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241	COMPARATIVE ANATOMY OF THE ANTERIOR CRUCIATE LIGAMENT AND ITS ASSOCIATED STRUCTURES IN PRIMATES Ruth, Aidan A. 21 April 2017 (has links) No description available. Anatomy and Physiology Physical Anthropology
242	Mechanical Characterization of Swine Uterosacral and Cardinal Ligaments Tan, Ting 02 December 2015 (has links) The uterosacral ligament (USL) and cardinal ligament (CL) are the two major suspensory tissues of the uterus, cervix, and vagina. These supportive structures can be weakened or damaged, leading to the development of pelvic floor disorders (PFDs) such as urinary incontinence, fecal incontinence, and pelvic organ prolapse. In the surgical treatment for PFDs, the USL and CL are extensively used as anchor structures to restore the normal position of the prolapsed organs. Therefore, the mechanical properties of the USL and CL may be critical for the development of new surgical reconstruction strategies for PFDs. In chapter 1, we present the first histo-mechanical characterization of the swine USL and CL using histological analysis, scanning electron microscopy and quasi-static uniaxial tensile tests. Our results suggest that the histological and uniaxial tensile properties of the swine CL and USL are very similar to those in humans. The swine is found to be a suitable animal model for studying the mechanical properties of these ligaments. To capture both the active and passive mechanical responses of biological tissues containing SMCs such as the USL and CL, a new structural constitutive model is proposed in chapter 2. The deformation of the active component in such tissues during isometric and isotonic contractions is described using an evolution law. This model is tested with published active and passive, uniaxial and biaxial, experimental data on pig arteries due to lack of data on the active properties of the USL and CL. Subjected to constant forces in-vivo, the structure and length of the USL and CL are sig- nificantly altered over time. In chapter 3, we present the first rigorous characterization of the fiber microstructure and creep properties of the USL/CL complex by using scanning electron microscopy and planar biaxial testing. Fibers are found to be oriented primarily along the main in-vivo loading direction. In such direction, the creep proceeds significantly faster under lower load. Overall, our experimental findings advance our knowledge about the passive elastic and viscoelastic properties of the USL/CL complex. The novel structural constitutive model proposed enhances our understanding of the active mechanical behavior of biological tissues containing SMCs. Knowledge about the mechanical behavior of the USL and CL from experimental and theoretical studies such as those presented here will help to improve, in the long term, the medical treatment for PFDs. / Ph. D. Uterosacral Ligament Cardinal Ligament Scanning Electron Microscopy Histology Uniaxial and Biaxial Tests Nonlinear Elasticity Viscoelasticity Isometric Contraction Isotonic Contraction Constitutive Modeling
243	Propriocepcija zgloba kolena posle kidanja prednjeg ukrštenog ligamenta kod profesionalnih sportista / Knee joint proprioception after anterior cruciate ligament tear in professional athletes Matijević Radmila 24 October 2014 (has links) <p>Ova studija je bila prospektivnog karaktera. Uz dopu&scaron;tenje etičkog komiteta Kliničkog centra Vojvodine istraživanje je sprovedeno na Klinici za ortopedsku hirurgiju i traumatologiju i obuhvatilo je 60 pacijenata mu&scaron;kog pola, koji su metodom slučajnog izbora na randomizirani način uključeni u ispitivanje, a koji se aktivno i profesionalno bave fudbalom, ko&scaron;arkom ili odbojkom,  primljenih na Kliniku za ortopedsku hirurgiju radi artroskopske rekonstrukcije pokidanog prednjeg ukr&scaron;tenog ligamenta. U ispitivanje su uključeni samo oni pacijenti koji su dali potpisani informisani pristanak da učestvuju u ispitivanju, koji su zadovoljii sve kriterijume za uključivanje i koji nisu imali niti jedan kriterijum za isključivanje iz studije. Kriterijumi za uključivanje u studiju  podrazumevali su sledeće: da je pacijent  primljen na Kliniku za ortopedsku hirurgiju i traumatologiju Kliničkog centra Vojvodine u Novom Sadu radi operativnog lečenja prekida prednjeg ukr&scaron;tenog ligamenta kolena, da je potpisao informisani pristanak za uključivanje, da je starosne dobi od 18 do 45 godina, da se aktivno i profesionalno bave fizičkom aktivno&scaron;ću regulisanom pravilima (fudbal, odbojka, ko&scaron;arka). Kriterijumi za isključivanje pacijenata iz istraživanja bili su sledeći: prisustvo udružene povrede i spolja&scaron;njeg pobočnog ligamenta koja zahteva operativno lečenje, pojava težih op&scaron;te – hirur&scaron;kih komplikacija, želja pacijenta da bude isključen iz daljeg ispitivanja, bez obaveze da tu svoju odluku obrazloži. U prvoj fazi konstruisan je aparat, digitalni goniometar, uz pomoć kojeg je urađen eksperimentalni deo ovog ispitivanja i napravljena je baza podataka sa poljima za upis deskriptivnih i antropometrijskih parametara. Potom je uz pomoć aparata svim ispitanicima testirana sposobnost propriocepcije (JPS). Testiranje  je obavljeno preoperativno na povređenom i nepovređenom ekstremitetu, u dva maha: odmah po zadavanju ciljnog ugla od 35° i nakon 5 minuta. Druga faza je obavljena minimum 6 meseci nakon operativnog lečenja, hirur&scaron;kom, artroskopskom rekonstrukcijom pokidanog prednjeg ukr&scaron;tenog ligamenta kost-tetiva-kost tehnikom (bone-tendo-bone, BTB). Klinički pregled  svakog pacijenta je podrazumevao proveru rezultata Lachman testa (pozitivan/negativan), Lysholm