58 Clinical Trials for Various Conditions
Active inflammation plays a key role in causing Coronary Artery Disease (CAD) and Peripheral Arterial Disease (PAD). Since inflammation is so important in how these diseases start, are diagnosed, and treated, being able to see it clearly in each patient could lead to more personalized and effective care - and may help prevent heart attacks. Right now, there's no imaging technology available to clearly see inflammation inside the coronary arteries. We hope to learn how an imaging drug; called LUMISIGHT (Pegulicianine) can help detect inflammation in blood vessels compared with saline, a harmless saltwater solution. If we find out that LUMISIGHT is active in humans, we might be able to use it for detecting plaque risk in the future.
The purpose of this study is to determine whether an indocyanine green (ICG) fluorescence imaging system (cBPI) can be used to provide surgeons with information about bone health or bone blood flow. This will help surgeons better understand the healing potential of bone and relative risk of complication. This is important to help surgeons select the most appropriate treatment for severe traumatic injuries and infections.
This is a non-randomized, open-label, single-center, safety and imaging feasibility study of Pegsitacianine, an intraoperative fluorescence imaging agent.
The objective of this study is to assess whether Near-Infrared Fluorescence/NIR Imaging perfusion alters intraoperative management of the flap or of the participant wound bed.
This Phase 2 study is an open-label, single-arm trial where each patient is his/her own "intrapatient" control. All patients will receive a single dose of pegsitacianine prior to standard of care surgery.
This is a prospective single arm, single center study estimating percentage of successful critical anatomy recognition in laparoscopic cholecystectomy surgeries using SPY fluorescence imaging and ICG, with each surgery also providing a white light 360 degree images. The primary objective is to determine the percentage of successful critical anatomy recognition using intra-operative SPY fluorescence imaging and ICG: and to describe complications associated with intra-operative decision making in patients undergoing laparoscopic cholecystectomy.
Breast conserving surgery (BCS) is performed on patients with breast cancer to resect and completely remove the cancer while conserving as much of the surrounding healthy tissue as possible. Current methods do not allow surgeons to determine the completeness of surgical resection in real-time. This often results in the need for a second surgical procedure, or in some cases more than two surgical procedures in order to have confidence that all cancer has been removed. This Phase 3 study will evaluate the safety and efficacy of the fluorescent imaging agent PD G 506 A for the real-time visualization of cancer during standard of care breast conserving surgery. PD G 506 A is an investigational drug which is converted in the body into a fluorescent molecule that accumulates in cancer cells. Patients receiving PD G 506 A will undergo standard of care breast conserving surgery followed by fluorescence imaging and removal of any potentially cancerous tissue left behind in the surgical cavity.
Glioblastoma multiforme (GBM) and anaplastic astrocytoma (AA) are the most common primary malignant brain tumors. Survival of patients with these brain tumors is directly related to the extent of resection. Consequently, a great deal of effort has been directed at developing techniques and technologies that allow more extensive, safe resections. This study will test a loupe-based wearable device in the clinical setting and compare its accuracy with a large operative microscope to identify tumor tissues. Postoperative histopathological analysis on tumor tissues will be used as gold standards for comparison. The outcome from this study will be a low-cost, miniaturized, easy-to-operate, loupe-based fluorescence imaging device for intraoperative guidance of brain tumor resection with the same level of accuracy as the large microscope.
This is a prospective observational study that will evaluate the association between bone and tissue perfusion, as measured by indocyanine green (ICG) fluorescence imaging, and complications, in an effort to develop ICG fluorescence imaging as a diagnostic tool to quantitatively guide operative debridement.
The focus of this prospective observational study is to (1) establish the range and variation associated with bone/soft tissue perfusion in fracture patients, using ICG fluorescence imaging; (2) examine the relationship between perfusion and complications such as surgical site infection (SSI), persistent SSI, and fracture nonunion; (3) to determine whether the quantitative ICG fluorescence can be used to guide bony debridement in the setting of infected fracture to minimize complications.
This is a non-randomized prospective study of 30 patients scheduled to undergo lower extremity amputation (below the knee, through the knee or above the knee) evaluating bone perfusion and viability using indocyanine green (ICG) fluorescence imaging at several steps during surgical procedure.
