Evaluación de los cambios de ecotextura de la pared uterina tras un aborto inducido en perras gestantes a medio plazo: un estudio preliminar

  • Yelda Bal Baskent Animal Hospital. Ankara, Türkiye
  • Erol Alaçam Ankara University, Department of Obstetrics and Gynecology. Ankara, Türkiye
  • Selim Aslan Near East University, Veterinary Faculty, Department of Obstetrics and Gynecology. Nicosia, Turkish Republic of Northern Cyprus
  • Duygu Kaya Dokuz Eylül University, Faculty of Veterinary Medicine, Department of Obstetrics and Gynaecology. İzmir, Türkiye
  • Serkan Barış Mülazimoğlu Hacettepe University, Technopolis–Hemosoft IT and Training Services Inc. Ankara, Türkiye
  • Serhan Serhat Ay Ondokuz Mayıs University, Faculty of Veterinary Medicine Department of Obstetrics and Gynaecology. Samsun, Türkiye
  • Sabine Schäfer–Somi University of Veterinary Medicine, Centre for Artificial Insemination and Embryo Transfer. Vienna, Austria
Palabras clave: Aborto, perra, ecotextura, útero, placenta

Resumen

El objetivo de este estudio fue evaluar los cambios estructurales de ecotextura en la pared uterina tras la inducción de un aborto en perras durante la fase embrionaria tardía/media gestación y desarrollar un método de evaluación del proceso abortivo. Se incluyeron en este estudio un total de 10 perras gestantes sanas de diferentes razas, con edades comprendidas entre los 25 y los 40 días (d) de gestación. En el Grupo 1 (n=5), se administró Aglepristona (10 mg·kg-1 de peso vivo, vía oral) una vez al día durante dos días consecutivos. En el Grupo 2 (n=5), se utilizó una combinación de Aglepristona, Cabergolina y Misoprostol para la inducción del aborto (IA). Antes de la inducción del aborto, y a intervalos de 24 horas hasta la finalización del aborto (AC), se examinaron ecográficamente el útero y la placenta. Se realizaron exámenes adicionales el d 1 (AC+1), el d 7 (AC+7) y el d 14 (AC+14) tras la finalización del proceso de aborto. Los mismos días se tomaron muestras de sangre para detectar los niveles séricos de progesterona (P4). Se evaluaron determinados parámetros de ecotextura (homogeneidad, contraste, gradiente y entropía) en las imágenes ecográficas utilizando un software de análisis de imágenes (Bs200Pro®). Los valores de contraste y gradiente disminuyeron significativamente en los d CA, CA+1 y CA+7 en comparación con el estado IA (P<0,05 y P<0,01). Los valores de contraste fueron inferiores en G1 que en G2 dos días antes del aborto (CA–2) (P<0,01). Los niveles de gradiente fueron mayores en G2 que en G1 en CA–2 (P<0,01). Los valores de homogeneidad de G2 fueron superiores a los de G1 en los días CA–1 y CA+7 (P<0,05). Los valores de P4 mostraron un descenso no significativo tras la IA durante el periodo de estudio en ambos grupos. En G2, se encontró una correlación negativa entre P4 y homogeneidad (r=-0,797) y una correlación positiva entre P4 y valores de contraste (r=0,719). En conclusión, el análisis de ecotextura permite una evaluación cuantitativa y objetiva de la estructura uterina durante el aborto, pero es necesario establecer valores estándar específicos para ambos protocolos de medicación, teniendo en cuenta los factores individuales.

Descargas

La descarga de datos todavía no está disponible.

Citas

Eilts BE. Pregnancy termination in the bitch and queen. Clin. Tech. Small Anim. Pract. [Internet]. 2002; 17(3):116–123. doi: https://doi.org/dvjh3q

Feldman EC, Nelson RW. Canine and feline endocrinology and reproduction. 3rd ed. St. Louis (Missouri, USA): Elsevier Science, Saunders; 2004. 1104 p.

Fieni F, Martal J, Marnet PG, Siliart B, Bernard F, Riou M, Bruyas JF ,Tainturier D. Hormonal variation in bitches after early or mid–pregnancy termination with aglepristone (RU534). J. Reprod. Fertil. Suppl. [Internet]. 2001 [cited 12 Jan 2024]; 57:243–248. Available in: https://goo.su/Gznav

Gogny A, Fiéni F. Aglepristone. A review on its clinical use in animals. Theriogenology. [Internet]. 2016; 85(4):555–566. doi: https://doi.org/f8bcw8

Wanke MM, Romagnoli S, Verstegen J, Concannon PW. Pharmacological approaches to pregnancy termination in dogs and cats including the use of prostaglandins, dopamine agonists, and dexamethasone. In: Concannon PW, England G, Verstegen J, Linde–Forsberg C, editors. Recent Advances in Small Animal Reproduction [Internet]. Ithaca, (New York, USA): International Veterinary Information Service; 2003 [cited 12 Jan. 2024]. 11 p. Available in: https://goo.su/uPcIvb