i IKDC bodovne skale za koleno i to preoperativno a potom i tokom postoperativnog kontrolnog pregleda. Po uzoru na mnoge sajtove renomiranih ortopedskih organizacija (http://www.orthopaedicscore.com/), naparavljen je on-line upitnik na Google drive-u gde su u elektronskom obliku prikupljani podaci za skale koje smo koristili. Dobijeni rezultati su za svaku skalu ponaosob potom prebacivani u Excel i dalje  obrađivani adekvatnim statističkim alatkama u adekvatnom programu. U rezultatima je uočeno da dobijena razlika u preciznosti pozicioniranja potkolenice sa o&scaron;tećenim ligamentarnim aparatom kolena u odnosu na nepovređenu nogu pre hirur&scaron;ke rekonstrukcije prednjeg ukr&scaron;tenog ligamenta ne pokazuje statistički značajnu razliku. Međutim, postojala je statistički značajna razlika u brzini kojom se postiže zadati ugao, tj. povređena noga imala je veći intenzitet ugaonog uspona &scaron;to ukazuje na kvalitativne razlike u samom obrascu pokreta. Takođe, na ovom uzorku dobijeno je da postoji statistički značajna razlika u preciznosti pozicioniranja potkolenice sa o&scaron;tećenim ligamentarnim aparatom kolena u odnosu na nepovređenu nogu nakon hirur&scaron;ke rekonstrukcije prednjeg ukr&scaron;tenog ligamenta tj. pacijenti su nakon rekonstrukcije statistički značajno »prebacivali« zadatu vrednost od 35°. Test pozicioniranja ekstremiteta za ovo ispitivanje konstruisanim aparatom se pokazao kao senzitivna i specifična dijagnostička procedura gubitka sposobnosti propriocepcije usled kidanja prednjeg ukr&scaron;tenog ligamenta.</p> / <p>In this prospective study examined group consisted  of  60  male  patients  with  an anterior  cruciate  ligament  tear  and  all participants   were   at   the   time   before injury   actively   playing   afootball, basketball  or  volleyball.  The  study  was conducted  at  the  Clinic  for  Orthopaedic Surgery    and    Traumatology    Clinical Center  of  Vojvodina  in  Novi  Sad  where participants       were      admitted   for arthroscopic ligament reconstruction. All participants  were  informed  of  the  study by   their   clinicians   and   gave   written consent. Thee exclusion criteria were the following:    occurrence    of    combined cruciate  ligament  with  lateral  collateral ligament   injury   that   required   surgical treatment;  occurrence  of  more  serious general    surgical complications; the patient’s  wish  to  be  excluded  from further  research  without  an  obligation  to give   any   further   explanation   to   his decision.  In  the  first  stage  of  the  study, an  apparatus  called  digital  goniometer was   constructed,   which   was   used   to conduct   the   experimental   part   of   the study,  and  a  database  with  fields  for inserting  descriptive  and  anthropometric parameters was made. Next, by using the apparatus,  all  subjects  were  tested  for proprioception  ability  (JPS).  The  tests were  performed  preoperatively  on  the injured  and  the  uninjured  limb  in  two instances:  straight  after  determining  the target   angle  of   35°  and   5   minutes afterwards.    The    second    stage    was performed  postoperatively  in  the  same maner,   following   a   minimal   6-month period    after    a    surgical    arthroscopic reconstruction    of    the    torn    anterior cruciate  ligament  by  bone-tendon-bone (BTB) technique. The clinical evaluation of  each  patient  involved  Lachman  test (positive / negative), Lysholm and IKDC scales,   first   pre-operatively   and   then during   post-operative  check  up assessment.  Following  the  example  of many  websites  or  eminent  orthopaedic organisations (http://www.orthopaedicscore.com/),   an online   survey   was   made   on   Google Drive,     where     data     was     collected electronically  for  the  scales  used.  The results were then transferred to Excel for each  scale,  to  be  further  processed  by using   adequate   statistic   tools   in   an adequate     programme.     The     results indicated  that,  when  compared  with  the uninjured  leg,  a  resulting  disparity  in precision  of  positioning  the  lower  leg with  a  damaged  ligament  apparatus  of the      knee      before      the      surgical reconstruction  of  the  anterior  cruciate ligament  was  not  considered  statistically significant.    However,    there    was  a statistically  significant  difference  in  the speed   of   attaining   a   specified   angle which indicates qualitative differences in the  motion  pattern  itself.  Furthermore, this     sample     study     resulted   in  a statistically  significant  difference  in  the precision   of   positioning   of   lower leg  with     the     damaged   knee  ligament apparatus         after   the   surgical reconstruction  of  the  anterior  cruciate ligament,    when    compared    with    the uninjured  leg,  i.e.  after   the reconstruction,  the  patients   had   a significantly   higher   degree   of   flexion than   the   targeted   35°.   The   test   for positioning  extremities,  performed  with the    specially    constructed    apparatus, proved  to  be  a  sensitive  and  specific diagnostic procedure for determining the loss  of  proprioceptic  ability  due  to anterior cruciate ligament tear.</p>
