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NCT05548530
To analyze the influence of early hematoma morphology on hematoma expansion, optimize the treatment plan for cerebral hemorrhage, and guide the treatment of patients with cerebral hemorrhage in combination with clinical practice.
NCT07014748
The Infrascanner model 2500 is a handheld, noninvasive device that is FDA-cleared to detect traumatic intracranial hematomas. FDA clearance K200203 was issued in 2020, K211617 added pediatric age group to the IFU in 2022, and K241389 approved higher laser power use to address dark skinned patients in 2024. This non randomized observational study aims to evaluate the utility of this device by evaluating its ability to provide decision support information to optimize care for patients with suspected traumatic intracranial hematomas. It is important to note that the intended use of the device is in accordance with its FDA approved indication. The intent is to generate actionable knowledge that along with standard clinical signs, facilitates the early detection of intracranial hemorrhage (ICH) in patients with suspected traumatic brain injury (TBI) in a combat setting. The ultimate goal is to modify and optimize international protocols for inexpensive, bedside, portable, and noninvasive detection of traumatic ICH in conflict zones across the globe. This multicenter, prospective, observational, implementation science study will evaluate the field utility of the Infrascanner Model 2500 in an active combat setting using a pragmatic, sequential research design consisting of two phases-baseline phase and device phase. Using the current Ukrainian medical care system, patients with suspected TBIs will be monitored, and their outcomes will be tracked using standard-of-care practices (baseline phase). After the baseline data collection period is complete, an amendment to the protocol will be submitted to initiate the device phase. After training and upon approval, the Infrascanner device will be deployed to the facilities described above to provide health care providers with additional decision support, and the impact of its use will be compared to the baseline data. The outcome of interest is the time from admission at each enrollment study location to a definitive CT scan diagnosis of ICH. The investigators hypothesize that the use of the device will provide decision support to health care providers, decrease the time to traumatic ICH detection, thus enabling more expedient care. This prospective study will include all patients with suspected combat-related head trauma identified by clinical signs of TBI, such as decreased GCS score, abnormal pupil exam, and/or asymmetrical motor exam, on admission to the clinical enrollment site (mobile hospital or regional clinical hospital) regardless of the presence of pharmacologic sedation. At the Vinnytsia hospital (Role 4), combat polytrauma preoperative patients will also be screened. Exclusion criteria include evidence of extensive scalp injury, including lacerations, avulsions, or abrasions that prevent proper placement of the Infrascanner device on a subject's head or prevent placement of the device in the specified locations. During the baseline phase (Figure 1), 100 patients will be enrolled at stabilization points and the mobile/first-line hospital, 100 will be enrolled at the second-line hospital, and 100 will be enrolled at the third-line hospital. Thus, from a total of 300 subjects, baseline data on the time from admission at each enrollment study location to a definitive CT scan diagnosis of ICH and treatment and early outcomes will be collected. Once the baseline phase is complete and the amendment for the device phase is approved, it will be initiated. During this device phase, the Infrascanner will be deployed to stabilization points and the three levels of care (mobile hospitals and regional clinical hospitals). Data collection will continue until 100 patients are enrolled in the device phase for the three levels of care. All data collection at the baseline and device phases will occur at the same locations, and the data elements will be identical, except for Infrascanner data collected during the device phase. By comparing data from the baseline and device phase, the investigators will assess the utility of the device to provide decision support information to providers and potentially reduce time to definitive diagnosis by CT scan and thus treatment, as well as the association between Infrascanner use and early patient outcomes.
NCT02368366
Traumatic brain injury (TBI) is the most common cause of acquired disability in youth and a source of significant morbidity and family burden. Novel behavior problems are among the most common and problematic consequences, yet many youth fail to receive needed psychological services due to lack of identification and access. Linking youth with TBI to effective treatments could improve functional outcomes, reduce family burden, and increase treatment satisfaction. The investigators overarching aim is to compare the effectiveness, feasibility, and acceptability of three formats of family problem solving therapy (F-PST) for improving functional outcomes of complicated mild to severe adolescent TBI: therapist-guided, face-to-face; therapist-guided online; and self-guided, online F-PST.
NCT02494726
The overall purpose of this study is to evaluate how effective Thromboelastography (TEG) is on identifying ischemic and hemorrhagic stroke patients at increased risk for bleeding after receiving tissue plasminogen activator (tPA), as well as on differentiating between patients in whom optimal thrombolysis has been achieved, and those whom it has not.