S��anlarda iskelet kas�nda iskemi-reperf�zyon hasar�nda kuersetinin koruyucu rol�

Kiri�ci, Mehmet; �zer, Abdullah; Arslan, Mustafa; K���k, Ay�eg�l; Cavunt Bayraktar, Asl�han; Kavut�u, Mustafa; Oktar, Levent; Erdem, �zlem; K�l��, Yi�it; Kip, G�lay

Cilt : 32 Say� : 1 Y�l : 2026

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S��anlarda iskelet kas�nda iskemi-reperf�zyon hasar�nda kuersetinin koruyucu rol� [Ulus Travma Acil Cerrahi Derg]

Ulus Travma Acil Cerrahi Derg. 2026; 32(1): 18-25 | DOI: 10.14744/tjtes.2025.06157

S��anlarda iskelet kas�nda iskemi-reperf�zyon hasar�nda kuersetinin koruyucu rol�

Mehmet Kiri�ci¹, Abdullah �zer², Mustafa Arslan³, Ay�eg�l K��k⁴, Asl�han Cavunt Bayraktar⁵, Mustafa Kavut�u⁶, Levent Oktar², �zlem Erdem⁷, Yi�it K�l��⁸, G�lay Kip³
¹S�t�� mam �niversitesi T�p Fak�ltesi, Kalp Damar Cerrahisi Anabilim Dal�, Kahramanmara�, T�rkiye
²Gazi �niversitesi T�p Fak�ltesi, Kalp Ve Damar Cerrahisi Anabilim Dal�, Ankara, T�rkiye
³Gazi �niversitesi T�p Fak�ltesi, Anestezi Ve Reaminasyon Anabilim Dal�, Ankara, T�rkiye
⁴K�tahya Sa�l�k Bilimleri �niversitesi, T�p Fak�ltesi, Fizyoloji Anabilim Dal�, K�tahya, T�rkiye
⁵Pursaklar Devlet Hastanesi, T�bbi Biyokimya Laboratuvar�, Ankara, T�rkiye
⁶Gazi �niversitesi T�p Fak�ltesi, T�bbi Biyokimya Anabilim Dal�, Ankara, T�rkiye
⁷Gazi �niversitesi T�p Fak�ltesi, T�bbi Patoloji Anabilim Dal�, Ankara, T�rkiye
⁸Dr. Gazi Ya�argil E�itim Ve Ara�t�rma Hastanesi, Pediatrik Kalp Cerrahisi B�l�m�, Diyarbak�r, T�rkiye

AMA�: Alt ekstremite iskemi-reperf�zyon (�/R) hasar�, cerrahi m�dahaleler, tromboembolik olaylar veya travmatik vask�ler lezyonlar sonras� ortaya ��kan ciddi bir patofizyolojik durumdur. Bu �al��man�n amac�, g��l� antioksidan �zelliklere sahip flavonoid kuersetinin, �/R s�recinde iskelet kas�nda olu�an oksidatif stres ve histopatolojik de�i�iklikler �zerindeki koruyucu etkilerini de�erlendirmektir.
GERE� VE Y�NTEM: On sekiz Wistar Albino s��an, kontrol (sahte laparotomi), iskemi-reperf�zyon (�R; 2 saat iskemi + 2 saat reperf�zyon) ve �R + kuersetin (�R-K; iskemi �ncesi 30 dakika 20 mg/kg intraperitoneal kuersetin) olmak �zere �� gruba randomize edildi. Deneysel uygulamalar sonras� iskelet kas� dokular�, malondialdehit (MDA) d�zeyleri ve s�peroksit dismutaz (SOD) aktivitesi a��s�ndan biyokimyasal olarak analiz edildi; ayr�ca histopatolojik incelemeler ger�ekle�tirildi.
BULGULAR: �R grubunda MDA seviyeleri kontrol grubuna k�yasla anlaml� derecede artarken (p<0.0001), kuersetin uygulanan �R-K grubunda bu art�� anlaml� �l��de azald� (p=0.012). SOD aktivitesi �R grubunda belirgin �ekilde d��erken (p<0.0001), �R-K grubunda anlaml� bir restorasyon g�zlendi (p=0.012). Histopatolojik de�erlendirmelerde �R grubunda kas liflerinde atrofi, dejenerasyon, l�kosit infiltrasyonu ve lif par�alanmas�/hiyalinizasyonun belirgin oldu�u; kuersetin tedavisi ile bu patolojik de�i�ikliklerin anlaml� �l��de azald�� tespit edildi (p<0.05).
SONU�: Kuersetin, iskemi-reperf�zyon hasar�na ba�l� oksidatif stres ve doku hasar�n� azaltarak iskelet kas�nda endojen antioksidan savunma mekanizmalar�n� g��lendirmektedir. Bu bulgular, kuersetinin �/R kaynakl� doku hasar�n� �nlemede potansiyel bir terap�tik ajan oldu�unu g�stermektedir. Mekanizmalar�n�n ayr�nt�l� incelenmesi ve klinik uygulama olanaklar�n�n de�erlendirilmesi i�in ileri preklinik ara�t�rmalara ihtiya� duyulmaktad�r.

