Meditation trips: A thematic analysis of the combined naturalistic use of psychedelics with meditation practices

Similarities between meditative and psychedelic states have long been recognized. Recently, parallels in the psychological mechanisms mediating the beneficial effects of mindfulness and psychedelic treatments-as well as their potential therapeutic complementarity-have been noted. However, empirical research in this area remains limited. Here, we explore the naturalistic use of meditation practices among psychedelic users recruited outside of treatment/retreat or research settings. Participants with ≥ 1 psychedelic drug experience(s) were included in an online survey. The majority (n = 875; 66.5%) indicated that they engaged in meditation, 39.4% (n = 345) of whom had combined psychedelic use with meditation practices on ≥ 1 occasion. The majority (74.2%; n = 256) provided written accounts describing their experiences of "psychedelic-meditation," which were the basis for the present thematic analytic study. Six overarching themes were identified: (1) Compatibility Between Psychedelic and Meditative States; (2) Enhancement of the Meditative and Psychedelic Experience; (3) Beneficial Changes in Relating to the Internal and External World (encompassing acceptance, connection, peacefulness, and transformation); (4) Negative Effects of Combined Use; (5) Meditation as a Preparatory and Navigational Tool; and (6) Contextual Considerations (including reflections upon, and practical advice about, combining meditation and psychedelics). Participants' experiences appear to support recent empirical and theoretical work on the parallels and complementarity between psychedelic drug effects and meditation. The findings identify facilitating conditions for combining psychedelics with meditation, which may have implications for their combined therapeutic use. For example, the use of meditation techniques might represent a "psychedelic-sparing" strategy, potentially enabling therapeutically important psychedelic effects to emerge at lower doses. (PsycInfo Database Record (c) 2022 APA, all rights reserved)

Complementary Ecologies of Being: Quakerism and Buddhism as Exemplars of a Planetist Analogical Imagination

In the face of burgeoning environmental crises in the Anthropocene Age, this paper explores ecological perspectives within Buddhism and Quakerism. These two religious traditions reflect a planetist ethic by emphasizing environmental stewardship in both their canonical writings and their religious structures and practices. Conceptually, this paper contrasts these traditions to the “economism” ethic developed by John Cobb. Through tenets that include simplicity, reverence for nature, and honoring the interconnectedness of life, Buddhism and Quakerism promote environmentally conscious behavior. Across these religious traditions, that compassion and healing can be a path forward in the face of ego-based environmental consumption. In exploring these two religious traditions that have more developed ecological threads, this paper considers sustainable environmental ethics in the Anthropocene Age

Survival of off-host unfed Rhipicephalus (Boophilus) annulatus (Acari: Ixodidae) larvae in study arenas in relation to climatic factors and habitats in South Texas, USA

The cattle fever tick, Rhipicephalus annulatus (Say), is an economically destructive arthropod because of its ability to vector bovine babesiosis. Cattle fever ticks can spend more than 90% of their life cycle as questing larvae, but the effect of climatic factors on their off-host behavior and survival is unclear. The goal of this study was to measure the effects of specific ecological factors on off-host larvae in nature. The study was conducted in a south Texas pasture over a 20-mo period, during which time larval populations were surveyed and ambient weather variables - relative humidity and temperatures - were recorded. Oviposition success and larval survival varied between cattle fever tick cohorts and was affected by relative humidity and canopied (with tree cover) versus exposed habitat. The results show that relative humidity and the interaction of relative humidity and inhabiting canopied habitats play a key role in oviposition success. Additionally, canopied habitats have a positive influence on off-host larval survival in the spring and summer

Remodeling of an in vitro microvessel exposed to cyclic mechanical stretch.

In the lung, vascular endothelial cells experience cyclic mechanical strain resulting from rhythmic breathing motions and intraluminal blood pressure. Mechanical stress creates evident physiological, morphological, biochemical, and gene expression changes in vascular endothelial cells. However, the exact mechanisms of the mechanical signal transduction into biological response remain to be clarified. Besides, the level of mechanical stress is difficult to determine due to the complexity of the local distension patterns in the lung and thus assumed to be the same as the one acting on the alveolar epithelium. Existing in vitro models used to investigate the effect of mechanical stretch on endothelial cells are usually limited to two-dimensional (2D) cell culture platforms, which poorly mimic the typical three-dimensional structure of the vessels. Therefore, the development of an advanced in vitro vasculature model that closely mimics the dynamic of the human lung vasculatures is highly needed. Here, we present the first study that investigates the interplay of the three-dimensional (3D) mechanical cyclic stretch and its magnitude with vascular endothelial growth factor (VEGF) stimulation on a 3D perfusable vasculature in vitro. We studied the effects of the cyclic strain on a perfusable 3D vasculature, either made of human lung microvascular endothelial cells or human umbilical vein endothelial cells embedded in a gel layer. The in vitro 3D vessels underwent both in-vivo-like longitudinal and circumferential deformations, simultaneously. Our results showed that the responses of the human lung microvascular endothelial cells and human umbilical vein endothelial cells to cyclic stretch were in good agreement. Although our 3D model was in agreement with 2D model in predicting a cytoskeletal remodeling in response to different magnitudes of cyclic stretch, however we observed several phenomena in 3D model that 2D model was unable to predict to. Angiogenic sprouting induced by VEGF decreased significantly in presence of cyclic stretch. Similarly, while treatment with VEGF increased vascular permeability, the cyclic stretch restored vascular barrier tightness and significantly decreased vascular permeability. One of the major findings of this study was that a 3D microvasculature can be exposed to a much higher mechanical cyclic stress level than reported in the literature without any dysfunction of its barrier. For higher magnitudes of the cyclic stretch, the applied longitudinal strain level was 14% and the associated circumferential strain reached the equivalent of 63%. In sharp contrast with our findings, such strain typically leads to the disruption of the endothelial barrier in a 2D stretching assay and is considered pathological. This highlights the importance of 3D modeling to investigate mechanobiology effects rather than using a simple endothelial monolayer which truly recapitulates the in vivo situation