Baan M, Taverne MAM, Kooistra HS, de Gier J, Dieleman SJ, Okkens AC. Induction of parturition in the bitch with the progesterone–receptor blocker aglepristone. Theriogenology [Internet]. 2005; 63(7):1958–1972. doi: https://doi.org/br8b9z

Onclin K, Silva LDM, Donnay I, Verstegen JP. Luteotrophic action of prolactin in dogs and the effects of a dopamine agonist, cabergoline. J. Reprod. Fertil. Suppl. 1993; 47:403–409. PMID: 7901409

Cetin Y, Macun HC, Beceriklisoy HB, Schäfer–Somi S, Aslan S. Intravaginal application of misoprostol improves pregnancy termination with cabergoline and alfaprostol in dogs. Berl. Munch. Tierarztl. Wochenschr. 2010; 123(5–6):236–242. PMID: 20496831

Verstegen J, Onclin K, Silva LDM, Wouters–Ballmann P, Donnay I, Delahaut P, Ectors F. Induction of Abortion in bitches and cats by cabergoline. Ann. Med. Vet. 1993; 137:251–259.

Schäfer–Somi S, Aksoy OA, Beceriklisoy HB, Einspanier A, Hoppen HO, Aslan S. Repeated induction of abortion in bitches and the effect on plasma concentrations of relaxin, progesterone and estradiol–17β. Theriogenology [Internet]. 2007; 68(6):889–895. doi: https://doi.org/cfph9b

Goldberg AB, Greenberg MB, Darney PD. Misoprostol and pregnancy. N. Engl. J. Med. [Internet]. 2001; 344(1):38–47. doi: https://doi.org/dhv7sc

Liu HS, Chu TY, Chang YK, Yu MH, Chen WH. Intracervical misoprostol as an effective method of labor induction at term. Int. J. Gynecol. Obstet. [Internet]. 1999; 64(1):49–53. doi: https://doi.org/d9x645

Agaoglu AR, Schäfer–Somi S, Kaya D, Kucukaslan I, Emre B, Gultiken N, Mulazımoglu BS, Colak A, Aslan S. The intravaginal application of misoprostol improves induction of abortion with aglepristone. Theriogenology [Internet]. 2011; 76(1):74–82. doi: https://doi.org/cmpwdq

Yılmaz O, Uçar M. Ultrasonography of postpartum uterine involution in a bitch. Kocatepe Vet. J. [Internet]. 2012 [cited 8 Jan. 2024]; 5(2):55–58. Available in: https://goo.su/h5pzno1

England G, Yeager A, Concannon PW. Ultrasound imaging of the reproductive tract of the bitch. In: Concannon PW, England G, Verstegen J, Linde–Forsberg C, editors. Recent Advances in Small Animal Reproduction [Internet]. Ithaca, (New York, USA): International Veterinary Information Service; 2003 [cited 12 Jan. 2024]. 32 p. Available in: https://goo.su/bP4q

Orfanou DC, Ververidis HN, Pourlis A, Fragkou IA, Kokoli AN, Boscos CM, IA Taitzoglou, A Tzora, CM Nerou, L Athanasiou, GC Fthenakis. Post–partum involution of the canine uterus – gross anatomical and histological features. Reprod. Domest. Anim. [Internet]. 2009; 44(S2):152–155. doi: https://doi.org/d9xr5c

Al–Bassam MA, Thomson RG, O’Donnell L. Normal postpartum involution of the uterus in the dog. Can. J. Comp. Med. 1981; 45(3):217–232. PMID: 7340907

Deurloo KL, Spreeuwenberg MD, Bolte AC, Van Vugt JMG. Color Doppler ultrasound of spiral artery blood flow for prediction of hypertensive disorders and intra uterine growth restriction: a longitudinal study. Prenat. Diagn. [Internet]. 2007; 27(11):1011–1016. doi: https://doi.org/bw66sz

Gebb J, Dar P. Colour Doppler ultrasound of spiral artery blood flow in the prediction of pre–eclampsia and intrauterine growth restriction. Best. Pract. Res. Clin. Obstet. Gynaecol. [Internet]. 2011; 25(3):355–366. doi: https://doi.org/c37fjc

Vahanian SA, Vintzileos AM. Placental implantation abnormalities: a modern approach. Curr. Opin. Obstet. Gynecol. [Internet]. 2016; 28(6):477–484. doi: https://doi.org/f9bmpr

Garra BS, Krasner BH, Horii SC, Ascher S, Mun SK, Zeman RK. Improving the distinction between benign and malignant breast lesions: the value of sonographic texture analysis. Ultrason. Imaging [Internet]. 1993; 15(4):267–285. doi: https://doi.org/m8bz

