Stacking influence on the in-plane magnetic anisotropy in a 2D magnetic system.

The magnetization patterns on three atomic layers thick islands of Co on Ru(0001) are studied by spin-polarized low-energy electron microscopy (SPLEEM). In-plane magnetized micrometer wide triangular Co islands are grown on Ru(0001). They present two different orientations correlated with two different stacking sequences which differ only in the last layer position. The stacking sequence determines the type of magnetization pattern observed: the hcp islands present very wide domain walls, while the fcc islands present domains separated by much narrower domain walls. The former is an extremely low in-plane anisotropy system. We estimate the in-plane magnetic anisotropy of the fcc regions to be 1.96 × 104 J m-3 and of the hcp ones to be 2.5 × 102 J m-3.

Magnetic Patterning by Electron Beam-Assisted Carbon Lithography.

We report on the proof of principle of a scalable method for writing the magnetic state by electron-stimulated molecular dissociative adsorption on ultrathin Co on Re(0001). Intense microfocused low-energy electron beams are used to promote the formation of surface carbides and graphitic carbon through the fragmentation of carbon monoxide. Upon annealing at the CO desorption temperature, carbon persists in the irradiated areas, whereas the clean surface is recovered elsewhere, giving origin to chemical patterns with nanometer-sharp edges. The accumulation of carbon is found to induce an in-plane to out-of-plane spin reorientation transition in Co, manifested by the appearance of striped magnetic domains. Irradiation at doses in excess of 1000 L of CO followed by ultrahigh vacuum annealing at 380 °C determines the formation of a graphitic overlayer in the irradiated areas, under which Co exhibits out-of-plane magnetic anisotropy. Domains with opposite magnetization are separated here by chiral Neél walls. Our fabrication protocol adds lateral control to spin reorientation transitions, permitting to tune the magnetic anisotropy within arbitrary regions of mesoscopic size. We envisage applications in the nano-engineering of graphene-spaced stacks exhibiting the desired magnetic state and properties.

Graphene as a Mechanically Active, Deformable Two-Dimensional Surfactant.

In crystal growth, surfactants are additive molecules used in dilute amount or as dense, permeable layers to control surface morphologies. We investigate the properties of a strikingly different surfactant: a 2D and covalent layer with close atomic packing, graphene. Using in situ, real-time electron microscopy, scanning tunneling microscopy, kinetic Monte Carlo simulations, and continuum mechanics calculations, we reveal why metallic atomic layers can grow in a 2D manner below an impermeable graphene membrane. Upon metal growth, graphene dynamically opens nanochannels called wrinkles, facilitating mass transport while at the same time storing and releasing elastic energy via lattice distortions. Graphene thus behaves as a mechanically active, deformable surfactant. The wrinkle-driven mass transport of the metallic layer intercalated between graphene and the substrate is observed for two graphene-based systems, characterized by different physicochemical interactions, between graphene and the substrate and between the intercalated material and graphene. The deformable surfactant character of graphene that we unveil should then apply to a broad variety of species, opening new avenues for using graphene as a 2D surfactant forcing the growth of flat films, nanostructures, and unconventional crystalline phases.

Association between exposure to rotating night shift versus day shift using levels of 6-sulfatoxymelatonin and cortisol and other sex hormones in women.

The present study aims to compare 6-sulfatoxymelatonin (aMT6s) secretion patterns and levels of cortisol and sex hormones (estradiol, progesterone, DHEA, DHEAS, and testosterone) among rotating night-shift workers and day-shift workers. We performed a cross-sectional study in Cantabria (northern Spain) including 136 women (73 day-shift workers and 63 rotating night-shift workers). Blood and urine samples were obtained after two consecutive working days. Differences in means were estimated using ANCOVA, stratified by menopausal status, ovulation phase, and adjusted for season, age, body mass index, consumption of cigarettes in the last 24 h. aMT6s circadian rhythm was analyzed using the cosinor analysis. The present study showed that rotating night-shift workers had lower excretion of aMT6s than day-shift workers (mesor = 50.26 ng aMT6s/mg creatinine in women with rotating night shift versus 88.79 ng aMT6s/mg creatinine in women with day shift), lower fluctuation (amplitude = 45.24 ng aMT6s/mg creatinine in rotating night-shift workers versus 79.71 ng aMT6s/mg creatinine in day-shift workers), and a later acrophase (aMT6s peak time: 08:31 in rotating night-shift workers versus 07:13 h in day-shift workers). Additionally, women with rotating night shift had higher estradiol and progesterone levels, compared to day workers, especially in the follicular phase on the menstrual cycle.

