Novel Aspects of cAMP-Response Element Modulator (CREM) Role in Spermatogenesis and Male Fertility.

Spermatogenesis is a very complex process with an intricate transcriptional regulation. The transition from the diploid to the haploid state requires the involvement of specialized genes in meiosis, among other specific functions for the formation of the spermatozoon. The transcription factor cAMP-response element modulator (CREM) is a key modulator that triggers the differentiation of the germ cell into the spermatozoon through the modification of gene expression. CREM has multiple repressor and activator isoforms whose expression is tissue-cell-type specific and tightly regulated by various factors at the transcriptional, post-transcriptional and post-translational level. The activator isoform CREMτ controls the expression of several relevant genes in post-meiotic stages of spermatogenesis. In addition, exposure to xenobiotics negatively affects CREMτ expression, which is linked to male infertility. On the other hand, antioxidants could have a positive effect on CREMτ expression and improve sperm parameters in idiopathically infertile men. Therefore, CREM expression could be used as a biomarker to detect and even counteract male infertility. This review examines the importance of CREM as a transcription factor for sperm production and its relevance in male fertility, infertility and the response to environmental xenobiotics that may affect CREMτ expression and the downstream regulation that alters male fertility. Also, some health disorders in which CREM expression is altered are discussed.

Neurotoxicity and Oxidative Stress Development in Adult Atya lanipes Shrimp Exposed to Titanium Dioxide Nanoparticles.

Titanium dioxide is a type of nanoparticle that is composed of one titanium atom and two oxygen atoms. One of its physicochemical activities is photolysis, which produces different reactive oxygen species (ROS). Atya lanipes shrimp affect detrital processing and illustrate the potential importance of diversity and nutrient availability to the rest of the food web. It is essential in removing sediments, which have an important role in preventing eutrophication. This study aimed to determine the toxic effect of changes in behavior and levels of oxidative stress due to exposure to titanium dioxide nanoparticles in Atya lanipes and to determine the effective concentration (EC50) for behavioral variables. The concentrations of TiO2 NPs tested were 0.0, 0.50, 1.0, 2.0, and 3.0 mg/L with the positive controls given 100 µg/L of titanium and 3.0 mg/L of TiO2 NPs ± 100 µg/L of titanium. After 24 h of exposure, significant hypoactivity was documented. The EC50 was determined to be a concentration of 0.14 mg/L. After the exposure to 10 mg/L of TiO2 NPs, oxidative stress in gastrointestinal and nervous tissues was documented. The toxic effects of this emerging aquatic pollutant in acute exposure conditions were characterized by sublethal effects such as behavior changes and oxidative stress.

A Systematic Review of Interventions Based on Judeo-Christian Principles for Patients with Substance Dependence.

Substance use disorders have significant consequences for patients and those around them. A qualitative systematic review was conducted to examine the effectiveness of religiosity and spirituality (R/S) interventions based on Judeo-Christian principles during the multidisciplinary treatment of patients with substance dependence disorder. Studies of patients of both sexes, at any age, of any nationality, and from any geographic location who were participating in treatment programs with religious elements explicitly tied to Christianity or Judaism were eligible for inclusion. Other religious interventions were excluded. Seven electronic databases were searched to identify eligible intervention studies published in English until August 2021. Two reviewers independently screened studies and extracted data. JBI tools were used to assess risk of bias. Of 146 articles retrieved for full text reading, five were ultimately included in this review published from July 2008 to August 2021. The R/S interventions used in the included studies were music therapy in a religious context, reading of the Bible or Torah, reflexive readings, personal prayer and reflection, and religiously integrated cognitive behavioral psychotherapy with or without a comparison group. Despite the broad search, there were found only a small number of studies and little homogeneity in the data of patients that reported positive impacts of treatments. Well-designed controlled studies are needed to truly investigate the efficacy of Judeo-Christian religious interventions for helping people with substance use problems, so as to strengthen the evidence of the benefits of these type of approaches in the treatment of drug addicts.

Combined liver-kidney transplant in polycystic diseases: a case report.

