DOCSLIB.ORG

The Influence of Technique on Throwing Performance and Injury Risk in Javelin Throwers

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The Influence of Technique on Throwing Performance and Injury Risk in Javelin Throwers View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Carolina Digital Repository THE INFLUENCE OF TECHNIQUE ON THROWING PERFORMANCE AND INJURY RISK IN JAVELIN THROWERS Steven Leigh A dissertation submitted to the faculty of the University of North Carolina at Chapel Hill in partial fulfillment of the requirements for the degree of Doctor of Philosophy in the Curriculum of Human Movement Science. Chapel Hill 2012 Approved by: Bing Yu, PhD Jesus Dapena, PhD Michael Gross, PT, PhD Li Li, PhD Joseph Myers, PhD, ATC ABSTRACT STEVEN LEIGH: The Influence of Technique on Throwing Performance and Injury Risk in Javelin Throwers (Under the direction of Bing Yu) The overall objective of this dissertation was to understand the effects of elite javelin throwers’ techniques on their athletic performance and their risk for injury. Javelin throwing is a complex, multi-joint task that requires great coordination, muscular strength, and control to generate the forces necessary to propel implements at high velocities. A javelin thrower’s technique has crucial effects on the release variables that determine their performance. The need to generate high release speeds means that javelin throwing techniques exert significant musculoskeletal stress to multiple joints, which may cause acute and overuse injuries. Since an athlete’s technique affects both their performance and their injury risk, it is necessary to understand the inter-relationships between technique, performance, and injury in throwing events, such as the javelin. Three-dimensional kinematic and kinetic data were reduced from the video images of elite javelin throwers competing in the USA Track and Field National Outdoor Championships. Cross-sectional and longitudinal, subject-specific statistical analyses were performed to investigate the relationships between javelin throwing technique and performance, to further investigate potential risk factors for injuries, to investigate the differences in technique between injured and uninjured athletes, and to classify technique variables based on their relationship with performance or injury. ii Technique variables that were associated with differences in performance and injury were identified. Differences were found between males and females, and for specific subjects. These differences do not mean that javelin throwing technique was different between genders or subjects. In general, it is important for javelin throwers to effectively transfer run-up momentum and throwing arm action into great release speed, and to control the release. Great joint forces were observed in javelin throwers, were associated with movements of the shoulder and elbow, and are the mechanism for javelin throwing injury. Some technique variables were identified that were only associated with either performance or injury. These variables may be modified to improve performance without increasing injury risk, or to decrease injury risk without affecting performance. For technique variables that affect both injury prevalence and performance, other training methods and treatments may be necessary to allow for improved performance without increased injury risk. iii ACKNOWLEDGEMENTS This project was financially supported by USA Track & Field, a Smith Graduate Research Grant from the Graduate School at The University of North Carolina at Chapel Hill, and a Matching Dissertation Grant from The International Society of Biomechanics. iv TABLE OF CONTENTS LIST OF TABLES......……...………………...………….....…............................................. vii LIST OF FIGURES……..…………………………............................................................... ix LIST OF ABBREVIATIONS AND SYMBOLS...……….....……………...……............…. xi Chapter I. INTRODUCTION............................................................................................................ 1 Background and Significance…...……………................……..................…..........……. 1 Statement of the Problem…..………………….................…......................….........…… 7 Specific Aims of the Dissertation.…..………………...............…........…....……........… 8 Definitions of Key Terms..……………....……..........………...........………........……. 10 II. REVIEW OF LITERATURE…………............…………………………….........……. 15 Javelin Throwing Technique............................................................................................ 15 Javelin Throwing Performance........................................................................................ 22 Biomechanical Factors that Affect Performance in Javelin Throwing............................ 24 The Influence of Technique on Javelin Throwing Performance..................................... 41 Injuries in Over-arm Throwing........................................................................................ 44 The Influence of Technique on Javelin Throwing Injuries.............................................. 54 v III. METHODS………………………………...........………………........…………........... 55 Subjects............................................................................................................................ 55 Data Collection................................................................................................................ 57 Data Reduction................................................................................................................. 62 Data Analysis................................................................................................................... 75 IV. RESULTS..………………………………................……………………….................. 