³úÇ÷·ù¿¬»óÁø´Ü±â
žƽÉÀ½DOPPLER(ES-101EX,102EX)
³úÇ÷·ùÁø´Ü±â TCD DELICA (EMS9U2) žƽÉÀ½ DOPPLER (FD-390)
ROBORT COMTROL TCD (EMS9UA) žư¨½ÃÀåÄ¡ (MT-516)
DVM-4500 System µ¿¸Æ°æÈ­Áø´Ü±â (SD-XT System)
°æµ¿¸Æ,±Ù°ñ°Ý ÃÊÀ½ÆÄ ALOKA (¥á7) °æµ¿¸Æ ÃÊÀ½ÆÄ Áø´Ü±â (Terason t3000)
PORTABLE(SMARTDOP 50EX)
POCKET DOPPLER(ES-100V3,100VX,101EX)
SMART DOP 45
ABI ÃøÁ¤ Doppler (Smart Dop 30EX)  
   
Robort Comtrol TCD EMS9UA (Delica)

Initial Evaluation on Robotic probe system's Application in long-term Ambulatory Monitoring : 20 Stroke Patients

  • 10 Patients using Robotic Headframe for probe fixation
  • 10 Patients using Traditional Headframe for probe fixation

Type of Mount

Traditional Headframe

Robotic Headframe

 Ambulatory Time(hour:min)

5:29

5:43

 MCA Doppler Signal [% of Recording]

91%

98%

 Recording Quality [1..4]

2

3.75

 No of manual Adjustments

18

2

 Headache

3

0


Mackinnon AD, Aaslid R. Markus HS : Long-Term Ambulatory Monitoring for Cerebral Emboli Using TranscranialDoppler Ultrasound. Stroke 2004;35:73-78

Two-axis Probe Approach Based on Extended Use of the Available Ultrasonic Window

 

The TCD Signal is Easily Lost when Monitoring Probe is only Silghtly Displaced

 

Robot Aided Tcd Monitoring