Despite the fact that a substantial minority of individuals describe sexual thoughts that are perceived as unwanted and unacceptable, for the most part sexuality researchers have not differentiated ...sexual thoughts and fantasies that are perceived as positive by the respondent from those which are perceived as negative. At the same time, cognitive-behavioral researchers investigating intrusive thoughts-that is, unwanted, sudden, and involuntary ego-dystonic thoughts and obsessions-have not distinguished those reflecting sexual themes from those reflecting other themes. The purpose of this study was to examine sexual intrusive thoughts in a nonclinical population. One hundred seventy-one college students participated in the study and were administered measures assessing intrusive thoughts, psychological distress, and disposition towards sexuality. Sexual intrusive thoughts were reported by 84% of participants. Compared to the women, the men reported a greater number of different sexual intrusive thoughts, and marginally more frequent sexual intrusions. In addition, the men reported more frequent sexual intrusive thoughts involving some active, aggressive themes and less frequent thoughts of being sexually victimized than did the women. Compared to the men, the women reported less sexual arousal in response to their most upsetting intrusive thought. Greater erotophilia, more frequent sexual daydreaming, and more frequent obsessive thoughts uniquely predicted the frequency of sexual intrusions. This indicates that sexual intrusive thoughts are not just a result of general psychopathology or psychological distress, but also have a large sexual component. Two patterns of experiencing sexual intrusions are delineated.
General anesthesia (GA) is a reversible drug-induced state of altered arousal required for more than 60,000 surgical procedures each day in the United States alone. Sedation and unconsciousness under ...GA are associated with stereotyped electrophysiological oscillations that are thought to reflect profound disruptions of activity in neuronal circuits that mediate awareness and cognition. Computational models make specific predictions about the role of the cortex and thalamus in these oscillations. In this paper, we provide in vivo evidence in rats that alpha oscillations (10–15 Hz) induced by the commonly used anesthetic drug propofol are synchronized between the thalamus and the medial prefrontal cortex. We also show that at deep levels of unconsciousness where movement ceases, coherent thalamocortical delta oscillations (1–5 Hz) develop, distinct from concurrent slow oscillations (0.1–1 Hz). The structure of these oscillations in both cortex and thalamus closely parallel those observed in the human electroencephalogram during propofol-induced unconsciousness. During emergence from GA, this synchronized activity dissipates in a sequence different from that observed during loss of consciousness. A possible explanation is that recovery from anesthesia-induced unconsciousness follows a “boot-up” sequence actively driven by ascending arousal centers. The involvement of medial prefrontal cortex suggests that when these oscillations (alpha, delta, slow) are observed in humans, self-awareness and internal consciousness would be impaired if not abolished. These studies advance our understanding of anesthesia-induced unconsciousness and altered arousal and further establish principled neurophysiological markers of these states.
BACKGROUND:The neural mechanisms of anesthetic vapors have not been studied in depth. However, modeling and experimental studies on the intravenous anesthetic propofol indicate that potentiation of ...γ-aminobutyric acid receptors leads to a state of thalamocortical synchrony, observed as coherent frontal alpha oscillations, associated with unconsciousness. Sevoflurane, an ether derivative, also potentiates γ-aminobutyric acid receptors. However, in humans, sevoflurane-induced coherent frontal alpha oscillations have not been well detailed.
METHODS:To study the electroencephalogram dynamics induced by sevoflurane, the authors identified age- and sex-matched patients in which sevoflurane (n = 30) or propofol (n = 30) was used as the sole agent for maintenance of general anesthesia during routine surgery. The authors compared the electroencephalogram signatures of sevoflurane with that of propofol using time-varying spectral and coherence methods.
RESULTS:Sevoflurane general anesthesia is characterized by alpha oscillations with maximum power and coherence at approximately 10 Hz, (mean ± SD; peak power, 4.3 ± 3.5 dB; peak coherence, 0.73 ± 0.1). These alpha oscillations are similar to those observed during propofol general anesthesia, which also has maximum power and coherence at approximately 10 Hz (peak power, 2.1 ± 4.3 dB; peak coherence, 0.71 ± 0.1). However, sevoflurane also exhibited a distinct theta coherence signature (peak frequency, 4.9 ± 0.6 Hz; peak coherence, 0.58 ± 0.1). Slow oscillations were observed in both cases, with no significant difference in power or coherence.
