肢體障礙者通常因為生理障礙，在就學、就業和就養各方面都受到限制，因此需要使用輔具裝具來改善。本研究主要目的在於建立3D列印技術製作踝足支架之個別化設計與發展，並探討肢體障礙者穿著3D列印踝足支架之功能表現。研究採用單一受試法之交替處理設計，以一名肢體障礙者成人為對象，探討「肢體障礙者」穿著「3D列印踝足支架」的「下肢功能表現」，以及探討3D列印技術是否可個別化製作踝足支架並建立其流程。

回顧文獻得知，多數肢體障礙者之粗大動作表現低落，以行走速度下滑和平衡能力不佳為主，踝足支架則能有效增加並改善下肢功能。3D列印技術近年興起應用於醫療產業，本研究主要透過3D掃描器和桌上型3D列印機製作踝足支架；研究對象接受一週二至三次，共計九週的評量。評量項目包含「5公尺行走速度」和「柏格式平衡量表」，所得數據將以視覺分析和C統計方法進行分析，並以「受試者訪談問卷」進行訪談以了解其感受和滿意度。

本研究「柏格式平衡量表」之觀察者一致性信度為90.47%(範圍85.71%~100%)，研究結論如下：
一、 3D列印技術能應用於個別化設計與發展踝足支架，以提供輔具製作的新途徑。
二、 肢體障礙者穿著3D列印踝足支架可以提升部分行走速度，協助改變習慣性代償姿勢以改善步態。
三、 肢體障礙者穿著3D列印踝足支架可以提升平衡能力，具有良好的立即與維持效果。
四、 研究對象對於3D列印踝足支架持正向態度，願意再度使用3D列印踝足支架或相關輔具。

本研究除了對研究結果進行詳細討論外，也在製作和評量項目上，提供其他專業研究人員未來於相關主題上的建議，可以發展更多跨領域合作之運用。

Assistive technology was applied to improve the limitation of education, employment and homecare in physical disabilities. This study established individualized design and development of ankle-foot orthosis (AFO) by 3D printing technology (3DPT) then investigated the functional performances of physical disabilities. Based on alternating treatment design of single-subject research, the subject is an adult with physical disabilities. The study explored the functional performances of the lower extremities worn 3D printing AFO, and discussed 3DPT can be individualized AFO and set up AFO-making procedure or not.

In literatures review, the major problem of gross motor for many physical disabilities is lower gait speed and impaired balance ability. AFO can signicantly increase and improve function of lower extremity. Implantation of 3DPT in medical industry is rising in recent years, so this study uses 3D scanner and 3D printer to produce AFO.
By using “Gait Speed Test (GST)” and “Berg Balance Scale (BBS)” as assessments, subject is evaluated two or three times a week, a total of nine weeks. Data analysis was conducted with visual analysis and C stastics, as well as using questionnaire interview to understand subject’s feelings and satisfaction.

Inter-observer reliability data of the “Berg Balance Scale (BBS)” is 90.47% (85.71%~100%). As follows the conclusion is:
1. 3D printing technology can be applied to individualized design and set up procedure of making AFO and provide a new approach for producing assistive devices.
2. 3D printing AFO can increase walking speed and change habitual compensatory posture, then improve gait pattern of physical disabilities.
3. 3D printing AFO can signicantly improve balance ability of physical disabilities with immediate and maintainable effects.
4. The research subject had a positive attitude to use 3D printing AFO and would consider to use 3D printing AFO and related equipment in the future.

Besides the research discussion and result, this study also provides suggestions in production and assessment for other professional researchers on relevant topics. Therefore, further research is able to develop cross-domain collaboration of assistive technology.

