57 Clinical Trials for Various Conditions
The primary purpose of this pilot study is to investigate a novel approach to the treatment of cognitive symptoms that persist despite prior antibiotic treatment for Lyme disease (Post treatment Lyme Disease or PTLD). Aim 1: The primary aim of this study is to assess whether the processing speed of individuals with PTLD can be enhanced by combining transcranial direct current stimulation (tDCS) with computer based cognitive training games. To achieve this aim, over a 4-week period, all individuals with PTLD will participate in at home adaptive cognitive training combined with either active stimulation or sham stimulation. Aim 2: To determine if treatment benefit in processing speed is sustained, the study will compare the sham and active groups 8 weeks after completion of study treatment.
Post-Treatment Lyme Disease
The primary purpose of this pilot study is to investigate a novel approach to the treatment of cognitive symptoms that persist despite prior antibiotic treatment for Lyme disease (Post treatment Lyme Disease or PTLD). Aim 1: The primary aim of this study is to assess whether the processing speed of individuals with PTLD can be enhanced by combining transcranial direct current stimulation (tDCS) with computer based cognitive training games. To achieve this aim, over a 4-week period, all individuals with PTLD will participate in at home adaptive cognitive training combined with either active stimulation or sham stimulation. Aim 2: To determine if treatment benefit in processing speed is sustained, the study will compare the sham and active groups 8 weeks after completion of study treatment.
Post-Treatment Lyme Disease
Lyme disease is a public health crisis in the US. It is estimated that over 400,000 cases occur every year with 10-20% of those infected going on to develop Post-Treatment Lyme disease Syndrome (PTLDS). The goal of this study is to investigate if giving Ceftriaxone every 5 days for about 6 weeks kills the organism that produces persistent Lyme infection. Enrolled participants will be randomized 1:1 receiving either pulse-dosed ceftriaxone or placebo \[dextrose (5% in water), (D5W)\], intravenously. Participants will be evaluated at each of the study visits, and then in a follow-up phase out to 12 months. They will be unblinded at 6 months and those randomized to the placebo group will be offered pulse-dosed ceftriaxone on the same schedule as those randomized to the drug group. All patients will be followed up for a total of 12 months post treatment initiation.
Post-Treatment Lyme Disease Syndrome
This study will investigate the effectiveness of the Sana Pain Reliever (Sana PR) at reducing chronic pain. The Sana PR is a device comprised of one main component (Mask with Earbuds) and two ancillary components (Charger and Headband). The device is worn over the eyes (with earbuds in ears). The device pulses light at a single wavelength but various frequencies throughout a specific firmware algorithm. Through the earbuds, the device also plays different tones in conjunction with the pulses. The device has a skin contacting Heart Rate Variability (HRV) sensor built into the forehead area that measures HRV throughout the use of the device. The system runs for 15 min at a time and is not FDA approved. The trial will last a total of 14 weeks. 50 participants who have a diagnosis of Post-treatment Lyme Disease and experience chronic pain are expected to take part in this study at Mount Sinai.
Post-treatment Lyme Disease Syndrome, Chronic Pain
The goal of this clinical trial is to learn if an FDA approved drug, Ceftriaxone, given intermittently, can treat people between 18 and 75 years old with a history of Lyme disease, who are still experiencing persistent or returning symptoms after they have completed treatment. The main questions it aims to answer are: * Will giving Ceftriaxone approximately every 5 days for 6 weeks be safe and well tolerated when compared to a group that receives placebo (a look-alike substance that contains no drug)? * Will giving Ceftriaxone improve symptoms? Participants will be asked to do the following: * Come to the clinic approximately every 5-6 days to receive an IV infusion of either the Ceftriaxone or placebo. * Answer questions about their level of tiredness, body pain, general health and physical ability, sleep, anxiety, depression and any suicidal thoughts. * Give blood so we can make sure your body is handling the drug okay or to help us learn more about how the drug is affecting the persistent Lyme disease symptoms.
Post-Treatment Lyme Disease
This will be a pilot multi-arm clinical trial investigating the feasibility of Lumbrokinase (LK) as an intervention in three clinical cohorts: * Long Covid (LC) * Post-treatment Lyme disease syndrome (PTLDS) * Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS)
Long Covid, Post-treatment Lyme Disease Syndrome, Chronic Fatigue Syndrome, Myalgic Encephalomyelitis
This is a mixed methods study exploring the experiences of pregnancy and parenting among participants with Lyme disease. Eligible participants will have been diagnosed with Lyme disease (LD), post-treatment Lyme disease syndrome (PTLDS), and/or chronic Lyme (CL) either during or before a prior pregnancy. Participants will complete quantitative surveys on topics such as their medical history, their child(ren)'s development, and demographic information. They will then participate in a qualitative interview where they will be asked about their experiences with pregnancy and with parenting their child(ren) in the context of their condition.
