Electrocardiographic approach strategies in patients with Parkinson disease treated with deep brain stimulation.

Deep brain stimulation (DBS) is an interdisciplinary and reversible therapy that uses high-frequency electrical stimulation to correct aberrant neural pathways in motor and cognitive neurological disorders. However, the high frequency of the waves used in DBS can interfere with electrical recording devices (e.g., electrocardiogram, electroencephalogram, cardiac monitor), creating artifacts that hinder their interpretation. The compatibility of DBS with these devices varies and depends on factors such as the underlying disease and the configuration of the neurostimulator. In emergencies where obtaining an electrocardiogram is crucial, the need for more consensus on reducing electrical artifacts in patients with DBS becomes a significant challenge. Various strategies have been proposed to attenuate the artifact generated by DBS, such as changing the DBS configuration from monopolar to bipolar, temporarily deactivating DBS during electrocardiographic recording, applying frequency filters both lower and higher than those used by DBS, and using non-standard leads. However, the inexperience of medical personnel, variability in DBS models, or the lack of a controller at the time of approach limit the application of these strategies. Current evidence on their reproducibility and efficacy is limited. Due to the growing elderly population and the rising utilization of DBS, it is imperative to create electrocardiographic methods that are easily accessible and reproducible for general physicians and emergency services.

Academic and professional profile of cardiology fellowship graduates of National Institute of Cardiology Ignacio Chávez from 2000 to 2015.

BACKGROUND: The Ignacio Chávez National Institute of Cardiology (NIC) has positioned itself as an international benchmark in cardiovascular medical education, standing out for its high academic standards and human quality. OBJECTIVE: This study aims to identify the employment and academic profile of cardiology fellowship graduates from the National Institute of Cardiology of Mexico (NIC). METHODS: A cross-sectional and retrospective study was conducted, involving 473 graduates from the period 2000-2015. Data was collected through an electronic survey. RESULTS: A total of 221 graduates agreed to participate, accounting for 46.7% of the total number of graduates. Among the participants, 85.2% were male. The majority of graduates (82.4%) held Mexican nationality, while the remaining individuals represented various Latin-American nationalities. Following the completion of the cardiology fellowship, 89% of graduates pursued further postgraduate degrees. Within this group, 95.4% completed at least one additional fellowship, while 4.6% pursued a master's or PhD program. The most popular fellowship program chosen was Interventional Cardiology. On average, NIC graduates dedicate 10.8 hours per day to their work, with 6.4 hours dedicated to cardiology and 4.3 hours to their other postgraduate degree. Those employed in both public and private health systems allocate 6.1 hours and 5.2 hours per day, respectively. Additionally, 75% of graduates are involved in teaching activities. Currently, 84% of graduates are employed in Mexico. CONCLUSION: The majority of NIC graduates are physicians who further their academic training by pursuing additional postgraduate programs. They work longer hours per day compared to the general Mexican population, with a significant focus on clinical cardiology. Graduates actively seek opportunities to share their expertise through various academic activities.

ANTECEDENTES: El Instituto Nacional de Cardiología Ignacio Chávez (INC) se ha posicionado como un referente internacional en la educación médica cardiológica, destacándose por su alto nivel académico y calidad humana. OBJETIVO: El objetivo de este estudio fue identificar el perfil laboral y académico actual de los egresados del Instituto Nacional de Cardiología Ignacio Chávez (INC). MÉTODOS: Se llevó a cabo un estudio transversal y retrospectivo que incluyó a 473 egresados del INC graduados entre 2000 y 2015. Se utilizó una encuesta electrónica para recopilar los datos. RESULTADOS: Un total de 221 egresados aceptaron participar en el estudio, lo que representa el 46.7% del total de egresados. El 85.2% de los participantes son hombres. La mayoría de los egresados son de nacionalidad mexicana (82.4%), mientras que el resto se distribuye en varios países de Latinoamérica. El 89% de los egresados completó otro posgrado después de cardiología. De este grupo, el 95.4% realizó al menos una alta especialidad, mientras que el 4.6% obtuvo una maestría o doctorado. La especialidad más comúnmente elegida fue Cardiología Intervencionista. Los egresados del INC trabajan en promedio 10.8 horas al día, de las cuales 6.4 horas se dedican a la cardiología clínica y 4.3 horas al otro posgrado. Aquellos que trabajan en el sector público y privado dedican 6.1 horas y 5.2 horas al día, respectivamente. Además, el 75% de los egresados desempeña actividades de enseñanza. El 84% de los egresados trabajan en México. CONCLUSIÓN: En su mayoría, los egresados del INC son médicos especialistas que continúan su formación académica a través de la realización de otros posgrados. Trabajan más horas al día en comparación con el resto de la población mexicana, y dedican la mayor parte de su tiempo al ejercicio de la cardiología clínica. También buscan transmitir sus conocimientos a través de actividades académicas y de enseñanza.

Strain dropouts reveal interactions that govern the metabolic output of the gut microbiome.

The gut microbiome is complex, raising questions about the role of individual strains in the community. Here, we address this question by constructing variants of a complex defined community in which we eliminate strains that occupy the bile acid 7α-dehydroxylation niche. Omitting Clostridium scindens (Cs) and Clostridium hylemonae (Ch) eliminates secondary bile acid production and reshapes the community in a highly specific manner: eight strains change in relative abundance by >100-fold. In single-strain dropout communities, Cs and Ch reach the same relative abundance and dehydroxylate bile acids to a similar extent. However, Clostridium sporogenes increases >1,000-fold in the ΔCs but not ΔCh dropout, reshaping the pool of microbiome-derived phenylalanine metabolites. Thus, strains that are functionally redundant within a niche can have widely varying impacts outside the niche, and a strain swap can ripple through the community in an unpredictable manner, resulting in a large impact on an unrelated community-level phenotype.

Engineered Skin Microbiome Reduces Mosquito Attraction to Mice.

The skin microbiome plays a pivotal role in the production of attractive cues detected by mosquitoes. Here we leveraged recent advances in genetic engineering to significantly reduce the production of L-(+)-lactic acid as a strategy to reduce mosquito attraction to the highly prominent skin commensals Staphylococcus epidermidis and Corynebacterium amycolatum . Engraftment of these engineered bacteria onto the skin of mice reduced mosquito attraction and feeding for up to 11 uninterrupted days, which is considerably longer than the several hours of protection conferred by the leading chemical repellent DEET. Taken together, our findings demonstrate engineering the skin microbiome to reduce attractive volatiles represents an innovative untapped strategy to reduce vector attraction, preventing bites, and pathogen transmission setting the stage for new classes of long-lasting microbiome-based repellent products. One-Sentence Summary: Modified microbes make skin less attractive to mosquitoes.

Design, construction, and in vivo augmentation of a complex gut microbiome.

Efforts to model the human gut microbiome in mice have led to important insights into the mechanisms of host-microbe interactions. However, the model communities studied to date have been defined or complex, but not both, limiting their utility. Here, we construct and characterize in vitro a defined community of 104 bacterial species composed of the most common taxa from the human gut microbiota (hCom1). We then used an iterative experimental process to fill open niches: germ-free mice were colonized with hCom1 and then challenged with a human fecal sample. We identified new species that engrafted following fecal challenge and added them to hCom1, yielding hCom2. In gnotobiotic mice, hCom2 exhibited increased stability to fecal challenge and robust colonization resistance against pathogenic Escherichia coli. Mice colonized by either hCom2 or a human fecal community are phenotypically similar, suggesting that this consortium will enable a mechanistic interrogation of species and genes on microbiome-associated phenotypes.