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International Journal of Integrative and Modern Medicine

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The Role of Revascularization in Managing Delayed Limb Ischemia Following Trauma

Vol. 3 No. 10 (2025): International Journal of Integrative and Modern Medicine:
Published : Oct 10, 2025

Dr. Bashar Berjes Alqaisy (1), Dr. Mansour Mikhlif Mhaidi (2), Dr. Mohammed Talib Alquraini (3)

(1) M.B.Ch.B., F.I.B.M.S. \ (Cardithoracic and Vascular Surgery) Iraqi Ministry of Health, Anbar Health Directory, Ramadi Teaching Hospital, Anbar, Iraq, Iraq
(2) M.B.Ch.B., F.I.B.M.S. \ (Cardithoracic and Vascular Surgery) Iraqi Ministry of Health, Anbar Health Directory, Ramadi Teaching Hospital, Anbar, Iraq, Iraq
(3) M.B.Ch.B., F.I.C.M. (Med.) Iraqi Ministry of Health, Basrah Health Directory, Al-Sadder Teaching Hospital, Basrah, Iraq, Iraq
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Abstract:

After trauma, delayed limb ischemia (DLI) is a serious disease that can cause a great deal of morbidity, although revascularization is essential for restoring blood flow along with preventing limb loss, little is known about its efficacy and results in trauma-related DLI, which by examining revascularization techniques, success rates, complications, and long-term results, this study aimed to assess the function of revascularization in treating DLI after trauma.


Furthermore, 82 patients diagnosed with DLI after trauma participated at different hospitals in Iraq, provided information on trauma mechanisms, complications, limb salvage rates, and death at a 12-month follow-up. Which our patients were 42.3 ± 12.7 years old, and 65.9% of them were men. Among trauma mechanisms, motor vehicle accidents accounted for the majority (43.9%). The majority of patients (61.0%) received a DLI diagnosis within 48 hours. With an overall success rate of 82.9%, endovascular revascularization is the most commonly employed technique (54.9%). Limb salvage was successful in 90.2% of patients, with a 9.8% amputation rate. Infection (7.3%) and reperfusion damage (9.8%) were among the post-revascularization consequences. At the 12-month follow-up, the majority of patients (73.2%) had fully recovered, but 18.3% still had residual impairment.


With high success rates and positive limb salvage results, revascularization is a very effective treatment for DLI after trauma, where early diagnosis and management are essential, as well as almost all patients recover over the long term despite issues including infection and reperfusion damage, underscoring the need of prompt and suitable revascularization techniques.

References

1. Compton C., Rhee R. Peripheral vascular trauma. Perspect Vasc Surg Endovasc Ther. 2005;17:297–307.

2. Jagdish K., Paiman M., Nawfar A., et al. The outcomes of salvage surgery for vascular injury in the extremities: a special consideration for delayed revascularization. Malays Orthop J. 2014;8:14–20.

3. Asensio J.A., Dabestani P.J., Miljkovic S.S., et al. Popliteal artery injuries. Less ischemic time may lead to improved outcomes. Injury. 2020;51:2524–2531.

4. Sun Y.F., Fang Q.X., Zhan H.Y., Wang F., Cao W., Zhao G. Outcome assessments of patients with posttraumatic "Ultra-Time vascular injuries" of the extremities. Sci Rep. 2015 Dec 7;5.

5. Hafez H.M., Woolgar J., Robbs J.V. Lower extremity arterial injury: results of 550 cases and review of risk factors associated with limb loss. J Vasc Surg. 2001;33:1212–1219.

6. Swiontkowski M.F., MacKenzie E.J., Bosse M.J., et al. Factors influencing the decision to amputate or reconstruct after high-energy lower extremity trauma. J Trauma Acute Care Surg. 2002;52 (4):641–649.

7. Moini M., Hamedani K., Rasouli M.R., Nouri M. Outcome of delayed brachial artery repair in patients with traumatic brachial artery injury: prospective study. Int J Surg. 2008;6 (1):20–22.

8. Joshi S.S. Peripheral arterial injuries: an Indian experience. Indian J Surg. 2016;78:187–191.

9. Malcom O., Perry Complication of missed arterial injuries. J Vasc Surg. 1993;17:399–407.

10. Baghi I., Herfatkar M.R., Shokrgozar L., et al. Assessment of vascular injuries and reconstruction. Trauma Mon. 2015;20.

11. MacKenzie E.J., Bosse M.J., Kellam J.F., et al. Factors influencing the decision to amputate or reconstruct after high-energy lower extremity trauma. J Trauma. 2002;52:641–649.

12. Martin G.E., He H., Makley A.T., et al. Proximal penetrating extremity injuries—an opportunity to decrease over triage? J Trauma Acute Care Surg [Internet] 2018;85:122–127.

13. Neary P., Redmond H.P. In: Ischaemia–Reperfusion Injury. Grace P., Mathie R.T., editors. Blackwell Science; Oxford: 1999. Ischaemia–reperfusion injury and the systemic inflammatory response syndrome; pp. 123–136.

14. Dueck A.D., Kucey D.S. The management of vascular injuries in extremity trauma. Curr Orthop. 2003;17:287–291.

15. Spitler C.A., Patch D.A., McFarland G.E., Smith W.R. Assessment and interventions for vascular injuries associated with fractures. J Am Acad Orthop Surg. 2022 May 1;30 (9):387–394.

16. McHenry T.P., Holcomb J.B., Aoki N., Lindsey R.W. Fractures with major vascular injuries from gunshot wounds: implications of surgical sequence. J Trauma. 2002;53:717–721.

17. Hornez E., Boddaert G., Ngabou U.D., et al. Temporary vascular shunt for damage control of extremity vascular injury: a toolbox for trauma surgeons. J Vasc Surg. 2015;152:363–368.

18. Williams T.K., Clouse W.D. Current concepts in repair of extremity venous injury. J Vasc Surg Venous Lymphat Disord. 2016;4:238–247.