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22 research outputs found

Physical Therapy Management and Individualized Rehabilitation of Patient with Incomplete Spinal Cord Injury: A Case Report

Author: Shryack Megan
Publication venue: 'The University of Iowa'
Publication date: 15/12/2019
Field of study

Background: Incomplete spinal cord injury can present itself very differently depending on the level and severity of the injury. Many factors, such as weight bearing restrictions and co-morbidities, need to be considered when choosing intervention techniques. Thus, the purpose of this case report is to provide an example of successful multi-interventional rehabilitation of a patient with incomplete level spinal cord injury despite complicating secondary factors such as non-weight bearing limitations on his left lower extremity. Case Description: The patient was diagnosed with C4 ASIA C level incomplete spinal cord injury following a motorcycle accident. The patient sustained multiple injuries including ligamentous disruption between C5-C6 at the anterior longitudinal ligament and posterior longitudinal ligament, along with multiple other fractures. He underwent multiple surgeries including anterior cervical disc fusion and closed reduction with external fixation to heal other fractures. He was transferred to an inpatient rehab hospital and later transferred to subacute rehabilitation center for continued rehab. The patient had orders to maintain non-weight bearing status to left lower extremity due to his fractures. Outcomes: This report compared levels of assistance at initial evaluation and discharge. Discussion: This case report supports the multi-interventional rehabilitation approach to incomplete spinal cord injury while considering external factors that complicate patient care such as weight bearing restrictions. It allows clinicians an example of how to abide by restrictions without compromising patient’s ability to meet goals and increase lower extremity strength with incomplete spinal cord injury

Iowa Research Online

Field Monitoring and Evaluation of Curved Girder Bridges with Integral Abutments

Author: Shryack Gus
Publication venue: Iowa State University Digital Repository
Publication date: 01/01/2012
Field of study

The National Cooperative Highway Research Program (NCHRP) has shown concerns regarding the design, fabrication, and erection of horizontally curved steel girder bridges due to unpredicted girder displacements, fit-up, and locked-in stresses. Nationally, up to one-quarter of steel girder bridges are being designed with horizontal curvature, an alarming figure when considering the unknown behaviors of this type of bridge. The primary objective of this work was to monitor and evaluate the behavior of four in-service, horizontally curved, steel-girder bridges with integral and semi-integral abutments. Additionally, the influence and behavior of fixed and expansion piers were considered. A number of steps were performed in order to meet the project objectives. First, a national state department survey was conducted and a literature review was performed in order to understand the state-of-art regarding these types of structures. Second, a monitoring program was developed and installed on six bridges located at the I-35, I-235, and I-80 interchange northeast of Des Moines. Third, a monthly survey was conducted on each bridge with the purpose of tracking the bridge movements, and lastly, the data gathered during the monitoring period of the project was post-processed. The following general conclusions were made from the results of the study: There was no measureable difference between the horizontally curved bridges and straight bridges used in this work with regard to bridge behavior; internal strains were recorded in the composite girders as a result of thermally induced restrained expansion and contraction, and of the recorded strains, axial strain showed the largest ranges; the bridges expanded and contracted with seasons and showed more expansion and contraction near expansion piers than fixed piers. The equivalent cantilever method of steel pile analysis fell short of accurately predicting the relationship between weak axis bending strain in the piles and the pile head displacement; the measured internal stress in the abutment piles due to expansion and contraction of the bridge were generally below 50% of yield stress; and the soil pressures on the abutment backwalls were generally below approximate passive soil pressures

Digital Repository @ Iowa State University (ISU)

Field Monitoring of Curved Girder Bridges with Integral Abutments

Author: Deng Yaohua Jimmy
Greimann Lowell
Hoffman Jerad
Phares Brent M.
Shryack Gus
Publication venue: Iowa State University Digital Repository
Publication date: 01/01/2014
Field of study