This will be a prospective observational trial to better understand the range and variation associated with bone/soft tissue perfusion in fracture patients and examine the relationship between perfusion, measured using quantitative Indocyanine green (ICG) fluorescence and complications such as surgical site infection (SSI), persistent SSI, and fracture nonunion.
This study is to evaluate diagnostic performance, safety and timing of post-dose imaging of ONM-100, an intraoperative fluorescence imaging agent for the detection of cancer in patients with solid tumors undergoing routine surgery.
This is a non-randomized evaluation for which 160 adult patients will be imaged at outpatient wound care clinics who present with a wound of unknown infection diagnostic status and are receiving standard treatment. The MolecuLight i:X Imaging Device will be used as an adjunctive tool in the assessment of the wound and may be used to guide the targeted sampling of a wound (using a conventional punch biopsy method).
The goal of the SFI is to provide non-invasive information about tissue remodeling occurring during melanocytic transition and atypia development in the skin
Fluorescent technology continues to advance in the detection of sentinel lymph nodes (SLNs). Currently, this requires switching from near-infrared light to white light to be able to identify the fluorescent tissue contrasting with normal surrounding tissue. Currently, no system has been studied specifically for head and neck sentinel lymph node biopsies using a hands free goggle system that can visualize white light (normal surgical visualization) and nearinfrared light (ICG fluorescence) simultaneously. This technology may have implications on the safety and accuracy of sentinel lymph node biopsy for head and neck mucosal and cutaneous tumors. Secondarily, this may reduce operative costs by decreasing the amount of time required to perform the SLNB procedure. Regarding parathyroid identification, this technology has the potential to identify these very small glands during procedures they are at risk. These glands are not only at risk of inadvertent removal if not adequately identified, but may also be at risk if devascularized by manipulation during the surgical procedure. Therefore, early and accurate identification may decrease the rate of temporary and permanent hypoparathyroidism and hypocalcemia. This is not only an issue during thyroid and parathyroid surgery, but during laryngectomy surgery where the anatomic region these glands are located are often resected to remove at risk lymph nodes from cancer spread. Therefore, identifying these glands may help preserve parathyroid function in this patient population as well.
This is a prospective, open label, multicenter, non-inferiority within-patient study to determine the effectiveness of IC2000 (Indocyanine Green (ICG) for Injection) and the SPY Portable Handheld Imaging System (SPY-PHI) as an intraoperative fluorescence visualization tool, in the visual identification of lymphatic vessels and lymph nodes (LNs) during lymphatic mapping and sentinel lymph node biopsy (SLNB) procedures as confirmed by Technitium99m (Tc99m) and Gamma Probe.
The primary outcome of this study is to determine the minimal dwell time needed for adequate detection of hexaminolevinulate HCL avid tumors using protoporphyrin IX (PpIX) near infrared fluorescence (NIRF).
This research study will evaluate how Near Infrared Fluorescence imaging (NIFI) with indocyanine green (ICG) contrast dye can assist in the identification and diagnosis of lung nodules during surgery. NIFI is an intraoperative imaging technology that utilizes a coupled camera/fluorophore (ICG) system to fluoresce tissues of interest. Intravenous ICG is a fluorophore with a long-standing high safety profile.
In this phase 1 study, the lymphatic transport will be examined using Near InfraRed Indocyanine Green fluorescence imaging (NIR-ICG) of the upper extremities in healthy individuals using a MultiSpectral Imaging System (MSImager).
The NIR light source of our device is based on light-emitting diodes (LEDs), which can deliver sufficient light to biological tissues and induce fluorescence emission to meet the needs of the planned clinical studies. It should be noted that the light source is still well under the US FDA recommended limit for NIR exposure and ANSI standard. In addition, the light source is not laser-based, which is significantly safer than other optical imaging systems utilizing laser technologies. The fluorescence signals will be received by the detector portion of our device. Gain-settings could be easily adjusted during operation to optimize the contrast between high fluorescence areas (tumors) and low fluorescence areas (normal tissues). Real-time fluorescence video will be displayed in the goggle eyepiece as well as on a secondary monitor to facilitate viewing by other surgeons in the room.
