Integrated smart power devices gain more and more importance in the field of automotive systems. In addition to power transistors such devices usually contain several integrated diagnostic and protection functions. In the event of a fault these functions enable the connected control unit to react appropriately and to protect the application and thus the people. Smart power devices are often responsible for important tasks within a vehicle and are nowadays more and more used to substitute conventional elements like fuses, relays and switches. During the operation they are often exposed to harsh environmental conditions such as high operating temperatures, mechanical stress, etc. At the same time different electromagnetic interferences (EMI) may occur, which can affect their normal functionality. Especially in safety-critical applications such as the airbag control module or the Anti-lock Braking System their correct function is very important to avoid dangerous operating conditions and to ensure functional safety. Based on EMI investigations on a representative smart power high side switch it is shown in this paper to what degree of electromagnetic interference smart power devices are still able to correctly detect critical fault conditions and remain in their fail-save state.
No abstract
Postural orthostatic tachycardia syndrome (POTS) is a devastating chronic form of orthostatic intolerance associated with excessive heart rate increase without hypotension during upright posture. POTS patients exhibit increased circulating norepinephrine levels with exaggerated sympathetic nervous system response upon standing. Emerging evidence suggests a role for the gut microbiome in cardiovascular disorders. However, the etiology of POTS and whether the gut microbiome plays a role are not fully elucidated. We assessed whether the gut microbiome and fecal short-chain fatty acids were different in POTS patients (N = 25) compared to healthy control (N = 23) women. Patients underwent hemodynamic measurements while supine and upon standing. Fecal samples were collected and analyzed using shotgun sequencing and Liquid Chromatography-High Resolution Mass Spectrometry and dietary habits were measured with a fitness application. We found that POTS patients in the standing position had higher circulating norepinephrine and epinephrine levels and increased heart rate. There were no differences in diet composition between groups. Of note dietary salt intake was also similar despite the fact that these patients are advised to consume a high salt diet. Alpha and beta diversity were similar between groups. We observed no differences in bacteria at the phylum levels or Firmicutes to Bacteroidetes ratio. We found no significant differences at the genus level, but observed trends in certain bacteria. Lachnoclostridium genus were higher in POTS when compared to the control group. On the other hand, Coprococcus and Coprobacter, were lower in POTS patients compared to controls. Although our KEGG metabolic pathways indicated differences related to short-chain fatty acids (SCFAs), we found that both POTS patients and healthy controls had similar levels of SCFAs. These results suggest POTs per se may have limited effects on gut microbiota composition and derived SCFAs. Further studies are needed to assess the role of the alterations observed at the genus level.
Monitorização de transplante cardíaco usando análises do eletrograma intracavitário
Uma série de registros do eletrograma intracavitário tem sido utilizada para monitorização não invasiva da rejeição em pacientes transplantados usando um marcapasso de dupla câmara e eletrodos endocavitários revestidos com estrutura fractal. Os sinais têm sido avaliados usando o sistema CHARM (Computerized Heart Acute Rejection Monitoring _ sistema computadorizado para monitorização da rejeição cardíaca aguda). Os relatórios obtidos com este sistema contêm curvas com parâmetros sensíveis à rejeição, que demonstram uma boa correlação com a clínica e os resultados das biópsias convencionais. A monitorização a longo prazo, usando estas análises, mostrou ser uma ferramenta valiosa no acompanhamento destes pacientes.
Serial intramyocardial electrogram recordings have been performed for noninvasive rejection monitoring in patients after heart transplantation using implanted telemetric dual-chamber pacemaker and fractally coated endocardial loads. The signals have been evaluated using the CHARM (Computerized Heart Acute Rejection Monitoring) system. The reports containing the trend curves of the rejection sensitive parameters show good correlation with the patients clinical course and the results of endomyocardial biopsy. Long-term cardiac transplant monitoring using intramyocardial electrograms is a valuable tool for clinical patient management
Background: High salt consumption is associated with increased cardiovascular risk and higher morbidity and mortality in salt-sensitive hypertensives than in salt-resistant normotensives. Salt sensitivity of blood pressure (SSBP) is an independent predictor of death due to cardiovascular disease. Although the role of SMAD3 has been extensively studied in kidney fibrosis during renal artery stenosis and other cardiovascular disorders, the role of this pathway in immune cells contributing to SSBP is yet to be defined. Hypothesis: We hypothesized that antigen-presenting specific SMAD3, downstream of JAK2, mediates IsoLG-protein adducts formation, T cell activation, and inflammation and contributes to SSBP. Method. We enrolled two cohorts of participants. We isolated monocytes from cohort one, treated them with normal or high salt, and performed RNA-seq analysis. We used an inpatient salt load and salt depletion protocol to phenotype for salt-sensitive and salt-resistant participants in cohort 2 and performed CITE-Seq analysis. In additional experiments, we generated dendritic cell (DC)-specific JAK2 knockout mice (DCJAK2KO) and performed molecularly and flow cytometric immune phenotyping along with both noninvasive tail-cuff and state-of-the-art radio telemetry blood pressure and heart rate (HR) monitoring in the L-NAME/high salt model of salt sensitivity. We used immunohistochemistry and Fluorescent In Situ Hybridization for spatial and differential infiltration of DCs, and expression of JAK2, SMAD3, ENAC-γ, and IL-6 in DCs as well as fibrosis and macrophages in the kidney. Results: Both bulk and single-cell transcriptomic analyses of human myeloid antigen-presenting cells revealed that high salt treatment in vitro and in vivo upregulates genes of the JAK-STAT-SMAD pathway and downregulates downstream regulators, including the suppressor of cytokine signaling (SOCS) genes. DCJAK2KO mice exhibited attenuated salt-sensitive hypertension ( Systolic blood pressure, 121.6 vs. 138.5, SEM±3.3, n=6) and reduced HR compared to the wildtype littermates during L-NAME/high salt regimen. This was associated with reduced phosphorylation/activation of SMAD3 in total leukocytes ( 982.6 vs 434.7, SEM±107.3), DCs (63.6 vs 18.8, SEM±10.73), and monocytes ( 17.5 vs 106.2, SEM±34.1). Inflammatory markers, IsoLG-protein adducts ( 7.1 vs 25.9, SEM±3.6), IL-6 (6.8 vs 26, SEM±5.9), and TGF-β1 ( 38 vs 91.8, SEM±26.4) in DCs were significantly attenuated. Similarly, these markers were downregulated in total leukocytes and monocytes. The CD8a+ central memory T (TCM) and effector memory T (TEM) cells exhibited lowered IL-17A ( 14.6 vs 26.3, SEM±5.1; 5.7 vs 38.5, SEM±13.96) and IFN-γ ( 26.3 vs 1.104.7, SEM±59.01; 11.6 vs 52.3, SEM±15.6) expression. DCJAK2KO mice also showed attenuated infiltration of total leukocytes, DCs, monocytes, and lymphocytes in the kidney. Conclusion: These results indicate that DC-specific SMAD3 downstream of JAK2 plays an essential role in SSBP. 1K01HL130497-01 (Kirabo, PI); 1R01HL144941-01A1 (Kirabo, PI); 1R03HL155041-01 (Kirabo, PI); 5R01HL147818-22 (Kleyman & Kirabo, MPI); AHA 903428 (Ishimwe). This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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