CLC Number:
- R473.74
| [1] Goher KM, Mansouri N, Fadlallah SO.Assessment of personal care and medical robots from older adults' perspective[J].Robotics Biomim,2017,4(1):5.DOI:10.1186/s40638-017-0061-7. [2] Koceski S, Koceska N.Evaluation of an assistive telepresence robot for elderly healthcare[J]. J Med Syst, 2016,40(5):121.DOI:10.1007/s10916-016-0481-x. [3] Drotar P, Mekyska J, Rektorova L, et al.Evaluation of handwriting kinematics and pressure for differential diagnosis of Parkinson's disease[J]. Artif Intell Med, 2016, 67(2):39-46.DOI:10.1016/j.artmed.2016.01.004. [4] Weiner J, Herff C, Schultz T.Speech-based detection of Alzheimers Disease in conversational german[J].2016:1938-1942. DOI:10.21437/interspeech.2016-100. [5] Chakraborty S, Nandy A.Automatic diagnosis of cerebral palsy gait using computational intelligence techniques: a low-cost multi-sensor approach[J]. IEEE Trans Neural Syst Rehabil Eng, 2020,28(11):2488-2496. DOI:10.1109/TNSRE.2020.3028203. [6] Lin YC, Fan J, Tate JA, et al.Use of robots to encourage social engagement between older adults[J].Geriatr Nurs, 2022, 43:97-103. DOI:10.1016/j.gerinurse.2021.11.008. [7] Görer B, Salah AA, Akın HL.An autonomous robotic exercise tutor for elderly people[J].Auton Robot, 2017, 41(3):657-678. DOI:10.1007/s10514-016-9598-5. [8] Maalouf N, Sidaoui A, Elhajj IH,et al.Robotics in nursing: a scoping review[J].J Nurs Scholarsh, 2018, 50. DOI:10.1111/jnu.12424. [9] Pereira MF, Prahm C, Kolbenschlag J, et al.Application of AR and VR in hand rehabilitation: a systematic review[J].J Biomed Inform, 2020, 111:103584. DOI:10.1016/j.jbi.2020.103584. [10] Rooij IJMD, Port IGLVD, Visser-Meily JMA,et al.Virtual reality gait training versus non-virtual reality gait training for improving participation in subacute stroke survivors: study protocol of the ViRTAS randomized controlled trial[J]. Bio Med Centr,2019,20(1):89.DOI:10.1186/S13063-018-3165-7. [11] Falck F, Doshi S, Tormento M,et al.Robot DE NIRO: a human-centered, autonomous, mobile research platform for cognitively-enhanced manipulation[J]. Front Robot AI, 2020, 7:66. DOI:10.3389/frobt.2020.00066. [12] Petersen S, Houston S, Qin H, et al.The utilization of robotic pets in dementia care[J]. J Alzheimers Dis,2017,55(2):569-574. DOI:10.3233/JAD-160703. [13] 郑伯明. 基于Android手机显示的“三高”检测系统的设计与实现[D].长春:长春理工大学,2020. [14] Mavropoulos T, Symeonidis S, Tsanousa A,et al.Smart integration of sensors, computer vision and knowledge representation for intelligent monitoring and verbal human-computer interaction[J].J Intell Inf Syst, 2021,57(2):321-345.DOI:10.1007/s10844-021-00648-7. [15] Zhuang JP,Fang R,Feng X,et al.The impact of human-computer interaction-based comprehensive training on the cognitive functions of cognitive impairment elderly individuals in a nursing home[J].J Alzheimers Dis,2013, 36(2):245-251.DOI:10.3233/JAD-130158. [16] Goo, Joo, Lee, et al. A comparison of the effects between 2 computerized cognitive training programs, Bettercog and COMCOG, on elderly patients with MCI and mild dementia: a single-blind randomized controlled study[J]. Medicine, 2018,97(45):3007.DOI:10.1097/MD.0000000000013007. [17] Oliveira J, Gamito P, Souto T, et al.Virtual reality-based cognitive stimulation on people with mild to moderate dementia due to Alzheimer's disease: a pilot randomized controlled trial[J]. Int J Env Res Pub He, 2021, 18(10):5290.DOI:10.3390/ijerph18105290. [18] Amjad I, Toor H, Niazi IK,et al.Xbox 360 kinect cognitive games improve slowness, complexity of EEG, and cognitive functions in subjects with mild cognitive impairment: a randomized control trial[J]. Games Health J, 2019, 8(2):144-152.DOI:10.1089/g4h.2018.0029. [19] Hossein, Mousavi,Hondori,et al.Choice of human-computer interaction mode in stroke rehabilitation[J]. Neurorehab Neural Re,2016, 30(3):258-265.DOI:10.1177/1545968315593805. [20] Garcia GJ, Balastegui G, Mortes Esquer J,et al.ARMIA: a sensorized arm wearable for motor rehabilitation[J].Biosensors(Basel), 2022, 12(7):469. [21] Chen J.Clinical effect of virtual reality technology on rehabilitation training of sports injury[J]. J Healthc Eng,2021, 11:1361851. DOI: 10.1155/2021/1361851. [22] Florian G, Georgios N, Alireza G.Closed-loop task difficulty adaptation during virtual reality reach-to-grasp training assisted with an exoskeleton for stroke rehabilitation[J].Front Neurosci, 2016, 10:518.DOI:10.3389/fnins.2016.00518. [23] Cai