3D虎 (2016)：美國學生團隊借3D列印技術列印踝足矯形器。取自https://read01.com/aPKyMx.html#.WjQFOt-WY2w
王斐誼、鄭方瑜、連怡婷、王瑞瑤、楊雅如 (2011)：踝足裝具對於中風患者步態和功能性活動的效果：系統性回顧與統合分析。物理治療，36(4)，274-284。
江永舜、馮文信、林震枝 (2015)：新型足踝裝具對半側偏癱個案報告。 實證自然醫學，1(2)，27-34。
行政院主計處(DGBAS) (2005)：取自https://www.dgbas.gov.tw/mp.asp?mp=1
每日頭條 (2016)：3D列印在義肢行業和康復輔具的新思路。取自https://kknews.cc/zh-tw/tech/ye32n.html
吳佩育 (2009)：ToeOFF®踝足矯具在改善腦中風病患歩態上之果效。臺灣大學醫學工程學研究所學位論文，臺北。
吳顯東 (2013)：3D列印材料發展現況與趨勢。臺北市：資策會產業情報研究所。
李慶良 (1995)：美國保障身心障礙學生教育權利的法律基礎。教育理論與實踐學刊，199506(3)，161-180。
杜正治 (2006)：單一受試研究法。台北：心理。
林柏君、藍婉淑 (1992)：腦性麻痺兒童的站立平衡障礙文獻回顧。中華民國物理治療學會雜誌，17(1)，56-66。
林揚傑 (2015)：慢性疾病對於台灣就業的影響。臺北大學經濟學系學位論文，臺北。
林鼎勝 (2014)：3D列印的發展現況。科學發展，503，32-37。臺北：科技部。
洪薇清 (2002)：踝足裝具之生物力學效應。成功大學醫學工程研究所學位論文，臺南。
張正芬、盧台華、杞昭安、張蓓莉、王華沛、洪儷瑜、林淑莉、郭靜姿(2014)：身心障礙及資賦優異學生鑑定辦法說明。取自http://iweb.ntnu.edu.tw/spe/identify2014/
張玄松、陳貞夙、龍希文、楊樑怡、鄧復旦、倪壽民 (2007)：踝足裝具對於中風患者站立平衡能力與行走表現的影響：比較前置型與後置型踝足裝具的效益。臺灣職能治療研究與實務雜誌，3(2)，94-109。
張伃君 (2016)：踝關節虛擬實境訓練對於中風患者下肢肢體功能的改善。中山醫學大學物理治療學系碩士班學位論文，臺中。
張志仲、林永哲 (1993)：兩種低溫塑材之前穿式足踝裝具在踝關節固定效果之比較。高雄醫學科學雜誌，9(10)，585-589。
張耿維、陳怡璇、林蓓宜、黃光聖 (2016)：腦中風急性後期患者物理治療介入之成效。南臺灣醫學雜誌。12(2)，61-68。
張瑞昆 (2017)：3D列印在復健輔具之運用。長庚醫訊：3D列印專刊，38(2)，22-23.
張靜怡、黎家銘、陳晶瑩、林莉茹、黃國晉、許志成、陳慶餘 (2013)：臺北市老人衰弱症篩檢試辦計畫。台北市醫師公會會刊，57(2)，14-17.
教育部 (2013)：身心障礙及資賦優異學生鑑定辦法。臺北：教育部。
曹昭懿、莊麗玲、黃勝堅、胡名霞 (1999)：恢復良好的車禍腦傷病患之站立平衡研究-初步報告。中華民國物理治療學會雜誌，24(5)，341-348.
梁文隆 (2017)：3D列印在輔具的應用。高醫醫訊，37(7)，17。
莊麗玲 (1999)：輕度創傷性腦傷病人的站立平衡及步行速度之硏究。國立臺灣大學物理治療學系碩士班學位論文，臺北。
陳昊澤、黃文興、嚴筱晴 (2013)：慢性中風個案之[國際健康功能與身心障礙分類系統]和[個案處理模式]之應用。臺灣醫學，17(3)，332-339。
陳淑貞、錢桂玉、呂佳育 (2015)：走路速度測量於社區高齡者衰弱防治之應用。運動生理暨體能學報，(21)，51-58。
創想三維公司 (2017, 12, 4)：CR-10。取自http://www.creality3d.cn/.