Polycystic liver disease, a hereditary pathology, usually manifests as autosomal dominant polycystic kidney disease. The many cysts in the liver cause massive hepatomegaly, majorly affecting the patient's quality of life. In cases of refractory symptoms, liver transplantation is the only treatment choice. A 43-year-old woman was followed up as a hepatology outpatient in August 2020, with a progressive increase in abdominal volume, lower limb edema, and cachexia. The patient was diagnosed with polycystic renal and liver disease with massive hepatomegaly in March 2021, a combined kidney-liver transplant. Liver size represented 13% of the patient's corporal composition, weighing 8.6kg. The patient was discharged on the 7th postoperative day with no complications. Only 10-20% of patients with polycystic liver disease have clinical manifestations, most of which result from hepatomegaly. An increase in liver volume deteriorates liver function until the condition becomes end-stage liver disease, as kidney function is already compromised; liver-kidney transplantation remains the only treatment choice. The case described drew significant attention to the massive hepatomegaly presented in the patient, with the liver representing over 10% of the patient's body weight, approximately five to six times larger than a normal-sized liver.

Early antitermination in the atypical coliphage mEp021 mediated by the Gp17 protein.

The coliphage mEp021 belongs to a phage group with a unique immunity repressor, and its life cycle requires the host factor Nus. mEp021 has been classified as non-lambdoid based on its specific characteristics. The mEp021 genome carries a gene encoding an Nλ-like antiterminator protein, termed Gp17, and three nut sites (nutL, nutR1, and nutR2). Analysis of plasmid constructs containing these nut sites, a transcription terminator, and a GFP reporter gene showed high levels of fluorescence when Gp17 was expressed, but not in its absence. Like lambdoid N proteins, Gp17 has an arginine-rich motif (ARM), and mutations in its arginine codons inhibit its function. In infection assays using the mutant phage mEp021ΔGp17::Kan (where gp17 has been deleted), gene transcripts located downstream of transcription terminators were obtained only when Gp17 was expressed. In contrast to phage lambda, mEp021 virus particle production was partially restored (>1/3 relative to wild type) when nus mutants (nusA1, nusB5, nusC60, and nusE71) were infected with mEp021 and Gp17 was overexpressed. Our results suggest that RNA polymerase reads through the third nut site (nutR2), which is more than 7.9 kbp downstream of nutR1.

Combined liver-kidney transplant in polycystic diseases: a case report

ABSTRACT Polycystic liver disease, a hereditary pathology, usually manifests as autosomal dominant polycystic kidney disease. The many cysts in the liver cause massive hepatomegaly, majorly affecting the patient's quality of life. In cases of refractory symptoms, liver transplantation is the only treatment choice. A 43-year-old woman was followed up as a hepatology outpatient in August 2020, with a progressive increase in abdominal volume, lower limb edema, and cachexia. The patient was diagnosed with polycystic renal and liver disease with massive hepatomegaly in March 2021, a combined kidney-liver transplant. Liver size represented 13% of the patient's corporal composition, weighing 8.6kg. The patient was discharged on the 7th postoperative day with no complications. Only 10-20% of patients with polycystic liver disease have clinical manifestations, most of which result from hepatomegaly. An increase in liver volume deteriorates liver function until the condition becomes end-stage liver disease, as kidney function is already compromised; liver-kidney transplantation remains the only treatment choice. The case described drew significant attention to the massive hepatomegaly presented in the patient, with the liver representing over 10% of the patient's body weight, approximately five to six times larger than a normal-sized liver.

Giardia duodenalis enolase is secreted as monomer during trophozoite-epithelial cell interactions, activates plasminogen and induces necroptotic damage.