Chronic spinal injury repair by olfactory bulb ensheathing glia and feasibility for autologous therapy.

Olfactory bulb ensheathing glia (OB-OEG) promote repair of spinal cord injury (SCI) in rats after transplantation at acute or subacute (up to 45 days) stages. The most relevant clinical scenario in humans, however, is chronic SCI, in which no more major cellular or molecular changes occur at the injury site; this occurs after the third month in rodents. Whether adult OB-OEG grafts promote repair of severe chronic SCI has not been previously addressed. Rats with complete SCI that were transplanted with OB-OEG 4 months after injury exhibited progressive improvement in motor function and axonal regeneration from different brainstem nuclei across and beyond the SCI site. A positive correlation between motor outcome and axonal regeneration suggested a role for brainstem neurons in the recovery. Functional and histological outcomes did not differ after transplantation at subacute or chronic stages. Thus, autologous transplantation is a feasible approach as there is a time frame for patient stabilization and OEG preparation; moreover, the healing effects of OB-OEG on established injuries may offer new therapeutic opportunities for chronic SCI patients.

Long-term care of paraplegic laboratory mammals.

Repair of spinal cord injuries (SCIs) is still a major clinical challenge. Several attempts have been made to find a cure for this condition in experimental animals that could be extrapolated to humans. A key for success seems the availability of optimum animal models for testing different therapies. Complete spinal cord lesion in mammals is considered the most accurate injury model. In addition, long-term survival of animals seems more appropriate, as this increases the efficacy of the repair strategies. However, paraplegic animals require special care and treatment for proper longterm maintenance, and to date, there are no published protocols. This lack of available information has discouraged scientists from working with this injury model. Over the past 7 years, we have tested the repair efficacy of olfactory ensheathing glia in paraplegic rats for survival periods of more than 8 months. To keep these animals healthy for this long time, we adapted and administered treatments used in people with paraplegia. These same protocols (developed for rodents in our group) are being applied to paraplegic monkeys. In this review, we provide an overview of the proper handling and care of paraplegic adult laboratory mammals for long periods. This information might help other groups to optimize the outcome obtained and to better evaluate the prospect of a given experimental repair strategy. In addition, the use of human treatments in paraplegic animals provides a more realistic model for a later transfer to the clinical arena.

Olfactory ensheathing glia transplantation: a therapy to promote repair in the mammalian central nervous system.

A therapy to treat injuries to the central nervous system (CNS) is, to date, a major clinical challenge. The devastating functional consequences they cause in human patients have encouraged many scientists to search, in animal models, for a repair strategy that could, in the future, be applied to humans. However, although several experimental approaches have obtained some degree of success, very few have been translated into clinical trials. Traumatic and demyelinating lesions of the spinal cord have attracted several groups with the same aim: to find a way to promote axonal regeneration, remyelination, and functional recovery, by using a simple, safe, effective, and viable procedure. During the past decade, olfactory ensheathing glia (OEG) transplantation has emerged as a very promising experimental therapy to promote repair of spinal cords, after different types of injuries. Transplants of these cells promoted axonal regeneration and functional recovery after partial and complete spinal cord lesions. Moreover, olfactory ensheathing glia were able to form myelin sheaths around demyelinated axons. In this article, we review these recent advances and discuss to what extent olfactory ensheathing glia transplantation might have a future as a therapy for different spinal cord affections in humans.