244	Poređenje rezultata primarne i ponovne rekonstrukcije prednje ukrštene veze kolena / Comparison between the primary and the revision anterior cruciate ligament reconstruction Kovačev Nemanja 07 September 2016 (has links) <p>Studija se sastojala od dva dela – eksperimentalnog i kliničkog. Eksperimentalni deo je sproveden na Fakultetu tehničkih nauka u Novom Sadu na Departmanu za mehanizaciju i konstrukciono ma&scaron;instvo. Trideset dve zglobne povr&scaron;ine gornjeg okrajka golenjače sa pripojem prednje ukr&scaron;tene veze je uzeto tokom totalne aloartroplastike kolena kod trideset dva pacijenta kod kojih je preoperativno načinjena AP i profilna radiografija sa standardnim uvećanjem u cilju merenja veličine kolena a uz prethodno potpisanu saglasnost pacijenata. Zatim je načinjeno trodimenzionalno skeniranje prostorne povr&scaron;ine pripoja prednje ukr&scaron;tene veze na golenjači u odnosu na ravan zglobne povr&scaron;ine golenjače heptičkim uređajem &bdquo;Phantom Omni®“ radi utvrđivanja korelacije između povr&scaron;ine pripoja prednje ukr&scaron;tene veze na golenjači i veličine platoa golenjače. U eksperimentalni deo su bili uključeni pacijenti oba pola metodom slučajnog izbora kod kojih je ugrađivana totalna proteza kolena a koji su prethodno potpisali informisani pristanak pacijenta na operativni zahvat na Klinici za ortopedsku hirurgiju i traumatologiju Kliničkog centra Vojvodine. Klinički deo studije je bio retrospektivno-prospektivnog karaktera i obuhvatio je ukupno 60 pacijenata izabranih metodom slučajnog izbora od kojih je ispitivanu grupu činilo 30 pacijenata u kojih je do&scaron;lo do ponovne rupture prednje ukr&scaron;tene veze levog ili desnog kolena nakon urađene primarne rekonstrukcije te je načinjena ponovna rekonstrukcija veze, i kontrolnu grupu koju je činilo 30 pacijenata u kojih je zbog rupture prednje ukr&scaron;tene veze načinjena primarna rekonstrukcija nakon koje nije do&scaron;lo do ponovne rupture. Kod svih pacijenata je rekonstrukcija prednje ukr&scaron;tene veze kolena rađena kalemom kost-tetiva-kost. Ishod rekonstrukcije je procenjivan na osnovu Tegner bodovne skale, Lysholm i IKDC bodovne skale za koleno, artrometrijskog merenja Lachman testa, Pivot shift testa, poloţaja kalema i urađeno je poređenje dobijenih rezultata u ispitivanoj (revizionoj) i kontrolnoj grupi. U klinički deo istraţivanja su bili uključeni pacijenti oba pola, ţivotne dobi od 18 do 40 godina koji su operisani na Klinici za ortopedsku hirurgiju i traumatologiju Kliničkog centra Vojvodine u Novom Sadu a koji su dali informisani pristanak za uključivanje. Kriterijumi za isključivanje pacijenata iz kliničkog dela istraživanja su bili životna dob manja od 18 i veća od 40 godina, pojava težih op&scaron;te-hirur&scaron;kih komplikacija i prestanak želje pacijenta da dalje učestvuje u ovom istraživanju. Nakon sveobuhvatne analize dobijenih rezultata istraţivanja, zaključeno je da postoji korelacija između povr&scaron;ine pripoja prednje ukr&scaron;tene veze na golenjači i veličine platoa golenjače. Formula, načinjena matematičko-statističkim metodama za ovo istraživanje, adekvatna je i praktično primenljiva za predikciju povr&scaron;ine pripoja prednje ukr&scaron;tene veze na golenjači u velikom procentu slučajeva a na osnovu samo dva radiografska parametra izmerenih preoperativno – prednje-zadnjeg i unutra&scaron;nje-spolja&scaron;njeg dijametra platoa golenjače. Kori&scaron;ćenje ove formule može da doprinese pobolj&scaron;anju rezultata hirur&scaron;kog lečenja pacijenata sa pokidanom prednjom ukr&scaron;tenom vezom kolena. Takođe, zaključeno je da je uzrok neuspeha primarne rekonstrukcije multifaktorijalan kao i da nema statistički značajne razlike u ishodu između ispitanika sa dobrom i ispitanika sa lo&scaron;om pozicijom kalema. Potvrđena je pretpostavka da je ishod ponovne rekonstrukcije prednje ukr&scaron;tene veze kolena slabiji u odnosu na ishod primarne.</p> / <p>This study consisted of two parts – experimental and clinical. Experimental part was conducted at the Department of Mechanization and Design Engineering of The Faculty of Technical Sciences, University of Novi Sad. Thirty two proximal tibial articular surfaces together with the anterior cruciate ligament insertion of thirty two patients were harvested during total knee arthroplasty. All patients had standard preoperative AP and profile radiographs with standard magnification in order to acquire the knee measurements. All patients previously signed the informed consent. The harvested proximal tibial articular surfaces were 3D scanned by a haptic device called &bdquo;Phantom Omni®“ in order to determine the correlation between the size of the anterior cruciate ligament insertion site and the size of the tibial plateau. Thirty two randomly chosen patients of both sexes which had a knee arthroplasty were included in the experimental part of this study. All of the patients signed the informed consent at The Clinic for Orthopedic Surgery and Traumatology of The Clinical Centre of Vojvodina. The clinical part was a retrospective-prospective study. This part included 60 randomly chosen patients divided into two groups. The test group consisted of 30 patients who had undergone a revision anterior cruciate ligament reconstruction. The control group consisted of 30 patients who had undergone only primary anterior cruciate ligament reconstruction. A bone-tendon-bone graft was used for the reconstruction in all cases. The outcome was assessed by using Tegner activity scale, Lysholm knee scoring scale, IKDC score, arthrometric evaluation, Pivot shift test and the position of the graft. The results were compared between the test group and the control group. The clinical part of the study included 60 patients of both sexes, age 18-40 which were operated at The Clinic for Orthopedic Surgery and Traumatology of The Clinical Centre of Vojvodina. All of the patients signed the informed consent for participation in this study. The exclusion criteria were age under 18 and above 