Enolase, a multifunctional protein expressed by multiple pathogens activates plasminogen to promote proteolysis on components of the extracellular matrix, an important event in early host-pathogen interactions. A secreted form of enolase that is released upon the interaction of trophozoites with epithelial cells has been detected in the secretome of G. duodenalis. However, the role of enolase in the host-pathogen interactions remains largely unknown. In this work, the effects of G. duodenalis enolase (Gd-eno) on the epithelial cell model (IEC-6) were analyzed. Firstly, the coding sequence of Giardia enolase was cloned and the recombinant protein used to raise antibodies that were then used to define the localization and role of enolase in epithelial cell-trophozoite interactions. Gd-eno was detected in small cytoplasmic vesicles as well as at the surface and is enriched in the region of the ventral disk of Giardia trophozoites. Moreover, the blocking of the soluble monomeric form of the enzyme, which is secreted upon interaction with IEC-6 cells by the anti-rGd-eno antibodies, significantly inhibited trophozoite attachment to intestinal IEC-6 cell monolayers. Further, rGd-eno was able to bind human plasminogen (HsPlg) and enhanced plasmin activity in vitro when the trophozoites were incubated with the intrinsic plasminogen activators of epithelial cells. In IEC-6 cells, rGd-eno treatment induced a profuse cell damage characterized by copious vacuolization, intercellular separation and detachment from the substrate; this effect was inhibited by either anti-Gd-eno Abs or the plasmin inhibitor ϵ- aminocaproic acid. Lastly, we established that in epithelial cells rGd-eno treatment induced a necroptotic-like process mediated by tumor necrosis factor α (TNF-α) and the apoptosis inducing factor (AIF), but independent of caspase-3. All together, these results suggest that Giardia enolase is a secreted moonlighting protein that stimulates a necroptotic-like process in IEC-6 epithelial cells via plasminogen activation along to TNFα and AIF activities and must be considered as a virulence factor.

Implementation of a tunable t-CRISPRi system for gene regulation in Giardia duodenalis.

Giardia duodenalis, is a binuclear and microaerophilic protozoan that causes giardiasis. Up to date, several molecular approaches have been taken to understand the molecular mechanisms of diverse cellular processes in this parasitic protozoan. However, the role of many genes involved in these processes needs further analysis. The CRISPR interference (CRISPRi) system has been widely used, as a constitutive expression system for gene silencing purposes in several parasites, including Giardia. The aim of this work was to implement a tunable t-CRISPRi system in Giardia to silence abundant, moderately and low expressed genes, by constructing an optimized and inducible plasmid for the expression of both gRNA and dCas9. A doxycycline inducible pRan promoter was used to express dCas9 and each gRNA, consistently dCas9 expression and nuclear localization were confirmed by Western-blot and immunofluorescence in transfected trophozoites. The transcriptional repression was performed on α-tubulin (high expression), giardipain-1 (moderate expression) and Sir2 and Sir4 (low expression) genes. The α-tubulin gene knock-down caused by dCas9 doxycycline-induction was confirmed by a decrease in its protein expression which was of 50% and 60% at 24 and 48 h, respectively. This induced morphological alterations in flagella. The giardipain-1 knock down, showed a decrease in protein expression of 40 and 50% at 12 and 24 h, respectively, without affecting trophozoites viability, consistent with this a zymogram analysis on giardipain-1 knock down revealed a decrease in giardipain-1 protease activity. When repressing sirtuins expression, a total repression was obtained but trophozoites viability was compromised. This approach provides a molecular tool for a tailored repression to produce specific gene knockdowns.

Evidence of requirement for homologous-mediated DNA repair during Ambystoma mexicanum limb regeneration.

BACKGROUND: Limb regeneration in the axolotl is achieved by epimorphosis, thus depending on the blastema formation, a mass of progenitor cells capable of proliferating and differentiating to recover all lost structures functionally. During regeneration, the blastema cells accelerate the cell cycle and duplicate its genome, which is inherently difficult to replicate because of its length and composition, thus being prone to suffer double-strand breaks. RESULTS: We identified and characterized two remarkable components of the homologous recombination repair pathway (Amex.RAD51 and Amex.MRE11), which were heterologously expressed, biochemically characterized, and inhibited by specific chemicals. These same inhibitors were applied at different time points after amputation to study their effects during limb regeneration. We observed an increase in cellular senescent accompanied by a slight delay in regeneration at 28 days postamputation regenerated tissues; moreover, inhibitors caused a rise in the double-strand break signaling as a response to the inhibition of the repair mechanisms. CONCLUSIONS: We confirmed the participation and importance of homologous recombination during limb regeneration. The chemical inhibition induces double-strand breaks that lead to DNA damage associated senescence, or in an alternatively way, this damage could be possibly repaired by a different DNA repair pathway, permitting proper regeneration and avoiding senescence.