鈕文英 (2016)：身心障礙者的正向行為支持。台北：心理。
鈕則謙(譯) (2011)：基礎社會研究法：質化與量化途徑(W. L. Neuman著：Basics of Social Research：Qualitative and Quantitative Approaches)。台北：學富文化。(原著出版於2010) https://doi.org/9789861549330
黃恢濤、黃小玲、謝清麟、林伯欣、楊怡君 (1995)：柏格氏平衡量表之信度及同時效度檢定。職能治療學會雜誌，13，25-33。
黃珏蓉、胡喻婷 (2011)：淺談中風神經之踝足裝具社團法人。中華民國物理治療師公會全國聯合會PT NEWS雙月刊，105。取自http://www.pt.org.tw/pt_news_detail.php?Bid=3&Id=111
葛怡婷 (2013)：淺談地板滾球運動對腦性麻痺者之影響。國北教大體育，(7)，51-59。
廖華芳 (1987)：不同類型腦性麻痺兒童之粗動作功能。物理治療學會雜誌，12，40-45。
廖華芳、王儷穎、劉文瑜、陳麗秋、黃靄雯 (2011)：小兒物理治療學 (三版)。台北市：禾楓書局。
廖漢聰 (2017)：3D列印於顱顏重建的運用。長庚醫訊：3D列印專刊，38(2)，18-20。
維基百科 (2017, 11, 17)：3D列印。檢索自https://zh.wikipedia.org/wiki/3D打印
臺北市政府社會局 (2017, 11, 17)：身心障礙者輔具費用補助。取自http://www.dosw.gov.taipei/ct.asp?xItem=87403097&ctNode=72362&mp=107001
輔具資源入口網 (2017, 11, 17)：身心障礙者輔具費用補助。取自https://repat.sfaa.gov.tw/05welfare/wel_a_list.asp
劉娟妃 (2004)：懸吊式跑步機行走訓練對痙攣型腦性麻痺兒童之療效。 成功大學物理治療學系學位論文，臺南。
蔡正鳴、蔡佳良 (2008)：休閒性馬術治療對腦性痲痺效益之探討。大專體育，(94)，180-185。
衛生福利部 (2015)：身心障礙者權益保障法。全國法規資料庫入口網站。取自http://law.moj.gov.tw/LawClass/LawAll.aspx?PCode=D0050046
鄭萱頤 (2013)：水中活動對腦性麻痺幼兒靜態平衡能力的成效。國立臺北教育大學特殊教育學系早期療育碩士班學位論文，臺北。
嚴介宏、廖依琳 (2017)：3D列印輔助之面部義體製作。長庚醫訊：3D列印專刊，38(2)，21。

3D Systems. (2017, December 15). Retrieved from https://www.3dsystems.com/
Abe, H., Michimata, A., Sugawara, K., Sugaya, N., &Izumi, S.-I. (2009). Improving gait stability in stroke hemiplegic patients with a plastic ankle-foot orthosis. The Tohoku Journal of Experimental Medicine, 218(3), 193–199.
Abel, M. F., Juhl, G. A., Vaughan, C. L., &Damiano, D. L. (1998). Gait assessment of fixed ankle-foot orthoses in children with spastic diplegia. Archives of Physical Medicine and Rehabilitation, 79(2), 126–133.
Aboutorabi, A., Arazpour, M., Bani, M. A., Saeedi, H., &Head, J. S. (2017). Efficacy of ankle foot orthoses types on walking in children with cerebral palsy: A systematic review. Annals of Physical and Rehabilitation Medicine.
Alexander, L. D., Black, S. E., Patterson, K. K., Gao, F., Danells, C. J., &Mcllroy, W. E. (2009). Association between gait asymmetry and brain lesion location in stroke patients. Stroke, 40(2), 537–544. https://doi.org/10.1161/STROKEAHA.108.527374
Balaban, B. rol, Yasar, E., Dal, U., ci˙ oglu, K. l, Mohur, H., &Kalyon, T. A. (2007). The effect of hinged ankle-foot orthosis on gait and energy expenditure in spastic hemiplegic cerebral palsy. Disability and Rehabilitation, 29(2), 139–144.