40, occurrence of severe general surgical complications and a patient wish to be excluded from further investigation. After a thorough analysis of the results, we concluded that the correlation between the size of the anterior cruciate ligament tibial insertion site and the size of the tibial plateau exists. Formula which was created for this study by using mathematical and statistical methods, is adequate and practically applicable for the prediction of size of the anterior cruciate ligament tibial insertion site in the majority of cases based on just two preoperative radiographic parameters – AP and profile diameter of the tibial plateau. The use of this formula may improve the outcome of the anterior cruciate ligament reconstruction. We also concluded that the cause of the primary anterior cruciate ligament reconstruction failure is multifactorial as well as that there is no statistically significant difference between the patients with good and the patients with poor graft position. We confirmed the assumption that the outcome of the revision anterior cruciate ligament reconstruction is poorer than the outcome of the primary anterior cruciate ligament reconstruction.</p>
245	Utilisation de cellules souches médullaires en bioingénierie tissulaire du ligament / Use of bone marrow mesenchymal stem cell in bioengineering of ligaments Zhang, Lei 24 January 2008 (has links) Les ligaments jouent un rôle important dans le mouvement et la stabilité des articulations. Les accidents et la fatigue chronique sont les principales raisons des ruptures de ligaments qui n’ont généralement pas de capacité de guérison, ce qui conduit à de graves dysfonctionnements du ligament et des articulations. La construction des ligaments en bioingénierie donne un nouvel espoir thérapeutique. Pour construire un tel tissu, les cellules sont très importantes dans la mise en oeuvre de la construction d’un biotissu ayant de bonnes propriétés tant biologiques que mécaniques. Quelle source cellulaire et quel microenvironnement doivent être utilisés pour la reconstruction des ligaments ? L’objectif de ce travail était d’étudier la différenciation des cellules souches mésenchymateuses médullaires (CSMM) en fibroblaste. Pour ce faire, d’une part, nous avons co-cultivé des CSMM du rat sans contact avec des fibroblastes ligamentaires, et d’autre part, nous avons stimulé mécaniquement les CSMM. Un suivi des ARNm et des protéines associées caractéristiques des ligaments (collagènes I et III et ténascine-C) a été analysés. Nos résultats expérimentaux ont montré que la culture des CSMM dans un microenvironnement fibroblastique de ligaments ou l’étirement favorisent les synthèses de collagènes I et III et de ténascine-C dans les proportions proches des ligaments. L’ensemble de cette étude suggère qu’il est envisageable d’utiliser les CSMM comme source cellulaire, pour une application clinique, en ingénierie tissulaire du ligaments / Ligaments play an important role in the movement and stability of joints. Accidents and chronic fatigues are the main reasons for ligament lesion which usually is difficult for self healing and leads to serious dysfunction of ligaments and joints. The construction of bioengineering ligaments gives a new way to overcome this problem. Cells are very important in the construction of a biotissue with appropriate biological as well as mechanical properties. Which cellular source and microenvironment should be used for the reconstruction of ligaments? The objective of this work is to study the differentiation of bone marrow mesenchymal stem cell (BMSC) into fibroblast. We co-cultured indirectly rat BMSC with ligament fibroblasts or stimulated them by mechanical stretching. After that, the expressions of characteristics mRNA and protein of ligaments (collagen I, III and tenascin-C) have been analyzed. Our experimental results showed that the culture of BMSC in a microenvironment of ligament fibroblast or under stretching favored the syntheses of collagen I, III and tenascin-C in the proportions close to ligaments. In summary, these studies suggest it is feasible to use BMSC as cellular source for a clinical application in tissue engineering of ligaments Ingénierie tissulaire du ligament Ligament Ténascine-C CSMM Fibroblaste Co-culture sans contact Stretching Collagène I Collagène III Bioengineering of ligaments Collagen III Stretching Collagen I Ligament BMSC Fibroblast Indirect co-culture Tenascin-C
246	Prostorno određivanje položaja kalema u golenjači posle rekonstrukcije prednjeg ukrštenog ligamenta kolena / Determination of in-space position of tibial graft after reconstruction of anterior cruciate ligament of the knee Đuričin Aleksandar 12 June 2018 (has links) <p>Osnovni cilj rekonstrukcije prednjeg ukr&scaron;tenog ligamenta kolena je dobijanje pune stabilnosti kolena u celom obimu pokreta. Bez obzira na razvoj operativne tehnike i rehabilitacije i dalje postoji jedan broj pacijenata koji nije u potpunosti zadovoljan rezultatom rekonstrukcije prednjeg ukr&scaron;tenog ligamenta kolena, te je potrebno izvr&scaron;iti ponovnu operaciju. Smatra se da je najče&scaron;ći uzrok rane ponovne nestabilnosti lo&scaron;a pozicija kalema, tj. pozicija tunela koja nije na anatomskom mestu. Većina hirurga koji se bave ovom problematikom procenjuju poziciju kalema u golenjači na osnovu standardnih radiograma: prednje-zadnje i bočne projekcije, &scaron;to svakako nije dovoljno precizno. U ekonomski  razvijenim zemljama poziciju kalema određuju analizirajući snimke kompjuterizovane tomografije (CT) ili magnetne rezonance (MRI). Prvenstveno zbog smanjenja doze zračenja kojoj se izlažu pacijenti prilikom