82 Injury Survey................................................................................................................... 82 Kinematic Data Screening............................................................................................... 83 Technique and Performance….…................................................................................... 84 Technique and Injury……............................................................................................... 93 V. DISCUSSION………………………….……………………………............................. 98 Technique and Performance...………………................................................................. 98 Technique and Injury...................................................................................................... 122 Limitations & Future Studies.....…................................................................................ 144 Summary........................................................................................................................ 147 Tables………......................................................................................................................... 149 Figures……........................................................................................................................... 178 References……...................................................................................................................... 210 vi LIST OF TABLES Table 3.1 Subject Demographics........................................................................................ 149 4.1 Injury Survey...................................................................................................... 150 4.2 Inter- and Intra-Rater Reliability........................................................................ 151 4.3 Female Performance Correlations...................................................................... 153 4.4 Male Performance Correlations…...................................................................... 154 4.5 Female Official Distance Multiple Regression................................................... 155 4.6 Male Official Distance Multiple Regression...................................................... 156 4.7 Female Release Speed Multiple Regression....................................................... 157 4.8 Male Release Speed Multiple Regression.......................................................... 158 4.9 Female Aerodynamic Distance Multiple Regression......................................... 159 4.10 Male Aerodynamic Distance Multiple Regression............................................. 160 4.11 Longitudinal Subject’s Descriptive Statistics………......................................... 161 4.12 Subject F1 Performance Correlations................................................................. 162 4.13 Subject F2 Performance Correlations................................................................. 163 4.14 Subject F3 Performance Correlations................................................................. 165 4.15 Subject M1 Performance Correlations................................................................ 167 4.16 Subject M2 Performance Correlations................................................................ 168 4.17 Subject M3 Performance Correlations................................................................ 169 4.18 Shoulder and Elbow Forces and Torques........................................................... 170 4.19 Shoulder and Elbow Force and Torque Correlations…...............…….............. 171 vii 4.20 Injured Females Technique Differences…………………................................. 172 4.21 Injured Males Technique Differences…………………………........................ 173 4.22 Female Technique Groupings for Performance or Injury……........................... 174 4.23 Male Technique Groupings for Performance or Injury…............….................
Load more

Recommended publications
  • Of All SPORTS Territory of All SPORTS CONTENTS
    Territory of all SPORTS Territory of all SPORTS CONTENTS Mulhouse Alsace Urban Area (m2A), at the crossroads of Europe ..................................................04 Sports area / Plaine Sportive de l’Ill .....................................08 A whole host of premium sports facilities Ill Stadium Alsace Regional Sports Center High performance Swimming Training Center Illberg Water Sports and Swimming Stadium Mulhouse Olympic Skating Rink Sports area / Palais des Sports Gilbert Buttazzoni Sports area / Plaine Sportive du Waldeck ..........................20 A wide range of leisure facilities Canoe-Kayak, Rowing and Sailing Centers ........................ 22 3 ultra-specialised facilities Training, recuperation, relaxation ..........................................24 See the film 6 water sports sites designed for you m2A, territory of all sports on mulhouse-alsace.fr/sport-premium m2A, territory of all sports .....................................................26 02 03 MULHOUSE ALSACE URBAN AREA AT THE EUROAIRPORT MULHOUSE TGV / MAIN HIGHWAYS CROSSROADS Basel-Mulhouse-Fribourg HIGHSPEED TRAIN STATION via the A35 and A36 30 km from Mulhouse direct trains from Zurich - OF EUROPE Marseille - Lyon - Paris - CDG 1:30 BERLIN 1:40 LONDON EuroAirport TGV / highspeed train station Heathrow 1:30 AMSTERDAM 1:15 550 flights a week PARIS in 2 hrs 40: 11 round trips a day 3 EuroVelo (EV) cycling routes: BRUSSELS 100 international destinations LYON: 6 round trips a day EV 6 (River Route) 9 million passengers a year MARSEILLE: 3 round trips a day EV 5 (Via Roma Francigéna) 3:03 ZURICH: 6 round trips a day EV 15 (The Rhine Cycle Route) FRANKFURT 2:40 PARIS Gare de Lyon 1:10 PARIS Roissy 46’ STRASBOURG 41’ FRIBOURG 1:40 VIENNA m2A has a wide range of educational and MULHOUSE 20’ BASEL training facilities •All educational levels: secondary schools and a university.
