        TY  - JOUR
T1  - Minimal İnvaziv Giriş Kavitelerinin Alt Kesici Dişlerdeki Apikal Ekstrüzyona Etkisi
TT  - Effect of Minimally Invasive Acces Cavities on Apical Extrusion of Lower Incisors
AU  - Haskarabağ, İrem
AU  - Keskin, Cangül
PY  - 2025
DA  - July
Y2  - 2025
DO  - 10.58711/turkishjdentres.vi.1553055
JF  - Türk Diş Hekimliği Araştırma Dergisi
JO  - J Turkish Dent Res
PB  - Ondokuz Mayıs Üniversitesi
WT  - DergiPark
SN  - 2822-4310
SP  - 75
EP  - 82
VL  - 4
IS  - 2
LA  - tr
AB  - Amaç: Bu çalışmanın amacı alt kesici dişlere açılan minimal invaziv giriş kavitelerini kök kanal tedavisisırasında apikalden taşan debris miktarı açısından geleneksel giriş kaviteleri ile karşılaştırmaktır.Gereç ve Yöntem: Çalışmada sağlam, çürüksüz, düz köklü, kök gelişimi tamamlanmış protetik veyaperiodontal sebeplerle çekilmiş tek köklü alt kesici dişler kullanılmıştır. Dişler periapikal radyografilerleincelenerek tek kanala sahip dişler çalışmaya dahil edilmiştir. Çalışmaya her bir grup için 20 tane olmaküzere toplam 40 mandibular kesici diş dahil edilmiştir. Dişler rastgele iki gruba ayrılmıştır (n=20). Gruplardan birine palatinal yüzeyden geleneksel endodontik giriş kavitesi hazırlanırken, diğer gruba minimal invaziv giriş kavitesi hazırlanmıştır. Dişler Myers &amp; Montgomery boş tüp metodundaki şekilde cam tüplere sabitlenmiştir. Daha sonra dişlerin kanal şekillendirmesi yapılmıştır. Tüp içerisinde biriken debris miktarı Rotate eğe sistemi ile irrigasyon solüsyonunun buharlaşması beklendikten sonra hassas terazide ölçülerek her iki grup apikalden taşan debris miktarı açısından karşılaştırılmıştır.Bulgular: Elde edilen verilerin normal dağılıma uygun olup olmadığı Shapiro-Wilk testi ile test edilmiştir.Ekstrüze debris ağırlığının normal dağılıma uymadığı tespit edilmiştir (p  &amp;lt; .05). Mann-Whitney U testi heriki grupta apikalden taşan debris miktarlarının benzer olduğunu göstermiştir (p &amp;gt; .05).Sonuç: Bu çalışmada geleneksel giriş kavitesi ve minimal invaziv giriş kavitesinin apikalden taşan debrismiktarına etkileri bakımından anlamlı bir farklarının olmadığı bulunmuştur.
KW  - apikal ekstrüzyon
KW  - minimal invaziv endodonti
KW  - kontrakte kavite
N2  - Aim: The aim of this study was to compare minimally invasive access cavities in lower incisors withconventional access cavities in terms of the amount of debris overflowing apically during root canal treatment.Material and Method: Intact, caries-free, straightrooted, single-rooted lower incisors with complete rootdevelopment and extracted for prosthetic or periodontal reasons were used in the study. Teeth were examined with periapical radiographs and teeth with a single canal were included in the study. A total of 40 mandibular incisors, 20 for each group, were included in the study. The teeth were randomly divided into two groups (n=20). One group underwent traditional endodontic access cavity preparation from the palatinal surface, while the other group underwent minimally invasive access cavity preparation. Teeth were fixed in glass tubes according to the Myers &amp; Montgomery empty tube method. The canal shaping of the teeth was then performed. After waiting for the irrigation solution to evaporate, with Rotate instrumentation system the amount of debris accumulated in the tube was measured on a precision balance and both groups were compared in terms of the amount of debris overflowing apically.Results: The Shapiro-Wilk test was used to test whether the obtained data conformed to normal distribution. It was determined that the extruded debris weight did not conform to the normal distribution (p  &amp;lt; .05). Mann-Whitney U test showed that the amount of debris overflowing from the apical region was similar in both groups (p &amp;gt; .05).Conclusion: In this study, it was found that there was no significant difference between the traditional access cavity and the minimally invasive access cavity in terms of their effects on the amount of debris overflowing apically.