Etiología y perfil de susceptibilidad antimicrobiana en sepsis neonatal / Etiology and antimicrobial susceptibility profile in neonatal sepsis

La sepsis neonatal es una importante causa de morbimortalidad. Se realizó un proceso investiga-tivo con el objetivo de describir la etiología y el patrón de susceptibilidad antimicrobiana de las bacterias aisladas más frecuentemente de los hemocultivos de neonatos con sepsis en el servicio de neonatología del Hospital General Docente de Ambato. La metodología empleada en esta investigación se basó en un estudio descriptivo, transversal y enfoque cuali-cuantitativo, empleando la técnica documental y el reporte de resultados como instrumento. De los 39 pacien-tes estudiados 64,10% fueron del género masculino. El 23,07% presentaron bajo peso y 33,33% una edad gestacional <37 semanas. El microorganismo más frecuente fue Staphylococcus epidermidis (51,28%) seguido de Escherichia coli (17,94%) y Staphylococcus aureus (15,38%). En relación al perfil de susceptibilidad antimicrobiana S. epidermidis y S. aureus se mostraron sensibles a linezolid y vancomicina en más del 80,00%, y presentaron alta resistencia a oxacilina (80,00 y 83,33%, respectivamente), estas cepas expresaron fenotípicamente el gen mecA. Las enterobacterias aisladas mostraron resistencia a amoxacilina/ácido clavulánico (61,53%), ampi-cilina/sulbactam (69,23%), ciprofloxacina (61,53%), ceftazidima (30,76%) y cefotaxima (38,46%). Además, cinco cepas de E. coli y Klebsiella pneumoniae eran fenotípicamente productoras de beta lactamasas de espectro extendido. En conclusión, es necesario realizar estu-dios locales de vigilancia microbiológica en los hospitales, con el fin de identificar los patógenos multirresistentes involucrados en las infecciones neonatales, reconocer los brotes y monitorizar los cambios que ocurren a través del tiempo; los cuales influyen finalmente, en la elección de los tratamientos empíricos.

Neonatal sepsis is a major cause of morbidity and mortality. The investigative process was carried out to describe the etiology and antimicrobial susceptibility pattern of the bacteria most frequently isolated from blood cultures of neonates with sepsis in the neonatology service of the Ambato General Teaching Hospital. The methodology used in this research was based on a descriptive, cross-sectional study and a quali-quantitative approach, using the documentary technique and the report of results as an instrument. 39 patients were studied, 64.10% of them were male. 23.07% had low weight and 33.33% had a gestational age <37 weeks. The most frequent microorganism was Staphylococcus epidermidis (51.28%), followed by Escherichia coli (17.94%) and Staphylococcus aureus (15.38%). In relation to the antimicrobial susceptibili-ty profile, S. epidermidis and S. aureus were sensitive to linezolid and vancomycin in more than 80.00% and presented high resistance to oxacillin (80.00 and 83.33%, respectively), these strains phenotypically expressed the mecA gene. Isolated Enterobacteriaceae showed resistance to amoxacillin / clavulanic acid (61.53%), ampicillin / sulbactam (69.23%), ciprofloxacin (61.53%), ceftazidime (30.76%) and cefotaxime (38.46%). Furthermore, five strains of E. coliand Klebsiella pneumoniae were phenotypically producers of extended spectrum beta lactama-ses. In conclusion, it is necessary to perform local microbiological surveillance studies in hospi-tals in order to identify multi-resistant pathogens involved in neonatal infections, recognize outbreaks and monitor the changes that occur over time, which influence the choice of empirical treatments.

Clinical characteristics and risk factors for SARS-CoV-2 infection in pregnant women attending a third level reference center in Mexico City.

BACKGROUND: COVID-19 symptoms vary widely among pregnant women. We aimed to assess the most frequent symptoms amongst pregnant women with SARS-CoV-2 infection in a tertiary hospital in Mexico City. METHODS: A cross-sectional study of pregnant women attending the National Institute of Perinatology in Mexico City was performed. All women who attended the hospital, despite their symptoms, were tested for SARS-CoV-2. A multivariate-age-adjusted logistic regression was used to assess the association between the main outcome and each characteristic of the clinical history. RESULTS: A total of 1880 women were included in the data analysis. Among all women, 30.74% (n = 578) had a positive PCR for SARS-CoV-2 from which 2.7 (n = 50) were symptomatic. Symptoms associated with a positive PCR result were headache (p=.01), dyspnea (p=.043), and myalgia (p=.043). CONCLUSIONS: At universal screening for SARS-CoV-2, one-third of the population had a positive result, while those symptoms associated with a positive PCR were headache, dyspnea, and myalgia.