H, Lin T, Chen L,et al.Evaluating the effect of immersive virtual reality technology on gait rehabilitation in stroke patients: a study protocol for a randomized controlled trial[J]. Trials, 2021, 22(1):91.DOI:10.1186/s13063-021-05031-z. [24] Irene Cortés-Pérez, Nieto-Escamez FA, Esteban Obrero-Gaitán.Immersive virtual reality in stroke patients as a new approach for reducing postural disabilities and falls risk: a case series[J].Brain Sciences,2020,10(5):296.DOI:10.3390/brainsci10050296. [25] Lee HS, Park YJ, Park SW.The effects of virtual reality training on function in chronic stroke patients: a systematic review and meta-analysis[J].Bio Med Res Int, 2019, 2019:1-12.DOI:10.1155/2019/7595639. [26] Liang A, Piroth I, Robinson H,et al.A pilot randomized trial of a companion robot for people with dementia living in the community[J]. J Am Med Dir Assoc,2017,18(10):871-878.DOI:10.1016/j.jamda.2017.05.019. [27] Lima MR, Wairagkar M,Natarajan N,et al.Robotic telemedicine for mental health: a multimodal approach to improve human-robot engagement[J]. Front Robot AI,2021, 8:618866.DOI:10.3389/frobt.2021.618866. [28] Hung L, Liu C, Woldum E,et al.The benefits of and barriers to using a social robot PARO in care settings: a scoping review[J].BMC Geriatr,2019,19(1):232.DOI:10.1186/s12877-019-1244-6. [29] Yu C, Sommerlad A, Sakure L,et al.Socially assistive robots for people with dementia:Systematic review and meta-analysis of feasibility, acceptability and the effect on cognition, neuropsychiatric symptoms and quality of life[J]. Ageing Res Rev, 2022, 78:101633.DOI:10.1016/j.arr.2022.101633. |
| [1] | CHEN En-lin, MO Feng-ling, ZHUANG Ze-ming, ZHANG Ming-zhe, ZHOU Jia-kun, HUANG Li-fang, JI Long-fei, ZHANG Li-fang. Assessment tools for unilateral spatial neglect after stroke: a scoping review [J]. Journal of Nursing, 2025, 32(3): 43-49. |
| [2] | CHEN Jian, XIANG Li-jun, LUO Yan-si, CHEN Jian-hui, CUI Yan-li, LIAO Lin, YAN Ming-yu, ZHANG Xiao-mei. Construction of “Internet +” continuous rehabilitation management program for patients with post-stroke dysphagia [J]. Journal of Nursing, 2024, 31(24): 1-6. |
| [3] | ZHOU Chun-xiang, RAO Yuan, CUI Meng-jiao, SHANG Zhi-ying, ZHANG Tian-lan, QIU Xi-chenhui, QIN Yan-ping. Application effect of sensor technology-based intelligent devices in gait rehabilitation of stroke patients: a Meta-analysis [J]. Journal of Nursing, 2024, 31(24): 44-50. |
| [4] | LI Xiao-mei, TAO Ming, LI Qian-Qian, LI Lin-lin, LI Chun. Construction of symptom management theory-based self-management intervention scheme for neurogenic bladder patients [J]. Journal of Nursing, 2024, 31(22): 61-66. |
| [5] | ZHANG Huang-xia, LI Zhuang-miao, LUO Wen-nan, LI Xiu-xia, HUANG Hui-xiang, LIN Ying-xin. Effect of sizi powder jiaozhen yuan-primary points application on hemiplegic shoulder pain in post-stroke patients [J]. Journal of Nursing, 2024, 31(20): 1-7. |
| [6] | GOU Xin-yu, WU Jing, WEI Cui-cui, ZHAN Shui-rong, DU Pei-yun, WU Ai-rong. Influence of neurogenic bowel dysfunction on quality of survival in patients with spinal cord injury: a structural equation analysis [J]. Journal of Nursing, 2024, 31(20): 13-18. |
| [7] | . [J]. Journal of Nursing, 2024, 31(20): 39-44. |
| [8] | SHI Yang, GU Zhi-e, ZHU Tong, YU Jing, WANG Lin. Chain-mediated effects of social network and self-neglect between frailty and cognitive function in elderly patients with ischemic stroke [J]. Journal of Nursing, 2024, 31(17): 40-45. |
| [9] | . [J]. Journal of Nursing, 2024, 31(14): 63-68. |
| [10] | . [J]. Journal of Nursing, 2024, 31(12): 47-53. |
| [11] | . [J]. Journal of Nursing, 2024, 31(10): 53-58. |
| [12] | WEN Min, CHEN Bing, ZHOU Yong-ling, LIU Juan, ZHU Xiao-dan. Construction of joint intervention program of cognitive remediation based on mobile health APP for schizophrenia patients [J]. Journal of Nursing, 2024, 31(9): 1-4. |
| [13] | . [J]. Journal of Nursing, 2024, 31(9): 15-19. |
| [14] | LI Ding-ding, WANG Shuai-you, ZHU Shan-shan, GUO Xin, ZHANG Hui-min, WANG Hong-ru, PAN Qin. Supportive care needs assessment tools for stroke patients: a scoping review [J]. Journal of Nursing, 2024, 31(9): 48-53. |
| [15] | ZHENG Ya-nan, GUO Hui-juan, ZHANG Zhen-xiang, CAI Shu-qian. Potential profile analysis of self-acceptance among semi-disabled patients with stroke and its influencing factors [J]. Journal of Nursing, 2024, 31(8): 1-6. |
|
||