CR  - 1. Murdoch-Kinch, C.A. &amp; McLean, M.E. (2003) Minimally
invasive dentistry. J of the American Dent Association, 134,
87–95.
CR  - 2. Christie WH, Thompson GK. The importance of endodontic
access in locating maxillary and mandibular molar canals. J
Can Dent Assoc 1994;60:527-532.
CR  - 3. Bóveda C, Kishen A. Contracted endodontic cavities: the
foundation for less invasive alternatives in the management
of apical periodontitis. Endod Topics 2015;33:169-186.
CR  - 4. Clark, D. &amp; Khademi, J. (2010a) Modern molar endodontic
access and directed dentin conservation. Dent Clinics of
North America, 54, 249–273.
CR  - 5. Silva, E. J. N. L., De‐Deus, G., Souza, E. M., Belladonna,
F. G., Cavalcante, D. M., Simões‐Carvalho, M., &amp; Versiani,
M. A. (2022). Present status and future directions–Minimal
endodontic access cavities. Int Endod J, 55, 531-587.
CR  - 6. Rankow, H. J., &amp; Krasner, P. R. (1995). The access box: an
ah-ha phenomenon. J of Endod, 21(4), 212-214.
CR  - 7. Krishan, R., Paqué, F., Ossareh, A., Kishen, A., Dao, T. &amp;
Friedman, S. (2014) Impacts of conservative endodontic
cavity on root canal instrumentation efficacy and resistance
to fracture assessed in incisors, premolars, and molars. J of
Endod, 40, 1160–1166.
CR  - 8. Rover, G., Belladonna, F.G., Bortoluzzi, E.A., De-Deus, G.,
Silva, E. &amp; Teixeira, C.S. (2017) Influence of access cavity
design on root canal detection, instrumentation efficacy,
and fracture resistance assessed in maxillary molars. J of
Endod, 43, 1657–1662.
CR  - 9. Silva, E.J.N.L., Vieira, V.T.L., Hecksher, F., Dos Santos
Oliveira, M.R.S., Dos Santos, A.H. &amp; Moreira, E.J.L.
(2018) Cyclic fatigue using severely curved canals and
torsional resistance of thermally treated reciprocating
instruments. Clinical Oral Investigations, 22, 2633–2638.
CR  - 10. Pedullà, E., La Rosa, G.R.M., Virgillito, C., Rapisarda, E.,
Kim, H.C. &amp; Generali, L. (2020) Cyclic fatigue resistance
of nickel titanium rotary instruments according to the angle
of file access and radius of root canal. J of Endod, 46, 431–
436.
CR  - 11. Lenherr, P., Allgayer, N., Weiger, R., Filippi, A., Attin,
T. &amp; Krastl, G. (2012). Tooth discoloration induced by
endodontic materials: a laboratory study. Int Endod J, 45,
942–949.
CR  - 12. Silva EJNL, Pinto KP, Ferreira CM, Belladonna FG, De-
Deus G, Dummer PMH, Versiani MA.(2020). Current
status on minimal access cavity preparations: a critical
analysis and a proposal for a universal nomenclature. Int
Endod J, 53, 1618–1635.
CR  - 13. Tüfenkçi, P., Yılmaz, K., &amp; Adigüzel, M. (2020). Effects
of the endodontic access cavity on apical debris extrusion
during root canal preparation using different single-file
systems. Restorative Dent &amp; Endod, 45(3).
CR  - 14. Lima, C.O., Barbosa, A.F.A., Ferreira, C.M., Ferretti,
M.A., Aguiar, F.H.B., Lopes, R.T. et al. (2021) Influence
of ultraconservative access cavities on instrumentation
efficacy with XPendo Shaper and Reciproc, filling ability
and load capacity of mandibular molars subjected to
thermomechanical cycling. Int Endod J, 54, 1383–1393.
CR  - 15. Silva, A.A., Belladonna, F.G., Rover, G., Lopes, R.T.,
Moreira, E.J.L., De-Deus, G. et al. (2020a) Does
ultraconservative access affect the efficacy of root canal
treatment and the fracture resistance of two-rooted
maxillary premolars? Int Endod J, 53, 265–275.