CONCLUSIONS:The study results indicate that sevoflurane, like propofol, induces coherent frontal alpha oscillations and slow oscillations in humans to sustain the anesthesia-induced unconscious state. These results suggest a shared molecular and systems-level mechanism for the unconscious state induced by these drugs.
This review of the clinical features of Huntington's disease incorporates recent developments in pathophysiology, preclinical diagnosis and treatment. Although the mechanism initiating and guiding ...the cell destruction in this illness is currently unknown, the excitatory neurotoxin and the energy metabolism models may provide a valuable direction for future research. Similarly, although the precise relation between the neuroanatomical damage in Huntington's disease and the functional disability is not clear, applications of recently developed neural connection models have implicated a number of important brain-behavior associations. Preclinical diagnostic procedures have evolved through successive iterations that have each contributed to increased reliability. New functional brain imaging techniques are sure to add to this promising domain in the future. Preclinical diagnosis has been stimulated by the recent isolation of the Huntington's gene which has also rekindled awareness of the importance of informed genetic counselling and the inherent ethical dilemmas in genetic testing. Treatment approaches to Huntington's disease have been confined to palliative care with secondary symptom management and psychotherapeutic support. Experimental therapeutic strategies for the illness itself have had a rather disappointing record to date. Further developments in NMDA antagonism and neural cell grafting may provide some hope for the future.
An improved understanding of the neural correlates of altered arousal states is fundamental for precise brain state targeting in clinical settings. More specifically, electroencephalogram recordings ...are now increasingly being used to relate drug-specific oscillatory dynamics to clinically desired altered arousal states. Dexmedetomidine is an anesthetic adjunct typically administered in operating rooms and intensive care units to produce and maintain a sedative brain state. However, a high-density electroencephalogram characterization of the neural correlates of the dexmedetomidine-induced altered arousal state has not been previously accomplished. Therefore, we administered dexmedetomidine (1mcg/kg bolus over 10 minutes, followed by 0.7mcg/kg/hr over 50 minutes) and recorded high-density electroencephalogram signals in healthy volunteers, 18-36 years old (n = 8). We analyzed the data with multitaper spectral and global coherence methods. We found that dexmedetomidine was associated with increased slow-delta oscillations across the entire scalp, increased theta oscillations in occipital regions, increased spindle oscillations in frontal regions, and decreased beta oscillations across the entire scalp. The theta and spindle oscillations were globally coherent. During recovery from this state, these electroencephalogram signatures reverted towards baseline signatures. We report that dexmedetomidine-induced electroencephalogram signatures more closely approximate the human sleep onset process than previously appreciated. We suggest that these signatures may be targeted by real time visualization of the electroencephalogram or spectrogram in clinical settings. Additionally, these signatures may aid the development of control systems for principled neurophysiological based brain-state targeting.
The anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscillations (8-12 Hz), Slow Wave Oscillations (SWO, 0.1-1.5 Hz), and dose-dependent phase-amplitude ...coupling (PAC) between alpha and SWO. Propofol is known to increase GABAA inhibition and decrease H-current strength, but how it generates these rhythms and their interactions is still unknown. To investigate both generation of the alpha rhythm and its PAC to SWO, we simulate a Hodgkin-Huxley network model of a hyperpolarized thalamus and corticothalamic inputs. We find, for the first time, that the model thalamic network is capable of independently generating the sustained alpha seen in propofol, which may then be relayed to cortex and expressed on the EEG. This dose-dependent sustained alpha critically relies on propofol GABAA potentiation to alter the intrinsic spindling mechanisms of the thalamus. Furthermore, the H-current conductance and background excitation of these thalamic cells must be within specific ranges to exhibit any intrinsic oscillations, including sustained alpha. We also find that, under corticothalamic SWO UP and DOWN states, thalamocortical output can exhibit maximum alpha power at either the peak or trough of this SWO; this implies the thalamus may be the source of propofol-induced PAC. Hyperpolarization level is the main determinant of whether the thalamus exhibits trough-max PAC, which is associated with lower propofol dose, or peak-max PAC, associated with higher dose. These findings suggest: the thalamus generates a novel rhythm under GABAA potentiation such as under propofol, its hyperpolarization may determine whether a patient experiences trough-max or peak-max PAC, and the thalamus is a critical component of propofol-induced cortical spectral phenomena. Changes to the thalamus may be a critical part of how propofol accomplishes its effects, including unconsciousness.