    [Show full text]
  • Sports History in the British Library: Selected Titles
    SPORT & SOCIETY The Summer Olympics and Paralympics through the lens of social science www.bl.uk/sportandsociety Sports history in the British Library: selected titles Any analysis of sport, sporting events and sports governance must inevitably take into account the historical events which underpin them. For sports researchers, the British Library has an unrivalled collection of resources covering all aspects of the subject and in many different media, from books describing sporting events, to biographies and autobiographies of grass roots and elite athletes; coaching manuals; sport yearbooks and annual reports; directories of athletics clubs; sports periodicals; newspaper reports; and oral history interviews with sports people, including Olympians and Paralympians. These materials cover a long period of sporting activity both in Great Britain and elsewhere in the world. Some early materials As a glance at the earliest editions of the British Museum Library subject index show, the term ‘sport’ in the 18th century (and for much of the nineteenth) usually referred to blood sports. Nevertheless the existence of such headings as Rowing, Bowls, Cricket, Football, and Gymnastics in these early indexes point to a longstanding role for sport -as currently understood - in British social life. As was the case in ancient times, sports might originate as forms of preparation for war (from 1338, when the Hundred year’s war with France began, a series of English kings passed laws to make football illegal for fear that it would consume too much of the time set aside for archery practice); but they could also represent the natural human desire for friendly competition, so that alongside the jousting of the elite, games like bowling, stool ball and football could hold important places in the lives of ordinary people.
    [Show full text]
  • 2013 World Championships Statistics - Men’S JT by K Ken Nakamura
    2013 World Championships Statistics - Men’s JT by K Ken Nakamura The records to look for in Moskva: 1) Thorkildsen or Pitkamaki can be the second (after Zelezny) to win multiple golds in this event at the World Championships. All time Performance List at the World Championships (new Javelin) Performance Performer Distance Name Nat Pos Venue Year 1 1 92.80 Jan Zelezny CZE 1 Edmonton 2001 2 2 91.31 Aki Parviainen FIN 2 Edmonton 2001 3 3 90.82 Kimmo Kinnunen FIN 1 Tokyo 1991 4 90.76 Jan Zelezny 1qB Edmonton 2001 5 4 90.33 Tero Pitkämaki FIN 1 Osaka 2007 6 90.12 Jan Zelezny 1qB Göteborg 1995 7 5 89.95 Kostas Gatsioudis GRE 3 Edmonton 2001 8 6 89.59 Andreas Thorkildsen NOR 1 Berlin 2009 9 89.58 Jan Zelezny 1 Göteborg 1995 10 89.52 Aki Parviainen 1 Sevilla 1999 11 89.18 Kostas Gatsioudis 2 Sevilla 1999 12 88.61 Andreas Thorkildsen 2 Osaka 2007 13 88.48 Kimmo Kinnunen 1qA Tokyo 1991 14 7 88.40 Marius Corbett RSA 1 Athinai 1997 15 8 88.12 Seppo Räty FIN 2 Tokyo 1991 16 87.97 Kostas Gatsioudis 1qB Sevilla 1999 17 87.81 Kostas Gatsioudis 1qA Edmonton 2001 18 87.67 Jan Zelezny 3 Sevilla 1999 19 9 87.60 Boris Henry GER 2qB Göteborg 1995 20 10 87.37 Vadim Vasilevskis LAT 1qB Osaka 2007 21 87.34 Seppo Räty 1qB Tokyo 1991 22 11 87.17 Andrus Värnik EST 1 Helsinki 2005 23 12 87.08 Vladimir Sasimovich URS 3 Tokyo 1991 24 13 87.00 Breaux Greer USA 4 Edmonton 2001 25 14 86.80 Steve Backley GBR 2 Athinai 1997 26 15 86.78 Bob Greer 1qA Osaka 2007 27 86.69 Vadims Vasilevskis 1qB Berlin 2009 28 86.64 Kostas Gatsioudis 3 Athinai 1997 29 16 86.54 Mick Hill GBR
    [Show full text]
  • Guide to Sport Invention3
    THE INSTITUTE FOR AESTHLETICS GUIDE TO SPORT INVENTION! Hello! If you are reading this you have had the unfortunate pleasure to sit through an Institute for Aesthletics workshop on sport design! Now you must read through this resource packet! We here at the Institute do not believe so much in formal thought so we will try to keep this packet as useful and unlaborious as possible. That being said, we have many helpful insights on sport design that we would love to share with you. Since we may have reviewed many of these pointers, this guide both serves as a refresher and also expands on some ideas only touched on at the workshop. Introduction Why Invent New Sports? Why would you invent a new sport when there are already so many great sports out there like Underwater Ice Hockey, Wife Carrying, and Volleyball? The list is endless! So what is the point when we already have these great games? Well, the thing is, while it is great to be able to just go outside and play a sport like ski jumping or synchronized swimming without having to “invent” anything, the labor of making up a game is actually worthwhile and fun. To see how fun and, gasp, how educational sport invention is, we can turn to the foremost experts of sport inventors: children. Children invent sports all the time, at least they used to before Play Station. When I was a young lad, growing up in the hardscrabble streets of an upper middle class Brooklyn neighborhood, we were forced to make up our own fun.
