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This organism does not produce any useful compounds or enzymes that can help or benefit any other organisms.

One of the current research that is going on today is done by the CCRI research team, which is led by Robert Munson, Jr., Ph.D. from center for microbial pathogenesis. This research team is current conducting an experiment which can complete the genome sequence for a strain of nontypeable Haemophilus influenzae. By farther understanding of the genome sequence for nontypeable Haemophilus influezae can allow the people today to understand the basic genetic makeup of this organisms. By understanding this it allows us to know more about this disease and how to prevent it. It can also allow current researcher to farther perform experiment that could lead vaccine or novel interventions. (9) Another research is from the Brazilian Journal of Medical and Biological Research. In this research cerebrospinal fluid (CSF) was isolated from hospitalized patients whom were infants and young children. From the fluids that were collected it was suggested that “ceftriazone could be an option for the treatment of bacterial meningitis in pediatric patients who have not been screened for drug sensitivity.” (10) This was concluded after some experiment done on the CSF collected, these experiments were bacterial strains, strain identification, susceptibility testing, and beta-lactamase assay. Another research is done by Arnold Smith, M.D. from Seattle Biomedical Research institute. In this research, Dr. Smith’s purpose is to understand how this bacterium causes diease, which can help improved current treatments and preventions. In the lab molecular mechanisms of h. influenzae was understood. It was also noted that specific strains of this bacteria have ability to cross the respiratory tract of young children. It was also found that once this infection enter the blood stream it may cause sepsis and meningitis. This research is currently in progress at the Seattle Biomedical Research Institute. (11)

1. Hans Gmuender, Karin Kuratli, Karin Di Padova, Christopher P. Gray, Wolfgang Keck, Stefan Evers. “Fene Expression Changes Triggered by Exposure of Haemophilus influenzae to Novobiocin or Ciprofloxacin: Combined Transcription and Translation Analysis” Genome Research. 2001. Vol. 11, Issue 1, 28-42.

2. http:/

3. Vidya R Devarajan, MD, Wesley W Emmons, Francisco Talavera, PharmD, PhD, Charles V Sanders, MD, Eleftherios Mylonakis, MD, PhD, Burke A Cunha, MD, MACP. “Haemophilus Influenzae Infections” eMedicine from WebMD. January 16,2007. 936.html

4. “ Haemophilus influenzae Serotype B (Hib) Disease” Centers for Disease Control and Prevention. October 11, 2005. .

5. Mark A. Herbert, Derek W. Hood, E. Richard Moxon “Haemophilus influenzae Protocols” Humana Press, Totowa, New Jersey. 2003.

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: Investigating properties of evolving functional brain networks has become a valuable tool to characterize the complex dynamics of the epileptic brain. Such networks are usually derived from electroencephalograms (EEG) recorded with sensors implanted chronically into deeper structures of the brain and/or placed onto the cortex. It is still unclear, however, whether the use of different sensors for an identification of network nodes affects properties of functional brain networks. We address this question by investigating properties of links of such networks that we characterize by assessing interactions in multi-sensor, multi-day EEG data recorded from 49 epilepsy patients during presurgical evaluation. These data allow us to study the impact of different types of sensors together with the impact of various physiologic and pathophysiologic activities on the properties of links. : We observe that different types of sensors differently impact on spatial means and temporal fluctuations of link strengths. Moreover, the impact depends on the relative anatomical location of sensors with respect to location and extent of sources of the prevailing activities. : Type and location of sensors should be considered when constructing networks. References

Jessica Keim-Malpass et al 2018 Physiol. Meas. 39 075005

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: Predictive analytics monitoring that informs clinicians of the risk for failed extubation would help minimize both the duration of mechanical ventilation and the risk of emergency re-intubation in ICU patients. We hypothesized that dynamic monitoring of cardiorespiratory data, vital signs, and lab test results would add information to standard clinical risk factors. : We report model development in a retrospective observational cohort admitted to either the medical or surgical/trauma ICU that were intubated during their ICU stay and had available physiologic monitoring data (   =  1202). The primary outcome was removal of endotracheal intubation (i.e. extubation) followed within 48 h by reintubation or death (i.e. failed extubation). We developed a standard risk marker model based on demographic and clinical data. We also developed a novel risk marker model using dynamic data elements—continuous cardiorespiratory monitoring, vital signs, and lab values. : Risk estimates from multivariate predictive models in the 24 h preceding extubation were significantly higher for patients that failed. Combined standard and novel risk markers demonstrated good predictive performance in leave-one-out validation: AUC of 0.64 (95% CI: 0.57–0.69) and 1.6 alerts per week to identify 32% of extubations that will fail. Novel risk factors added significantly to the standard model. : Predictive analytics monitoring models can detect changes in vital signs, continuous cardiorespiratory monitoring, and laboratory measurements in both the hours preceding and following extubation for those patients destined for extubation failure. Marni simple design belt Buy Cheap Best vpAC6Hf

Michael Psarakis et al 2018 Physiol. Meas. 39 075004

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