Complicaciones de la esplenectomía. Análisis de nuestra casuística / Complications in splenectomy. An analisys of our case history

La esplenectomía es una técnica quirúrgica común en los servicios de cirugía general, y sus indicaciones habituales son médicas, traumáticas e iatrogénicas. Las correspondientes al primer grupo han aumentado a pesar de la mejora de los medios diagnósticos. Las segundas han disminuido con el control en los servicios de cuidados intensivos y el uso de técnicas conservadoras. Se ha revisado la casuística de nuestro hospital, comparándola con la del resto de la bibliografía, y se ha comprobado que las complicaciones postoperatorias fundamentalmente han sido las respiratorias y el absceso subfrénico. Se corrobora, también, cómo esta última ha tenido gran incidencia en las esplenectomías iatrogénicas, siendo un factor esencial en la morbimortalidad, de tal modo que muchos autores llevan a contraindicar la esplenectomía en el transcurso de cirugía contaminada. Nuestros resultados han sido escasos en relación con la infección grave postesplenectomía, al igual que en otras series; por tanto, la profilaxis correcta (inmunoterapia y antibioterapia) ejerce un papel esencial en la disminución de su incidencia (AU)

Cell therapy to repair injured spinal cords: olfactory ensheathing glia transplantation.

The absence of spontaneous axonal regeneration in the adult mammalian central nervous system cause devastating functional consequences in patients with spinal cord injuries. During the past decades several attempts have been made in order to find a strategy to repair injured spinal cords in experimental animals, that could provide a novel therapeutic approach in humans. Cell transplantation has been broadly used as an intervention to influence neuronal survival and axonal regeneration in the severed neuraxis. Of the cell types used for transplantation, olfactory ensheathing glia (OEG) promoted a dramatic functional improvement and anatomical repair after complete transection of the adult mammalian spinal cord. These cells can be easily obtained from adult donors opening the possibility of autologous transplantation. Grafting OEG to repair injured spinal cords offers some advantages compared to injections of other cell types. Therefore, OEG have become good candidates to bring about repair in damaged spinal cords. In this article we review OEG transplantation studies, discuss the properties that could account for their axonal growth-promoting ability, and the advantages of using OEG as a repair strategy.

Functional recovery of paraplegic rats and motor axon regeneration in their spinal cords by olfactory ensheathing glia.

Axonal regeneration in the lesioned mammalian central nervous system is abortive, and this causes permanent disabilities in individuals with spinal cord injuries. In adult rats, olfactory ensheathing glia (OEG) transplants successfully led to functional and structural recovery after complete spinal cord transection. From 3 to 7 months post surgery, all OEG-transplanted animals recovered locomotor functions and sensorimotor reflexes. They presented voluntary hindlimb movements, they supported their body weight, and their hindlimbs responded to light skin contact and proprioceptive stimuli. In addition, relevant motor axons (corticospinal, raphespinal, and coeruleospinal) regenerated for long distances within caudal cord stumps. Therefore, OEG transplantation provides a useful repair strategy in adult mammals with traumatic spinal cord injuries. Our results with these cells could lead to new therapies for the treatment of spinal cord lesions in humans.

Diarrea crónica por fístula biliocolónica posperitonitis biliar / Chronic diarrhea secondary to biliary-enteric fistula developing after bile peritonitis

La fístula biliocolónica posperitonitis biliar es muy infrecuente. Su sintomatología dominante es la diarrea crónica y las consecuencias derivadas de la misma. El diagnóstico es dificultoso porque las pequeñas comunicaciones entre el árbol biliar y el colon no son fáciles de demostrar. Se comenta la historia clínica de una paciente de 84 años de edad que, tras múltiples exploraciones, fue diagnosticada por colangiografía transparietohepática (CTPH) y la reintervención quirúrgica solucionó la afección. Se aclaran los mecanismos de producción de la fuga, así como la fisiopatología de la esteatorrea. A la luz de la bibliografía se hace hincapié en la conveniencia de la colecistectomía precoz en los casos de colecistitis aguda como medio para evitar ésta y otras complicaciones (AU)

Protective effect of exogenous nitric oxide on the renal function and inflammatory response in a model of ischemia-reperfusion.