Exploring Health Insurance Status and Emergency Department Utilization

Emergency department (ED) use, by both insured and uninsured, leads to significant health care costs in the United States. While frequent ED use is often attributed to the uninsured, there is some evidence that insured populations also report utilizing the ED when otherwise preventable or nonurgent. We conducted in-person surveys of patients visiting the ED at a large research hospital and examined the differences in their characteristics based on the health insurance status. While less than the uninsured, insured individuals still report barriers to access to care outside the ED that include lack of access to another health care facility and unavailability of a doctor’s office or clinic

ERp29 triggers a conformational change in polyomavirus to stimulate membrane binding

Funding Information: We thank Tom Rapoport and Kristen Verhey for critically reading the manuscript. B.T. is a Biological Scholar at the University of Michigan Medical School. E.K.R. is supported by a training grant from the National Science Foundation. S.M. was supported by the Swedish Medical Research Council and the Swedish Society of Medicine. M.B. received a scholarship from the Royal Swedish Academy. The work was supported in part by a grant to T.B. from the National Cancer Institute (CA 082395). Copyright: Copyright 2008 Elsevier B.V., All rights reserved.Membrane penetration of nonenveloped viruses is a poorly understood process. We have investigated early stages of this process by studying the conformational change experienced by polyomavirus (Py) in the lumen of the endoplasmic reticulum (ER), a step that precedes its transport into the cytosol. We show that a PDI-like protein, ERp29, exposes the C-terminal arm of Py's VP1 protein, leading to formation of a hydrophobic particle that binds to a lipid bilayer; this reaction likely mimics initiation of Py penetration across the ER membrane. Expression of a dominant-negative ERp29 decreases Py infection, indicating ERp29 facilitates viral infection. Interestingly, cholera toxin, another toxic agent that crosses the ER membrane into the cytosol, is unfolded by PDI in the ER. Our data thus identify an ER factor that mediates membrane penetration of a nonenveloped virus and suggest that PDI family members are generally involved in ER remodeling reactions.publishersversionPeer reviewe

Prevalence of metabolic syndrome among postmenopausal women in South India

Background: As the average life expectancy of women extends 20-30 years after menopause, the medical impacts of changes leading to metabolic syndrome on postmenopausal women are significant. The menopausal state has been noted to be an independent risk factor for the occurrence of metabolic syndrome. This study was conducted to look at the prevalence of metabolic syndrome in postmenopausal women.Methods: A prospective cross sectional study was done and postmenopausal women were assessed for metabolic syndrome using the International Diabetes Federation Criteria.Results: The prevalence of metabolic syndrome was found to be 64%. Women with metabolic syndrome had a higher systolic blood pressure and larger waist circumference, however did not differ in terms of diabetes and dyslipidemia. There was no significant difference with regards to frequency and severity of menopausal symptoms between women with and without metabolic syndrome.Conclusions: The increased prevalence of metabolic syndrome in postmenopausal women may be directly due to ovarian insufficiency and indirectly due to metabolic consequences of central fat redistribution with estrogen deficiency

Introduction of tau oligomers into cortical neurons alters action potential dynamics and disrupts synaptic transmission and plasticity

Tau is a highly soluble microtubule-associated protein that acts within neurons to modify microtubule stability. However, abnormally phosphorylated tau dissociates from microtubules to form oligomers and fibrils which associate in the somatodendritic compartment. Although tau can form neurofibrillary tangles (NFTs), it is the soluble oligomers that appear to be the toxic species. There is, however, relatively little quantitative information on the concentration-dependent and time-dependent actions of soluble tau oligomers (oTau) on the electrophysiological and synaptic properties of neurons. Here, whole-cell patch clamp recording was used to introduce known concentrations of oligomeric full-length tau-441 into mouse hippocampal CA1 pyramidal and neocortical Layer V thick-tufted pyramidal cells. oTau increased input resistance, reduced action potential amplitude and slowed action potential rise and decay kinetics. oTau injected into presynaptic neurons induced the run-down of unitary EPSPs which was associated with increased short-term depression. In contrast, introduction of oTau into postsynaptic neurons had no effect on basal synaptic transmission, but markedly impaired the induction of long-term potentiation (LTP). Consistent with its effects on synaptic transmission and plasticity, oTau puncta could be observed in the soma, axon and in the distal dendrites of injected neurons