MPS1 is involved in the HPV16-E7-mediated centrosomes amplification.

BACKGROUND: It has been reported that the oncoprotein E7 from human papillomavirus type 16 (HPV16-E7) can induce the excessive synthesis of centrosomes through the increase in the expression of PLK4, which is a transcriptional target of E2F1. On the other hand, it has been reported that increasing MPS1 protein stability can also generate an excessive synthesis of centrosomes. In this work, we analyzed the possible role of MPS1 in the amplification of centrosomes mediated by HPV16-E7. RESULTS: Employing qRT-PCR, Western Blot, and Immunofluorescence techniques, we found that E7 induces an increase in the MPS1 transcript and protein levels in the U2OS cell line, as well as protein stabilization. Besides, we observed that inhibiting the expression of MPS1 in E7 protein-expressing cells leads to a significant reduction in the number of centrosomes. CONCLUSIONS: These results indicate that the presence of the MPS1 protein is necessary for E7 protein to increase the number of centrosomes, and possible implications are discussed.

COVID-19 Infection in Pregnancy: PCR Cycle Thresholds, Placental Pathology, and Perinatal Outcomes.

(1) This study aimed to evaluate characteristics, perinatal outcomes, and placental pathology of pregnant women with or without SARS-CoV-2 infection in the context of maternal PCR cycle threshold (CT) values. (2) This was a retrospective case-control study in a third-level health center in Mexico City with universal screening by RT-qPCR. The association of COVID-19 manifestations, preeclampsia, and preterm birth with maternal variables and CT values were assessed by logistic regression models and decision trees. (3) Accordingly, 828 and 298 women had a negative and positive test, respectively. Of those positive, only 2.6% of them presented mild to moderate symptoms. Clinical characteristics between both groups of women were similar. No associations between CT values were found for maternal features, such as pre-gestational BMI, age, and symptomatology. A significantly higher percentage of placental fibrinoid was seen with women with low CTs (<25; p < 0.01). Regarding perinatal outcomes, preeclampsia was found to be significantly associated with symptomatology but not with risk factors or CT values (p < 0.01, aOR = 14.72). Moreover, 88.9% of women diagnosed with COVID-19 at <35 gestational weeks and symptomatic developed preeclampsia. (4) The data support strong guidance for pregnancies with SARS-CoV-2 infection, in particular preeclampsia and placental pathology, which need further investigation.

Giardiavirus: an update.

Giardiavirus is the only virus that infects Giardia duodenalis, a highly prevalent parasite worldwide, especially in low-income and developing countries. This virus belongs to the Totiviridae family, being a relative of other viruses that infect fungi and protozoa. It has a simple structure with only two proteins encoded in its genome and it appears that it can leave the cell without lysis. All these characteristics make it an interesting study model; however, its research has unfortunately made little progress in recent years. Thus, in this review, we summarize the currently available data on Giardiavirus, from their structure, genome and main proteins, to the uses that have been given to them and the possible health applications for the future.

Sirtuin GdSir2.4 participates in the regulation of rRNA transcription in the Giardia duodenalis parasite.

Giardia duodenalis is a parasite of great medical interest due to the number of infections it causes worldwide each year. Although research on epigenetic mechanisms in this protist has only begun recently, epigenetic regulation has already been shown to have important roles in encystation, antigenic variation, and resistance to antibiotics in Giardia. In this work, we show that a Giardia ortholog of Sir2, GdSir2.4, is involved in the silencing of rRNA expression. Our results demonstrate that GdSir2.4 localizes to the nucleolus, and its binding to the intergenic spacer region of the rDNA is associated with the deacetylation of the chromatin in this region. Given the importance of the regulation of rRNA expression to maintain adequate levels of ribosomes and genomic stability within the cells, GdSir2.4 can be considered a target to create new therapeutic agents against this parasite.

