Bingbing Nie
Tsinghua University
47 Papers
73 Citations
Bingbing Nie is an academic researcher from Tsinghua University. The author has contributed to research in topics: Poison control & Ankle. The author has an hindex of 7, co-authored 38 publications. Previous affiliations of Bingbing Nie include General Motors & University of Virginia.
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Papers
Can new passenger cars reduce pedestrian lower extremity injury? A review of geometrical changes of front-end design before and after regulatory efforts
Bingbing Nie,Qing Zhou +1 more
TL;DR: The present study reviewed the geometrical changes in car front-ends along with regulatory concerns regarding pedestrian safety and a preliminary quantitative benefit of the lower extremity injury reduction was estimated.
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Propagation of Syndesmotic Injuries During Forced External Rotation in Flexed Cadaveric Ankles
Alexander R. Mait,Jason Forman,Bingbing Nie,John Paul Donlon,Adwait Mane,Ali Forghani,Robert B. Anderson,M. Truitt Cooper,Richard W. Kent +8 more
TL;DR: Plar flexion decreased and dorsiflexion increased the incidence of syndesmotic injuries compared with neutral matched-pair ankles, and a deep deltoid injury is then concomitant with a syndsmotic injury or offloads the syndesmosis altogether.
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A data-driven, kinematic feature-based, near real-time algorithm for injury severity prediction of vehicle occupants.
TL;DR: In this article, a data-driven, vehicle kinematic feature-based model is proposed to realize accurate and near real-time prediction of in-vehicle occupant injury severity.
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Obesity effects on pedestrian lower extremity injuries in vehicle-to-pedestrian impacts: A numerical investigation using human body models
TL;DR: The feasibility of using parametric human modeling to account for population diversity in injury prediction is demonstrated and it is demonstrated that obesity could significantly increase the risk of pedestrian lower extremity injuries due to the inertial effect from the added mass.
22
Determination of the in situ mechanical behavior of ankle ligaments
Bingbing Nie,Matthew B. Panzer,Adwait Mane,Alexander R. Mait,John-Paul Donlon,Jason Forman,Richard W. Kent +6 more
TL;DR: Determination of the in situ mechanical properties of ankle ligaments provides a better understanding of the nonlinear nature of the ankle joint, and the feasibility of linking the gross structural behavior and the underlying bone and ligament mechanics that generate them is demonstrated.
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