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Tytuł artykułu

New design of patient-specific, antimicrobial bioactive finger implants for durable functional reconstruction after amputation

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The absence of even a single finger results in a major impairment in the hand function (precise grasping, grip power), therefore significantly affecting the social and professional life of victims who are frequently young people. Finger amputation is a surgical treatment for ~69.000 patients in the EU after traumatic injury, in which replantation microsurgery fails due to the severity of tissue damage. The surgical reconstruction is currently possible only via autograft transplantation, e.g. a toe-to-hand transfer, thus leading to foot impairment. Some motion functional restoration is also possible using a bone-anchored silicone prosthesis but without the sense revalidation. Our current research focuses on alternatives for surgical reconstruction by means of novel patient- -specific, durable, biomimetic, bioactive and antibacterial implants for reconstructing lost bone and joints. The implant design – and the improved micro(neuro) surgery (beyond the project) – will consist in the fast successful rehabilitation, including the soft-tissue related mobility, the implantation of state-of-the-art nerve conduits as well as the aesthetic appearance. Key issues for the long-term functionality of the biomaterial-based reconstruction of hard tissue are based on surgical demands, such as: (1) perfect integration of a bone-substituting metal with the surrounding bone tissue (a) with no signs of loosening due to stress shielding at the interface and (b) enhanced with protective activity against bacterial inflammation (antimicrobial properties and formation of vascularized bone tissue (ossification)) even months to years after the injury; (2) biomimetic finger joints based on non-wearing materials without ossification meant to prevent the loss of the motion function.
Rocznik
Strony
8--14
Opis fizyczny
Bibliogr. 28 poz., tab., wykr., zdj.
Twórcy
autor
  • Faculty of Science and Technology, Jan Dlugosz University in Czestochowa, Armii Krajowej Av, 13/15, 42-200 Czestochowa, Poland
autor
  • Institute of Metallurgy and Materials Science, Polish Academy of Sciences, Reymonta St. 25, 30-059 Krakow, Poland
autor
  • Institute of Metallurgy and Materials Science, Polish Academy of Sciences, Reymonta St. 25, 30-059 Krakow, Poland
  • Silesian University of Technology, Faculty of Biomedical Engineering, Department of Biosensors and Processing of Biomedical Signals, Roosevelt Str. 40, Zabrze, Poland
  • University of Silesia in Katowice, Faculty of Natural Sciences, Institute of Biology, Biotechnology and Environmental Protection, Jagiellońska St. 28, 40-032 Katowice, Poland
  • JOANNEUM RESEARCH Forschungsges.m.b.H., Institute of Surface Technologies and Photonics, Functional Surfaces, Leobner Strasse 94, 8712 Niklasdorf, Austria
autor
  • Medical Instruments Factory CHIRMED Marcin Dyner, Mstowska St. 8A, 42-240 Rudniki, Poland
  • Institute of Metallurgy and Materials Science, Polish Academy of Sciences, Reymonta St. 25, 30-059 Krakow, Poland
Bibliografia
  • [1] J.P. Leigh, S.B. Markovitz, M. Fahs, C. Shin, P.J. Landrigan: Occupational Injury and Illness in the United States. Arch. Intern. Med. 157 (1997) 1557.
  • [2] K.C. Chung, M.J. Shauver: Table Saw Injuries. Plast. Reconstr. Surg. 132 (2013) 777e-783e.
  • [3] E. Davis Sears, K.C. Chung: Replantation of Finger Avulsion Injuries: A Systematic Review of Survival and Functional Outcomes, J. Hand Surg. Am. 36 (2011) 686-694.
  • [4] E. Mahmoudi, P.R. Swiatek, K.C. Chung, J.Z. Ayanian: Racial Variation in Treatment of Traumatic Finger/Thumb Amputation. Plast. Reconstr. Surg. 137 (2016) 576e-585e.
  • [5] J.M. Conn, J.L. Annest, G.W. Ryan, D.S. Budnitz: Non–WorkRelated Finger Amputations in the United States, 2001-2002, Ann. Emerg. Med. 45 (2005) 630-635.
  • [6] C.J. Goodacre, G. Bernal, K. Rungcharassaeng, J.Y. Kan: Clinical complications with implants and implant prostheses. J. Prosthet. Dent. 90 (2003) 121-132.
  • [7] N. Shanmuganathan, M.U. Maheswari, V. Anandkumar, T.V. Padmanabhan, S. Swarup, A.H. Jibran: Aesthetic finger prosthesis. J. Indian Prosthodont. Soc. 11 (2011) 232-237.
  • [8] C. Aydin, S. Karakoca, H. Yilmaz: Implant-retained digital prostheses with custom-designed attachments: A clinical report. J. Prosthet. Dent. 97 (2007) 191-195.
