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This prospective controlled study examines the use of Doppler ultrasound as a means to screen elective plastic surgery patients for the presence of deep venous blood clots both before and after surgery. This is a noninvasive technique that is known to be both sensitive and specific for the detection of deep venous thromboses in the lower extremities. This method may make it unnecessary to select patients for prophylactic anticoagulation, which poses additional risks to the patient.
The investigators hypothesize that performance of fast-Fourier transformation on the raw Doppler signals obtained from ascending aortic blood flow will recreate the pulse wave Doppler trace visualized on modern echocardiography machines, and that this will allow for the measurement and recording of vascular flow waveforms
Endovascular therapy (EVT) has proven to be more beneficial for patients with AIS caused by large vessel occlusions (LVO) than medical management alone. A recent meta-analysis of 5 RCTs showed that EVT significantly reduced disability at 90 days compared to medical management \[1\]. Despite its obvious benefits, patients may have neurological deterioration despite successful thrombectomy due to ischemia progression, intracranial hemorrhage, re-occlusion, or vasogenic edema. The incidence of early neurological deterioration (END) following EVT for acute stroke has been reported to be ranging from 14.1-35.2% with some studies defining END up to 7 days and some restricting the definition between 6-72 hours post thrombectomy. A small proportion of these patients, approximately 5.9-10.5%, experienced sICH following EVT. Whether END occurs due to ischemic or hemorrhagic it leads to worse outcomes.
The purpose of this study is to determine the feasibility of using the NeuraSignal transcranial doppler robot in a neuro ICU setting to measure cerebral blood flow correlated with arterial blood pressure to generate individualized cerebral autoregulatory curves
The main objective of this research is to measure the Doppler signal by the ultrasonic patch. Blood flow measurement is critical for vasospasm, stroke, and embolism monitoring on patients in the ICU or understanding the neurovascular coupling on different subjects. Currently, A conventional transcranial Doppler (TCD) probe is widely used for these applications. A headset design must be applied and fixed on the participants to obtain stable blood flow spectra. However, the TCD headset is operator dependent. The operator needs to be a trained expert and hold the ultrasound probe to get accurate blood flow velocity information. The stretchable and wearable non-invasive ultrasonic patch can not only free the operator's hands but can also provide long-term continuous monitoring, which is not possible by using the current operator-dependent ultrasound machine. The device can be conformal to the skin and attached to the skin surface.
There is a dire need to establish normative values for transcranial Doppler(TCD) derived cerebral blood flow parameters for each type of Mechanical circulatory support (MCS) device and explore the relationship between the MCS device's systemic flow dynamics and TCD based cerebral flow(CBF) parameters TCD derived cerebral blood flow parameters can then be investigated as targets used to titrate systemic flow dynamics from MCS. Having target flow rates titrated to patient specific condition using TCD may help avoid both hypoperfusion as well as the possibility of hyperemia reperfusion injury contributing to neurological morbidity. We propose a multicenter study to gather normative data on TCD derived CBF and MCS systemic dynamics for a wide range of patient demographics. Such data collection is only possible with multi-center collaboration given the small volume of patients with MCS patients in each center.
Carotid Disease causes 10% of strokes. The Investigators are attempting to investigate the use of Transcranial Doppler to see if this is and effective, efficient, and/or valid way to identify individuals at highest risk for thromboembolic events from carotid disease. The plan is to plot the number of high intensity transient transcranial doppler signals with the category of patient (asymptomatic, symptomatic, and actively symptomatic) and evaluate if a relationship exists. The Investigators hypothesize that a linear relationship exists in that the higher the number of HITS the more symptomatic the patient. If results demonstrate the numbers of HITS correlate with the severity of disease this could potentially identify asymptomatic patients having subclinical symptoms who would benefit from a more urgent surgical intervention versus the current standard of care of elective intervention.
The FloPatch FP120 device is indicated for use for the noninvasive assessment of blood flow in the carotid artery. The FloPatch FP120 device uses ultrasound and the Doppler effect to non-invasively assess the flow of flood. In this study, the FloPatch FP120 will be applied to the neck at the location of the carotid artery on cardiac arrest patients in the emergency department. FloPatch FP120 data will be compared with arterial line blood pressure to assess for accuracy of pulse checks among cardiac arrest patients in the emergency department.
The purpose of this study is to see if the study team can use micro-Doppler signal (MDS) technology to determine if someone has had an anterior cruciate ligament (ACL) reconstruction. The investigators will do this by comparing the movement data from a group of people who have had the surgery with a group who has not had the surgery to see if the micro-Doppler radar technology can accurately and predictably tell the difference.
This is a single-blinded, randomized clinical trial to determine if the Layperson Audiovisual Assist tourniquet's (LAVA TQ) ability to occlude arterial blood flow is non-inferior to that of the Combat Application Tourniquet (CAT).