19 Clinical Trials for Various Conditions
The goal of this clinical trial is to test the feasibility of combining meditation with psilocybin microdosing in healthy adults. The main questions it aims to answer are: 1. Recruitment and retention feasibility 2. Acceptability, Safety and Tolerability 3. Exploratory Measures: 3.1: Explore potential changes in sleep quality and duration, heart rate variability, and other biometric outcomes captured by the Oura Ring (3rd generation). 3.2: Explore potential changes in quality of life scores 3.3: Explore potential differences in altered states of consciousness across groups 3.4: Explore qualitative data collected during sessions and at follow-up to assess satisfaction and receive feedback about the intervention. Every participant will receive the psilocybin microdosing intervention, however, half of the participants will be randomly selected to receive the meditation intervention.
This is a multi-center, open-label, Phase 0 substudy designed to evaluate the ability of pembrolizumab, alone and in combination with MK-0482 or MK-4830, to elicit pharmacodynamic changes suggestive of antitumor immune activation within the native tumor microenvironment (TME) following intratumoral microdosing via the CIVO device in patients with surface accessible Head and Neck Squamous Cell Carcinoma (HNSCC) or Soft Tissue Sarcoma (STS) lesion(s) who are scheduled for tumor and/or regional node dissection as part of their standard treatment.
This is a multi-center, open-label, Phase 0 substudy designed to evaluate the localized pharmacodynamics (PD) of rilvegostomig, volrustomig, sabestomig, and AZD9592 within the tumor microenvironment (TME) when administered intratumorally in microdose quantities via the CIVO device in patients presenting with Head and Neck Squamous Cell Carcinoma (HNSCC) with a surface accessible lesion, who are scheduled for tumor and/or regional node dissection as part of their standard treatment. PD effects due to injected investigational agents, either as single agents or as AZD9592 drug combinations with the evaluated biologics, will be compared to those elicited by pembrolizumab alone, which will also be injected in microdose quantities via the CIVO device.
This is a multi-center, open-label Phase 0 substudy designed to study the localized pharmacodynamics (PD) of TAK-676 alone or in combination with Carboplatin, 5-FU, or Paclitaxel within the tumor microenvironment (TME) when administered intratumorally in microdose quantities via the CIVO device in patients diagnosed with Head and Neck Squamous Cell Carcinoma presenting with a surface accessible solid tumor for which there is a scheduled surgical intervention. This substudy is a cohort of the PBI-MST-01 Master Protocol.
This is a multi-center, open-label Phase 0 Master Protocol designed to study the localized pharmacodynamics (PD) of anti-cancer therapies within the tumor microenvironment (TME) when administered intratumorally in microdose quantities via the CIVO device in patients with surface accessible solid tumors for which there is a scheduled surgical intervention. CIVO stands for Comparative In Vivo Oncology. Multiple substudies will include specified investigational agents and combinations to be evaluated.
This is a multi-center, single arm, open-label, multi-agent, localized pharmacodynamic biomarker Phase 0 trial designed to study the biological effects within the tumor microenvironment of motolimod and motolimod combined with nivolumab when administered intratumorally in microdose quantities via the CIVO device in patients with head and neck squamous cell carcinoma (HNSCC). CIVO stands for comparative in vivo oncology.
This is a multi-center, single arm, open-label, multi-agent, localized pharmacodynamic biomarker Phase 0 trial designed to study the biological effects within the tumor microenvironment of TAK-981 and TAK-981 combined with cetuximab or avelumab when administered intratumorally in microdose quantities via the CIVO device. CIVO stands for comparative in vivo oncology.
The purpose of this protocol is to demonstrate that intra-arterial administration of a drug can generate information in a manner that faithfully mimics effects of systemic administration but with little or no systemic effects.
using microdosing of ICG vs regular dosing of ICG for perfusion assessment during surgery
There are more than 2.1 million people in the United States with opioid use disorder, and according to preliminary data from the US Centers for Disease Control and Prevention opioid overdose deaths rose 36% to more than 69,000 deaths in 2020. Treatment with buprenorphine or methadone reduces overdose deaths in patients with opioid use disorder. However, most patients with opioid use disorder do not receive treatment. In addition to the rising rates of morbidity and mortality, the healthcare, social, and societal costs of the opioid epidemic are roughly one trillion dollars annually. Rapidly scalable strategies are needed to increase access to treatment and improve treatment retention. The investigators propose a novel buprenorphine micro-dosing study to evaluate the pharmacokinetics, treatment retention, and qualitative outcomes in participants transitioning from methadone maintenance therapy to buprenorphine using a micro-dosing initiation in the outpatient setting. The proposed study will report participant pharmacokinetics, treatment retention, Clinical Opiate Withdrawal Scale (COWS) score, Treatment Satisfaction Questionnaire for Medication (TSQM) score, and other qualitative outcomes.