This is a randomized, prospective, open label, multicenter study to assess the safety and utility of PINPOINT® Near Infrared Fluorescence Imaging (PINPOINT) in identification of lymph nodes (LN) in patients with uterine and cervical malignancies who are undergoing LN mapping.
This is a randomized, controlled, parallel, multicenter study to determine the difference in post-operative anastomotic leak rate in low anterior resection procedures where colon and rectal tissue perfusion is evaluated using PINPOINT as an adjunct to standard surgical practice compared to surgical procedures performed according to standard surgical practice alone.
Patients with endometrial cancer who have planned robotic laparoscopic hysterectomy and full bilateral pelvic and para-aortic lymphadenectomy will receive injections of a fluorescent dye, Indocyanine green (ICG). ICG spreads through the lymphatic system, and will be visualized using near-infrared (NIR) imagers. Upon visualization of the path of the ICG, sentinel lymph nodes (SLNs), the first nodes to receive drainage from the primary tumor, will be identified. SLNs will be surgically removed and provided to Pathology for evaluation. Non-sentinel nodes will also be surgically removed, as is consistent with routine medical care for these patients, and given to Pathology for evaluation. A positive SLN may be the most accurate identifier of the extra-uterine spread of disease, and will provide information about the extent of surgical node removal necessary.
Operations on the liver, bile ducts, and gallbladders are some of the most commonly performed abdominal operations in the United States. Cholecystectomy, removal of the gallbladder, is the most common of these with more than 750,000 performed annually. Injury to the common bile duct (CBD) during these procedures occur infrequently (approximately 0.1% to 0.5%), but it is an important source of patient morbidity. Serious injuries often require at least one surgical repair, and these repairs have variable long-term outcomes. Techniques to allow the visualization of the bile ducts may prevent such an injury, by providing vital information about the presence of gallstones in the CBD and show a surgical road map of the ducts. Near-infrared (NIR) cholangiography has the advantage over standard cholangiography of not exposing patients and healthcare providers to radiation. This technique also allows the superimposition of the cholangiogram onto the normal image. This study is being conducted to optimize an imaging technique called PINPOINT. Images will be obtained during clinically necessary operations. The images will be evaluated to determine the best method for locating and outlining the anatomy. The information learned will guide the future use of PINPOINT in laparoscopic procedures.
The purpose of this study is to evaluate the use of fluorescence imaging + Indocyanine Green (ICG) dye ("Firefly"), compared to standard white light imaging in 2D and 3D, for accurate visual diagnosis of endometriosis during a da Vinci robotically guided endometriosis resection procedure.
Description: This is a multi-institutional study investigating the sensitivity and negative predictive value of sentinel lymph nodes mapped with robotic assisted near infrared imaging after cervical injection of indocyanine green (ICG) dye for women with stage I endometrial or cervical cancer at the time of their robotic surgical staging. Patients will receive cervical injection of 1mg ICG after induction of anesthesia followed by sentinel lymph node mapping using robotic assisted fluorescence imaging. The sentinel lymph nodes identified will be removed and sent for ultraprocessing by pathology. The non-sentinel pelvic and para-aortic (if indicated) non-sentinel nodes will be removed and sent for routine pathologic processing according to standard of care for these surgical procedures. The pathologic results of the sentinel and non-sentinel nodes will be evaluated for sensitivity and negative predictive value in their ability to detect metastatic disease.
The main purpose of the study is to evaluate the detection rate and accuracy of fluorescence imaging in endometrial cancer staging by sentinel node assessment.
RATIONALE: Using fluorescence imaging may determine the extent of kidney tumors and help in planning surgery. PURPOSE: This phase I trial is studying the best way to give indocyanine green (ICG) fluorescence imaging in finding tumors in patients with kidney tumors
A Prospective Investigation of the Use of the Fluorescence Imaging on the da Vinci Surgical System for Intraoperative Near Infrared Imaging of Renal Cortical Tumors. To determine the feasibility of the fluorescence imaging on the da Vinci Surgical System in robotic partial nephrectomy procedures and report perioperative outcomes.