BACKGROUND: Tissue subjected to a period of ischemia undergoes morphological and functional damage that increases during the reperfusion phase. The aim of the present work was to assess the possible improvement induced by exogenous administration of nitric oxide (NO) on renal injury and inflammatory reaction in an experimental animal model of renal ischemia-reperfusion (I-R). METHODS: Ischemia was achieved by ligation of the left arteria and vein for 60 min, followed first by contralateral nephrectomy and then reestablishment of blood flow. Molsidomine, used as an NO donor, was administered by systemic injection 30 min before reperfusion. The effect of molsidomine was compared with the effect of hydralazine, a non-NO donor hypotensive agent. RESULTS: Treatment with molsidomine improved the renal dysfunction (increase in plasma creatinine and urea levels) caused by I-R. Moreover, molsidomine blunted the enhanced production of proinflammatory cytokines (tumor necrosis factor [TNF]-alpha and interleukin [IL] 1alpha), the increase in tissular levels of superoxide anions and oxygen free radical scavengers, and the neutrophilic infiltration observed in the ischemic kidney. One hundred percent survival was achieved in the group of animals treated with the NO donor, whereas the groups of animals undergoing I-R that did not receive molsidomine showed a 40% mortality from the second day after reperfusion. CONCLUSIONS: The present work demonstrated that systemic treatment with an NO donor before reperfusion improved renal function and diminished inflammatory responses in a kidney subjected to an I-R process.

Alterações metabólicas e da bioquímica plasmática após pinealectomia em ratos / Metabolic and biochemical changes after pialectomy in rats

A pineal, pela secreção de melatonina (MLT), está envolvida no controle do eixo hipotálamo-hipófise-gônadas, regulação de ritmos biológicos e sensibilidade tecidual à insulina. O presente estudo foi realizado para verificar a influência da pineal sobre parâmetros metabólicos e bioquímica plasmática em ratos. Ratos wistar machos (180- 200g) foram mantidos em gaiolas metabólicas por 10 dias para avaliação diária da ingestão de água e alimento, volume urinário e peso corporal. Ao final deste período, os animais foram anestesiados e submetidos à pinealectomia (n=10) ou cirurgia fictícia (n=10) e coleta de sangue para dosagens de glicose, colesterol, triglicérides, proteínas totais e eletrólitos (Na+, K+, Ca++, Cl-). Após 20 e 50 dias da cirurgia, os animais foram recolocados em gaiolas metabólicas para observação por 10 dias e coleta de sangue. Os resultados obtidos demonstram nos animais pinealectomizados: a) aumento da ingestão de alimento e do volume urinário; b) maior ganho de peso após 60 dias da cirurgia; c) elevação plasmática de glicose e colesterol e redução das proteínas totais. Os resultados indicam que a pinealectomia induz alterações metabólicas nos ratos gerando quadro que se assemelha ao diabetes mellitus tipo II que, provavelmente, ocorre pela ausência de melatonina e conseqüente diminuição da sensibilidade celular à insulina.

Pineal gland, through secretion of melatonin (MLT), is envolved in the control of hypothalamus-hypophisis-gonadas axis, regulation of biological rhythms and tissue sensibility to insulin. The present work was made in order to verify pineal influence on metabolic and plasmatic conditions in rats. Wistar male rats were kept in metabolic cages for daily registration of food and water ingestion and urinary output, during 10 days. At the end of this period blood sample was collected for plasmatic determination of glucosis, cholesterol, triglicerides, total protein and electrolytes (Na, K, Ca, Cl). The animals were then pinealectomized (n=10) or sham operated (n=10), and observed again after 20 and 50 days of surgery, during 10 days. Results obtained show that pinealectomized animals present: a) greater food ingestion and urinary output; b) increased body weight after 60 days of surgery; c) increase in plasmatic glucosis and cholesterol, and decrease in total protein concentrations. Data obtained suggest that pinealectomy induces metabolic alterations similar to diabetes mellitus type II, which probably occurs because the absence of MLT reduces tissue sensibility to insulin.