kompjuterizovane tomografije, ali i iz ekonomskih razloga bilo bi korisno razvijanje jednog lako dostupnog, jeftinog ali preciznog i jednostavnog metoda određivanja položaja kalema u golenjači. Osnovni cilj ovog istraživanja bio je da se dokaže značaj pozicije kalema u golenjači i mogućnost svakodnevne kliničke primene novorazvijenog kompjuterskog programa u cilju određivanja prostorne pozicije kalema u golenjači iz samo dva standardna radiograma. Studija je bila eksperimentalno-prospektivnog karaktera. Eksperimentalni deo istraživanja sproveden je na Fakultetu tehničkih nauka (FTN) u Novom Sadu na Departmanu za proizvodno ma&scaron;instvo gde je na osnovu standardnih RTG snimaka (prednje-zadnje i bočne projekcije) razvijen kompjuterski program za određivanje prostornog položaja kalema u golenjači. U cilju verifikacije novorazvijenog programa realizovano je prostorno određivanje položaja kalema u golenjači obradom standardnih RTG snimaka (prednje-zadnje i bočne projekcije) kod 10 pacijenata kod kojih je izvr&scaron;ena primarna rekonstrukcija prednjeg ukr&scaron;tenog ligamenta kolena. Dobijeni rezultati su upoređeni sa položajem kalema na CT snimcima koji su obezbeđeni za sve pacijente. Na taj način je eksperimentalnim putem utvrđena preciznost novorazvijenog softvera u određivanju prostornog položaja kalema u golenjači. Drugi deo istraživanja bilo je prospektivno kliničko ispitivanje koje je sprovedeno na Klinici za ortopedsku hirurgiju i traumatologiju Kliničkog centra Vojvodine u Novom Sadu. Ispitivanu grupu je činilo 120 pacijenata, oba pola, sa prekidom prednjeg ukr&scaron;tenog ligamenta levog ili desnog kolena. Metodom slučajnog izbora pacijenti su podeljeni u četiri grupe od po 30 pacijenata prema veličini sagitalnog ugla (S) bu&scaron;enja kanala u golenjači (S 60º-69,9º i S 70º-80º) i prema veličini transverzalnog ugla (T) bu&scaron;enja kanala u golenjači (T 60º-69,9º i T 70º-80º). Grupa I 30 pacijenata (S 60º-69,9º i T 60º-69,9º), grupa II 30 pacijenata (S 60º-69,9º i T 70º-80º), grupa III 30 pacijenata (S 70º-80º i T 60º-69,9º), grupa IV 30 pacijenata (S 70º-80º i T 70º-80º). Svi pacijenti su godinu dana nakon operacije pro&scaron;li klinička ispitivanja po bodovnim skalama (Tegner bodovna skala, Lysholm bodovna skala i IKDC standard) i artrometrijska merenja. Rezultati dobijeni merenjem položaja kalema u golenjači, kliničkim ispitivanjima i artrometrijskim merenjima poređani su unutar svake grupe posebno, a izvr&scaron;eno je i poređenje dobijenih rezultata između svih grupa. U ispitivanje su uključeni samo oni pacijenti koji su dali potpisani informisani pristanak da učestvuju u ispitivanju nakon detaljnog upoznavanja sa planiranom procedurom. Svaki pacijent je bio informisan o svrsi i načinu sprovođenja istraživanja, kao i o pregledima i merenjima koja će biti vr&scaron;ena. Statističkom analizom rezultata utvrđeno je da veličina gre&scaron;ke prostornog određivanja položaja kalema u golenjači posle rekonstrukcije prednjeg ukr&scaron;tenog ligamenta kolena novorazvijenim kompjuterskim programom nije statistički značajna, a kompjutersko određivanje položaja kalema u golenjači omogućava iste rezultate kao i CT snimci. Sumiranjem zaključaka nakon sveobuhvatne analize dobijenih rezultata istraživanja, može se zaključiti da pozicija kalema u golenjači posle rekonstrukcije prednjeg ukr&scaron;tenog ligamenta kolena utiče na postoperativni funkcionalni rezultat.</p> / <p>The main goal of reconstruction of the anterior cruciate ligament of the knee is to obtain complete knee stability in the full range of movement. Regardless of the development of operational techniques and rehabilitation, there is still a number of patients who are not completely satisfied with the result of reconstruction of the anterior cruciate ligament, and a re-operation is required. It is believed that the most common cause of the instability is the bad position of the graft, i.e. position of the tunnel that is not at the anatomical place insertion. Most surgeons who deal with this problem evaluate the position of the graft in the tibia based on standard radiograms: anterior-posterior and lateral projections, which is not precise enough. In economically developed countries, the position of the graft is determined by analyzing images of computerized tomography (CT) or magnetic resonance (MRI). Primarily due to a decrease in the radiation dose exposed to patients during computerized tomography, but also for economic reasons, it would be useful to develop an easily accessible, inexpensive but precise and simple method for determining the position of the graft in the tibia. The main goal of this examination was to prove the significance of the position of the graft and the possibility of daily clinical use of the newly developed computer program in order to determine in-space position of the graft in only two standard radiograms. The study was experimental-prospective. The experimental part of the research was conducted at the Faculty of Technical Sciences (FTN) in Novi Sad at the Department of Production Engineering, where a computer program for determining in-space position of the graft in the tibia was developed on the basis of standard RTG images (anterior-posterior and lateral projections). In order to verify the newly developed program, in-space determination of the position of the graft in the tibia by processing standard RTG images (anterior-posterior and lateral projections) was performed in 10 patients in which the primary reconstruction of the anterior cruciate ligament was performed. The obtained results were compared with the position of the grafts on CT images provided to all patients. In