The Role of the Integrated Pulmonary Index in Determining Respiratory Complications in Patients Undergoing Upper Gastrointestinal Endoscopy Under Sedation

Leyla Kazancıoğlu; Şule Batçık

doi:10.19127/mbsjohs.1007401

Research Article

The Role of the Integrated Pulmonary Index in Determining Respiratory Complications in Patients Undergoing Upper Gastrointestinal Endoscopy Under Sedation

Year 2021, Volume: 7 Issue: 3, 404 - 410, 31.12.2021

Leyla Kazancıoğlu Şule Batçık

https://doi.org/10.19127/mbsjohs.1007401

Abstract

Objective: In this study, we aimed to evaluate the respiratory complications defined by the Integrated Pulmonary Index (IPI) in patients with comorbid risk factors who underwent Upper gastrointestinal endoscopy (UGE) under sedation.
Methods: This cross-sectional, prospective study was conducted with 157 patients, aged over 18 years, in our endoscopy unit between July 2020 and December 2020. Patients’ demographic data, body mass index (BMI), ASA class and comorbidities were recorded. The mean arterial pressure (MAP), and HR, RR, SpO2, EtCO2 for the IPI were measured as baseline values and 5 minutes of the procedure and compared between two groups as the patients who developed (Group I) and did not develop (Group II) complications.
Results: The mean BMI value was statistically significantly higher in Group I compared to Group II (p<0.001). The mean HR was statistically significantly higher and IPI score significantly lower in Group I than in Group II before the procedure (p=0.013, p=0.01; respectively). The mean SpO2, EtCO2 and IPI values were statistically significantly lower in Group I compared to Group II at 5 minutes of the procedure (p=0.001, p=0.004, p=0.010; respectively). The frequency of comorbidities was statistically significantly higher in Group I. In the logistic regression analysis, BMI value was found as an independent factor affecting the development of respiratory complications.
Conclusion: The mean IPI scores dropped significantly in patients who developed complications, mainly due to the decreases in EtCO2 and SpO2 values at 5 minutes of the procedure. BMI was determined as a risk factor for the development of respiratory complications. IPI monitoring can provide guidance during sedation of patients with comorbid diseases undergoing UGE.

Keywords

Esophagogastroduodenoscopy, integrated pulmonary index, respiratory complications, anaesthesia, monitoring

References

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16. Plascencia H, Díaz M, Gascón G, Garduño S, Guerrero-Bobadilla C, Márquez-De Alba S, et al. Management of permanent teeth with necrotic pulps and open apices according to the stage of root development. J Clin Exp Dent. 2017;9(11):e1329.
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19. Stuart CH, Schwartz SA, Beeson TJ. Reinforcement of immature roots with a new resin filling material. J Endod. 2006;32(4):350–3. 20. Chmoldt SJ, Kirkpatrick TC, Rutledge RE, Yaccino JM. Reinforcement of simulated immature roots restored with composite resin, mineral trioxide aggregate, gutta-percha, or a fiber post after thermocycling. J Endod. 2011;37(10):1390–3.
21. Tuna EB, Dinçol ME, Gençay K, Aktören O. Fracture resistance of immature teeth filled with BioAggregate, mineral trioxide aggregate and calcium hydroxide. Dent Traumatol. 2011;27(3):174–8.
22. Wilkinson KL, Beeson TJ, Kirkpatrick TC. Fracture resistance of simulated immature teeth filled with resilon, gutta-percha, or composite. J Endod. 2007;33(4):480–3. 23. White JD, Lacefield WR, Chavers LS, Eleazer PD. The effect of three commonly used endodontic materials on the strength and hardness of root dentin. J Endod. 2002;28(12):828–30.
24. Bortoluzzi EA, Souza EM, Reis JM dos SN, Esberard RM, Tanomaru‐Filho M. Fracture strength of bovine incisors after intra‐radicular treatment with MTA in an experimental immature tooth model. Int Endod J. 2007;40(9):684–91.
25. Chatterjee S, Mandal D, Biswas I, Shil R, Mazumdar dr paromita, Maiti N. Endodontic management of open apices by two bioactive materials: A case series. Int J Med Heal Res. 2019 Dec 17;5(8):19–22.

