|
US2019269339A1
|
|
Implants for monitoring physiological parameters within living bodies
|
|
US2019274631A1
|
|
System and method for monitoring physiological parameters within living bodies
|
|
EP3479757A1
|
|
Implantable sensing devices and anchoring methods therefor
|
|
US2017319067A1
|
|
Implantable sensing devices and anchoring methods therefor
|
|
US2017095210A1
|
|
Minimally-invasive procedures for monitoring physiological parameters within internal organs and anchors therefor
|
|
US2016183842A1
|
|
Minimally-invasive procedures for monitoring physiological parameters within internal organs and anchors therefor
|
|
EP3063509A1
|
|
Flow sensing with micromachined dual-tube resonator
|
|
US2014207153A1
|
|
Delivery system, method, and anchor for medical implant placement
|
|
EP2506912A2
|
|
Delivery system, method, and anchor for medical implant placement
|
|
US2010161004A1
|
|
Wireless dynamic power control of an implantable sensing device and methods therefor
|
|
US2009283844A1
|
|
Process of fabricating microfluidic device chips and chips formed thereby
|
|
WO2009111487A1
|
|
Process of making a microtube and microfluidic devices formed therewith
|
|
US2010037708A1
|
|
Microfluidic device and method of operation
|
|
CN101952193A
|
|
Microfluidic device and methods of operation and making
|
|
CN101889204A
|
|
System and method of assessing a property of a flowing fluid
|
|
WO2009073615A1
|
|
Sensor unit and procedure for monitoring intracranial physiological properties
|
|
US2009075129A1
|
|
Microfluidic device and method of use
|
|
WO2009052480A2
|
|
Miniature wireless system for deep brain stimulation
|
|
WO2009051811A2
|
|
System having wireless implantable sensor
|
|
WO2009006249A1
|
|
Minimally-invasive procedure for monitoring a physiological parameter within an internal organ
|