Bader W, Böhmer S, Otto WR, Degenhardt F, Schneider J. Texturanalyse: Ein neues Verfahren zur Beurteilung sonographisch darstellbarer Herdbefunde der Mamma [Texture analysis: a new method for evaluating ultrasound imaged lesions of the breast]. Bildgebung. 1994; 61(4):284–290. German. PMID: 7849471

Morris DT. An evaluation of the use of texture measurements for the tissue characterisation of ultrasonic images of in vivo human placentae. Ultrasound Med. Biol. [Internet]. 1988; 14(5):387–395. doi: https://doi.org/c6rbnx

Raeth U, Schlaps D, Limberg B, Zuna I, Lorenz A, Van Kaick G, Lorenz WJ, Kommerell B. Diagnostic accuracy of computerized B–scan texture analysis and conventional ultrasonography in diffuse parenchymal and malignant liver disease. J. Clin. Ultrasound [Internet]. 1985; 13(2):87–99. doi: https://doi.org/b7cj76

Singh J, Pierson RA, Adams GP. Ultrasound image attributes of the bovine corpus luteum: structural and functional correlates. J. Reprod. Fertil. [Internet]. 1997; 109(1):35–44. doi: https://doi.org/dqc48p

Tom JW, Pierson RA, Adams GP. Quantitative echotexture analysis of bovine corpora lutea. Theriogenology. [Internet]. 1998; 49(7):1345–1352. doi: https://doi.org/bxz9g5

Schmauder S, Weber F, Kiossis E, Bollwein H. Cyclic changes in endometrial echotexture of cows using a computer–assisted program for the analysis of first – and second–order grey level statistics of B–Mode ultrasound images. Anim. Reprod. Sci. [Internet]. 2008; 106(1–2):153–161. doi: https://doi.org/b4z3xp

Küçükaslan I, Kaya D, Emre B, Bollwein H, Özyurtlu N, Mülazımoğlu SB, Aslan S. Evaluation of endometrial echotexture and cervical cytology in cows during and after treatment of endometritis. Tierarztl. Prax. Ausg. G: Grosstiere – Nutztiere [Internet]. 2014; 42(6):343–350. doi: https://doi.org/m8b2

Polat B, Cengiz M, Cannazik O, Colak A, Oruc E, Altun S, Salar S, Bastan A. Endometrial echotexture variables in postpartum cows with subclinical endometritis. Anim. Reprod. Sci. [Internet]. 2015; 155:50–55. doi: https://doi.org/f66qkt

Cengiz M, Kanca H, Salar S, Bastan A, Küçükaslan I, Alkan H, Karakas K, Yuksel O, Hayirli A. Endometrial echotexture parameters in Turkish Saanen Goats (Akkeci) during oestrus and early pregnancy. Anim. Reprod. Sci. [Internet]. 2014; 146(1–2):27–33. doi: https://doi.org/f5w7tg

Mülazimoğlu SB, Beceriklisoy HB, Schäfer–Somi S, Kaya M, Bumin A, Özenç E, Gültiken N, Kanca H, Günen MZ, Kutsal O, Emre B, Evangelos K, Aslan S . B–mode echotexture analysis and color doppler sonography in canine mammary tumors. Kafkas Univ. Vet. Fak. Derg. [Internet]. 2016; 22(6):961–969. doi: https://doi.org/m8b3

Erdoğan G, Küçük N, Kanca H, Aksoy M. In vivo and in vitro assessment of ovarian echotexture through computer assisted real time ultrasonography in bitches. Ankara Univ. Vet. Fak. [Internet]. 2017; 64(3):171–176. doi: https://doi.org/m8b4

Luvoni GC, Grioni A. Determination of gestational age in medium and small size bitches using ultrasonographic fetal measurements. J. Small Anim. Pract. [Internet]. 2000; 41(7):292–294. doi: https://doi.org/fcp4vs

Yeager AE, Mohammed HO, Meyers–Wallen V, Vannerson L, Concannon PW. Ultrasonographic appearance of the uterus, placenta, fetus, and fetal membranes throughout accurately timed pregnancy in Beagles. Am. J. Vet. Res. [Internet]. 1992; 53(3):342–351. doi: https://doi.org/m8b5

Zabitler F, Aslan S, Darbaz I, Ergene O, Schäfer–Somi S. Computerized histogram analysis of the canine placenta during normal pregnancy. Theriogenology [Internet]. 2022; 182:96–102. doi: https://doi.org/m8b6

Galac S, Kooistra HS, Butinar J, Bevers MM, Dieleman SJ, Voorhout G, Okkens AC. Termination of mid–gestation pregnancy in bitches with aglepristone, a progesterone receptor antagonist. Theriogenology [Internet]. 2000; 53(4):941–950. doi: https://doi.org/dv58tx

