El objetivo del presente estudio cualitativo fue analizar los aspectos morfológicos de la anatomía cerebral interna utilizando imágenes de resonancia magnética (IRM) en dos especies de primates, El mono Araña (A. geoffroyi) y el humano (H. sapiens), tomando como base un estudio comparativo de las estructuras cerebrales de las dos especies, concentrándose primordialmente en el sistema límbico del cerebro del mono araña. Aunque es una especie común en el hemisferio occidental, es interesante para estudiar dada su organización social y funciones motoras, el mono araña (A. geoffroyi) ha sido poco estudiado en cuanto a su neuroanatomía. Las IRM fueron hechas a un mono araña utilizando un resonador General Electrics Signa 1.5 T. Esta investigación se llevo a cabo conforme a las leyes internacionales para la protección de animales en cautiverio y teniendo en cuenta todas las medidas de protección para el manejo experimental para evitar cualquier efecto residual de índole comportamental o fisiológico. Desde un punto de vista cualitativo, los cerebros del mono araña y el humano tenían estructuras similares. Con respecto a la forma, las estructuras más parecidas fueron encontradas en el sistema límbico, sin embargo la curvatura cervical, la amígdala, el hipocampo, la comisura anterior y el colículo fueron más grandes proporcionalmente en el mono araña que en el humano.