Cognitive recovery after anaesthesia and surgery is a concern for older adults, their families, and caregivers. Reports of patients who were ‘never the same’ prompted a scientific inquiry into the ...nature of what patients have experienced. In June 2018, the ASA Brain Health Initiative held a summit to discuss the state of the science on perioperative cognition, and to create an implementation plan for patients and providers leveraging the current evidence. This group included representatives from the AARP (formerly the American Association of Retired Persons), American College of Surgeons, American Heart Association, and Alzheimer's Association Perioperative Cognition and Delirium Professional Interest Area. This paper summarises the state of the relevant clinical science, including risk factors, identification and diagnosis, prognosis, disparities, outcomes, and treatment of perioperative neurocognitive disorders. Finally, we discuss gaps in current knowledge with suggestions for future directions and opportunities for clinical and translational projects.
Subcortical structures play a critical role in brain function. However, options for assessing electrophysiological activity in these structures are limited. Electromagnetic fields generated by ...neuronal activity in subcortical structures can be recorded noninvasively, using magnetoencephalography (MEG) and electroencephalography (EEG). However, these subcortical signals are much weaker than those generated by cortical activity. In addition, we show here that it is difficult to resolve subcortical sources because distributed cortical activity can explain the MEG and EEG patterns generated by deep sources. We then demonstrate that if the cortical activity is spatially sparse, both cortical and subcortical sources can be resolved with M/EEG. Building on this insight, we develop a hierarchical sparse inverse solution for M/EEG. We assess the performance of this algorithm on realistic simulations and auditory evoked response data, and show that thalamic and brainstem sources can be correctly estimated in the presence of cortical activity. Our work provides alternative perspectives and tools for characterizing electrophysiological activity in subcortical structures in the human brain.
The efficacy of chimeric antigen receptor (CAR) T cell therapy against poorly responding tumors can be enhanced by administering the cells in combination with immune checkpoint blockade inhibitors. ...Alternatively, the CAR construct has been engineered to coexpress factors that boost CAR-T cell function in the tumor microenvironment. We modified CAR-T cells to secrete PD-1-blocking single-chain variable fragments (scFv). These scFv-secreting CAR-T cells acted in both a paracrine and autocrine manner to improve the anti-tumor activity of CAR-T cells and bystander tumor-specific T cells in clinically relevant syngeneic and xenogeneic mouse models of PD-L1
hematologic and solid tumors. The efficacy was similar to or better than that achieved by combination therapy with CAR-T cells and a checkpoint inhibitor. This approach may improve safety, as the secreted scFvs remained localized to the tumor, protecting CAR-T cells from PD-1 inhibition, which could potentially avoid toxicities associated with systemic checkpoint inhibition.
Abstract Background Persistent cognitive dysfunction in unipolar depression (UD) contributes to socio-occupational impairment, but there are no feasible methods to screen for and monitor cognitive ...dysfunction in this patient group. The present study investigated the validity of two new instruments to screen for cognitive dysfunction in UD, and their associations with socio-occupational capacity. Method Participants ( n =53) with UD in partial or full remission and healthy control persons ( n =103) were assessed with two new screening instruments, the Danish translations of the Screen for Cognitive Impairment in Psychiatry (SCIP-D) and Cognitive Complaints in Bipolar Disorder Rating Assessment (COBRA) and with established neuropsychological and self-assessment measures. Depression symptoms and socio-occupational function were rated with the Hamilton Depression Rating Scale and Functional Assessment Short Test respectively. Results The SCIP-D and COBRA were valid for detection of objective and subjective cognitive impairment, respectively. The three parallel SCIP-D forms were equivalent. A combined SCIP-D-COBRA measure showed high sensitivity and good specificity for objective cognitive impairment (91% and 70%, respectively). There was no correlation between subjective and objective measures of cognition. Subjective cognitive difficulties correlated more with socio-occupational impairment ( r =0.7, p <0.01) than did objective cognitive difficulties, for which there was a weak correlation with the executive skills domain only ( r =−0.3, p =0.05). Limitations A modest sample size. Conclusions The SCIP-D and COBRA are valid measures of objective and subjective cognitive impairment, respectively, and should ideally be implemented together in the screening for cognitive dysfunction in UD.
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