Background
Diabetes mellitus patients are at increased risk of developing diabetic foot with peripheral neuropathy, vascular and musculoskeletal complications. Therefore they are prone to develop frequent and often foot problems with a relative high risk of infection, gangrene and amputation. In addition, altered plantar pressure distribution is an important etiopathogenic risk factor for the development of foot ulcers. Thus the review on study of foot kinematic and kinetic in type 2 diabetes mellitus to understand the biomechanical changes is important.Methodology
Scientific articles were obtained using electronic databases including Science Direct, CINAHL, Springer Link, Medline, Web of Science, and Pubmed. The selection was completed after reading the full texts. Studies using experimental design with focus on biomechanics of diabetic foot were selected.ResultsThe meta-analysis report on gait velocity (neuropathy = 128 and non-diabetes = 131) showed that there was a significantly lower gait velocity in neuropathy participants compared to non-diabetes age matched participants at a high effect level (−0.09, 95 % CI −0.13 to 0.05; p < 0.0001). Regarding knee joint flexion range there was a significant difference between neuropathy and non-diabetes group (4.75, 95 % CI, −7.53 to 1.97, p = 0.0008).ConclusionsThe systematic review with meta-analysis reported significant difference in kinematic and kinetic variables among diabetic with neuropathy, diabetic without neuropathy and non-diabetes individuals. The review also found that the sample size in some studies were not statistically significant to perform the meta-analysis and report a strong conclusion. Therefore a study with higher sample size should be done.
Present review suggests that the PA promotion and participation can help to slow down the progression of disease in individuals with prediabetes and thus reduces the morbidity and mortality associated with T2DM.
The objective of the study was to determine the prevalence of foot complications among people with type 2 diabetes mellitus in the rural part of Udupi district, Karnataka, India. A cross-sectional observational study design was conducted in the rural area of Udupi district. In the study, accredited social health activists were trained to screen people with type 2 diabetes mellitus for diabetic foot complications at a community level. Adults over 35 years of age were screened for the presence of type 2 diabetes mellitus by accredited social health activists who reside in the rural part of Udupi district. Participants with type 2 diabetes mellitus were included in the study. Blood glucose level was measured using a glucometer. Foot examination was done by visual inspection, monofilament, tuning fork, and pedal pulse. In the present study, 2110 among the total participants were found to have type 2 diabetes mellitus. The prevalence of musculoskeletal foot complications was 1218 (58%), vascular problem 466 (22.2%), sensory neuropathy 634 (30.2%), autonomic neuropathy 1729 (81.9%), ulcer 134 (6.38%), and infection 561 (26.7%) among people with type 2 diabetes mellitus. In the current study, we found 84.7% of people residing in rural Udupi had type 2 diabetes mellitus. Hence, there is a strong need to create awareness about diabetic foot care in these people.
The mean age, height, weight, body mass index, duration of diabetes was 57±14 year, 164±11cm, 61±18kg, 24± 3, 12±7 year respectively. There were significant changes in overall biomechanical profile along with clinical manifestations of diabetes peripheral neuropathy.The regression analysis showed statistical significance for dynamic maximum plantar pressure at forefoot with age, weight, height, duration of diabetes, body mass index, knee & ankle joint angle at toe-off phase of gait cycle,pinprick sensation and ankle reflex (R=.71,R =.55, F (12, 108)=521.9 kPa, p=.002) Conclusions: From the present study, we conclude that people with type 2 diabetes mellitus and peripheral neuropathy have significant changes in their foot kinetics and kinematicsparameters. Therefore, they could be at higher risk of foot ulceration with underlying neuropathy and biomechanically associated problems.
Objective: Low-level laser therapy (also known as photobiomodulation therapy, PBMT) promotes accelerated healing of diabetic foot ulcers (DFUs), thereby preventing the risk of future complications and amputation. The aim of this study was to determine the effect of PBMT, with structured, graded mobilisation and foot care, on DFU healing dynamics. Method: Patients diagnosed with type 2 diabetes, diabetic peripheral neuropathy and presenting with a chronic neuroischaemic DFU, were treated with PBMT using scanning and non-contact probe methods. The DFU was clinically observed and the area measured every seven days until complete healing. Neuropathic parameters were also measured. The PBMT was administered until complete closure of the DFU and patients also undertook a programme of graded mobilisation. Results: A total of 17 participants were recruited, with a mean age of 69±8 years, and a mean duration of diabetes of 13±5 years. Mean complete closure time was 26±11days. In addition, a mean reduction of the semi-quantitative vibration pressure threshold from 49±2 volts to 20±4 volts was observed in all participants. Conclusion: PBMT can be effectively used as a treatment mode for neuroischaemic DFUs in patients with type 2 diabetes. Graded mobilisation with focused foot care could improve the function of people living with type 2 diabetes with a chronic DFU.
Background: The increase in peak plantar pressure could be the most important 5 etiological factor for pathogenesis of a Diabetic Foot. Thus the fate of a diabetic 6 foot syndrome which is a clinical triad of neurological, vascular and 7 musculoskeletal changes could be biomechanically predictive and preventive using 8 clinical parameters. In the presence of peripheral neuropathy, certain clinical 9 parameters could be severely altered resulting into increased peak plantar pressure. 10 Therefore the aim of the study was to identify the most important clinical 11 parameters for the prediction of peak plantar pressure between neuropathy and 12 non-neuropathy type 2 diabetes mellitus participants. Methodology: A total of 380 13 participants were recruited under the study and divided into two groups (190 each 14 group). The cross-sectional study was conducted at Kasturba Hosipal, 15 Manipal,India. Multiple regression analysis was performed to find the hyperplane 16 of best fit. Stepwise regression was performed with (α entry=.15 and α removal= 17 .2) to select the best subset of predictors. Results: Adjusted R2 of the final model 18 which included the predictors showed 90.8% variability for the dependent variable. 19 Conclusion: The findings from the regression analysis and suggested model was 20 found be strongly significant in predicting the peak plantar pressure between 21 neuropathy and non-neuropathy type 2 diabetes mellitus participants. Since higher 22 values of peak plantar pressure is strongly associated with risk for future diabetic 23 foot complications, it could be suggested that these clinical parameters could be 24 very useful to assess and should be used in routine clinical practice very 25 effectively.
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