Kaya D, Küçükaslan I, Ağaoğlu AR, Ay SS, Schäfer–Somi S, Emre B, Bal Y, Einspanier A, Gürcan IS, Gültiken N, Aslan S. The effects of aglepristone alone and in combination with cloprostenol on hormonal values during termination of mid–term pregnancy in bitches. Anim. Reprod. Sci. [Internet]. 2014; 146(3–4):210–217. doi: https://doi.org/f545tf

Ay SS, Aslan S, Önyay F, Kaya D, Koldaş E, Arslan S, Fındık M. Effect of oral misoprostol, alone or in combination with aglepristone, on mid–term pregnancy termination in cats. J. Feline Med. Surg. [Internet]. 2019; 21(8):714–722. doi: https://doi.org/gd9dgg

Chiossi G, Costantine M, Bytautiene E, Kechichian T, Hankins G, Sbrana E, Saade GR, Longo M. The effects of prostaglandin E1 and prostaglandin E2 on in vitro myometrial contractility and uterine structure. Am. J. Perinatol. [Internet]. 2012; 29(8):615–622. doi: https://doi.org/f369mv

Borgatta L, Kapp N. Labor induction abortion in the second trimester. Contraception. [Internet] 2011; 84(1):4–18. doi: https://doi.org/drh4d5

Şaki L, Polat B. İneklerde Östrus Siklusu Süresince Uterus Ekojenitesindeki Değişikliklerin Araştırılması [Investigation of changes in the uterine echogenicity of cows during oestrus cycle in cows]. Atatürk Univ. Vet. Bilim. Derg. [Internet]. 2020; 15(3):263–270. Turkish. doi: https://doi.org/m8b7

Haberkorn U, Layer G, Zuna I, Gebraemlack T, Van Kaick G. Der Einfluss unterschiedlicher Fettvorlaufstrecken auf das Ultraschall–B–Bild [The influence of different fat pre–travel distances on the ultrasound B–mode image]. Ultraschall Klin. Prax. 1991; 6:21–25. German.

Lefebvre F, Meunier M, Thibault F, Laugier P, Berger G. Computerized ultrasound B–scan characterization of breast nodules. Ultrasound Med. Biol. [Internet]. 2000; 26(9):1421–1428. doi: https://doi.org/bd7ss5

Socha MW, Flis W, Pietrus M, Wartęga M, Stankiewicz M. Signaling pathways regulating human cervical ripening in preterm and term delivery. Cells [Internet]. 2022; 11(22):3690. doi: https://doi.org/m8b8

Maradny EE, Kanayama N, Halim A, Maehara K, Sumimoto K, Terao T. Biochemical changes in the cervical tissue of rabbit induced by interleukin–8, interleukin 1βdehydroepiandrosterone sulphate and prostaglandin E2: a comparative study. Hum. Reprod. [Internet]. 1996; 11(5):1099–1104. doi: https://doi.org/m8b9

Chatsis V, Frey N. Misoprostol for cervical ripening and induction of labour: A review of clinical effectiveness, cost–effectiveness and guidelines [Internet]. Ottawa (Canada): CATDH; 2018 [cited 23 Oct. 2023]. 61 p. (CADTH Rapid Response Report: Summary with Critical Appraisal). Available in: https://goo.su/StoXOQ

Sönmez AS, Birincioğlu M, Aydın A, Kılıç E, Şahin N. Effects of misoprostol on the endometrium of ovariectomized rats. Turk. J. Med. Sci. [Internet]. 2000 [cited 5 Jan. 2024]; 30(2):115–118. Available in: https://goo.su/zwZzta

Allen R, O’Brien BM. Uses of misoprostol in obstetrics and gynecology. Rev. Obstet. Gynecol. [Internet]. 2009 [cited 23 Oct. 2023]; 2(3):159–168. PMID: 19826573. Available in: https://goo.su/FWq1Nc

Barbosa CC, Souza MB, Freitas LA, Silva TFP, Domingues SFS, Silva LDM. Assessment of uterine involution in bitches using B–mode and Doppler ultrasonography. Anim. Reprod. Sci. [İnternet] 2013; 139(1–4):121–126. doi: https://doi.org/f436k5

Publicado
2024-07-31
Cómo citar
1.
Bal Y, Alaçam E, Aslan S, Kaya D, Mülazimoğlu SB, Ay SS, Schäfer–Somi S. Evaluación de los cambios de ecotextura de la pared uterina tras un aborto inducido en perras gestantes a medio plazo: un estudio preliminar. Rev. Cient. FCV-LUZ [Internet]. 31 de julio de 2024 [citado 26 de diciembre de 2024];34(2):8. Disponible en: https://produccioncientificaluz.org/index.php/cientifica/article/view/42515
Sección
Medicina Veterinaria