Basford, J. R., Chou, L.-S., Kaufman, K. R., Brey, R. H., Walker, A., Malec, J. F., …Brown, A. W. (2003). An assessment of gait and balance deficits after traumatic brain injury. Archives of Physical Medicine and Rehabilitation, 84(3), 343–349.
Berg, K. (1992). Measuring balance in the elderly: Development and validation of an instrument. Can J Public Health, 83(AUGUST 1992), 1–130. https://doi.org/10.1016/j.archger.2009.10.008
Berg, K., Wood-Dauphine, S., Williams, J. I., &Gayton, D. (1989). Measuring balance in the elderly: preliminary development of an instrument. Physiotherapy Canada, 41(6), 304–311.
Berg, K., Wood-Dauphinee, S., &Williams, J. I. (1995). The Balance Scale: reliability assessment with elderly residents and patients with an acute stroke. Scandinavian Journal of Rehabilitation Medicine, 27(1), 27–36.
Bird, J. (2012). Exploring the 3D printing opportunity. Retrieved from http://www.ft.com/cms/s/0/6dc11070-d763-11e1-a378-00144feabdc0.html#axzz24gFn5Cal
Blum L, K.-B. N. (2008). Usefulness of the Berg Balance Scale in stroke rehabilitation: a systematic review. Physical Therapy, 88 (5), 559–566. https://doi.org/10.2522/ptj.20070205
Brehm, M.-A., Harlaar, J., &Schwartz, M. (2008). Effect of ankle-foot orthoses on walking efficiency and gait in children with cerebral palsy. Journal of Rehabilitation Medicine, 40(7), 529–534.
Butler, P. B., Farmer, S. E., &Major, R. E. (1997). Improvement in gait parameters following late intervention in traumatic brain injury: a long-term follow-up report of a single case. Clinical Rehabilitation, 11(3), 220–226.
Campbell, T. A., Reid, R., &others. (2015). 3D Printing: Challenges and Opportunities for International Relations. Transcript, Council on Foreign Relations, CFR. org, 2013.
Caplan, L. R. (Ed.). (2016). Caplan’s stroke. Cambridge University Press.
Chang, J.-J., &Su, C.-Y. (2000). A low temperature plastic anterior encased ankle foot orthosis: construction and preliminary clinical results. The Kaohsiung Journal of Medical Sciences, 16(1), 47–52.
Chou, C.-Y., Chien, C.-W., Hsueh, I.-P., Sheu, C.-F., Wang, C.-H., &Hsieh, C.-L. (2006). Developing a Short Form of the Berg Balance Scale for People With Stroke. Physical Therapy, 86, 195–204.
Churchill, A. J. G., Halligan, P. W., &Wade, D. T. (2003). Relative contribution of footwear to the efficacy of ankle-foot orthoses. Clinical Rehabilitation, 17(5), 553–557.
Corbin, C. B. (1980). A Textbook of Motor Development. William C Brown Pub.
Damiano, D. L., &Abel, M. F. (1998). Functional outcomes of strength training in spastic cerebral palsy. Archives of Physical Medicine and Rehabilitation, 79(2), 119–125.
Davies, P. M. (2000). Steps to follow: the comprehensive treatment of patients with hemiplegia. Springer Science & Business Media.
deWit, D. C. M., Buurke, J. H., Nijlant, J. M. M., IJzerman, M. J., &Hermens, H. J. (2004). The effect of an ankle-foot orthosis on walking ability in chronic stroke patients: a randomized controlled trial. Clinical Rehabilitation, 18(5), 550–557.
Deyle, G. D., Allison, S. C., Matekel, R. L., Ryder, M. G., Stang, J. M., Gohdes, D. D., …Garber, M. B. (2005). Physical therapy treatment effectiveness for osteoarthritis of the knee: a randomized comparison of supervised clinical exercise and manual therapy procedures versus a home exercise program. Physical Therapy, 85(12), 1301–1317.