Lyme Disease, Post Treatment Lyme Disease, Chronic Lyme Disease, Tick-Borne Infections, Tick-Borne Diseases, Pregnancy Complications, Parenting
The purpose of this pilot study is to assess the feasibility of longitudinal neurodevelopmental evaluation of fetuses and infants exposed to Lyme disease in utero. Participants with Lyme disease or Post-Treatment Lyme Disease Syndrome (PTLDS) will be recruited during pregnancy. Pregnancies will be monitored and infant development will be assessed from birth until age 18 months.
Lyme Disease, Post-Treatment Lyme Disease, Chronic Lyme Disease, Tick-Borne Infections, Pregnancy Complications, Child Development
The purpose of this study is to evaluate the safety and immunogenicity in parallel of heptavalent mRNA-1975 and monovalent mRNA-1982 against Lyme disease in healthy adult participants.
Lyme Disease
This study is one of the first studies to investigate a non-antibiotic approach to the treatment of symptoms that persist after antibiotic treatment for Lyme disease (PTLS). Transcutaneous auricular vagus nerve stimulation (taVNS) offers the potential of being an effective and non-toxic approach to reduce the burden of multisystem symptoms in patients with PTLS. This study seeks to address an important goal: to assess the safety, feasibility, and tolerability of a new non-invasive, non-pharmacologic treatment for patients with symptoms that persist despite prior antibiotic treatment for Lyme disease.
Post-Treatment Lyme Disease
This study is to understand if the study vaccine (called VLA15) is safe in healthy children. We are looking for children who: * are healthy * are age 5 through 17 * have not been diagnosed with any form of Lyme disease in the past * have not received any vaccines for Lyme disease in the past Lyme disease happens most often in children of this age. The study vaccine may be used potentially to help prevent Lyme disease. The goal of this study is to get more information about the safety of the study vaccine in this age group. Participants will be in this study for about 2 years. During that time, they will receive VLA15 or placebo (sterile saltwater solution) by a "shot" in the arm. We will compare experience of children receiving VLA15 to those receiving the placebo. Participants will not know whether they get VLA15 or placebo. Everyone participating in this study will: * get the shots in a clinic or in a hospital office * receive a total of 4 shots * receive the first 3 shots within 6 months * receive the last shot about 1 year afterwards * need to come to the trial site for 6 planned visits; 4 of these are vaccination visits and 2 are follow-up visits. We will contact you by phone 1 time every year during the study to monitor your experience. You may have extra visits if you experience a severe reaction after a vaccine dose.
Lyme Disease
The main purpose of this clinical study is to evaluate a 6-valent OspA-based Lyme disease vaccine (VLA15) for prevention of Lyme disease within North America and Europe. Approximately 9,400 healthy participants (this number excludes participants from 8 sites which were terminated for quality issues) 5 years and older will be recruited from areas with high levels of endemic Lyme disease to receive VLA15 or placebo (an inactive substance consisting of saltwater). Each participant will have about a 50% chance of receiving VLA15 and about a 50% chance of receiving placebo. A subset of participants will receive VLA15 from 3 different lots or placebo (1:1:1:3 ratio) to assess lot equivalence. Participants will receive a 3-dose primary vaccination series at about 0, 2, and 5 to 9 months and then receive a booster dose about 12 months after end of primary vaccination series. Vaccination of participants will occur at a time of year such that the primary series is completed before the peak Lyme disease season followed by a booster dose just prior to the beginning of the second Lyme disease season. A subset of participants will be followed for a third Lyme disease season. Comparison will be made between the Lyme disease cases of people receiving the study vaccine to those of the people who are not. This will help us determine if the study vaccine is safe and effective. If enrolled, participants will need to visit the research site at least 7 times during the study, and for a subset of participants up to 9 times. There will also be at least 5 telephone contacts. It is expected that each participant will take part in this study for up to about 2 and a half years. The subset of participants followed for a third Lyme disease season will take part in this study for up to about to 3 and a half years.
Lyme Disease
A cross-sectional descriptive survey of the BOLD for individuals after having been ill with COVID-19 or have taken the COVID-19 vaccine will be compared with that of individuals who have neither been ill with COVID-19 nor taken the COVID-19 vaccine. Individuals who have both been ill and taken the COVID-19 vaccine will be compared to identify any additive risk factors.