A randomized clinical study evaluating the effect of buprenorphine/naloxone (bup/nx) sublingual film on postoperative pain management in opioid-tolerant patients.
The purpose of this study is to evaluate the therapeutic efficacy of microdosing BurstDR stimulation in spinal cord stimulation (SCS) patients with chronic intractable back and/or leg pain.
This pilot clinical trial studies how well carbon C 14 oxaliplatin microdosing assay works in predicting exposure and sensitivity to oxaliplatin-based chemotherapy in patients with colorectal cancer that has spread to other places in the body and usually cannot be cured or controlled with treatment. Drugs used in chemotherapy, such as oxaliplatin, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Carbon C 14 is a radioactive form of carbon, exists in nature and in the body at a low level. Microdose carbon C 14 oxaliplatin diagnostic assay may help doctors understand how well patients respond to treatment and develop individualize oxaliplatin dosing in patients with colorectal cancer.
Current tests to detect cancer, including CAT scans and MRI scans, are limited. PET scans use special dyes that are injected into a vein and can better localize possible cancer. The investigators have developed a new particle that can carry a radioactive dye to a very specific area of the tumor. When using a PET scan the radioactive dye can be viewed in areas of possible disease. This particle has been studied in mice and was safe. The particles will not treat the cancer and any images or information found during this study will not be used for your treatment. The information collected may be used to guide the design of future studies to detect and/or treat tumors.
Carboplatin kills cancer cells mainly through induction of DNA damage (drug-DNA adducts). The goal of this clinical trial is to determine if chemoresistance to carboplatin can be identified by measuring carboplatin-induced DNA monoadducts, the precursor of Pt-DNA diadducts or crosslinks, from subtherapeutic drug doses given prior to the initiation of chemotherapy. We hypothesize that low levels of carboplatin-DNA monoadducts and rapid drug-DNA adduct repair correlate with chemoresistance. A highly sensitive technology, called accelerator mass spectrometry (AMS), will be used to measure carboplatin-DNA monoadducts from patient samples. AMS can measure C-14 at the attomole level in specimens of milligram size. In this study, patients will receive one non-toxic "microdose" (defined as 1/100th the therapeutic dose) of C-14-labeled carboplatin. Blood specimens will be drawn for determination of carboplatin-DNA monoadduct formation and repair in peripheral blood mononuclear cells (PBMC), and pharmacokinetics (PK) will be determined from serum ultrafiltrate. In patients microdosed prior to providing tumor samples, a few milligrams of leftover tumor biopsy/resection specimens will be analyzed for formation of carboplatin-DNA monoadducts. Patients will subsequently receive carboplatin-based chemotherapy. The levels of microdose-induced carboplatin-DNA monoadducts will be correlated with response to chemotherapy. Some blood and biopsy samples will be assayed by RT-PCR for several putative resistance markers at the mRNA level. Side effects will also be monitored and compared to the AMS data. This trial will also utilize PK, DNA repair and pharmacogenomics data in order to determine some of the underlying chemoresistance mechanisms.
This is a multi-center, single arm, open-label, localized pharmacodynamic biomarker Phase 0 trial designed to study the biological effects within the tumor microenvironment of PBA-0405 when administered intratumorally in microdose quantities via the CIVO device.
Microdosing induction is a novel method of starting buprenorphine/naloxone without patients experiencing the opioid withdrawal that is a part of traditional induction. Patients take small doses of buprenorphine/naloxone that increase slowly over a week. Although microdosing induction has been supported anecdotally, its effectiveness is not known. The proposed study will compare the effectiveness and safety of two induction strategies for transitioning patients from opioids to buprenorphine/naloxone. All inductions will occur in an outpatient telehealth opioid use disorder (OUD) treatment setting. The study will compare patients who receive traditional induction versus microdosing induction. Primary outcomes include effectiveness and safety. Secondary outcomes include treatment retention, self-reported use of opioids during induction, return to opioid use, opioid appearance in drug screens, craving/withdrawal symptoms, and patient satisfaction.
The purpose of this study is to test whether low-dose buprenorphine initiation for treatment of opioid use disorder is safe and effective.
This is a feasibility study in patients with localized or metastatic soft tissue sarcoma undergoing surgery to determine how sarcoma in situ responds to injected microdoses of anti-cancer therapeutics.