Diamond, M. F., &Ottenbacher, K. J. (1990). Effect of a tone-inhibiting dynamic ankle-foot orthosis on stride characteristics of an adult with hemiparesis. Physical Therapy, 70(7), 423–430.
Falvo, D. (2013). Medical and psychosocial aspects of chronic illness and disability. Jones & Bartlett Publishers.
Ferrell, B., Artinian, B., &Sessing, D. (2011). The Identification of Frailty: A Systematic Literature Review. Veterinary Surgery : VS : The Official Journal of the American College of Veterinary Surgeons, 33(1), 70–76. https://doi.org/10.1111/j.1532
Franceschini, M., Massucci, M., Ferrari, L., Agosti, M., &Paroli, C. (2003). Effects of an ankle-foot orthosis on spatiotemporal parameters and energy cost of hemiparetic gait. Clinical Rehabilitation, 17(4), 368–372.
Geurts, A. C. H., Ribbers, G. M., Knoop, J. A., &vanLimbeek, J. (1996). Identification of static and dynamic postural instability following traumatic brain injury. Archives of Physical Medicine and Rehabilitation, 77(7), 639–644.
Gök, H., Küçükdeveci, A., Altinkaynak, H., Yavuzer, G., &Ergin, S. (2003). Effects of ankle-foot orthoses on hemiparetic gait. Clinical Rehabilitation, 17(2), 137–139.
Graham, J. E., Ostir, G.V, Kuo, Y.-F., Fisher, S. R., &Ottenbacher, K. J. (2008). Relationship between test methodology and mean velocity in timed walk tests: a review. Archives of Physical Medicine and Rehabilitation, 89(5), 865–872.
Gravlee, J. R., &VanDurme, D. J. (2007). Braces and splints for musculoskeletal conditions. American Family Physician, 75(3).
Grujović, N., Radović, M., Kanjevac, V., Borota, J., Grujović, G., &Divac, D. (2011). 3D printing technology in education environment. In 34th international conference on production engineering , 29–30.
Guralnik, J. M., Ferrucci, L., Pieper, C. F., Leveille, S. G., Markides, K. S., Ostir, G.V., …Wallace, R. B. (2000). Lower Extremity Function and Subsequent Disability: Consistency Across Studies, Predictive Models, and Value of Gait Speed Alone Compared With the Short Physical Performance Battery. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 55(4), M221–M231. https://doi.org/10.1093/gerona/55.4.M221
Guskiewicz, K. M. (2011). Balance assessment in the management of sport-related concussion. Clinics in Sports Medicine, 30(1), 89–102.
Hardy, S. E., Perera, S., Roumani, Y. F., Chandler, J. M., &Studenski, S. A. (2007). Improvement in usual gait speed predicts better survival in older adults. Journal of the American Geriatrics Society, 55(11), 1727–1734. https://doi.org/10.1111/j.1532-5415.2007.01413.x
Hesse, S., Luecke, D., Jahnke, M. T., &Mauritz, K. H. (1996). Gait function in spastic hemiparetic patients walking barefoot, with firm shoes, and with ankle-foot orthosis. International Journal of Rehabilitation Research, 19(2), 133–142.
Hillier, S. L., &Metzer, J. (1997). Awareness and perceptions of outcomes after traumatic brain injury. Brain Injury, 11(7), 525–536.
Hoffer, M. E., Balough, B. J., &Gottshall, K. R. (2007). Posttraumatic balance disorders.
Hsu, A.-L., Tang, P.-F., &Jan, M.-H. (2003). Analysis of impairments influencing gait velocity and asymmetry of hemiplegic patients after mild to moderate stroke. Archives of Physical Medicine and Rehabilitation, 84(8), 1185–1193.
Hull, C. W. (1986). U.S. Patent No. 4,575,330. Washington, DC: U.S. Patent and Trademark Office.
Ichida, Y. (2016). Current Status of 3D Printer Use among Automotive Suppliers: Can 3D Printed-parts Replace Cast Parts? IFEAMA SPSCP, 5, 69-82.