Nationally, there are questions regarding the design, fabrication, and erection of horizontally curved steel girder bridges due to unpredicted girder displacements, fit-up, and locked-in stresses. One reason for the concerns is that up to one-quarter of steel girder bridges are being designed with horizontal curvature. There is also an urgent need to reduce bridge maintenance costs by eliminating or reducing deck joints, which can be achieved by expanding the use of integral abutments to include curved girder bridges. However, the behavior of horizontally curved bridges with integral abutments during thermal loading is not well known nor understood. The purpose of this study was to investigate the behavior of horizontal curved bridges with integral abutment (IAB) and semi-integral abutment bridges (SIAB) with a specific interest in the response to changing temperatures. The long-term objective of this effort is to establish guidelines for the use of integral abutments with curved girder bridges. The primary objective of this work was to monitor and evaluate the behavior of six in-service, horizontally curved, steel-girder bridges with integral and semi-integral abutments. In addition, the influence of bridge curvature, skew and pier bearing (expansion and fixed) were also part of the study. Two monitoring systems were designed and applied to a set of four horizontally curved bridges and two straight bridges at the northeast corner of Des Moines, Iowa—one system for measuring strains and movement under long term thermal changes and one system for measuring the behavior under short term, controlled live loading. A finite element model was developed and validated against the measured strains. The model was then used to investigate the sensitivity of design calculations to curvature, skew and pier joint conditions. The general conclusions were as follows: (1) There were no measurable differences in the behavior of the horizontally curved bridges and straight bridges studied in this work under thermal effects. For preliminary member sizing of curved bridges, thermal stresses and movements in a straight bridge of the same length are a reasonable first approximation. (2) Thermal strains in integral abutment and semi-integral abutment bridges were not noticeably different. The choice between IAB and SIAB should be based on life – cycle costs (e.g., construction and maintenance). (3) An expansion bearing pier reduces the thermal stresses in the girders of the straight bridge but does not appear to reduce the stresses in the girders of the curved bridge. (4) An analysis of the bridges predicted a substantial total stress (sum of the vertical bending stress, the lateral bending stress, and the axial stress) up to 3 ksi due to temperature effects. (5) For the one curved integral abutment bridge studied at length, the stresses in the girders significantly vary with changes in skew and curvature. With a 10⁰ skew and 0.06 radians arc span length to radius ratio, the curved and skew integral abutment bridges can be designed as a straight bridge if an error in estimation of the stresses of 10% is acceptable

Digital Repository @ Iowa State University (ISU)

The Roots of Virtue: A Cross-Cultural Lexical Analysis

Author: A Buddharakkhita
A Fischer
A Lehrer
A Strauss
A Wierzbicka
A Wierzbicka
AL Blumenthal
B Raad De
BJ Baer
BL Whorf
C Kang
C Macdonald
C Peterson
C Peterson
C Peterson
C Peterson
C Proctor
C Taylor
CM Azañedo
D Becker
E Sapir
E Telfer
F Finlay
F Gander
F Perls
G Pettigrove
H Littman-Ovadia
H Nassar
HP Wolvekamp
I Brdar
J Haidt
J Henrich
J Kabat-Zinn
J Shryack
J Yoneoka
JA Frimer
JA Lucy
JB Schreiber
JL Garfield
JL Kinneavy
JP Lynch
JR Carter
JR Cutcliffe
JW Berry
K Dahlsgaard
K Danziger
K Lucas
K Singh
L Sercu
M Haspelmath
M Johansson
M Pye
N Park
N Yamamoto-Mitani
NE Snow
R Curren
RA Makkreel
RE Allinson
RE McGrath
RE McGrath
RE McGrath
RE McGrath
RF Baumeister
RJ Vallerand
RM Ryan
S Harrow
SC Saraydar
SH Blumberg
T Lomas
T Lomas
T Lomas
T Lomas
T Lomas
T Lomas
T Lomas
T Lomas
T Lomas
T Lomas
Tim Lomas
Tim Lomas
U Tadmor
V Braun
V Huta
W Ruch
W Ruch
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2018
Field of study

Although the notion of virtue is increasingly prominent in psychology, the way it has been studied and conceptualised has been relatively Western-centric, and does not fully account for variations in how it has been understood cross-culturally. As such, an enquiry was conducted into ideas relating to virtue found across the world’s cultures, focusing specifically on so-called untranslatable words. Through a quasi-systematic search of academic and grey literature, together with conceptual snowballing and crowd-sourced suggestions, over 200 relevant terms were located. An adapted grounded theory analysis identified five themes which together provide an insight into the “roots” of virtue (i.e., the main sources from which it appears to spring): virtue itself (the concept of it); considerateness (caring about it); wisdom (knowing what it consists of); agency (managing to be/do it); and skill (mastery of the preceding elements). The results help shed further light on the potential dynamics of this important phenomenon

UEL Research Repository at University of East London

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