View clinical trials related to Drug Overdose.
Filter by:This pilot study evaluates the needs of opioid users for a device-based intervention for opioid overdoses. The results of this one-time short questionnaire will inform development of a novel naloxone delivery device.
The induction dose of propofol is generally determined based on patients' characteristics, underlying disease, general condition, and also by clinician's experiences. However, It is difficult to anticipate and objectively calculate an adequate dose of propofol for every patient considering the variability of an individual's response to propofol. If there is a specific pattern in EEG prior to induction of anesthesia that can provide information about the patient's susceptibility to propofol, every induction may be performed far more smoothly with a precisely optimized dose of propofol for each patient. The study is to find a relationship between the pre-induction EEG pattern of adult patients and their sensitivity to propofol.
To help prevent deaths in populations that cannot or will not access physical safer consumption services in Alberta, which may disproportionately include women and those who are not able to self-inject (Potier et al., 2014) the investigators propose to provide virtual (phone-based) supervised consumption services, staffed by people with lived experience.
This study will test the efficacy of a novel drug-checking intervention to prevent fatal and non-fatal overdose among people who use drugs (PWUD), who are 18-65 years old at the time of enrollment. The investigators will evaluate whether the incorporation of rapid fentanyl testing into a theory-driven overdose education and prevention intervention reduces rates of overdose compared to standard overdose education and naloxone distribution. Results from this study will significantly improve public health efforts to address the fentanyl overdose epidemic and reduce harms associated with exposure to drugs contaminated with fentanyl. This is a full clinical trial, building on the previously approved fentanyl-test-strip pilot study (2016-2017), the results of which have recently been published.(Krieger et al., 2018)
In the world, 230 million surgeries are performed per year and a significant part is performed in patients over 65 years of age. These patients are more labile, especially from the neurocognitive point of view with a high risk to develop neurocognitive complications, such as postoperative delirium. Recent studies have linked this type of complication with an overdose of general anesthetics during surgery. For this reason, in recent years, the use of brain function monitors during the intraoperative period has been recommended to adapt the dosage of the drugs to each patient and thus to avoid overdosing of general anesthetics. However, to date, the available monitors that process the electroencephalographic signal are not able to adequately discriminate gradual changes in anesthetic depth. Also, no systematic studies have been performed that analyze changes that occur in the electroencephalogram (EEG) signal secondary to increases in complications from general anesthetics. Thus, the investigators design this study with the main aim to determine the changes in electroencephalographic patterns induced by a stepped increase of propofol until the burst suppression is reached.
The New York City (NYC) Department of Health and Mental Hygiene (DOHMH) has implemented Relay, a novel program that engages and intervenes with individuals in the ED following an opioid OD and for the next 90 days, with the goal of preventing subsequent OD events. The proposed randomized controlled trial will evaluate the impact of Relay on preventing subsequent opioid-related adverse events. A total of 350 eligible individuals with nonfatal opioid OD presenting to one of four participating EDs will be enrolled and randomized to one of two arms: 1) site-directed care (SDC) or 2) Relay-peer-delivered OD education and treatment linkage, including 90 days of peer navigation. Outcomes will be measured for 12 months through interviews and administrative health data.
The purpose of this study is to pilot and implement a peer mentor intervention focused on overdose prevention and care. The intervention consists of 3 sessions. During the first and second session, each participant will meet individually with a trained staff member. In the 3rd session, the participant will invite a social network member to attend the session, and these 2 participants will meet with a trained staff member.
This study will test the effects of an intervention to reduce substance use and related harms among people leaving rural jails or otherwise involved in the criminal justice system. This study will compare people in a health linkage intervention with people who will get overdose (OD) education. Everyone will take part in the baseline and follow-up surveys and receive OD education. Participants will be assigned to one of the two groups by chance based on when they are enrolled to the study and if their county is randomly assigned to an intervention or a comparison condition. By doing this study, the investigators hope to learn if providing linkage to health services along with HIV, hepatitis C virus (HCV), and overdose education to people leaving rural jails or otherwise involved in the criminal justice system will reduce substance use and related harms.
This cluster-randomized trial will compare changes in attitudes and knowledge on administering naloxone based on exposure to either a virtual reality educational training or the current standard educational trainings (e.g. on-line videos, printed information handouts) offered at local libraries. Individuals attending local library's naloxone training days will voluntarily complete an anonymous validated survey pre and post attending either the virtual reality or standard educational training.
This study seeks to investigate whether drug effects in suspected overdose patients could be identified using the electroencephalogram (EEG). From previous work it is known that different classes of anesthetic drugs have specific "EEG signatures" related to the drug mechanisms. Many of the drugs of abuse that are frequently encountered in overdose patients are similar or identical to anesthetic drugs. The hypothesis for this study is that the EEG could be used to characterize the brain effects of intoxicants using EEG in the ED setting. Such monitoring could one day help clinicians and first responders at the point-of-care make more informed decisions to improve the care of overdose patients.