this way, the accuracy of newly developed software in determining in-space position of the graft in the tibia was determined experimentally. The second part of the study was a prospective clinical trial conducted at the Clinic for Orthopedic Surgery and Traumatology at the Clinical Center of Vojvodina in Novi Sad. The investigated group consisted of 120 patients, both sexes, with a break of the anterior cruciate ligament of the left or right knee. By random selection, patients were divided into four groups of 30 patients according to the size of the sagital angle (S) of the tunnel drilling in the tibia (S 60º-69,9º and S 70º-80º) and according to the transversal angle (T) of the drill tunnel in the tibia ( T 60º-69.9º and T 70º-80º). Group I 30 patients (S 60º-69.9º and T 60º-69.9º), group II 30 patients (S 60º-69.9º and T 70º-80º), group III 30 patients (S 70º-80º and Tº60º -69.9º), group IV 30 patients (S 70º-80º and T 70º-80º). All of the patients underwent clinical trials by scales (Tegner score scale, Lysholm score scale and IKDC standard) and arthrometric measurements one year after surgery. The results obtained by measuring the position of the graft in the tibia, clinical trials and arthrometric measurements were classified separately in each group, and obtained results were compared between all groups. The study included only those patients who gave signed informed consent to participate in the study after being thoroughly informed about planned procedure. Each patient was informed about the purpose and method of conducting the research, as well as the examinations and measurements to be performed. Statistical analysis of the results showed that the size of the error in measuring in-space determination of the position of the graft in tibia after reconstruction of the anterior cruciate ligament of the knee by a newly developed computer program was not statistically significant, and the computer determination of the position of the graft in the tibia provides the same results as the CT images. Summarizing the conclusions after a comprehensive analysis of the obtained results of the study, it can be concluded that the position of the graft in tibia after reconstruction of the anterior cruciate ligament affects the postoperative functional result.</p>
247	Anatomic intra-articular reconstruction of the cranial cruciate ligament in dogs: The femoral tunnel / Anatomische intra-artikuläre Rekonstruktion des vorderen Kreuzbandes beim Hund: Der femorale Bohrkanal Bolia, Amalia 09 May 2016 (has links) (PDF) Zielstellung: Die Ruptur des vorderen Kreuzbandes (VkB) ist die häufigste Ursache einer Lahmheit beim Hund. Im Gegensatz zu der Humanmedizin, wo die anatomische intraartikuläre Rekonstruktion des vorderen Kreuzbandes als Therapie der Wahl gilt, wird die intraartikuläre Rekonstruktion beim Hund nur selten durchgeführt und hat bis jetzt nicht dauerhaften Erfolg. Die anatomische Platzierung der Bohrkanäle ist bei Menschen für den Erfolg der Operation bei Menschen entscheidend. Erstes Ziel der Studie war die Bestimmung der radiologischen Lage des Zentrums des femoralen vorderen Kreuzbandursprungs beim Hund. Zweites Ziel war die Entwicklung und Erprobung eines Zielgerätes für die arthroskopisch-assistierte, anatomische vordere Kreuzbandrekonstruktion beim Hund. Material und Methode: A. Radiologische Studie: Die kraniale Begrenzung des femoralen Ursprungs des vorderen Kreuzbandes (VK) wurde mit einem röntgendichten Draht bei 49 Femora orthopädisch gesunder Hunde (KM > 20 kg) markiert. Anschließend wurde eine Computertomographie und 3D- Rekonstruktion jedes Femurs angerfertigt, anhand derer der Ursprung manuell segmentiert und das Zentrum berechnet wurde. Schließlich wurden, basierend auf den 3D-Modellen, virtuelle Röntgenbilder in zwei Ebenen berechnet. An diesen wurde die Position des berechneten Zentrums mit drei unterschiedlichen Methoden bestimmt (4x4-Gitterbox-Methode und prozentuale Position für die medio-laterale Projektion; Ziffernblattmethode für die disto-proximale Projektion). B. Zielgerät: Hintergliedmaßen (n = 12) von 6 Hundekadavern (KM ≥20 kg) wurden verwendet. Eine Gliedmaße jedes Kadavers wurde zufällig ausgewählt und die kaudo-kraniale Lage des Zentrums des vorderen Kreuzbandansatzes (vKBA) in medio-lateralen Röntgenbildern berechnet und anschließend auf ein justierbares Zielgerät übertragen. Unter arthroskopischer Kontrolle wurde das Zielgerät hinter der lateralen Kondyle eingehakt und ein Steinmann Pin von extra nach intraartikulär platziert. Die Position der resultierenden Bohrkanäle wurde sowohl röntgenologisch bestimmt als auch dreidimensional mit dem anatomischen Zentrum des vKBA der kontralateralen Hintergliedmaßen verglichen. Ergebnisse: A. Radiologische Studie: In der medio-lateralen Projektion befand sich das Zentrum des femoralen Kreuzbandursprungs im zweiten Rechteck von proximal in der kaudalen Spalte. Die mittlere prozentuale kaudo-kraniale und proximo-distale Position war 20,2 % (± 2,2), beziehungsweise 33,8% (± 3,7). Im disto-proximalen Röntgenbild lag in 97,6 % der Femora das Zentrum des femoralen Kreuzbandursprungs zwischen 14:00 und 15:00 Uhr. B. Zielgerät: In allen postoperativen Röntgenaufnahmen lagen die sechs Bohrkanäle im bzw. nahe dem Zentrum des vKBA. Die 3D- Messungen ergaben eine mediane Abweichung der Bohrkanalposition im Vergleich zum anatomischen Zentrum der kontralateralen Seite von 0,6 mm (Bereich:0,2– 0,9 mm). Schlussfolgerung: Die erarbeiteten Referenzwerte können für die Planung sowie die intra- und postoperative Kontrolle der femoralen Bohrung verwendet werden. Die Verwendung eines justierbaren Zielgerätes ermöglicht die präzise