Download PDF
Int J Sports Med 2002; 23(5): 313-321
DOI: 10.1055/s-2002-33141
Physiology and Biochemistry
© Georg Thieme Verlag Stuttgart · New York

Recognising Vascular Causes of Leg Complaints in Endurance Athletes. Part 1: Validation of a Decision Algorithm

G.  Schep1 , S.  L.  Schmikli2 , M.  H.  M.  Bender1 , W.  L.  Mosterd2 , E.  R.  Hammacher3 , P.  F.  F.  Wijn4
  • 1Sint Joseph Hospital, Veldhoven, The Netherlands
  • 2University Medical Centre, Utrecht, The Netherlands
  • 3Sint Antonius Hospital, Nieuwegein, The Netherlands
  • 4University of Technology, Eindhoven, The Netherlands
Further Information

Publication History



Accepted after revision: 25. October 2001

Publication Date:
16 August 2002 (online)

Also available at
    Permissions and Reprints

Abstract

Flow limitations in the iliac arteries of endurance athletes during exercise were previously ascribed solely to intravascular lesions. We postulate that functional kinking of the arteries can also result in flow limitations. However, the diagnostic tools in routine practice are not effective in diagnosing such flow limitations in a substantial proportion of athletes, mainly because these diagnostic tools do not measure in the provocative situations. Ninety-two symptomatic legs in 80 endurance athletes were examined with newly developed, sports-specific vascular tests. Thirty-five asymptomatic cyclists matched for working capacity served as the control subjects. Legs were classified as vascular or non-vascular following a decision algorithm, based upon the results of these diagnostic tests, excluding orthopaedic causes by the effects of specific treatment. Independently of this clinical classification, an alternative method was applied to find stable characteristics in the total patient group using factor analysis. This characterisation was based on scores on 14 test variables deriving from diagnostic tests that were not used in the decision algorithm, thus avoiding dependency between the clinical categorisation and the statistical categorisation. The hypothesis was that these characteristics were sufficiently sensitive to classify patients with vascular and non-vascular complaints. If so, these characteristics should correspond with the one derived from the decision algorithm. Following the decision algorithm, 58 legs (63 %) were classified as vascular, 29 (32 %) as non-vascular and 5 (5 %) as inconclusive. The latter were considered non-vascular. In a substantial proportion of the vascular patients, kinking of the iliac arteries was identified as the major cause of flow limitation. The characteristics derived from factor analysis proved to classify 87 % in agreement with the decision algorithm (kappa 0.56). The agreement is sufficient for validation of the clinical classification. The algorithm can therefore be applied in clinical situations to diagnose endurance athletes with flow limitations due to both intravascular lesions and kinking of the arteries.

Key words

Endurance exercise - iliac artery - endofibrosis - echo-Doppler - claudication - diagnostic test