Inhibition of proliferation of normal and transformed neural cells by blood group-related oligosaccharides.

A synthetic tetrasaccharide structurally related to blood groups and selectin ligands inhibited division of astrocytes, gliomas, and neuroblastomas at micromolar concentrations. The compound was cytostatic for primary astrocytes in culture, but cytotoxic for fast proliferating cell lines.

Survival of Purkinje Cells in Cerebellar Cultures is Increased by Insulin-like Growth Factor I.

Insulin-like growth factor I (IGF-I) is a trophic factor for both neurons and glia. Its presence in the developing and adult cerebellum suggests a role for this growth factor in this area of the brain. Recently, we have described the existence of an IGF-I-containing pathway in afferents of Purkinje neurons arising from the inferior olive. In addition, IGF-I receptors are present in the molecular layer of the cerebellar cortex. These observations prompted us to investigate whether the Purkinje cell is a target for IGF-I. Addition of IGF-I to rat cerebellar cultures produced a 7-fold increase in the number of Purkinje cells (calbindin-positive) together with an increase in the calbindin content of the cultures. IGF-I also doubled the number of surviving neurons and produced a moderate, non-significant increase in [3H]thymidine incorporation by the cultures. On the other hand, basic fibroblast growth factor (bFGF), which is also present in the cerebellum, produced a dramatic increase in both the proportion of astrocytes and in the mitotic activity of the cultures, without affecting neuron survival. We conclude that IGF-I is a specific promoter of Purkinje cell survival and that its effects differ from those produced by bFGF in fetal cerebellar cultures. These findings reinforce our hypothesis that the Purkinje cell is a target neuron for IGF-I action in the developing cerebellum.

Choline acetyltransferase activity in the rat brain cortex homogenate, synaptosomes, and capillaries after lesioning the nucleus basalis magnocellularis.

Stereotaxic lesions of the nucleus basalis magnocellularis were made unilaterally in male Wistar rats with either kainic or ibotenic acid, using the contralateral side as control. Differences in behavior, body weight, and survival were observed between the kainic and ibotenic acid-treated rats. One week after surgery, the rats were sacrificed and the effect of the lesions on choline acetyltransferase activity was measured in brain cortex homogenate, synaptosomes, and capillaries. In kainic acid-lesioned rats, choline acetyltransferase activity decreased in homogenate and synaptosomes of the ipsilateral side with respect to that of the contralateral side; but the ibotenic acid lesion, which also reduced the ipsilateral choline acetyltransferase activity in homogenate, showed a rather different effect on the enzymatic activity of the synaptosomes. There were also differences between the effect of kainic and ibotenic acid lesions on choline acetyltransferase activity in the capillaries of the ipsilateral side with respect to that of the contralateral one. However, capillary choline acetyltransferase activity of the treated rats was in both sides three times higher than that of unoperated rats.

Decrease of choline acetyltransferase activity of rat cortex capillaries with aging.

Choline acetyltransferase (ChAT) activity was estimated in brain cortex capillaries isolated from 3-, 12-, 18-, and 24-month-old rats. Maximum enzymatic activity was found at 12 months (55 +/- 0.3 pmol X mg-1 protein X min-1; mean +/- SEM) and then it decreased to reach a minimum at 24 months (34 +/- 3.1 pmol X mg-1 protein X min-1). A less marked decrease of enzymatic activity was also found in cortex homogenate and in a synaptosomal fraction obtained from the same groups of rats. Loss of ChAT of brain capillaries with aging could be related to a general phenomenon of cortical cholinergic deficit in that condition.

Isolation, purification and characterization of spleen ferritin of Gallus domesticus L.

The ferritin from the spleen of the chickens has been isolated by a method of salt fractionation and by a pH change followed by purification in sephadex G-200. 2. The identification of the protein was carried out by acrylamide gel electrophoresis showing a single band. 3. The characterization of ferritin has been made by determination of molecular weight, amino acids analysis and the number of iron atoms (4520) which bound the ferritin. 4. The ferritin from the spleen of chicken is compared with the ferritin from the liver of pigeon.