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Search Results - blood+flow+management
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A Compact Alignment Tool for Accurate Hemodynamic Monitoring: CardioAxis (Case No. 2025-294)
Summary: UCLA Biodesign researchers have created a laser-powered, self-leveling device that enables precise intracranial pressure monitoring and accurate phlebostatic axis measurement for hemodynamic monitoring. Background: Hemodynamic monitoring is crucial for measuring the delivery of blood and oxygen throughout the body and provides invaluable...
Published: 8/15/2025
|
Inventor(s):
Sneha Shaha
,
Michael Malig
,
Sukhneet Dhillon
Keywords(s):
adjustable mount
,
aneurysm drainage
,
arterial blood pressure (ABP)
,
automatic leveling
,
bedside decisions
,
blood flow management
,
Blood Pressure
,
blood pressure monitoring
,
central venous pressure (CVP)
,
cerebrospinal fluid (CSF) drainage
,
clamp
,
Continuous blood pressure monitoring
,
critical-care
,
CSF drainage
,
hemodynamic monitoring
,
Hemodynamics
,
intracranial pressure
,
laser alignment
,
lumbar drains
,
operator variability
,
passive reflective target
,
phlebostatic axis measurement
,
pressure sensitive
,
pulmonary arterial pressure (PAP)
,
self-leveling system
,
transducer alignment
Category(s):
Medical Devices
,
Medical Devices > Hospital Systems
,
Medical Devices > Surgical Tools
Intraoperative Deep Learning Model for Imputation of the Continuous Central Venous Pressure (CVP) and Pulmonary Arterial Pressure (PAP) Waveforms From (Case No. 2024-224)
Summary: Researchers in the UCLA Department of Anesthesiology have developed a deep learning model to accurately represent and visualize hemodynamic waveforms, or blood flow patterns, with minimally invasive approaches. Background: Swan-Ganz (SG) catheters are used for precise cardiac hemodynamic evaluations. Indicated for patients with severe...
Published: 2/14/2025
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Inventor(s):
Maxime Cannesson
,
Sungsoo Kim
,
Akos Rudas
,
Jeffrey Chiang
,
Ravi Pal
Keywords(s):
active learning
,
Algorithm
,
algorithm-based testing
,
arterial blood pressure (ABP)
,
Artifical Intelligence (Machine Learning, Data Mining)
,
artificial intelligence algorithms
,
blood cancers
,
blood flow management
,
Blood Pressure
,
Blood Proteins
,
cardiovascular monitoring
,
catheter
,
Catheterization
,
central venous pressure (CVP)
,
Computer Aided Learning
,
Continuous blood pressure monitoring
,
critical care
,
curriculum learning
,
Deep Learning
,
Deep learning-based sensing
,
deep-learning analysis algorithms
,
heart failure
,
hemodynamic monitoring
,
Machine Learning
,
non-invasive monitoring
,
Perceptual Learning
,
pulmonary arterial pressure (PAP)
,
Software & Algorithms
,
Swan-Ganz catheter
Category(s):
Software & Algorithms
,
Software & Algorithms > Digital Health
,
Software & Algorithms > Artificial Intelligence & Machine Learning
,
Medical Devices
,
Medical Devices > Monitoring And Recording Systems
Intelligent Stent System for Chronic On-Demand Drug Delivery (Case No. 2021-069)
Summary: UCLA researchers in the Department of Neurology have developed an intelligent stent system for chronic on-demand drug delivery, addressing the challenge of the blood-brain barrier hindering drug therapy in the central nervous system. Background: The blood-brain barrier poses a significant obstacle to effective drug delivery to the central...
Published: 8/8/2025
|
Inventor(s):
Jose Morales
,
Haotian Lu
,
Huachen Cui
,
Xiaoyu Zheng
Keywords(s):
blood flow management
,
blood-brain barrier
,
Drug
,
Drug Delivery
,
Drug monitoring
,
Invasiveness Of Surgical Procedures
,
MEMS
,
minimally invasive device
,
minimally invasive drug delivery systems
,
neural signals
,
neural stimulation
,
Neurocognitive
,
Neurodegeneration
,
neurological disorders
,
Neurology
,
neuro-oncology
,
Neuropathology
,
Neurosurgery
,
non-invasive
,
non-invasive drug monitoring
,
on-demand drug delivery
,
Pharmaceutical Drug
,
piezoelectric ultrasound transducers
Category(s):
Platforms
,
Platforms > Drug Delivery
,
Medical Devices
,
Therapeutics
,
Therapeutics > CNS and Neurology
,
Therapeutics > Oncology
,
Therapeutics > Musculoskeletal Disease
Stabilized Right Atrial to Pulmonary Artery Cannula for Extracorporeal Life Support (Case No. 2023-231)
Summary: UCLA researchers in the department of surgery developed a right atrial to pulmonary canula for extracorporeal life support. Background: Extracorporeal life support (ECLS) is a last-resort medical intervention designed to support patients with severe cardiac or pulmonary failure. This technology involves the diversion of blood flow to an...
Published: 2/14/2025
|
Inventor(s):
Peyman Benharash
,
Joseph Hadaya
,
Yas Sanaiha
,
Ali Nsair
Keywords(s):
Advanced Life Support
,
blood flow management
,
cannula
,
Cardiac failure
,
cardiopulmonary illness
,
cardiovascular therapeutic solution
,
extracorporeal life support (ECLS)
,
heart support
,
Intensive care unit (ICU)
,
pulmonary failure
,
respiratory failure
,
right atrial to pulmonary canula
Category(s):
Medical Devices
,
Medical Devices > Surgical Tools
,
Medical Devices > Monitoring And Recording Systems
,
Therapeutics
,
Therapeutics > Cardiovascular
,
Therapeutics > Respiratory And Pulmonary