Anahtar Kelimeler: �skemi-reperf�zyon, quercetin, oksidatif stres, s�peroksit dismutaz, malondialdehit, iskelet kas�

The effect of quercetin on ischemia-reperfusion injury in skeletal muscle in rats

Mehmet Kiri�ci¹, Abdullah �zer², Mustafa Arslan³, Ay�eg�l K��k⁴, Asl�han Cavunt Bayraktar⁵, Mustafa Kavut�u⁶, Levent Oktar², �zlem Erdem⁷, Yi�it K�l��⁸, G�lay Kip³
¹Department of Cardiovascular Surgery, Sutcu Imam University Faculty of Medicine, Kahramanmara�-Türkiye
²Department of Cardiovascular Surgery, Gazi University Medical Faculty, Ankara-Türkiye
³Department of Anesthesiology and Reanimation, Gazi University, Faculty of Medicine, Ankara-Türkiye
⁴Department of Physiology, Kutahya Health Sciences University, Faculty of Medicine, Kutahya-Türkiye
⁵Pursaklar State Hospital, Ankara-Türkiye
⁶Department of Medical Biochemistry, Gazi University Medical Faculty, Ankara-Türkiye
⁷Department of Medical Pathology, Gazi University Medical Faculty, Ankara-Türkiye
⁸Department of Pediatric Cardiac Surgery, Dr. Gazi Yasargil Training and Research Hospital, Diyarbakir-Türkiye

BACKGROUND: Ischemia-reperfusion (I/R) injury of the lower limbs is a significant clinical challenge that can arise due to surgical procedures, thrombotic events, embolism, or traumatic vascular damage. This study aimed to evaluate the antioxidative and histo-pathological protective effects of quercetin, a potent flavonoid antioxidant, on skeletal muscle subjected to I/R injury.
METHODS: Eighteen Wistar Albino rats were randomly assigned into three groups: Control (sham laparotomy), Ischemia-Reperfusion (IR) group (2 hours of ischemia followed by 2 hours of reperfusion), and Ischemia-Reperfusion plus quercetin treatment (IR-Q) group, receiving 20 mg/kg quercetin intraperitoneally 30 minutes before ischemia induction. After the experimental protocols, skeletal muscle samples were collected for biochemical assays measuring malondialdehyde (MDA) levels and superoxide dismutase (SOD) activity, as well as for histopathological examination.
RESULTS: The IR group demonstrated a significant increase in MDA concentration compared to controls (p<0.0001), whereas administration of quercetin in the IR-Q group significantly attenuated MDA levels relative to the untreated IR group (p=0.012). SOD activity was markedly diminished in the IR group (p<0.0001) but was significantly restored in the IR-Q group compared to IR alone (p=0.012). Histological analyses revealed pronounced muscle atrophy, degeneration, leukocyte infiltration, and fiber fragmentation/hyalinization in the IR group, which were significantly alleviated by quercetin treatment (p<0.05).
CONCLUSION: These findings indicate that quercetin exerts a protective effect against oxidative stress and structural damage induced by ischemia-reperfusion in skeletal muscle, potentially through enhancement of endogenous antioxidant defenses. Quercetin thus holds promise as a therapeutic agent in mitigating I/R injury; however, further studies are needed to elucidate its precise mechanisms and clinical applicability.

Keywords: Ischemia-reperfusion, quercetin, oxidative stress, superoxide dismutase, malondialdehyde, skeletal muscle.

Sorumlu Yazar: Mehmet Kiri�ci, T�rkiye
Makale Dili: �ngilizce

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