COVID-19, Lyme Disease, COVID-19 Vaccine
This study will examine the effects of psilocybin on Lyme disease symptom burden and quality of life in people with Post-Treatment Lyme Disease (PTLD).
Post-Treatment Lyme Disease, Chronic Lyme Disease, Lyme Disease, Chronic
The primary objective is to obtain whole blood from subjects with signs and/or symptoms of early Borrelisois. Whole blood will also be obtained from subjects with suspicion of acute Borreliosis and under medical examination for Lyme disease. In addition, whole blood will be obtained from apparently healthy subjects residing in areas endemic to Lyme disease and may also inlclude apparently healthy subjects residing in areas non-endemic to Lyme disease.
Lyme Disease, Healthy
Primary Aims: Modify an existing teleyoga intervention to use with Lyme disease (LD) patients and address the technical challenges of at-home teleyoga
Lyme Disease
This is a research study of the investigational drug 2217LS in healthy volunteers. Investigational means 2217LS is a new drug that has not been approved for the treatment of any disease. 2217LS is human antibody designed to provide protection from Lyme disease. Lyme disease is a disease carried by infected ticks and can cause the infection to spread to the joints, heart and nervous system in humans. This is the first time 2217LS will be given to humans. This is not a study of how well 2217LS works against Lyme disease. The only purposes of this study are to: 1) Learn about the safety and tolerability of a subcutaneous (SC \[under the skin\]) injection of 2217LS when administered to healthy volunteers. 2) Find out how much 2217LS is in the blood of healthy volunteers after receiving 2217LS SC. In this study, groups of healthy volunteers will be given different doses of 2217LS by SC injection. Volunteers will stay in the study unit for a total of 4 overnights. The planned duration of participation is up to 14 months. Study personnel will monitor their safety using standard procedures like physical examinations, electrocardiograms, questions about possible side effects, blood and urine tests. The amount of 2217LS in their blood will also be measured.
Lyme Disease
Non-interventional study evaluating stool and blood samples collected from individuals previously treated with Lyme disease versus healthy volunteers
Lyme Disease
VLA15-221 is a Phase 2 study, which will be conducted in two parts: Main Study Phase (Part A) and Booster Phase (Part B). The study will compare the safety and immunogenicity of two different primary immunization schedules applying three (Month 0-2-6) or two (Month 0- 6) vaccinations. Within the study, 600 healthy subjects aged 5-65 years will be included. Subjects with a history of Lyme borreliosis (previous infection with Borrelia) as well as Borrelia naïve subjects will be enrolled. Study duration per subject will be a maximum of 50 months per subject.
Lyme Borreliosis
This study seeks to correlate microbiome sequencing data with information provided by patients and their medical records regarding Lyme Disease
Lyme Disease, Lyme Disease, Chronic
This study will determine the effectiveness of a nutraceutical in treating the lingering effects of Lyme Disease after antibiotic treatment.
Post-Lyme Disease Syndrome (PLDS)
To access the effectiveness of Acetogenins in treating Post-Lyme Disease Syndrome (PLDS).
Post-Lyme Disease Syndrome (PLDS)
There are more than 300,000 new cases of Lyme disease every year in the US. Lyme disease is a dangerous bacterial infection transmitted by tick bites and it becomes increasingly severe as the infection progresses. Definitive diagnosis is based on serum-based tests that have fundamental limitations: 1) current tests cannot detect early infections so patients do not receive antibiotic therapy until the infection has progressed, and 2) there is no way to measure if antibiotic therapy has been successful. MicroB-plex will address these two unmet clinical needs by introducing a novel, blood-based diagnostic method that will enable clinicians to diagnose infections earlier and to monitor the success of their interventions.
Lyme Disease
Approximately 10-20% of patients experience ongoing symptoms despite having received standard antibiotic therapy for Lyme disease. Possible explanations for persistent symptoms include persistent infection and/or post-infectious causes. Recent in vitro studies indicate that disulfiram is effective at killing both the actively replicating and the more quiescent persister forms of Borrelia burgdorferi, the microbe that causes Lyme Disease. In this study, the investigators are examining the safety of disulfiram among patients with post-treatment Lyme disease symptoms. The investigators are also conducting a preliminary investigation regarding the relative benefit of 4 vs 8 weeks of treatment with disulfiram.