References

  • 1 Abraham P, Chevalier J M, Leftheriotis G, Saumet J L. Lower extremity disease in sports.  Am J Sports Med. 1997;  25 581-584
    PubMedGoogle Scholar
  • 2 Abraham P, Leftheriotis G, Bourre Y, Chevalier J M, Saumet J L. Echography of external iliac artery endofibrosis in cyclists.  Am J Sports Med. 1993;  21 861-863
    PubMedGoogle Scholar
  • 3 Abraham P, Saumet J L, Chevalier J M. External iliac endofibrosis in athletes.  Sportsmedicine. 1997;  4 221-226
    PubMedGoogle Scholar
  • 4 Bradshaw C. Exercise related lower leg pain: vascular.  Med Sci Sports Exerc. 2000;  32 S34-S36
    PubMedGoogle Scholar
  • 5 Brukner P, Khan K. Clinical sportsmedicine. Mc Graw Hill book company 1993
    Google Scholar
  • 6 Chevalier J M. Pathologie vasculaire du cycliste. Encycl Med Chirurg Franc 1997 675: A10-11
    Google Scholar
  • 7 Chevalier J M, L'Hoste P , Bouvat E, Megret A, Saint Andre J P, Ruault P. L' éndofibrose artériele du sportif de haut niveau: formes inhabituelles.  J Traumatol Sport. 1991;  8 176-181
    PubMedGoogle Scholar
  • 8 Desvaux B, Abraham P, Colin D, Leftheriotis G, Saumet J L. Ankle to arm index following maximal exercise in normal subjects and athletes.  Med Sci Sports Exerc. 1996;  28 836-839
    CrossrefPubMedGoogle Scholar
  • 9 van Deursen L LJM, Patijn J, Ockhuysen A L, Vortman B J. The value of some clinical tests of the sacro-iliac joint.  J Man Med. 1990;  5 96-99
    PubMedGoogle Scholar
  • 10 Gunnar B, Andersson J, Deyo R A. History and physical examination in patients with herniated lumbar disks.  Spine supplement. 1996;  21 10s-19s
    PubMedGoogle Scholar
  • 11 Jäger K A, Philips D J, Martin R L. Non invasive mapping of lower limb arterial lesions.  Ultrasound Med Biol. 1985;  11 515-521
    CrossrefPubMedGoogle Scholar
  • 12 Legemate D A, Teeuwen C, Hoeneveld H, Ackerstaff R GA, Eikelboom B C. Spectral analysis criteria in duplex scanning of aortoiliac and femoropopliteal arterial disease.  Ultrasound in Med and Biol. 1991;  17 769-776
    PubMedGoogle Scholar
  • 13 Maitland G D. The slump test: examination and treatment.  Australian J Physiother. 1985;  31 215-219
    PubMedGoogle Scholar
  • 14 Mundt K, Chambless L E, Burnham C B. Measuring ankle systolic blood pressure: validation of the Dynamap 1846 SX.  Angiology. 1992;  43 555-564
    PubMedGoogle Scholar
  • 15 Potter N A, Rothstein J M. Intertestee reliability for selected clinical tests of the sacro-iliac joint.  Phys Ther. 1985;  65 1671-1675
    PubMedGoogle Scholar
  • 16 McDonald R P. Factor analysis and related methods.  Hillsdale, New Jersey; Lawrence Erlbaum Associated Publishers 1985: 198-201
    Google Scholar
  • 17 Rousselet M C, Saint-André J P, L'Hoste P , Enon B, Megret A, Chevalier J M. Stenotic intimal thickening of the external iliac artery in competition cyclists.  Hum Path. 1990;  21 524-529
    CrossrefPubMedGoogle Scholar
  • 18 Rutherford R B. Vascular surgery. WB Saunders company 2000 fifth edition
    Google Scholar
  • 19 Ruurda J P, Rijbroek A, Vermeulen E GJ, Wisselink W, Rauwerda J A. Arterial insufficiency in athletes due to ‘endofibrosis'.  Ned Tijdschr Heelkd. 2000;  9 124-126
    PubMedGoogle Scholar
  • 20 Schep G, Bender M HM, Schmikli S L, Wijn P FF. Color Doppler used to detect kinking and intravascular lesions in the iliac arteries in endurance athletes with claudication.  Eur J Ultrasound. 2001;  14 29-40
    CrossrefPubMedGoogle Scholar
  • 21 Schep G, Kaandorp D W, Bender M HM, Weerdenburg H, van Engeland S, Wijn P FF. Magnetic resonance angiography used to detect kinking in the iliac arteries in endurance athletes with claudiction.  Physiol Meas. 2001;  22 475-487
    CrossrefPubMedGoogle Scholar
  • 22 Schep G, Bender M HM, vd Tempel G, Wijn P FF, de Vries W R, Eikelboom B C. Top endurance athletes with claudication due to functional iliac obstruction; detection and treatment.  The Lancet. 2001; accepted for publication; 
    PubMedGoogle Scholar
  • 23 Schep G, Sala H AGM, Bruyninckx C MA. Bovenbeenklachten bij wielrenners casuïstiek van een onbekende beroepsziekte (article in Dutch with English abstract).  Geneeskunde en sport. 1995;  27 182-184
    PubMedGoogle Scholar
  • 24 Schep G, Bender M HM, Schmikli S L, Mosterd W L, Hammacher E R, Scheltinga M, Wijn P FF. Recognising the vascular cause of leg complaints in endurance athletes. Part 2: The value of patient-history, physical examination, cycling exercise test and echo-Doppler examination.  Int J Sports Med. 2002;  23 322-328
    Article in Thieme ConnectPubMedGoogle Scholar
  • 25 Schep G, Bender M HM, Kaandorp D, Hammacher E, de Vries W R. Flow limitations in the iliac arteries in endurance athletes. Current knowledge and directions for the future.  Int J Sports Med. 1999;  20 421-428
    Article in Thieme ConnectPubMedGoogle Scholar
  • 26 Schwarzer A C, April C N, Bogduk N. The sacroiliac joint in chronic low back pain.  Spine. 1995;  20 31-37
    CrossrefPubMedGoogle Scholar
  • 27 Sise J, Shackford S, Rowley R. Claudication in young adults; a frequently delayed diagnosis.  J Vasc Surg. 1989;  10 68-74
    PubMedGoogle Scholar
  • 28 Stoffers H EJH, Kester A DM, Kaiser V, Rinkens P ELM, Knottnerus J A. Diagnostic value of signs and symptoms associated with peripheral arterial occlusive disease seen in general practice: a multivariate approach.  Med Decis Making. 1997;  17 61-70
    PubMedGoogle Scholar
  • 29 Strandness D E, Dawson D L, van Breda A. Indirect noninvasive testing and duplex scanning. In: Strandness DE, van Breda A (eds) Vascular Diseases, Surgical and Interventional Therapy. Livingstone; Churchill 1994: 139-199
    Google Scholar
  • 30 Taylor A J, Tennant W G, Batt M E, Wallace W A. Traumatic occlusion of the external iliac artery in a racing cyclist: a cause of ill defined leg pain.  Br J Sports Med. 1997;  31 155-156
    PubMedGoogle Scholar
  • 31 Wittens C HA, Houtte H JKP, Bollen E CM, Mol J MFA. The imaging quality of angiodynography in the ilio-femoral tract.  Eur J Vasc Surg. 1990;  4 611-615
    PubMedGoogle Scholar

G. Schep

Department of Sports Medicine · Sint Joseph Hospital

PO Box 7777 · 5500MB Veldhoven · The Netherlands

Phone: +31 (40) 2588217

Email: gschep@sjz.nl

      >