  • [9] D. Boyle, D. Parker, C. Larson, L. Pessoa-Brandão: Nature, incidence, and cause of work-related amputations in Minnesota. Am. J. Ind. Med. 37 (2000) 542–550. http://www.ncbi.nlm.nih.gov/pubmed/10723048 (accessed May 28, 2019).
  • [10] G.M. Buncke, H.J. Buncke, C.K. Lee: Great Toe-to-Thumb Microvascular Transplantation After Traumatic Amputation, Hand Clin. 23 (2007) 105-115.
  • [11] H. Wang: Secondary surgery after digit replantation: Its incidence and sequence, Microsurgery. 22 (2002) 57-61.
  • [12] R.A. Bueno, B. Battiston, D. Ciclamini, P. Titolo, B. Panero, P. Tos: Replantation, Clin. Plast. Surg. 41 (2014) 385-395.
  • [13] L. Jazayeri, J.Q. Klausner, J. Chang: Distal Digital Replantation. Plast. Reconstr. Surg. 132 (2013) 1207-1217.
  • [14] S.J. Sebastin, K.C. Chung: A Systematic Review of the Outcomes of Replantation of Distal Digital Amputation. Plast. Reconstr. Surg. 128 (2011) 723-737.
  • [15] D. Fufa, R. Calfee, L. Wall, W. Zeng, C. Goldfarb: Digit Replantation: Experience of two U.S. academic level-I trauma centers. J. Bone Jt. Surg. 95 (2013) 2127–2134.
  • [16] M.J. Shauver, T. Nishizuka, H. Hirata, K.C. Chung: Traumatic Finger Amputation Treatment Preference among Hand Surgeons in the United States and Japan. Plast. Reconstr. Surg. 137 (2016) 1193-1202.
  • [17] R.D. Goldner, M. V Stevanovic, J.A. Nunley, J.R. Urbaniak: Digital replantation at the level of the distal interphalangeal joint and the distal phalanx. J. Hand Surg. Am. 14 (1989) 214-220.
  • [18] M.A. Pet, J.H. Ko, N.B. Vedder: Reconstruction of the Traumatized Thumb, Plast. Reconstr. Surg. 134 (2014) 1235-1245.
  • [19] V. Cervelli, D.-J. Bottini, A. Arpino, M. Grimaldi, M. Rogliani, P. Gentile: Bone-anchored implant in cosmetic finger reconstruction. Ann. Chir. Plast. Esthétique. 53 (2008) 365-367.
  • [20] B. Yeshwante, N. Parasrampuria, N. Baig: Prosthetic Rehabilitation of an Amputated finger. IOSR J. Dent. Med. Sci. 13 (2014) 10-17.
  • [21] N. Yadav, P. Chand, S.K. Jurel: Rehabilitation of single finger amputation with customized silicone prosthesis. Natl. J. Maxillofac. Surg. 7 (2016) 89-91.
  • [22] S. Sharma, G. Chand Baid, V. Lath, N. Gupta, S. Chandra Pankaj: Rehabilitation of an amputated finger - a case report. J. Evol. Med. Dent. Sci. 6 (2017) 744-748.
  • [23] A. Sierakowski, C. Watts, K. Thomas, D. Elliot: Long-term outcomes of osseointegrated digital prostheses for proximal amputations. J. Hand Surg. European Vol. 36 (2011) 116-125.
  • [24] P. Doppen, M. Solomons, S. Kritzinger: Osseointegrated Finger Prostheses. J. Hand Surg. European Vol. 34 (2009) 29-34.
  • [25] E. Drampalos, H.R. Mohammad, C. Kosmidis, M. Balal, J. Wong, A. Pillai: Single stage treatment of diabetic calcaneal osteomyelitis with an absorbable gentamicin-loaded calcium sulphate/hydroxyapatite biocomposite: The Silo technique, Foot. 34 (2018) 40-44.
  • [26] A.B. Swanson, C.G. Hagert, G.D. Swanson: Evaluation of impairment of hand function. J. Hand Surg. Am. 8 (1983) 709-722.
  • [27] L.-W. Lok, W.-L. Chan, Y.-K. Lau: Functional Outcomes of Antegrade Homodigital Neurovascular Island Flaps for Fingertip Amputation. J. Hand Surg. Asian-Pacific Vol. 22 (2017) 39-45.
  • [28] S. Kehoe, X.F. Zhang, D. Boyd: FDA approved guidance conduits and wraps for peripheral nerve injury: A review of materials and efficacy. Injury. 43 (2012) 553-572.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Korekta artykułu w Ebgineering of Biomaterials 2021 nr 162 s. 26
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7458db67-b344-4eb7-9c99-81873e5b2a6e
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