Bengt Pipkorn
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Explore the profile of Bengt Pipkorn including associated specialties, affiliations and a list of published articles.
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Articles
42
Citations
103
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Recent Articles
1.
Lindgren N, Huang Q, Yuan Q, Lin M, Wang P, Pipkorn B, et al.
Traffic Inj Prev
. 2025 Feb;
:1-12.
PMID: 39899424
Objectives: To combat the global fatality rates among vulnerable road users (VRUs), prioritizing research on head injury mechanisms and human tolerance levels in vehicle-to-VRU traffic collisions is imperative. A foundational...
2.
Schaffer R, Kang Y, Marcallini Jr A, Pipkorn B, Bolte 4th J, Agnew A
Stapp Car Crash J
. 2024 Dec;
68:104-154.
PMID: 39704625
Thoracic injuries, most frequently rib fractures, commonly occur in motor vehicle crashes. With an increased reliance on human body models (HBMs) for injury prediction in various crash scenarios, all thoracic...
3.
Brynskog E, Iraeus J, Pipkorn B, Davidsson J
Ann Biomed Eng
. 2024 Oct;
53(2):441-470.
PMID: 39466505
Purpose: The risk of submarining during automotive crashes, defined by the lap belt sliding off the pelvis to load the abdomen, is predicted to increase in future autonomous vehicles as...
4.
Lundin L, Oikonomou M, Lioras A, Mihailidis A, Pipkorn B, Rorris L, et al.
Traffic Inj Prev
. 2024 Jun;
25(7):956-967.
PMID: 38900933
Objective: Injury outcomes for powered two- and three-wheeler (PTW) riders are influenced by the rider posture. To enable analysis of PTW rider accidents and development of protection systems, detailed whole-body...
5.
Corrales M, Bolte J, Pipkorn B, Markusic C, Cronin D
Front Public Health
. 2024 Mar;
12:1336518.
PMID: 38532975
Predicting and understanding thorax injury is fundamental for the assessment and development of safety systems to mitigate injury risk to the increasing and vulnerable aged population. While computational human models...
6.
Larsson E, Iraeus J, Pipkorn B, Osth J, Forbes P, Davidsson J
Front Bioeng Biotechnol
. 2024 Jan;
11:1313543.
PMID: 38283169
Real-life car crashes are often preceded by an evasive maneuver, which can alter the occupant posture and muscle state. To simulate the occupant response in such maneuvers, human body models...
7.
Forman J, Booth G, Mergler O, Romani S, Zhang H, Roberts C, et al.
J Biomech Eng
. 2024 Jan;
146(3).
PMID: 38217111
Variability in body shape and soft tissue geometry have the potential to affect the body's interaction with automotive safety systems. In this study, we developed a methodology to capture information...
8.
Lindgren N, Yuan Q, Pipkorn B, Kleiven S, Li X
Traffic Inj Prev
. 2023 Dec;
25(2):182-193.
PMID: 38095596
Objectives: Vulnerable road users are globally overrepresented as victims of road traffic injuries. Developing biofidelic male and female pedestrian human body models (HBMs) that represent diverse anthropometries is essential to...
9.
Larsson K, Osth J, Iraeus J, Pipkorn B
J Biomech Eng
. 2023 Nov;
146(3).
PMID: 37943113
The injury risk in a vehicle crash can depend on occupant specific factors. Virtual crash testing using finite element human body models (HBMs) to represent occupant variability can enable the...
10.
Li X, Yuan Q, Lindgren N, Huang Q, Fahlstedt M, Osth J, et al.
Front Bioeng Biotechnol
. 2023 Jun;
11:1169365.
PMID: 37274163
Finite element human body models (HBMs) are becoming increasingly important numerical tools for traffic safety. Developing a validated and reliable HBM from the start requires integrated efforts and continues to...