There is no longer a need to go to the hospital for rehabilitation, use this interactive system at home to easily carry out rehabilitation programs

Since its inception, LongGood has been deeply engaged in working in the field of telerehabilitation and is now about to introduce this rehabilitation solution to the market. We are very much looking forward to seeing the results of telerehabilitation in the near future, as this innovative service model is not only very convenient, but it will also benefit society and the advancement of medical care. It allows products and services, which used to be restricted to hospitals, to be used directly at home for rehabilitation exercises and training through the use of technology. We are confident that the telehealth movement will continue to grow and is ready to achieve historic milestones this year with the development of an enhanced product portfolio.

In an era of ever-changing technology, systems and applications, as well as evolving medical environments, our company has always kept pace with the times and been a pioneer in pushing the boundaries of what is possible. Now, in response to the market trend and in the midst of a crisis that has created a highly volatile environment, we have developed a mini-portable system. It is based on the core concept of telehealth, combining motion analysis technology and cloud platform services to provide users with a series of training activities and synthesized evaluation reports. These are then sent back to the database of the hospital or organization center, enabling medical staff or caregivers to efficiently and accurately see the health or functional activity status of the user based on statistical data and trend records. They can then adjust the training content and implementation plan depending on the progress of the patient and the degree of recovery.

In addition, members of the public can take home lightweight telehealth tools to use there, or perform interactive training activities at other community centers, just as they would have done in hospital. This is promoting the patients’ health and maintaining the correct level of rehabilitation intensity, this is especially important in avoiding interruptions in rehabilitation programs and services due to the impact of the pandemic.

Of course, for hospitals and institutional centers, providing telehealth or health promotion training services in a one-to-many mode, and automating the analysis and output of the results and reports, is very beneficial to improving work efficiency and reducing the potential cost of human care and one-to-one personal therapy visits. The analysis data displayed in the reports can also be used to track the execution of the activities of the patient in detail and evaluate whether the movement training is really being effective in achieving the desired goals such as changes in limb movement, joint mobility, muscle endurance and other areas. In the future, it is even planned to be able to replay the animation function of the limb skeleton, using a virtual reality model, to facilitate the complete restoration of the quality of movement patterns and a visualization of all the control techniques. LongGood is at the “advanced deployment" stage in terms of both technology and application and can integrate the developed software system into a single small device, so that the target group can take it home, and continue to use it to engage in basic training. We are currently working with our partners and are very excited to see and share the results of our telehealth products this year!


please visit our below website to know more about the solution

https://en.longgood.com.tw/

案例報告:輕度五十肩個案之動作分析結果

此為右側肩關節活動度輕度受限病患的分析報告,評估結果為兩側動作約略對稱一致,動作功能已有相當的改善與進步,唯在動作控制方面較為凌亂並會牽動到其他動作策略產生代償性的多關節運動,需加強相關的動作技巧,增加訓練的品質與動作要求的精準性。


細部分析

  1. 將此複合動作拆解成屈曲方向和外展方向獨立來檢查(160 vs 167),則兩者皆受限,但屈曲方向的角度更小。
  2. 觀察水平外展的動作角度,右側相較於左右小(87 vs 97),顯示個案在偏外展方位的位置作訓練活動有困難。
  3. 肩關節旋轉角度小,平均僅30度左右,代表此活動並未涉及肩部旋轉的部分,符合標準的訓練動作Flying之要求。
  4. 觀察肘關節活動度高達108度,代表使用到肘部動作多,顯示個案習慣在肩部的運動時協同手肘的動作。

細部分析

  1. 整體觀察,前1/3段,動作幅度偏小,動作頻率較高,後2/3段,動作幅度變大,個別動作時間擴大,顯示動作模式趨向標準的Flying的動作要求,有愈做愈好、正確的跡象。
  2. 一樣可從旋轉的動作曲線驗證,此Flying的動作原本就不應產生旋轉的動作成分,表示個案執行此動作符合預期標準,亦無使用到其他代償策略。
  3. 但在肘關節活動的部分可明顯看出在後2/3有明顯的動作產生,顯示在後期執行Flying訓練時個案習慣採用多關節的策略,進而使用到手肘彎曲的動作參與。

細部分析(淺色系軌跡圖)

  1. 從此視覺化的作圖一目瞭然,在三個動作解剖平面上,左右側的上臂動作位移路徑活動範圍約略一致,顯示個案左右手的差異並不大。
  2. 但若詳細比較,則發現右側的活動範圍相對較小,與量化的活動度表格數據結果相似。

細部分析

  1. 觀察綠色線(動作角度),左右兩手的動作幅度約略一致。兩側動作表現接近,並無明顯落差。但動作波型破碎、不規則,節律性較為凌亂,顯示動作控制的穩定性和流暢度仍不足。(可對照標準正常的參考圖,波型漂亮、起伏規律,每次達到的活動度最大值一致)
  2. 觀察橘色線(判斷複合動作發生的方位),總結來說左右兩手動作發生的位置皆非在純粹屈曲或外展方向。而是在中間過渡區塊(屈曲和外展方向參半)中居多。
  3. 可對照參考圖,若此標準動作發生在典型的屈曲和外展方向,則曲線會維持在底部(外展方向)或僅在高峰處呈現(屈曲方向),而無上下劇烈跳動的狀況。

綜合關節活動曲線圖表與眾多的量化參數的計算值,我們便可輕易地歸納和勾勒病人的活動功能限制並擬定適切的訓練計畫,而這也是發表此篇動作分析報告應用教學最主要的目的與理念,期望所有臨床人員能學會使用自動化科學的評估工具,運用既有的學理知識,有系統性解讀及詮釋報表,進而更精準的解決、改善病患在動作功能上的缺陷,協助病人盡可能的回復到接近正常的程度!