Icrc, A. D. (2010). Manufacturing Guidelines Ankle-Foot Orthosis. Retrieved from https://www.icrc.org/eng/assets/files/other/eng-afo-2010.pdf
Inzitari, D., Eliasziw, M., Gates, P., Sharpe, B. L., Chan, R. K. T., Meldrum, H. E., &Barnett, H. J. M. (2000). The causes and risk of stroke in patients with asymptomatic internal-carotid-artery stenosis. New England Journal of Medicine, 342(23), 1693–1701.
Jastifer, J. R., &Gustafson, P. A. (2017). Three-Dimensional Printing and Surgical Simulation for Preoperative Planning of Deformity Correction in Foot and Ankle Surgery. The Journal of Foot and Ankle Surgery, 56(1), 191–195. https://doi.org/10.1053/j.jfas.2016.01.052
Jette, A. M., &Delitto, A. (1997). Physical therapy treatment choices for musculoskeletal impairments. Physical Therapy, 77(2), 145–154.
Kate Cummins. (2010). The rise of additive manufacturing. Retrieved from https://www.theengineer.co.uk/issues/24-may-2010/the-rise-of-additive-manufacturing/
Ketelaar, M., Vermeer, A., Hart, H., vanPetegem-van Beek, E., &Helders, P. J. M. (2001). Effects of a functional therapy program on motor abilities of children with cerebral palsy. Physical Therapy, 81(9), 1534–1545.
Kraus, J. F., Black, M. A., Hessol, N., Ley, P., Rokaw, W., Sullivan, C., …MARSHALL, A. (1984). The incidence of acute brain injury and serious impairment in a defined population. American Journal of Epidemiology, 119(2), 186–201.
Landorf, K., &Keenan, A. (2000). Efficacy of foot orthoses. What does the literature tell us? Journal of the American Podiatric Medical Association, 90(3), 149–158. https://doi.org/10.7547/87507315-90-3-149
Langley, F. A., &Mackintosh, S. F. H. (2007). Functional Balance Assessment of Older Community Dwelling Adults : A Systematic Review of the Literature. Internet Journal of Allied Health Sciences and Practice, 5(4), 1–11.
Lopopolo, R. B., Greco, M., Sullivan, D., Craik, R. L., &Mangione, K. K. (2006). Effect of therapeutic exercise on gait speed in community dwelling elderly people a meta-analysis. Physical Therapy, 86(4), 520-540.
Manolov, R., &Onghena, P. (2017). Analyzing Data From Single-Case Alternating Treatments Designs. Psychological Methods. https://doi.org/10.1037/met0000133
Mao, H., Hsueh, I., &Tang, P. (2002). Analysis and Comparison of the Psychometric Properties of. Stroke, 33(7), 1022–1027.
Marigold, D. S., &Eng, J. J. (2006). The relationship of asymmetric weight-bearing with postural sway and visual reliance in stroke. Gait & Posture, 23(2), 249–255.
Michael Fitzgerald. (2013). With 3-D Printing, the Shoe Really Fits. Retrieved from https://sloanreview.mit.edu/article/with-3-d-printing-the-shoe-really-fits/
Miller, T. (1996). Orthotics: Clinical Practice and Rehabilitation Technology. JPO: Journal of Prosthetics and Orthotics, 8(3), 24A.
Moxey, P. W., Gogalniceanu, P., Hinchliffe, R. J., Loftus, I. M., Jones, K. J., Thompson, M. M., &Holt, P. J. (2011). Lower extremity amputations—a review of global variability in incidence. Diabetic Medicine, 28(10), 1144–1153.
Newton, R. A. (1995). Balance abilities in individuals with moderate and severe traumatic brain injury. Brain Injury, 9(5), 445–451.
Nichols, D. S. (1997). Balance retraining after stroke using force platform biofeedback. Physical Therapy, 77(5), 553–558.
Oskoui, M., Coutinho, F., Dykeman, J., Jetté, N., &Pringsheim, T. (2013). An update on the prevalence of cerebral palsy: a systematic review and meta-analysis. Developmental Medicine & Child Neurology, 55(6), 509–519.
