戴念國Lien-Guo Dai , MD. PhD. 【專長】骨科關節重建再生醫學、運動醫學、脊椎創傷微創手術、斷肢顯微手術、各式骨科骨折創傷。骨科各式手術超過一萬例。發明新型專利各國超過50項。
Lien-Guo Dai, Nien-Chi Huang, Mei-Hui Chen (2017), Effects of Lavender, Mint, Orange and Niaouli Essential Oil on Wound Healing. International Journal of TCM Aromatherapy Volume 1-1 ISSN 25226592
Niann-Tzyy Dai, Wen-Shyan Huang, Fang-Wei Chang, Lin-Gwei Wei, Tai-Chun Huang,1Jhen-Kai Li, Keng-Yen Fu, Lien-Guo Dai, Pai-Shan Hsieh, Nien-Chi Huang, Yi-Wen Wang, Hsin-I Chang, Roxanne Parungao, and Yiwei Wang (2018) Development of a Novel Pre-Vascularized Three-Dimensional Skin Substitute Using Blood Plasma Gel. Cell Transplant. 2018 Oct; 27(10): 1535–1547
Huang, Wen-Shyan, MD*; Wei, Lin-Gwei, MD; Li, Jhen-Kai, MS‡; Fu, Keng-Yen, PhD; Huang, Tai-Chun, PhD‡; Hsieh, Pai-Shan, MS; Huang, Nien-Chi, MS‡; Dai, Lien-Guo, MD, PhD§; Chang, Fung-Wei, MD∥; Loh, Shih-Hurng, PhD; Chen, Yuan-Hao, MD, PhD#; Yang, Bing-Heng, MD**; Shiau, Chia-Yang, PhD††; Wu, Gwo-Jang, MD, PhD; Dai, Niann-Tzyy, MD, PhD (2019) Melanocyte Differentiation From Induced Pluripotent Stem Cells Derived From Human Adipose-Derived Stem Cells. Annals of Plastic Surgery: January 2019 - Volume 82 - Issue 1S - p S119–S125
Lien-Guo Dai, Guo-Shiang Huang , Shan-hui Hsu (2013), Sciatic Nerve Regeneration by Co-Cultured Schwann Cells and Stem Cells on Microporous Nerve Conduits. Cell Transplantation, 22, 2029-2039. (SCI 4.422/3.982)
l Yeung, Chi-Yung MD; Hsieh, Pai-Shan MS; Wei, Lin-Gwei MD; Hsia, Li-Chuan RN; Dai, Lien-Guo MD, PhD; Fu, Keng-Yen PhD; Dai, Niann-Tzyy MD, PhD. (2018). Efficacy of Lyophilised Platelet-Rich Plasma Powder on Healing Rate in Patients With Deep Second Degree Burn Injury: A Prospective Double-Blind Randomized Clinical Trial. Annals of Plastic Surgery: February 2018 - Volume 80 - Issue 2S - p S66–S69
Kun-Che Hung,; Ching-Shiow Tseng,; Lien-Guo Dai, Shan-hui Hsu (2016). Water-based polyurethane 3D printed scaffolds with controlled release function for customized cartilage tissue engineering. Biomaterials, 2016.01.019. ISSN: 01429612
Lien-Guo Dai, MD, PhD; Keng-Yen Fu, PhD; Pai-Shan Hsieh, MS; Yu-Min Hung, MS; Yi-Wen Wang, PhD; Li-Chuan Hsia, RN; Shun-Cheng Chang, MD, PhD; Chih-Hsin Wang, MD; Shou-Cheng Teng, MD; Shyi-Gen Chen, MD; Tim-Mo Chen, MD; Niann-Tzyy Dai, MD, PhD.(2015) Evaluation of Wound Healing Efficacy of an Antimicrobial Spray Dressing at Skin Donor Sites. Wounds. Volume 27 - Issue 8 – August 2015
Shan-hui Hsu, Chia-Hung Lin, Chen-Tung Yen, Pei-Hwa Wang, Lien-Guo Dai, Ching-Fen Jiang (2012), A comparison study for the efficacy of novel micropatterned nerve conduits vs. commercial ones in regeneration of transected rat sciatic nerve. Journal of Neuroscience and Neuroengineering, 1, 222-228.