CR  - 16. Gluskin, A.H., Peters, C.I. &amp; Peters, O.A. (2014) Minimally
invasive endodontics: challenging prevailing paradigms.
British Dent J, 216, 347–353.
CR  - 17. Seltzer S, Naidorf IJ. Flare-ups in endodontics: I. Etiological
factors. J Endod 1985;11:472-478.
CR  - 18. Siqueira JF Jr, Rôças IN, Favieri A, Machado AG, Gahyva
SM, Oliveira JC, Abad EC. Incidence of postoperative
pain after intracanal procedures based on an antimicrobial
strategy. J Endod 2002;28:457-460.
CR  - 19. Tanalp J, Güngör T. Apical extrusion of debris: A literature
review of an inherent occurrence during root canal
treatment. Int Endod J. 2014;47:211–21.
CR  - 20. Doğanay Yıldız, E. (2023). The effect of access cavity
design on apical debris extrusion. J of Dent Materials and
Techniques, 12(3), 124-128.
CR  - 21. Schneider SW. A comparison of canal preparations in
straight and curved root canals. Oral Surg Oral Med Oral
Pathol 1971;32:271-275
CR  - 22. Berman LH, Hargreaves KM. (2018). Diş Morfolojisi
ve Endodontik Giriş Kaviteleri, TY. Yalçın ve A. Yılmaz
(Ed.), C.Keskin, B.Emek ve A.Keleş (Çev.)(2023), Cohen’s
Pathways of the Pulp. (12.Baskı, s.192-235). Ankara Nobel
Tıp Kitabevleri (2010)
CR  - 23. Myers, G. L., &amp; Montgomery, S. (1991). A comparison of
weights of debris extruded apically by conventional filing
and canal master techniques. J of Endod, 17(6), 275–279.
CR  - 24. Konyalı, İ., Koçak M. M., Sağlam, B. C., Koçak, S. (2023).
Comparison Of Apical Debris Extrusion Of Different
Nickel Titanium Files During Retreatment. J of Int Dent
Sciences, 9(1), 19-25.
CR  - 25. Üstün Y, Çanakçi BC, Dinçer AN, Er O, Düzgün S.
Evaluation of apically extruded debris associated with
several Ni-Ti systems. Int Endod J 2015;48:701-704.
CR  - 26. Seltzer S, et al. Biologic aspects of endodontics. Part 3.
Periapical tissue reactions to root canal instrumentation.
Oral Surg Oral Med Oral Pathol 1968;26: 534-46.
CR  - 27. Taşdemir, T. &amp; Ceyhanlı, T. (2006).Comparison of
apically extruded debris and irrigant using three rotary
instrumentation techniques. Atatürk Üniv. Diş Hek. Fak.
Derg. ,16(2),33-36,
CR  - 28. Akay, S.E., Kaya, S., &amp; Falakaloğlu, S. (2021). Comparison
Of Effect Of Apically Extruded Debris Using Different
Rotary File Systems in Root Canal Shaping. Selcuk Dent
J. , 8 ,30-36
CR  - 29. Zeren, A. E., Çelik, B. N., Arıkan, V., Akçay, M., &amp; Sarı,
Ş. (2012). In Vitro Comparison of Apical Mikroleakage
of Primary Molars Prepared with Four Different Rotary
Systems and K-Files. 39(1), 7-15.
CR  - 30. Rossi-Fedele G, Prichard JW, Steier L, de Figueiredo JP.
The effect of surface tension reduction on the clinical
performance of sodium hypochlorite in endodontics. Int
Endod J. 2013; 46: 492–8.
CR  - 31. Jose, J., Thamilselvan, A., Teja, K. V., &amp; Rossi–Fedele,
G. (2023). Influence of access cavity design, sodium
hypochlorite formulation and XP‐endo Shaper usage
on apical debris extrusion–A laboratory investigation.
Australian Endod J, 49(1), 6-12.
CR  - 32. Sundar, S., Varghese, A., Datta, K. J., &amp; Natanasabapathy,
V. (2022). Effect of guided conservative endodontic access
and different file kinematics on debris extrusion in mesial
root of the mandibular molars: An: in vitro: study. J of
Conservative Dent and Endod, 25(5), 547-554.
UR  - https://doi.org/10.58711/turkishjdentres.vi.1553055
L1  - https://dergipark.org.tr/tr/download/article-file/4227534
ER  -