Haibach, P., Reid, G., & Collier, D. (2017). Motor Learning and Development 2nd Edition. Human Kinetics.
Pavlik, A. J. (2008). The effect of long-term ankle-foot orthosis use on gait in the poststroke population. JPO: Journal of Prosthetics and Orthotics, 20(2), 49–52.
Perry, J., Garrett, M., Gronley, J. K., &Mulroy, S. J. (1995). Classification of Walking Handicap in the Stroke Population. Stroke, 26(6), 982–989. https://doi.org/10.1161/01.STR.26.6.982
Pohl, M., &Mehrholz, J. (2006). Immediate effects of an individually designed functional ankle-foot orthosis on stance and gait in hemiparetic patients. Clinical Rehabilitation, 20(4), 324–330.
O'Sullivan, S. B., Schmitz, T. J., & Fulk, G. (6th Ed.). (2013). Physical rehabilitation. FA Davis.
Redford, J. B., Basmajian, J.V, &Trautman, P. (1995). Orthotics: clinical practice and rehabilitation technology. Churchill Livingstone.
Resins Online. (2013). 3D Printed Clothing Becoming a Reality. Retrieved from http://www.resins-online.com/blog/3d-printed-clothing/
Ries, A. J., Novacheck, T. F., &Schwartz, M. H. (2015). The efficacy of ankle-foot orthoses on improving the gait of children with diplegic cerebral palsy: a multiple outcome analysis. PM&R, 7(9), 922–929.
Rizzo, D. C. (2015). Fundamentals of anatomy and physiology. Cengage Learning.
Rose, J., Wolff, D. R., Jones, V. K., Bloch, D. A., Oehlert, J. W., &Gamble, J. G. (2002). Postural balance in children with cerebral palsy. Developmental Medicine and Child Neurology, 44(1), 58–63.
Russell, D. J., Rosenbaum, P. L., Cadman, D. T., Gowland, C., Hardy, S., &Jarvis, S. (1989). The gross motor function measure: a means to evaluate the effects of physical therapy. Developmental Medicine & Child Neurology, 31(3), 341–352.
Salbach, N. M., Mayo, N. E., Higgins, J., Ahmed, S., Finch, L. E., &Richards, C. L. (2001). Responsiveness and predictability of gait speed and other disability measures in acute stroke. Archives of Physical Medicine and Rehabilitation, 82(9), 1204–1212.
Scardamaglia, A. (2014). Flashpoints in 3D printing and trade mark law. JL Inf. & Sci., 23, 30.
Schelly, C., Anzalone, G., Wijnen, B., &Pearce, J. M. (2015). Open-source 3-D printing technologies for education: Bringing additive manufacturing to the classroom. Journal of Visual Languages & Computing, 28, 226–237.
Sharma, R. (2013, September 10). 3D Custom Eyewear The Next Focal Point For 3D Printing. Retrieved from http://www.forbes.com/sites/rakeshsharma/2013/09/10/custom-eyewear-the-next-focal-point-for-3d-printing/
Simons, C. D. M., vanAsseldonk, E. H. F., van derKooij, H., Geurts, A. C. H., &Buurke, J. H. (2009). Ankle-foot orthoses in stroke: effects on functional balance, weight-bearing asymmetry and the contribution of each lower limb to balance control. Clinical Biomechanics, 24(9), 769–775.
Strauser, D. R. (2013). Career development, employment, and disability in rehabilitation: From theory to practice. Springer Publishing Company.
Studenski, S., Perera, S., &Patel, K. (2011). Gait Speed and Survival in Older Adults. The Journal of the American Medical Association, 305(1), 50–58. https://doi.org/10.1001/jama.2010.1923.Gait
Teixeira-Salmela, L. F., Olney, S. J., Nadeau, S., &Brouwer, B. (1999). Muscle strengthening and physical conditioning to reduce impairment and disability in chronic stroke survivors. Archives of Physical Medicine and Rehabilitation, 80(10), 1211–1218.
