Morphometrischer Vergleich der Gewebeveränderung bei Weichgewebedissektion mit dem Ultraschallskalpell und monopolarer Elektrokoagulation / Morphometric tissue alteration in soft tissue dissection caused by ultrasonic scalpel compared to monopolar electrocautery

Meis, Johanna

11 February 2014

No description available.

610

Ultrasonic scalpel

monopolar electrocautery

soft tissue dissection

coagulation necrosis

Medizin (PPN619874732)

Vergleich von monopolarer und bipolarer Präparationstechnik bei der radikaler retropubischer Prostatektomie hinsichtlich Komplikationsrate und perioperativer Morbidität. / Comparison of monopolar versus bipolar radical retropubic Prostatectomy. Complications and Morbidity.

Przybyla, Andrzej

29 May 2012

No description available.

610 Medizin, Gesundheit

Medizin

Medicine

Medizin

REDUCTION OF THE ONSET RESPONSE IN HIGH FREQUENCY NERVE BLOCK

Ackermann, Douglas Michael, Jr.

January 2010

No description available.

Biomedical Research

nerve block

neurostimulation

high frequency

peripheral nerve

cuff electrode

onset response

direct current

intrafascicular

monopolar

bipolar

nerve cooling

HFAC

alternating current

The Design and Validation of a Computational Rigid Body Model for Study of the Radial Head

Woodcock, Cassandra

11 December 2013

Rigid body modeling has historically been used to study various features of the elbow joint including both physical and computational models. Computational modeling provides an inexpensive, easily customizable, and effective method by which to predict and investigate the response of a physiological system to in vivo stresses and applied perturbations. Utilizing computer topography scans of a cadaveric elbow, a virtual representation of the joint was created using the commercially available MIMICS(TM) and SolidWorks(TM) software packages. Accurate 3D articular surfaces, ligamentous constraints, and joint contact parameters dictated motion. The model was validated against two cadaveric studies performed by Chanlalit et al. (2011, 2012) considering monopolar and bipolar circular radial head replacements in their effects on radiocapitellar stability and respective reliance upon lateral soft tissues, as well as a comparison of these with a novel anatomic radial head replacement system in an elbow afflicted with the “terrible triad” injury. Rigid body simulations indicated that the computational model was able to accurately recreate the translation of forces in the joint and demonstrate results similar to those presented in the cadaveric data in both the intact elbow and in unstable injury states. Trends in the resulting data were reflective of the average behavior of the cadaveric specimens while percent changes between states correlated closely with the experimental data. Information on the transposition of forces within the joint and ligament tensions gleaned from the computational model provided further insight into the stability of the elbow with a compromised radial head.

computer topography

computational model

radial head

prosthesis

musculoskeletal

elbow

stability

validation

ligament

capsule

cadaveric

SolidWorks

MIMICS

CAD

COSMOSMotion

terrible triad

rigid body

modeling

design

radius

bipolar

monopolar

multibody dynamics

Engineering