| Author, Year | Type of Exposure | Type of teeth used | Materials used | Coronal Sealing Materials |
---|---|---|---|---|---|
1 | Abd Al Gawad R and Hanafy R. 2021 [55] | Carious OR traumatic | Primary | NHA (Straumann Bone Ceramic), MTA, Formocresol | stainless crown cemented with glass ionomer |
2 | Abdel Maksoud E, 2023 [56] | Carious | Primary | Hyaluronic Acid, Amniotic Membrane Allograft, Mineral Trioxide Aggregate | zinc oxide eugenol |
3 | Aboul Kheir M et al., 2020 [57] | Carious | Permanent | Chitosan scaffold, MTA | MTA |
4 | Aljabban et al., 2021 [133] | Sound premolar teeth scheduled for orthodontic extraction | Permanent | MTA, PRF | MTA |
5 | Anandan V et al., 2021 [70] | Carious | Primary | Formocresol, BioFil-AB Collagen Particles | zinc oxide eugenol and glass ionomer cement |
6 | Aripirala M et al., 2021 [71] | Carious | Primary | Simvastatin gel, 940Â nm diode laser | resin-modified glass ionomer cement |
7 | Awad S, 2021 [74] | Carious | Infected immature permanent molars | Biodentine, Calcium Hydroxide, PRF | NOT MENTIONED |
8 | Bayoumi N, 2022 [77] | Carious | Primary | Sterile medicated collagen particles, Biofil-AB, Biodentine | NOT MENTIONED |
9 | Chak R et al., 2022 [84] | Carious | Primary | 3Mixtatin, MTA | glass ionomer cement and stainless crowns |
10 | Eid A et al., 2022 [90] | Carious | Immature permanent molars | MTA (MM-MTA), nano-hydroxyapatite, platelet-rich fibrin | IRM for nano-hydroxyapatite and zinc oxide eugenol for the PRF group |
11 | Elhamouly Y et al., 2021 [18] | Carious | Primary | Biodentine, bioactive glass | glass ionomer |
12 | Elheeny A, 2023 [94] | Carious | Immature permanent teeth | Simvastatin, MTA | NOT MENTIONED |
13 | Elsayed S, 2023 [136] | Carious | Primary | Biofil-AB, Biodentine | glass ionomer |
14 | Eltantawy W, 2023 [97] | Carious | Primary | Biodentine, hyaluronic acid, Formocresol | zinc oxide eugenol |
15 | Haideri S et al., 2021 [108] | Carious | Primary | Formocresol, Mineral Trioxide Aggregate, Electrocautery, Bioactive Glass | IRM and stainless-steel crown |
16 | Ildes G et al., 2022 [110] | Carious | Primary | 0.5% Hyaluronic Acid gel, Formocresol, 20% Ferric sulphate | zinc oxide eugenol and composite/stainless steel crown |
17 | Kakarla P et al., 2013 [102] | Sound and indicated for extraction | Primary | Pulpotec, Biofil-AB | zinc oxide eugenol and glass ionomer cement |
18 | Keswani D et al., 2014 [122] | Carious | Immature Permanent | MTA, PRF | zinc oxide eugenol and amalgam |
19 | Kumar V et al., 2016 [124] | Carious | Permanent | Calcium hydroxide, MTA, platelet-rich fibrin | MTA |
20 | Manhas M et al., 2019 [135] | Carious | Primary | MTA, Calcium hydroxide, PRF | either calcium hydroxide or MTA |
21 | Mehrvarzfar P et al., 2017 [134] | Traumatic | Permanent third molars | MTA, Treated dentin matrix scaffold | resin-modified glass ionomer cement |
22 | Mentes A, 2020 [22] | Carious | Primary | Formocresol, ferric sulphate, and 0.5% hyaluronic acid | zinc oxide eugenol, composite and stainless-steel crown |
23 | Nageh M, 2021 [23] | Carious | Permanent | Biodentine, PRF, MTA, Portland cement | PRF covered with portland cement or MTA or biodentine |
24 | Najmi N, 2022 [25] | Carious | Permanent | PRF, MTA, calcium hydroxide | NOT MENTIONED |
25 | Patidar S et al., 2017 [138] | Carious | Primary | PRF, MTA | zinc oxide eugenol and glass ionomer cement, stainless steel crown |
26 | Prasad M et al., 2017 139] | Carious | Primary | Amniotic, Formocresol | zinc oxide eugenol |
27 | Sherif R, 2019 [131] | Carious | Permanent | PRF, Biodentine, diode laser | biodentine, glass ionomer and composuite |
28 | Singh R et al., 2020 [38] | Carious | Permanent | Calcium hydroxide, MTA, PRF | NOT MENTIONED |
29 | Suez Canal University, 2022 [40] | Carious | Primary | Biodentine, Simvastatin | glass ionomer cement and stainless-steel crown |
30 | Surinder et al.,2021 [132] | Carious | Permanent | MTA, Biodentine, Platelet Rich Fibrin | PRF/MTA, PRF/Biodentine |
31 | Venugopal N et al., 2019 [137] | Carious | Primary | Formocresol, propolis, Platelet derived growth factor (PDGF)/scaffold | collagen membrane then glass ionomer and stainless-steel crown |
32 | Yildirim C et al., 2016 [53] | Carious | Primary | Formocresol, MTA, Portland cement, enamel matrix derivative | zinc oxide eugenol and glass ionomer cement |