Thingiverse. (2018, June 10). Retrieved from https://www.thingiverse.com/
Thurman, D. J., Alverson, C., Dunn, K. A., Guerrero, J., &Sniezek, J. E. (1999). Traumatic brain injury in the United States: a public health perspective. The Journal of Head Trauma Rehabilitation, 14(6), 602–615.
Tryon, W. W. (1982). A simplified time-series analysis for evaluating treatment interventions. Journal of Applied Behavior Analysis, 15(3), 423–429. https://doi.org/10.1901/jaba.1982.15-423
Tyson, S. F., Hanley, M., Chillala, J., Selley, A., &Tallis, R. C. (2006). Balance disability after stroke. Physical Therapy, 86(1), 30–38.
Tyson, S. F., &Thornton, H. A. (2001). The effect of a hinged ankle foot orthosis on hemiplegic gait: objective measures and users’ opinions. Clinical Rehabilitation, 15(1), 53–58.
VanLoo, M. A., Moseley, A. M., Bosman, J. M., DeBie, R. A., &Hassett, L. (2004). Test--re-test reliability of walking speed, step length and step width measurement after traumatic brain injury: a pilot study. Brain Injury, 18(10), 1041–1048.
Wang, C. Y., Hsieh, C. L., Olson, S. L., Wang, C. H., Sheu, C. F., &Liang, C. C. (2006). Psychometric Properties of the Berg Balance Scale in a Community-dwelling Elderly Resident Population in Taiwan. Journal of the Formosan Medical Association, 105(12), 992–1000. https://doi.org/10.1016/S0929-6646(09)60283-7
Wang, R. Y., Lin, P. Y., Lee, C. C., &Yang, Y. R. (2007). Gait and balance performance improvements attributable to ankle--foot orthosis in subjects with hemiparesis. American Journal of Physical Medicine & Rehabilitation, 86(7), 556–562.
Wang, R. Y., Yen, L. L., Lee, C. C., Lin, P. Y., Wang, M. F., &Yang, Y. R. (2005). Effects of an ankle-foot orthosis on balance performance in patients with hemiparesis of different durations. Clinical Rehabilitation, 19(1), 37–44.
Whiteside, S., Allen, M. J., Barringer, W. J., Beiswenger, W. D., Brncick, M. D., Bulgarelli, T. D., ... & Lin, R. S. (2007). Practice Analysis of Certified Practitioners in the Disciplines of Orthotics and Prosthetics. Alexandria (VA): American Board for Certification in Orthotics, Prosthetics and Pedorthics.
World Health Organization (WHO) (2017). International Classification of Functioning, Disability and Health (ICF). Retrieved from http://www.who.int/classifications/icf/en/
Williams, G., Morris, M. E., Schache, A., &McCrory, P. R. (2009). Incidence of gait abnormalities after traumatic brain injury. Archives of Physical Medicine and Rehabilitation, 90(4), 587–593.
Woollacott, M. H., &Shumway-Cook, A. (2005). Postural dysfunction during standing and walking in children with cerebral palsy: what are the underlying problems and what new therapies might improve balance? Neural Plasticity, 12(2–3), 211–219.
Wu, S.-H. (1992). An anterior direct molding ankle-foot orthosis. Journal of Occupational Therapy Association R.O.C., 10, 75–81.
Wutzke, C. J., Mercer, V. S., &Lewek, M. D. (2013). Influence of lower extremity sensory function on locomotor adaptation following stroke: a review. Topics in Stroke Rehabilitation, 20(3), 233–240.
You, S. H., Jang, S. H., Kim, Y.-H., Hallett, M., Ahn, S. H., Kwon, Y.-H., …Lee, M. Y. (2005). Virtual reality--induced cortical reorganization and associated locomotor recovery in chronic stroke. Stroke, 36(6), 1166–1171.
Zhan, S., &Ottenbacher, K. J. (2001). Single subject research designs for disability research. Disability and Rehabilitation, 23(1), 1–8. https://doi.org/10.1080/09638280150211202