Fatigue, Quality of Life
The T2Lyme assay will be compared to Borrelia culture from erythema migrans (EM) biopsy and/or detection of the C6 antigen in serum collected prospectively from patients suspected of early Lyme disease.
Lyme Disease
Next Generation Sequencing is capable of sequencing millions of small strands of DNA from a single blood sample, potentially improving its sensitivity compared to PCR testing, which only detects predetermined larger strands of DNA. We will test the ability of NGS to detect Borrelia burgdorferi DNA in the blood of pediatric patients with Lyme disease. We will conduct an observational study of NGS testing on pediatric patients at all stages of Lyme disease. Study involvement will require a single study visit for clinical data collection and blood draw. We will enroll patients at all phases of suspected Lyme disease, collect clinically relevant information, and test for Lyme disease using Next Generation Sequencing and standard Lyme serologic testing. If the patient has multiple erythema migrans, Lyme meningitis, facial nerve palsy, arthritis, or carditis, a B. burgdorferi serum PCR will also be sent. Enrollment and Next Generation Sequencing blood draw will occur before or up to 24 hours after the first dose of antibiotics is administered. We will also study the impact of antibiotics on NGS testing by running the test 6-24 hours after antibiotics are started among a small subset of patients with a multiple erythema migrans rash. Collected data will be analyzed with basic descriptive statistics.
Lyme Disease, Pediatric Infectious Disease, Erythema Migrans, Lyme Arthritis, Lyme Carditis, Lyme Disease Meningitis
The main purpose of this study is to see if a device known as Transcranial Direct Current Stimulator (tDCS) is helpful in reducing persistent symptoms after Lyme disease treatment. Some of these symptoms include problems with memory, fatigue or pain.
Lyme Disease
This study will evaluate Advanced Laboratory Services Borrelia diagnostic test by culturing Borrelia spirochetes from human serum in subjects with early or late Lyme disease. This is an 8 month study. Subjects entering the study will have two blood samples collected one month apart if they have early Lyme disease and one blood sample collected if they have late Lyme disease. Subjects who sign an IRB-approved consent form and meet the inclusion and exclusion criteria will be entered into the study. Subjects will be assigned a subject number upon entry and this number will be retained throughout the study.
Lyme Disease
Background: The most common tick-borne illness in the United States, Lyme disease is caused by Borrelia burgdorferi bacteria that are transmitted to people by Ixodes scapularis ticks. Most cases of Lyme disease are cured by antibiotics, but some patients continue to experience symptoms despite the absence of detectable Lyme bacteria. Xenodiagnosis uses a vector to detect the presence of a disease-causing microbe. Researchers will use live, laboratory-bred ticks to see if Lyme disease bacteria can be detected in people after completing antibiotic therapy and if that is more common in people who continue to experience symptoms such as fatigue and joint pain. Objectives: - To see if ticks can be used to detect B. burgdorferi in people who have had Lyme disease and received antibiotic therapy and if it correlates with persistent symptoms. Eligibility: * Adults at least 18 years old who have: * Untreated erythema migrans (the Lyme disease rash); OR * Untreated Lyme arthritis; OR * Continuing symptoms after treatment for Lyme disease; OR * Had Lyme disease and antibiotic treatment within the past 12 months. * Healthy volunteers Design: * Participants will be screened with medical history, physical exam, and blood tests. * Visit 1: * Blood and urine tests, health questionnaire. * Up to 30 laboratory-bred, pathogen-free, larval ticks (each smaller than a poppy seed) will be placed under a dressing. * Participants may have two small biopsies of skin . * 4 6 days later, Visit 2: * Dressing will be removed and ticks will be collected. * Participants will answer symptom questions. * If many ticks are still attached, participants will have to come back the next day. If not enough ticks feed successfully, the procedure may be repeated. * Participants will keep a diary of symptoms for 30 days. Over 3 months, they will be return to the clinic 3 times to see how they feel and answer questionnaires. Test results will be discussed.
Lyme Disease
The investigators wish to conduct a preliminary study to examine the efficacy of meditation among patients with Post Treatment Lyme Syndrome (PTLDS). Specifically, the investigators will use the breathing, meditation, and stretching techniques common to Kundalini Yoga practice. The investigators plan to assess the degree in which this practice can reduce Post-Treatment Lyme Disease symptoms. Because fatigue and pain are so common among patients with PTLDS, the primary focus of this study will be fatigue and pain. Secondary outcomes will include cognitive complaints, physical and mental functioning, medical utilization, somatic symptoms, and psychopathology.
Post Treatment Lyme Disease Syndrome