anatomische Platzierung des femoralen Bohrkanals für die intraartikuläre Rekonstruktion des vorderen Kreuzbandes. Die beschriebene Methode wird helfen, eine Fehlplatzierung des femoralen Bohrkanals im Zuge der intraartikulären vorderen Kreuzbandplastik zu reduzieren. In Kombination mit dem bereits beschriebenen tibialen Zielgerät sind nun die technischen Voraussetzungen für die arthroskopisch-assistierte anatomische vordere Kreuzbandplastik in der Tiermedizin gegeben. / Objective: Cranial cruciate ligament (CrCL) pathology is the most frequent cause of lameness in dogs. In contrast to human medicine, where anatomic reconstruction of the ACL is considered the treatment of choice, intra-articular repair in dogs is not commonly performed and until now has not met with enduring success. Accurate tunnel placement has been shown to be crucial in obtaining a successful outcome after anterior cruciate ligament reconstruction in humans. The first aim of our study was to define the radiographic location of the center of the femoral attachment of the CrCL in dogs, for the pre- operative planning as well as post-operative control of anatomical placement of the femoral tunnel. Second aim of the study was to develop and validate an aiming device for arthroscopic femoral tunnel placement. Materials and Methods: A. Radiographic study: Using femora from 49 adult, orthopedically sound dogs (BW ≥ 20 kg), a radiopaque marker was placed on the cranial border of the femoral footprint of the CrCL. Computed tomography and 3D reconstruction of each femur was performed subsequently, followed by manual segmentation of the footprint on the 3D models and calculation of its center. Finally, virtual digital radiographs in two planes were produced and the location of the calculated center of the CrCL was expressed using three different methods (4x4 box grid method and percentage position for the medio-lateral projection; o’clock position for the disto-proximal projection). B. Aiming device: Hindlimbs (n=12) of 6 cadaveric dogs weighing ≥20 kg were used. One hindlimb from each cadaver was randomly chosen and the caudo- cranial position of the CrCL center was calculated, on standard medio-lateral stifle radiographs, and transferred onto to an adjustable aiming device. During stifle arthroscopy the aiming device was inserted and guide pin placed from extra-to-intra-articular. The position of the resulting bone tunnel was evaluated on stifle radiographs and also compared with the anatomic center of each contralateral hindlimb, in the three dimensional (3D) space. Results: A. Radiographic study: In the medio-lateral radiographs the center of the femoral footprint was consistently located in the second rectangle from the top of the most caudal column of the 4x4 grid. The mean percentage caudo- cranial and proximo-distal location was 20.2% (± 2.2) and 33.8% (± 3.7), respectively. In the disto-proximal radiograph, the o’clock position of the CrCL center was between 2 and 3 o’clock in 97.6% of the femora. B. Aiming device: According to the postoperative radiographs, the location of all 6 intra-articular tunnel openings was consistent with the results of the radiographic study. In 3D space, arthroscopic femoral drilling resulted in a median deviation of the drill tunnels of 0.6 mm around the CrCL center. All tunnel openings were located within the CrCL insertion. Conclusions: The reported data can be used to plan and verify the placement of the femoral tunnel opening during intra-articular anatomic CrCL repair. The use of the aiming device suggests that arthroscopic femoral tunnel placement can be achieved with high precision. The measurement for the device can be derived from a standard medio-lateral radiograph of the stifle, which is part of the diagnostic work up of every dog with lameness localized in the stifle. The proposed technique may reduce femoral tunnel misplacement when performing intra-articular CrCL repair in dogs. In combination with the described technique for arthroscopic tibial tunnel drilling, arthroscopic assisted anatomic reconstruction of the CrCL in dogs can be achieved. vorderer Kreuzbandriss Kniegelenk Hund intraartikulärer Kreuzbandersatz femorale Bohrung cranial cruciate ligament rupture stifle dog femoral drill tunnel ddc:636.089
248	Development and validation of an evidence based educational program for adults undergoing anterior cruciate ligament reconstruction surgery in the United Arab Emirates Alzaabi, Hana 03 1900 (has links) Thesis (MScPhysio (Physiotherapy))--University of Stellenbosch, 2010. / Patients’ knowledge about the effectiveness of interventions is now recognized as an important facilitator of the implementation of evidence in practice. Evidence-based, patient education programs aim to impart knowledge about the efficacy and effectiveness about interventions to individuals. However, there is currently a lack of structured evidence-based educational programs to educate patients about the evidence-base for interventions prescribed by the health professionals in the field of orthopaedics. OBJECTIVE: The main objective of this study was to develop and validate an Arabic version of an evidence-based educational program for patients who are scheduled to undergo ACL reconstruction surgery in UAE, based on available evidence collated through a systematic review process. METHODS: A systematic review was conducted to generate clinical recommendations which were used to develop the evidence-based educational program. The evidence-based information was derived from secondary research to determine which rehabilitation strategies were most effective in improving outcome measurements