Options
Patients' adherence to customised diabetic insoles as objectively assessed by a temperature sensor
Ehrmann, Dominic; Spengler, Monika; Jahn, Michael; u. a. (2016): „Patients’ adherence to customised diabetic insoles as objectively assessed by a temperature sensor“. Bamberg: opus.
Author: ;  ;  ;  ;  ;  ;  ; 
Publisher Information:
Year of publication:
2016
Pages:
Source/Other editions:
Ursprünglich in: Diabetologia : organ of the European Association for the Study of Diabetes 58 (2015) Suppl. 1, S509 (1056-P)
Year of first publication:
2015
Language:
English
Licence:
URL:
Abstract:
Background and aims: Customized diabetic insoles reduce the mechanical stress by re-distributing pressure to the plantar tissue. Thus, customized diabetic insoles are an effective means to prevent the reoccurrence of neuropathic diabetic foot ulcerations. However, the efficacy of these insoles is highly dependent on patients’ adherence. By recommendation, patients should wear their customized diabetic insoles as much as possible for the prevention of diabetic foot problems. However, adherence data often rely on self-report since objective parameters are not available. The aim of this study was to objectively assess patients’ adherence with a temperature sensor directly incorporated into their insoles. Materials and methods: In a pilot study, the cut-off value for optimal temperature was determined that differentiates between wearing and not wearing footwear. For this purpose, a ROC analysis was conducted that yielded an area under the curve of .996 (p<.0001). A cut-off value of 25°Celsius was determined that achieved a sensitivity of 95.3%, a specificity of 99.8%, a positive predictive value of 98.7%, and a negative predictive value of 99.2%. In the main study, temperature sensors were incorporated into the specialized diabetic insoles of 26 patients with type-2-diabetes and diabetic foot syndrome (age: 67.5±10.8 yrs.; 35% female; BMI: 30.3± 4.7 kg/m2; diabetes duration: 10.4±6.8 yrs.; HbA1c: 7.7±0.6%).
Results: On average, data from 133.5 days per patient could be analysed. Patients wore their diabetic footwear (temperature>25°C) on an average (median) of 3.4 hours per day (inter-quartile-range (IQR): 0.5 - 6.9 hours/per day). On an average (median) of 51% of days, patients did not wear their diabetic footwear (IQR: 16.9 - 81.8%).
Conclusion: Wearing time of diabetic insoles and other specialized diabetic footwear can be objectively and validly assessed by temperature sensors. This study offers objective data regarding patients’ adherence to their customized diabetic insoles. Nearly every second day, patients did not wear their insoles at all. Results of this study indicate that the utilization of specialized diabetic footwear is suboptimal in order to prevent re-ulcerations and other diabetes foot problems. Future studies should examine how the adherence of patients with a high risk for foot ulcerations can be enhanced, e.g. by patient education or technological assistance or reminders.
Results: On average, data from 133.5 days per patient could be analysed. Patients wore their diabetic footwear (temperature>25°C) on an average (median) of 3.4 hours per day (inter-quartile-range (IQR): 0.5 - 6.9 hours/per day). On an average (median) of 51% of days, patients did not wear their diabetic footwear (IQR: 16.9 - 81.8%).
Conclusion: Wearing time of diabetic insoles and other specialized diabetic footwear can be objectively and validly assessed by temperature sensors. This study offers objective data regarding patients’ adherence to their customized diabetic insoles. Nearly every second day, patients did not wear their insoles at all. Results of this study indicate that the utilization of specialized diabetic footwear is suboptimal in order to prevent re-ulcerations and other diabetes foot problems. Future studies should examine how the adherence of patients with a high risk for foot ulcerations can be enhanced, e.g. by patient education or technological assistance or reminders.
Type:
Article
Activation date:
June 10, 2016
Permalink
https://fis.uni-bamberg.de/handle/uniba/40329