    [Show full text]
  • Maximising Ball Release Speed in Overhead Throwing Through Optimising Arm Segment Masses
    MAXIMISING BALL RELEASE SPEED IN OVERHEAD THROWING THROUGH OPTIMISING ARM SEGMENT MASSES A thesis submitted for the degree of Doctor of Philosophy by Patrick Fasbender Department of Life Sciences, Brunel University London 28 September 2017 Abstract The tapering distribution of segment masses in the human arm helps in the generation of high ball release speeds in overarm throwing. However, the masses of the individual arm segments might not be optimal; arm segment masses could be optimised in order to improve throwing performance. The aim of this project was to identify and understand the optimal upper arm mass that results in the highest ball release speed in overarm throwing. The first study was a theoretical study, using a simple two-segment model of the arm to determine the optimal combination of arm segment masses that maximises ball release speed. This simplified throw was chosen to identify the basic mechanism causing changes in ball release speed with a heavier upper arm mass. The study identified that there is an optimal upper arm mass, but this optimum depends on the forearm mass and the shoulder torque. Furthermore, the study showed that a heavier forearm mass produces a lower ball release speed. An experimental approach was used in the second study to analyse the effect of additional upper arm mass on ball release speed and throwing mechanics in an overarm throw similar to that used by baseball pitchers. However, group analysis of the ball release speed did not reveal an optimal upper arm mass, and most of the kinematic, kinetic, and temporal variables were not affected by additional upper arm mass.
    [Show full text]
  • Aline De Oliveira Gomes a Evolução Histórica Do
    UNIVERSIDADE ESTADUAL PAULISTA “JÚLIO DE MESQUITA FILHO” INSTITUTO DE BIOCIÊNCIAS - RIO CLARO LICENCIATURA PLENA EM EDUCAÇÃO FÍSICA ALINE DE OLIVEIRA GOMES A EVOLUÇÃO HISTÓRICA DO LANÇAMENTO DO DARDO: BASE PARA O ENSINO DO ATLETISMO EM AULAS DE EDUCAÇÃO FÍSICA Rio Claro 2010 1 ALINE DE OLIVEIRA GOMES A EVOLUÇÃO HISTÓRICA DO LANÇAMENTO DO DARDO: BASE PARA O ENSINO DO ATLETISMO EM AULAS DE EDUCAÇÃO FÍSICA Orientadora: SARA QUENZER MATTHIESEN Trabalho de Conclusão de Curso apresentado ao Instituto de Biociências da Universidade Estadual Paulista “Júlio de Mesquita Filho” - Câmpus de Rio Claro, para obtenção do grau de Licenciatura Plena em Educação Física. UNESP – CAMPUS RIO CLARO 2010 796.4 Gomes, Aline de Oliveira G633e A Evolução Histórica do Lançamento do Dardo: Base para o Ensino do Atletismo em Aulas de Educação Física / Aline de Oliveira Gomes. - Rio Claro : [s.n.], 2010 104 f. : il., figs., tabs. Trabalho de conclusão (licenciatura - Educação Física) - Universidade Estadual Paulista, Instituto de Biociências de Rio Claro Orientador: Sara Quenzer Matthiesen 1. Atletismo 2. História do esporte. 3. Campo escolar. 4. Material didático. I. Título. Ficha Catalográfica elaborada pela STATI - Biblioteca da UNESP Campus de Rio Claro/SP 1 Dedico este trabalho a meus pais José Valter e Maria Helena, meus anjos. 2 AGRADECIMENTOS Agradecer por tudo ue devo agradecer, certamente impossível, ainda mais com poucas palavras... Porm não eistiria uantidade de páginas ue pudessem contar todo o agradecimento e carinho ue tenho por todos ue foram tão importantes nesses uatro anos... Gostaria de agradecer primeiramente a Deus, por tudo. Sou muito grata por minha vida e pelas pessoas ue fazem parte dela.