Ribosomal DNA in the protozoan parasite Giardia duodenalis has a differential chromatin distribution and epigenetic markings across the subunits.

Giardia duodenalis is a parasite that causes a large number of diarrheal diseases around the world. It is noteworthy that in a large number of processes, Giardia requires fewer components than other eukaryotes, even without some organelles such as mitochondria and peroxisomes. Despite this, core histones are known to exist in Giardia and epigenetic marks have been found on them, suggesting that they somehow control the expression of certain genes. The regulation of the expression of ribosomal DNA (rDNA) is essential, since it is required to maintain adequate levels of ribosomes and, given the nature of tandem repeat, it is a feasible area to create genomic instability. In Giardia, it is not known how this process occurs, but as in other eukaryotes, it is suggested through various epigenetic mechanisms. Thus, in the present work we seek to identify how chromatin is distributed through the Giardia rDNA and if there were histone marks that could control its expression.

DNA repair during regeneration in Ambystoma mexicanum.

The remarkable regenerative capabilities of the salamander Ambystoma mexicanum have turned it into one of the principal models to study limb regeneration. During this process, a mass of low differentiated and highly proliferative cells, called blastema, propagates to reestablish the lost tissue in an accelerated way. Such a process implies the replication of a huge genome, 10 times larger than humans, with about 65.6% of repetitive sequences. These features make the axolotl genome inherently difficult to replicate and prone to bear mutations. In this context, the role of DNA repair mechanisms acquires great relevance to maintain genomic stability, especially if we consider the necessity of ensuring the correct replication and integrity of such a large genome in the blastema cells, which are key for tissue regeneration. On the contrary, DNA damage accumulation in these cells may result in senescence, apoptosis and premature differentiation, all of them are mechanisms employed to avoid DNA damage perpetuation but with the potential to affect the limb regeneration process. Here we review and discuss the current knowledge on the implications of DNA damage responses during salamander regeneration.

Natural Compounds That Target DNA Repair Pathways and Their Therapeutic Potential to Counteract Cancer Cells.

Resistance to current cancer treatments is an important problem that arises through various mechanisms, but one that stands out involves an overexpression of several factors associated with DNA repair. To counteract this type of resistance, different drugs have been developed to affect one or more DNA repair pathways, therefore, to test different compounds of natural origin that have been shown to induce cell death in cancer cells is paramount. Since natural compounds target components of the DNA repair pathways, they have been shown to promote cancer cells to be resensitized to current treatments. For this and other reasons, natural compounds have aroused great curiosity and several research projects are being developed around the world to establish combined treatments between them and radio or chemotherapy. In this work, we summarize the effects of different natural compounds on the DNA repair mechanisms of cancer cells and emphasize their possible application to re-sensitize these cells.

Microorganismos más frecuentes en infecciones cutáneas en el Hospital Provincial General Ambato / Most frequent microorganisms in skin infections at the General Provincial Hospital "Ambato"

Las infecciones cutáneas producidas por microorganismos afectan directamente a la piel, partes blandas y tejidos, donde proliferan y ocasionan graves alteraciones. Estas infecciones constituyen un problema de salud pública, ya que muchos microorganismos muestran resistencia a antimicrobianos comunes y no comunes, lo cual incide directamente en la aplicación del tratamiento adecuado al paciente. El objetivo de este estudio fue identificar los microorganismos más frecuentes en infecciones cutáneas, su sensibilidad y resistencia a los antibióticos en los pacientes con infección que acudieron al Hospital Provincial General "Ambato" en el período mayo 2017 ­ junio 2018. La metodología empleada en esta investigación se basa en un estudio descriptivo, de corte transversal y enfoque cuali-cuantitativo, empleando la técnica documental y el reporte de resultados como instrumento. La información se tabuló y analizó mediante el paquete operativo Microsoft 2010. Se encontró que en el 29% de las muestras procesadas se aisló Staphylococcus aureus como el más frecuente en este tipo de infecciones, con mayor sensibilidad a Clindamicina, Doxacilina y Linezolid (100%) y resistencia a Penicilinas y Oxacilina (47,82%). Es importante destacar que el 47,83 % de las cepas de S. aureus aisladas expresaron fenotípicamente el gen mecA. La entidad clínica más frecuente asociada a este tipo de infección fue el ectima con un 55%. En conclusión, se comprobó la resistencia de cepas a diversos antibióticos presentando las más relevantes como meticilino resistentes, vancomicina resistentes y Klebsiella pneumoniae carbapenemasas

