Web Survey Bibliography
The number of verified burn centers across the U.S. has dramatically decreased, negatively impacting access to burn care. Telehealth is a solution for burn care, however there is minimal research evaluating burn care through telehealth. The primary purpose of this mixed method feasibility study was to examine the reliability of using a Motorola XOOM tablet to perform an outpatient standard burn assessment compared to the usual face-to-face examination. Qualitative information on patients' perception of using the tablet was also evaluated.
A convenience sample of 50 subjects, aged 19 to 76 years, with less than 10% total body surface area burned was recruited from an outpatient burn clinic. Descriptive statistics and the reliability of using a tablet device compared to a face-to-face encounter were measured between modalities, raters, and across raters and modalities using Cohen's Kappa and the Spearman correlation.
The reliability between two raters for the standard burn assessment showed substantial to near perfect agreement for skin graft take (Kappa = 0.892), burn depth (Kappa = 0.731), and cellulitis (Kappa = 0.847) when using a tablet device. The inter-modality reliability by rater showed substantial to perfect agreement for skin graft take (Kappa = 1.0), burn depth (Kappa = 0.848-1.0), and edema (Kappa = 0.876-0.958). The overall reliability of assessing a burn wound through a tablet device was similar to that obtained in face-to-face examination. Spearman correlations between the ratings made by the First Rater and the Second Rater when using a table device ranged from 0.531 to 0.852 and Spearman correlations from the face-to-face encounter ranged from 0.460 to 0.710.
Results from this study provide support for the reliability of a tablet device to assess for burn depth and skin graft take. Findings suggest inconsistency in the reliability of a tablet device to assess the presence of cellulitis, edema and purulence. Tablet device use in burn care can augment the usual, standard face-to-face interaction between patient and provider. Continued research is necessary to further validate its use in early and accurate assessment of burn wounds, burn-related complications, the evaluation of graft take, and the development of hypertrophic scarring.
Web survey bibliography - Thesis, diplomas (29)
- A Meta-Analysis of the Effects of Incentives on Response Rate in Online Survey Studies; 2017; Mohammad Asire, A.
- Designing web surveys for the multi-device internet; 2015; de Bruijne, M.
- Rating Scales in Web Surveys: A Test of New Drag-and-Drop Rating Procedures; 2015; Kunz, T.
- Mixed-method feasibility study comparing the outpatient assessment of burn patients using a tablet device...; 2015; Mitchell, S. S.
- Facebook, Twitter, & Qr Codes: An Exploratory Trial Examining The Feasibility Of Social Media Mechanisms...; 2014; Gu, L. L.
- Open-ended questions in Web Surveys-Using visual and adaptive questionnaire design to improve narrative...; 2014; Emde, M.
- Design and Implementation of an Online Questionnaire Tool; 2014; Schaniel, R.
- User Modeling via Machine Learning and Rule-Based Reasoning to Understand and Predict Errors in Survey...; 2013; Stuart, L. C.
- Investigation of background acoustical effect on online surveys: A case study of a farmers' market...; 2013; Tang, Xi.
- Developing a New Mixed-Mode Methodology For a Provincial Park Camper Survey in British Columbia; 2013; Dyck, B. W.
- Classifying Mouse Movements and Providing Help in Web Surveys; 2013; Horwitz, R.
- Satisficing in Web Surveys: Implications for Data Quality and Strategies for Reduction; 2013; Zhang, Che.
- “I think I know what you did last summer” Improving data quality in panel surveys; 2012; Lugtig, P. J.
- Analyzing Functionalities for Online Questionnaire System (OQS); 2012; Atown, H. Y.
- Web panels in Slovenia; 2011; Lenar, J.
- Clarifying Survey Questions; 2011; Redline, C. D.
- Nonresponse and Measurement Error in Mobile Phone Surveys ; 2010; Kennedy, C.
- Internet-Based Measurement With Visual Analogue Scales: An Experimental Investigation; 2010; Funke, F.
- Social Networking Sites: Evaluating and Investigating their use in Academic Research; 2010; Redmond, F.
- E-epidemiology : Adapting epidemiological methods for the 21st century; 2009; Bexelius, C.
- Visual Design Effects on Respondents’ Behavior in Web-Surveys; 2009; Greinoecker, A.
- Improving survey response in mail and internet general public surveys using address-based sampling and...; 2009; Messer, B. L.
- Design Variations in Adaptive Web Sampling; 2008; Vincent, K. S.
- Internet-based survey design for university web sites : a case study of a Thai university ; 2007; Vate-U-Lan, P.
- On the cost-efficiency of probability sampling based mail surveys with a Web response option; 2005; Werner, P.
- Cognitive Laboratory Experiences : On Pre-testing Computerised Questionnaires; 2002; Snijkers, G.
- (Non)Response bei Web-Befragungen; 2002; Bosnjak, M.
- Web survey errors; 2001; Lozar Manfreda, K.
- A study of factors affecting responses in electronic mail surveys; 1997; Good, K. P.