following ACL reconstruction surgery. A pre-final draft of the evidence-based educational program was prepared and forward and back translated from English into the Arabic language. Feedback groups of ACL patients and physiotherapists were used to determine the content and face validity of the program. The final draft was validated in a group of 40 ACL patients waiting to undergo ACL reconstruction surgery at Zayed Military hospital and Abu Dhabi Knee and Sports Medicine Centre in the UAE, using checklists. RESULTS: A total of 40 patients undergoing ACL reconstruction surgery consented to participate in this study. All the subjects were male. The age range was between 18 to 38 years old with mean age of 28.5 years (SD 5.75). Most of the patients (65%) underwent ACL reconstruction surgery to the right knee. Of the total sample (n=40), the majority of the subjects who participated in this study (90 %), had ACL surgery for the first time. Most of the responses to the evidence-based educational program checklist were positive. iv CONCLUSION: It can be recommended that the newly-developed evidence-based educational program is a valid tool which can be given to ACL patients prior to ACL reconstruction to prepare them for the rehabilitation postoperatively. By informing patients of their condition, the expected outcomes of their condition and the effect of doing exercises to improve their condition, the patients will be more encouraged to partake in rehabilitation, as they know it is for their own good. This will ultimately improve overall patient care and improve management of ACL patients. Knee ligament Physiotherapy Educational program Validation Physiotherapy
249	Vergleichende lichtmikroskopische Untersuchung von gesundem und erkranktem parodontalem Ligament (PDL) des Menschen / Light microscopic study of human periodontal ligament (PDL) by comparing healthy and disseased tissue Schories, Hauke 16 September 2014 (has links) No description available. 610 PDL parodontales Ligament Lichrmikroskopie gesund erkrankt Parodontitis Kollagen PDL periodontal ligament periodontitis healthy diseased light microscopy collagen
250	Ingénierie tissulaire des ligaments : conception d'un bioréacteur et étude des propriétés mécaniques / Tissue engineering of ligaments : bioreactor design and study of the mechanical properties Kahn, Cyril 02 February 2009 (has links) L’ingénierie tissulaire vise à l’élaboration de prothèses biologiques par la régénération ou la culture, in vitro ou in vivo, de tissus ou d’organes. Dans la stratégie de culture in vitro, le développement de nouveaux outils, tels que des bioréacteurs, permettant la culture de cellules ou de tissus sous sollicitations mécaniques spécifiques au tissu est primordial. De plus, l’avancée de cette discipline dans la régénération des tissus nécessite de développer, dès à présent, des méthodes d’évaluation mécanique satisfaisantes permettant de comparer ces néo-tissus aux tissus sains selon des critères de sollicitations physiologiques. En effet, pour parvenir à une bonne évaluation de ces matériaux, il est nécessaire de pouvoir les tester sur des chargements représentatifs des sollicitations physiologiques auxquelles ils sont soumis. Nous avons ainsi, dans un premier temps, conçu et développé un bioréacteur de ligaments permettant la culture de cellules stimulées mécaniquement par des sollicitations cycliques de traction-torsion. Ce bioréacteur a été dimensionné afin de pouvoir obtenir des bio-prothèses de taille comparable aux ligaments et tendons à remplacer (4 à 5 cm de long). Nous avons, dans un deuxième temps, développé un modèle du comportement mécanique global de ces tissus à partir du formalisme thermodynamique développé au sein de notre laboratoire et des observations faites sur des tendons d’Achille de lapin. Ce modèle a pour but d’approfondir la compréhension des structures intervenant de façon prépondérante dans la qualité mécanique de ces tissus ainsi que l’évaluation et l’optimisation des matrices de support et des néo-tissus devant s’y substituer / Tissue Engineering aims to fabricate bio-prostheses by regenerating or culture, in vivo or in vitro, tissues or organs. In the in vitro strategy, developing new tools such as bioréactors which allow the culture of cells or tissues under their specific mechanical solicitations is a huge point. Moreover, the last advances of this discipline in regeneration of tissues require new mechanical model allowing their evaluation and comparison to native tissue under physiological loading. Indeed, in order to obtain a good evaluation of their mechanical quality, it is important to be able to applied mechanical solicitations linked to physiological ones. As a first step, a bioreactor of ligament allowing the culture of cells under mechanical solicitations of cyclic traction-torsion was designed and developed. This bioreactor was sized to potentially obtain a bio-prosthesis comparable to native tissue in term of size (4 to 5 cm long). In a second time, a mechanical model was elaborated based on a thermodynamic formalism developed in our laboratory and the observation made on rabbit Achilles tendons. The goals of this model are to improve our knowledge on the mayor structures involved into the mechanical quality of theses tissues and to evaluate and optimise the scaffolds and neo-tissues of substitution Ingénierie tissulaire Matrice de support Culture in vitro Relaxation Chargement cyclique Modèle mécanique Bioréacteur Ligament Tendon Tissue Engineering Relaxation Scaffold Tendon Ligament Bioreactor Mechanical model Cyclic loading In vitro culture

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