Guo-Shiang Huang, Lien-Guo Dai, Betty L. Yen, Shan-hui Hsu (2011), Spheroid formation of mesenchymal stem cells on chitosan and chitosan-hyaluronan membranes. Biomaterials, 32, 6929-6945. (SCI 7.882/9.075)
Keng-Yen Fu, Lien-Guo Dai, Ing-Ming Chiu, Jeng-Rung Chen, Shan-hui Hsu (2011), Sciatic nerve regeneration by microporous nerve conduits seeded with the glial cell line-derived neurotrophic factor or brain-derived neurotrophic factor gene transfected neural stem cells, Artificial Organs, 35: 363-372. (SCI 1.719/1.812)
Lien-Guo Dai (2011), Sliding bone transposition arthroplasty for Reverse Hill-Sachs lesion after neglected shoulder posterior dislocation – one case report. Annual Meeting of Taiwan Orthopaedic Association
Lien-Guo Dai (2010), Percutaneous Vertebroplasty by Absorbable Mineral Bone Cement (PRO-DENSE®), Annual Meeting of Taiwan Orthopaedic Association.
Lien-Guo Dai et al. (2004), The Motion of Bipolar Hemiarthroplasty for Hip Joint, Best Paper Award, Annual Meeting of Taiwan Orthopaedic Association, 2004
Lien-Guo Dai, Ming-Chau Chang, Yih Liu, Wai-Hee Lo (1998),The posterior interosseous flap for coverage of hand. Journal of Orthopaedic Surgery ROC; vol.15, Issue. 1.
Abstract: The present invention relates to a method of obtaining high purity stem cells from tissue, comprising: providing an impurity-containing cell mass obtained from a tissue; providing a filter device which comprises a cylinder structure, wherein the cylinder structure comprise an inlet and an outlet below and a content configured inside the cylinder structure between the inlet and the outlet; culturing the impurity-free cell mass on a polymeric film, wherein target stem cells of the impurity-free cell mass conjugate into a spheroid cell population; collecting the spheroid cell population from the polymeric film to obtain high purity target stem cells. According to the method of the present invention, stem cells can be rapidly and easily obtained from tissue. Only a small amount of tissue sample is required and the stem cells obtained can be readily used in clinical applications such as autotransplantation without the requirement of in vitro amplification.
Abstract: Disclosed herein is a bone fixation device. The fixation device has a head portion having a conduit and a plurality of pawls formed therein along one side of the conduit; and an elongation strip having a hooked end and a plurality of ratchet teeth formed thereon the body of the strip. The head portion is connected to the non-hooked end of the elongation strip at an angle between 100-170 degrees, and the plurality of pawls of the head portion engage the plurality of teeth when the elongation strip is inserted into the conduit of the head portion to form a loop around the weaken or fractured bone so as to stabilize the weaken or fractured bone.
Abstract: A suction-irrigation head includes a manifold set, one end extending to form a discharge pipe and an intake pipe, an end of the discharge pipe forming a discharge opening, an end of the intake pipe forming an intake opening; a tube including a circumferential wall, intake bores disposed on one side of the circumferential wall, discharge bores disposed on the other side of the circumferential wall; and a separation wall, the interior of the manifold set and the tube being divided by the separation wall to form an intake chamber and a discharge chamber not communicating with each other, the intake chamber, the intake pipe, and the intake bores communicating with one another, and the discharge chamber, the discharge pipe and the discharge bores communicating with one another.
Abstract: Disclosed herein is an overtube for use with an irrigation tip of a catheter during wound irrigation. The overtube includes a tubular body, in which a portion of the tubular body is cut away; and the frontend of the tubular body is tapered in a direction that is away from the cut away portion of the tubular body and is at an angle about 130-180 degrees in relative to the tubular body.