    [Show full text]
  • 2012 European Championships Statistics – Men's 100M
    2012 European Championships Statistics – Men’s 100m by K Ken Nakamura All time performance list at the European Championships Performance Performer Time Wind Name Nat Pos Venue Year 1 1 9.99 1.3 Francis Obikwelu POR 1 Göteborg 20 06 2 2 10.04 0.3 Darren Campbell GBR 1 Budapest 1998 3 10.06 -0.3 Francis Obikwelu 1 München 2002 3 3 10.06 -1.2 Christophe Lemaitre FRA 1sf1 Barcelona 2010 5 4 10.08 0.7 Linford Christie GBR 1qf1 Helsinki 1994 6 10.09 0.3 Linford Christie 1sf1 Sp lit 1990 7 5 10.10 0.3 Dwain Chambers GBR 2 Budapest 1998 7 5 10.10 1.3 Andrey Yepishin RUS 2 Göteborg 2006 7 10.10 -0.1 Dwain Chambers 1sf2 Barcelona 2010 10 10.11 0.5 Darren Campbell 1sf2 Budapest 1998 10 10.11 -1.0 Christophe Lemaitre 1 Barce lona 2010 12 10.12 0.1 Francis Obikwelu 1sf2 München 2002 12 10.12 1.5 Andrey Yepishin 1sf1 Göteborg 2006 14 10.14 -0.5 Linford Christie 1 Helsinki 1994 14 7 10.14 1.5 Ronald Pognon FRA 2sf1 Göteborg 2006 14 7 10.14 1.3 Matic Osovnikar SLO 3 Gö teborg 2006 17 10.15 -0.1 Linford Christie 1 Stuttgart 1986 17 10.15 0.3 Dwain Chambers 1sf1 Budapest 1998 17 10.15 -0.3 Darren Campbell 2 München 2002 20 9 10.16 1.5 Steffen Bringmann GDR 1sf1 Stuttgart 1986 20 10.16 1.3 Ronald Pognon 4 Göteb org 2006 20 9 10.16 1.3 Mark Lewis -Francis GBR 5 Göteborg 2006 20 9 10.16 -0.1 Jaysuma Saidy Ndure NOR 2sf2 Barcelona 2010 24 12 10.17 0.3 Haralabos Papadias GRE 3 Budapest 1998 24 12 10.17 -1.2 Emanuele Di Gregorio IA 2sf1 Barcelona 2010 26 14 10.18 1.5 Bruno Marie -Rose FRA 2sf1 Stuttgart 1986 26 10.18 -1.0 Mark Lewis Francis 2 Barcelona 2010
    [Show full text]
  • The Determinants and Development of Fast Bowling Performance in Cricket
    The Determinants and Development of Fast Bowling Performance in Cricket Simon A. Feros This thesis is submitted in total fulfilment of the requirements for the degree of Doctor of Philosophy (Human Movement) School of Health Sciences Federation University Australia P.O. Box 663 University Drive, Mount Helen Ballarat Victoria 3353 Australia Submitted September 2015 Page | i Abstract This thesis sought to reveal the physical and kinematic determinants of pace bowling performance. After drawing on these determinants, a secondary aim was to investigate whether pace bowling performance could be enhanced with chronic resistance training and warm-up strategies. However, before the physical and kinematic determinants of pace bowling performance could be identified, and the effects of two training interventions and warm-ups on pace bowling performance, a new pace bowling test was created, and the test-retest reliability of its performance and kinematic measures were evaluated. Knowledge of a variables’ test-retest reliability is important for interpreting the validity of correlations, but also for the determination of a meaningful change following a training intervention. Only one published study to date has explored the test-retest reliability of a pace bowling assessment, and this test only measured bowling accuracy (1). Previous research has not comprehensively examined the relationships between physical qualities and pace bowling performance. Several important physical qualities (e.g., power, speed-acceleration, flexibility, repeat-sprint ability) have been excluded in correlational research, which may be crucial for optimal pace bowling performance. Furthermore, there is only one published training intervention study on pace bowling research (2). Consequently there is scant evidence for coaches to design training programs proven to enhance pace bowling performance.
