Comparison of the effects of self-made three-dimensional printed assistant tableware and traditional universal cuff assistant tableware in patients with upper limb dysfunction after burn injury

Abstract

Objective: To compare the effects of self-made three-dimensional (3D) printed assistant tableware (hereinafter referred to as 3D assistive device) and traditional universal cuff assistant tableware (hereinafter referred to as universal cuff) on the voluntary eating function of patients with upper limb dysfunction after burns. Methods: The prospective self-control study was conducted. From March 2020 to June 2021, 18 patients with upper limb dysfunction after moderate to severe burns who met the inclusion criteria were admitted to Tongren Hospital of Wuhan University & Wuhan Third Hospital, including 15 males and 3 females, aged 21-58 (42±11) years. After using the 3D software and 3D printer to customize 3D assistive devices for patients, the patients were instructed to eat with the 3D assistive devices and the universal cuff on alternate days for 14 consecutive days, each for 7 days. During this time, the patients could also be fed by someone else without using the assistive device. The number of times the patients ate regular meals with each assistive device and the proportion of them to the total number of regular meals ate during the 7 days to which they belonged were counted. After the total use of two assistive devices for 14 days (hereinafter referred to as after use of 14 days), the amount and time of transferring liquid using the two assistive devices of patients were measured; the patients' feeding items in the modified Barthel index (MBI) were scored respectively when eating without the assistive device, with the 3D assistive device, or with the universal cuff; the satisfaction degree of feeding when eating without the assistive device, with the 3D assistive device, or with the universal cuff was evaluated using the 5-grade Likert scale. Data were statistically analyzed with paired sample t test, Wilcoxon signed rank sum test, and chi-square test. Results: The number of the patients ate regular meals with the 3D assistive device during the 7 days was (18.1±2.0) times, which was significantly more than (4.0±2.0) times with the universal cuff (t=53.72, P<0.01). The proportion of the number of the patients ate regular meals with the 3D assistive device to the total number of regular meals ate during the 7 days to which it belonged was 72.4% (325/449), which was significantly higher than 16.7% (72/431) with the universal cuff (χ2=257.36, P<0.01). After use of 14 days, the patients' time and amount of transferring liquid using the 3D assistive device were respectively significantly shorter and more than using the universal cuff (with t values of 2.49 and 7.52, respectively, P<0.05 or P<0.01). The patients' MBI feeding scores when eating with the 3D assistive device and with the universal cuff were close (P>0.05), which were both significantly higher than the score when eating without the assistive device (with Z values of 3.90 and 3.86, respectively, P<0.01).The patients' satisfaction scores of feeding when eating with the 3D assistive device and with the universal cuff were close (P>0.05), which were both significantly higher than the score when eating without the assistive device (with Z values of 3.61 and 3.00, respectively, P<0.01). Conclusions: Both the 3D assistive device and the universal cuff can compensate the limb function of patients with upper limb dysfunction after burns and improve their self-feeding ability, but the 3D assistive device has more advantages in improving patients' willingness to eat and the efficiency of food transfer.