Year 2021, Volume: 7 Issue: 3, 404 - 410, 31.12.2021

Leyla Kazancıoğlu Şule Batçık

https://doi.org/10.19127/mbsjohs.1007401

Abstract

References

1. Andreasen JO, Andreasen FM, Bakland LK, Flores MT. Emergency record for acute dental trauma, and clinical examination form for the time of injury and follow-up examination. Trauma Dent Inj A Manual, 2nd edn Oxford Blackwell Munksgaard. 2003;18-21. 2. Andreasen FM, Andreasen JO, Bayer T. Prognosis of root‐fractured permanent incisors—prediction of healing modalities. Dent Traumatol. 1989;5(1):11–22.
3. Silujjai J, Linsuwanont P. Treatment outcomes of apexification or revascularization in nonvital immature permanent teeth: a retrospective study. J Endod. 2017;43(2):238–45.
4. Frank AL. Therapy for the divergent pulpless tooth by continued apical formation. J Am Dent Assoc [Internet]. 1966/01/01. 1966;72(1):87–93. Available from: https://www.ncbi.nlm.nih.gov/pubmed/5215726
5. Rafter M. Apexification: a review. Dent Traumatol. 2005;21(1):1–8.
6. Andreasen JO, Farik B, Munksgaard EC. Long‐term calcium hydroxide as a root canal dressing may increase risk of root fracture. Dent Traumatol. 2002;18(3):134–7.
7. Jeeruphan T, Jantarat J, Yanpiset K, Suwannapan L, Khewsawai P, Hargreaves KM. Mahidol study 1: comparison of radiographic and survival outcomes of immature teeth treated with either regenerative endodontic or apexification methods: a retrospective study. J Endod. 2012;38(10):1330–6. 8. Malkondu Ö, Kazandağ MK, Kazazoğlu E. A review on biodentine, a contemporary dentine replacement and repair material. Biomed Res Int. 2014;2014.
9. Torabinejad M, Chivian N. Clinical applications of mineral trioxide aggregate. J Endod. 1999;25(3):197–205.
10. Çiçek E, Yılmaz N, Koçak MM, Sağlam BC, Koçak S, Bilgin B. Effect of mineral trioxide aggregate apical plug thickness on fracture resistance of immature teeth. J Endod. 2017;43(10):1697–700.
11. Bouillaguet S, Wataha JC, Tay FR, Brackett MG, Lockwood PE. Initial in vitro biological response to contemporary endodontic sealers. J Endod. 2006;32(10):989–92.
12. Accardo C, Himel VT, Lallier TE. A novel GuttaFlow sealer supports cell survival and attachment. J Endod. 2014;40(2):231–4.
13. Mandal P, Zhao J, Sah SK, Huang Y, Liu J. In vitro cytotoxicity of guttaflow 2 on human gingival fibroblasts. J Endod. 2014;40(8):1156–9.
14. Collado-González M, Tomás-Catalá CJ, Oñate-Sánchez RE, Moraleda JM, Rodríguez-Lozano FJ. Cytotoxicity of GuttaFlow Bioseal, GuttaFlow2, MTA Fillapex, and AH Plus on human periodontal ligament stem cells. J Endod. 2017;43(5):816–22.
15. Cvek M. Prognosis of luxated non-vital maxillary incisors treated with calcium hydroxide and filled with gutta-percha. A retrospective clinical study. Endod Dent Traumatol [Internet]. 1992/04/01. 1992;8(2):45–55. Available from: https://www.ncbi.nlm.nih.gov/pubmed/1521505
16. Plascencia H, Díaz M, Gascón G, Garduño S, Guerrero-Bobadilla C, Márquez-De Alba S, et al. Management of permanent teeth with necrotic pulps and open apices according to the stage of root development. J Clin Exp Dent. 2017;9(11):e1329.
17. Soares CJ, Pizi ECG, Fonseca RB, Martins LRM. Influence of root embedment material and periodontal ligament simulation on fracture resistance tests. Braz Oral Res. 2005;19(1):11–6.
18. Hemalatha H, Sandeep M, Kulkarni S, Yakub SS. Evaluation of fracture resistance in simulated immature teeth using Resilon and Ribbond as root reinforcements–an in vitro study. Dent Traumatol. 2009;25(4):433–8.
19. Stuart CH, Schwartz SA, Beeson TJ. Reinforcement of immature roots with a new resin filling material. J Endod. 2006;32(4):350–3. 20. Chmoldt SJ, Kirkpatrick TC, Rutledge RE, Yaccino JM. Reinforcement of simulated immature roots restored with composite resin, mineral trioxide aggregate, gutta-percha, or a fiber post after thermocycling. J Endod. 2011;37(10):1390–3.
21. Tuna EB, Dinçol ME, Gençay K, Aktören O. Fracture resistance of immature teeth filled with BioAggregate, mineral trioxide aggregate and calcium hydroxide. Dent Traumatol. 2011;27(3):174–8.
22. Wilkinson KL, Beeson TJ, Kirkpatrick TC. Fracture resistance of simulated immature teeth filled with resilon, gutta-percha, or composite. J Endod. 2007;33(4):480–3. 23. White JD, Lacefield WR, Chavers LS, Eleazer PD. The effect of three commonly used endodontic materials on the strength and hardness of root dentin. J Endod. 2002;28(12):828–30.
24. Bortoluzzi EA, Souza EM, Reis JM dos SN, Esberard RM, Tanomaru‐Filho M. Fracture strength of bovine incisors after intra‐radicular treatment with MTA in an experimental immature tooth model. Int Endod J. 2007;40(9):684–91.
25. Chatterjee S, Mandal D, Biswas I, Shil R, Mazumdar dr paromita, Maiti N. Endodontic management of open apices by two bioactive materials: A case series. Int J Med Heal Res. 2019 Dec 17;5(8):19–22.

There are 21 citations in total.

Details

Primary Language	English
Subjects	Health Care Administration
Journal Section	Research articles
Authors	Leyla Kazancıoğlu 0000-0002-3833-0692 Şule Batçık 0000-0003-1110-6786
Publication Date	December 31, 2021
Published in Issue	Year 2021 Volume: 7 Issue: 3

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Vancouver	Kazancıoğlu L, Batçık Ş. The Role of the Integrated Pulmonary Index in Determining Respiratory Complications in Patients Undergoing Upper Gastrointestinal Endoscopy Under Sedation. Mid Blac Sea J Health Sci. 2021;7(3):404-10.

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