    [Show full text]
  • Qualification START LIST Javelin Throw MEN Karsintakilpailu
    10th IAAF World Championships in Athletics Helsinki From Saturday 6 August to Sunday 14 August 2005 Javelin Throw MEN Keihäänheitto MIEHET ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHL Qualification START LIST Karsintakilpailu OSANOTTAJALUETTELO ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETIC ATHLETI Qualification standard 81.00 or at least best 12 qualified 1 2 Group A 9 August 2005 11:30 Ryhmä A START BIB COMPETITOR NAT YEAR Personal Best 2005 Best 1 379 Mark FRANK GER 77 83.24 82.38 2 364 Nick NIELAND GBR 72 85.09 79.56 3 840 Shaka SOLA SAM 77 4 870 Stefan MÜLLER SUI 79 78.98 78.98 5 817 Sergey MAKAROV RUS 73 92.61 90.33 6 873 Marián BOKOR SVK 77 83.38 77.79 7 698 Andreas THORKILDSEN NOR 82 87.66 87.66 8 483 Francesco PIGNATA ITA 78 81.67 81.67 9 896 Gabriel WALLIN SWE 81 80.71 80.31 10 301 Aki PARVIAINEN FIN 74 93.09 83.79 11 950 Oleg STATSENKO UKR 80 79.44 78.02 12 180 Guillermo MARTÍNEZ CUB 81 84.06 84.06 13 611 Tomas INTAS LTU 81 82.94 82.04 14 899 Firas AL-MOHAMED SYR 77 80.50 15 602 Eriks RAGS LAT 75 86.47 82.35 16 434 Gergely HORVÁTH HUN 75 81.55 80.91 Group B 9 August 2005 13:05 Ryhmä B START BIB COMPETITOR NAT YEAR Personal Best 2005 Best 1 536 Yukifumi MURAKAMI JPN 79 81.71 79.79 2 450 Vadim BAVIKIN ISR
    [Show full text]
  • START LIST Javelin Throw Men - Final
    London World Championships 4-13 August 2017 START LIST Javelin Throw Men - Final RECORDS RESULT NAME COUNTRY AGE VENUE DATE World Record WR 98.48 Jan ZELEZNÝ CZE 30 Jena (Abbe Sport Ground) 25 May 1996 Championships Record CR 92.80 Jan ZELEZNÝ CZE 35 Edmonton (Commonwealth Stadium) 12 Aug 2001 World Leading WL 94.44 Johannes VETTER GER 24 Luzern (Stadion Allmend) 11 Jul 2017 12 August 2017 20:15 START TIME ORDER NAME COUNTRY DATE of BIRTH PERSONAL BEST SEASON BEST 1 Keshorn WALCOTT TTO 2 Apr 93 90.16 86.61 2 Jakub VADLEJCH CZE 10 Oct 90 88.02 88.02 3 Davinder SINGH IND 18 Dec 88 84.57 84.57 4 Magnus KIRT EST 10 Apr 90 86.65 86.06 5 Johannes VETTER GER 26 Mar 93 94.44 94.44 6 Ioánnis KIRIAZÍS GRE 19 Jan 96 88.01 88.01 7 Petr FRYDRYCH CZE 13 Jan 88 88.23 86.22 8 Andreas HOFMANN GER 16 Dec 91 88.79 88.79 9 Ahmed Bader MAGOUR QAT 3 Mar 96 85.23 85.23 10 Julius YEGO KEN 4 Jan 89 92.72 87.97 11 Tero PITKÄMÄKI FIN 19 Dec 82 91.53 88.27 12 Marcin KRUKOWSKI POL 14 Jun 92 88.09 88.09 13 Thomas RÖHLER GER 30 Sep 91 93.90 93.90 ALL-TIME OUTDOOR TOP LIST SEASON OUTDOOR TOP LIST RESULT NAME VENUE DATE RESULT NAME VENUE 2017 98.48 Jan ZELEZNÝ (CZE) Jena (Abbe Sport Ground) 25 May 96 94.44 Johannes VETTER (GER) Luzern (Stadion Allmend) 11 Jul 94.44 Johannes VETTER (GER) Luzern (Stadion Allmend) 11 Jul 17 93.90 Thomas RÖHLER (GER) Doha (Hamad Bin Suhaim) 5 May 93.90 Thomas RÖHLER (GER) Doha (Hamad Bin Suhaim) 5 May 17 88.79 Andreas HOFMANN (GER) Offenburg 13 May 93.09 Aki PARVIAINEN (FIN) Kuortane 26 Jun 99 88.27 Tero PITKÄMÄKI (FIN) Vaasa 25 Jun 92.72