The skin infections caused by microorganisms directly alter the skin, soft tissues and tissues cause serious damage and the proliferation of them, which is a problem for health centers and hospitals, since these microorganisms are often resistant to antibacterial which are not very common is a problem for the treatment of the patient. The objective of this study was to identify the most frequent microorganisms in cutaneous infections, their sensitivity and resistance to antibiotics in the patients with infection who when to the General Provincial Hospital "Ambato", in the period May 2017 - June 2018 the methodology used in this investigation is based on a descriptive cutting study cross-section and qualitative-quantitative approach, using the documentary technique and the report of results as an instrument. The information was tabulated and analyzed using the Microsoft 2010 operating package. It was found that 29% of the samples processed were isolated Staphylococcus aureus as the most frequent in this type of infections, with greater sensitivity to Clindamycin, Doxacillin and Linezolid (100%) and resistance to Penicillins and Oxacillin (47,82%). It is important to note that 47,82% of strains of S. aureus were expressly phenotypically expressed in the mecA gene. The most frequent clinical entity associated with this type of infection was efficacy with 55%. In conclusion, the resistance of strains in several antibiotics was proved, presenting the most relevant ones as methicillin resistant, vancomycin resistant and Klebsiella pneumoniae carbapenemasas.

Efficacy of Baccharis dracunculifolia in the treatment of diversion colitis in rats / Eficácia da Baccharis dracunculifolia no tratamento da colite de desuso em ratos

Abstract Rationale: Disuse colitis is frequent in our country and the most effective treatment is high cost and there is a need for effective and low cost therapy. Objective: To evaluate the efficacy of Baccharis dracunculifolia (field rosemary) in the treatment of exclusion colitis in rats. Method: Eighteen Wistar rats were anesthetized and submitted to colostomy; they were then distributed into two groups: Control Group, receiving intrarectal saline infusion (n = 8) and Group BD receiving intrarectal infusion ofBaccharis dracunculifolia extract (n = 10); after 21 days of treatment they were euthanized, the intestinal segment excluded from intestinal transit was resected and submitted to histopathological study, classifying the degree of inflammation and degree of vascular congestion from 0 to 3. Results: Mean inflammation was 2.7 in Control Group versus 2.1 in BD Group (p = 0.049), while mean vascular congestion was 2.3 and 2, respectively, in Control and BD groups (p = 0.1642). Conclusion: Intra-rectal infusion ofBaccharis dracunculifolia extract significantly minimized the inflammatory process in the exclusion colitis of rats submitted to colostomy, without altering the degree of vascular congestion.

Resumo Racional A colite de desuso é frequente em nosso meio e o tratamento de maior eficácia é de alto custo, havendo necessidade de se encontrar uma terapêutica eficaz e de baixo custo. Objetivo Avaliar a eficácia da Baccharis dracunculifolia (alecrim-do-campo) no tratamento da colite de exclusão em ratos. Método Utilizou-se 18 ratos Wistar, os quais foram anestesiados e submetidos à colostomia; em seguida distribuídos em 2 grupos: Grupo Controle, recebendo infusão intrarretal de solução salina (n = 8) e Grupo BD, recebendo infusão intrarretal de extrato de Baccharis dracunculifolia (n = 10); após 21 dias de tratamento foram submetidos a eutanásia, o segmento intesinal excluso de trânsito intestinal foi ressecado e submetido a estudo histopatológico classificando-se o grau de inflamação e grau de congestão vascular de 0 a 3. Resultados Verificou-se média de inflamação 2,7 no Grupo Controle vs. 2,1 no Grupo BD (p = 0,049), enquanto as médias de congestão vascular foram 2,3 e 2, respectivamente, nos grupos controle e BD (p = 0,1642). Conclusão A infusão intrarretal do extrato de Baccharis dracunculifolia minimizou significantemente o processo inflamatório na colite de exclusão de ratos submetidos à colostomia, sem alterar o grau de congestão vascular.