Browsing by Author "Qu, Jason"
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- ItemA polysomnography study examining the association between sleep and postoperative delirium in older hospitalized cardiac surgical patients(2021) Reine, Ibala; Mekonnen, Jennifer; Gitlin, Jacob; Hah, Eunice Y.; Ethrid, Breanna R.; Colon, Katia M.; Marota, Sophia; Orte, Cristy; Pedemonte Trewhela, Juan Cristóbal; Cobanaj, Marisa; Chamadia, Shubham; Qu, Jason; Gao, Lei; Barbieri, Riccardo; Akej, Oluwaseun
- ItemCognitive function mediates the relationship between age and anaesthesia-induced oscillatory-specific alpha power(2023) Boncompte, Gonzalo; Freedman, Isaac; Qu, Jason; Turco, Isabella; Khawaja, Zain Q.; Cortinez, Ignacio; Pedemonte, Juan C.; Akeju, OluwaseunCognitive decline is common among older individuals, and although the underlying brain mechanisms are not entirely understood, researchers have suggested using EEG frontal alpha activity during general anaesthesia as a potential biomarker for cognitive decline. This is because frontal alpha activity associated with GABAergic general anaesthetics has been linked to cognitive function. However, oscillatory-specific alpha power has also been linked with chronological age. We hypothesize that cognitive function mediates the association between chronological age and (oscillatory-specific) alpha power. We analysed data from 380 participants (aged over 60) with baseline screening assessments and intraoperative EEG. We utilized the telephonic Montreal Cognitive Assessment to assess cognitive function. We computed total band power, oscillatory-specific alpha power, and aperiodics to measure anaesthesia-induced alpha activity. To test our mediation hypotheses, we employed structural equation modelling. Pairwise correlations between age, cognitive function and alpha activity were significant. Cognitive function mediated the association between age and classical alpha power [age -> cognitive function -> classical alpha; beta = -0.0168 (95% confidence interval: -0.0313 to -0.00521); P = 0.0016] as well as the association between age and oscillatory-specific alpha power [age -> cognitive function -> oscillatory-specific alpha power; beta = -0.00711 (95% confidence interval: -0.0154 to -0.000842); P = 0.028]. However, cognitive function did not mediate the association between age and aperiodic activity (1/f slope, P = 0.43; offset, P = 0.0996). This study is expected to provide valuable insights for anaesthesiologists, enabling them to make informed inferences about a patient's age and cognitive function from an analysis of anaesthetic-induced EEG signals in the operating room. To ensure generalizability, further studies across different populations are needed.
- ItemDelta oscillations phase limit neural activity during sevoflurane anesthesia(2019) Chamadia, Shubham; Pedemonte, Juan C.; Hahm, Eunice Y.; Mekonnen, Jennifer; Ibala, Reine; Gitlin, Jacob; Ethridge, Breanna R.; Qu, Jason; Vazquez, Rafael; Rhee, James; Liao, Erika T.; Brown, Emery N.; Akeju, OluwaseunUnderstanding anesthetic mechanisms with the goal of producing anesthetic states with limited systemic side effects is a major objective of neuroscience research in anesthesiology. Coherent frontal alpha oscillations have been postulated as a mechanism of sevoflurane general anesthesia. This postulate remains unproven. Therefore, we performed a single-site, randomized, cross-over, high-density electroencephalogram study of sevoflurane and sevoflurane-plus-ketamine general anesthesia in 12 healthy subjects. Data were analyzed with multitaper spectral, global coherence, cross-frequency coupling, and phase-dependent methods. Our results suggest that coherent alpha oscillations are not fundamental for maintaining sevoflurane general anesthesia. Taken together, our results suggest that sub-anesthetic and general anesthetic sevoflurane brain states emerge from impaired information processing instantiated by a delta-higher frequency phase-amplitude coupling syntax. These results provide fundamental new insights into the neural circuit mechanisms of sevoflurane anesthesia and suggest that anesthetic states may be produced by extracranial perturbations that cause delta-higher frequency phase-amplitude interactions.
- ItemDissociative and analgesic properties of ketamine are independent and unaltered by sevoflurane general anesthesia(2021) Hahm, Eunice Y.; Chamadia, Shubham; Locascio, Joseph J.; Pedemonte, Juan C.; Gitlin, Jacob; Mekonnen, Jennifer; Ibala, Reine; Ethridge, Breanna R.; Colon, Katia M.; Qu, Jason; Akeju, OluwaseunIntroduction: Ketamine, an anesthetic adjunct, is routinely administered as part of a balanced general anesthetic technique. We recently showed that the acute analgesic and dissociation properties of ketamine are separable to suggest that distinct neural circuits underlie these states. Objective: We aimed to study whether this finding is robust to the substantial neural circuit alterations associated with general anesthesia. Methods: We conducted a single-site, open-label, randomized controlled, cross-over study of sevoflurane and sevoflurane-plus-ketamine (SK) general anesthesia in healthy subjects (n = 12). Before and after general anesthesia, we assessed precalibrated cuff pain intensity and nociceptive pain quality as well as dissociation using the Clinician-Administered Dissociative States Scale (CADSS). For statistical inference, we ran a variation of backward elimination repeated-measures analysis of covariance. Models with CADSS as a covariate term were used to assess whether dissociation mediated the effect of ketamine on pain intensity and quality. Results: Sevoflurane-plus-ketamine general anesthesia was associated with a significant (P = 0.0002) pain intensity decline of 3 (SE, 0.44). There was an order effect for dissociation such that SK was associated with a significant (P = 0.0043) CADSS increase of 17.8 (3.2) when the SK treatment came first. When the pain intensity model was reanalyzed with CADSS as an additional covariate, the effect of CADSS was not significant. These results were also conserved for pain quality. Conclusions: Our findings suggest that the analgesic and dissociation properties of ketamine remain separable despite general anesthesia. Thus, ketamine may be used as a probe to advance our knowledge of dissociation independent pain circuits.