    [Show full text]
  • Doha 2018: Compact Athletes' Bios (PDF)
    Men's 200m Diamond Discipline 04.05.2018 Start list 200m Time: 20:36 Records Lane Athlete Nat NR PB SB 1 Rasheed DWYER JAM 19.19 19.80 20.34 WR 19.19 Usain BOLT JAM Berlin 20.08.09 2 Omar MCLEOD JAM 19.19 20.49 20.49 AR 19.97 Femi OGUNODE QAT Bruxelles 11.09.15 NR 19.97 Femi OGUNODE QAT Bruxelles 11.09.15 3 Nethaneel MITCHELL-BLAKE GBR 19.94 19.95 WJR 19.93 Usain BOLT JAM Hamilton 11.04.04 4 Andre DE GRASSE CAN 19.80 19.80 MR 19.85 Ameer WEBB USA 06.05.16 5 Ramil GULIYEV TUR 19.88 19.88 DLR 19.26 Yohan BLAKE JAM Bruxelles 16.09.11 6 Jereem RICHARDS TTO 19.77 19.97 20.12 SB 19.69 Clarence MUNYAI RSA Pretoria 16.03.18 7 Noah LYLES USA 19.32 19.90 8 Aaron BROWN CAN 19.80 20.00 20.18 2018 World Outdoor list 19.69 -0.5 Clarence MUNYAI RSA Pretoria 16.03.18 19.75 +0.3 Steven GARDINER BAH Coral Gables, FL 07.04.18 Medal Winners Doha previous Winners 20.00 +1.9 Ncincihli TITI RSA Columbia 21.04.18 20.01 +1.9 Luxolo ADAMS RSA Paarl 22.03.18 16 Ameer WEBB (USA) 19.85 2017 - London IAAF World Ch. in 20.06 -1.4 Michael NORMAN USA Tempe, AZ 07.04.18 14 Nickel ASHMEADE (JAM) 20.13 Athletics 20.07 +1.9 Anaso JOBODWANA RSA Paarl 22.03.18 12 Walter DIX (USA) 20.02 20.10 +1.0 Isaac MAKWALA BOT Gaborone 29.04.18 1.
    [Show full text]
  • Adaptive Sports Medicine in the Para-Athlete
    Adaptive Sports Medicine in the Para-Athlete Mark Fisher MD, FAAPMR Director, Adaptive Sports Medicine Clinic Division of Pediatric Rehabilitation Children’s Mercy Hospital – Kansas City Assistant Professor of Pediatrics | UMKC School of Medicine Objectives • Define Adaptive Sports Medicine and the Paralympic movement • Describe the pre-participation exam for the para-athlete • Review the benefits of physical activity and sport for individuals with disability • Review common medical considerations of physical activity in those with congenital and acquired disability No financial disclosures Adaptive Sports Movement • 1888: founding of the Sports Club for the Deaf in Berlin • 1948: Sir Ludwig Guttmann organised a sports competition involving World War II veterans with a spinal cord-related injury in Stoke Mandeville, England (16 athletes) • 1952: Stoke Mandeville Games became international (126 athletes in 4 sports) and the Paralympic Movement was born • 1989: International Paralympic Committee (IPC) formed • 2001: “One bid, one city” model with Olympic Games • 2019: renamed “United States Olympic and Paralympic Committee” Disability ≠ Inability • Running • Volleyball • Cycling • Water Sports • Golf • Sled Hockey • Wheelchair • Alpine Skiing/Snowboarding ➢ Basketball • Throwing sports ➢ Rugby ➢ Discuss, Javelin, Shot put, ➢ Football Boccia ➢ Power Soccer • Shooting Sports ➢ Softball ➢ Archery, air rifle, trapshooting ➢ Sport Dance ➢ Fencing • Weight Lifting ➢ Curling • Combat Sports ➢ Tennis and Table tennis ➢ Judo, boxing, wrestling, MMA
    [Show full text]