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1Professor, Department of Pediatric and Preventive Dentistry, M.R. Ambedkar Dental College and Hospital, Bengaluru, Karnataka, India
2Department of Paedodontics and Preventive Dentistry, M.R. Ambedkar Dental College and Hospital, Bengaluru, Karnataka, India
3Department of Pharmacognosy, Government College of Pharmacy, Bengaluru, Karnataka, India
4Department of Paedodontics and Preventive Dentistry, M.R. Ambedkar Dental College and Hospital, Bengaluru, Karnataka, India
*Corresponding Author:
Professor, Department of Pediatric and Preventive Dentistry, M.R. Ambedkar Dental College and Hospital, Bengaluru, Karnataka, India, Email: jyothsnasrikanth@gmail.comAbstract
Background: An extensive literature review indicates that Myristica fragrans (Nutmeg) is a natural wonder drug with a broad range of pharmacological effects. A single spice has the potential to treat a wide range of diseases. This is a preliminary investigation to assess Myristica fragrans (Nutmeg) efficacy as a pulpotomy medicament.
Objective: To assess the clinical and radiographic efficacy of Myristica fragrans as pulpotomy medicament and compare it with white mineral trioxide aggregate (MTA)— an excellent biomaterial used for pulpotomy in primary teeth.
Materials and methods: This is a triple-blinded, randomized, controlled, clinical trial performed on children aged between 4–8 years with primary molars requiring pulpotomy. A total of 50 teeth were randomly assigned into two groups: after pulp amputation and hemostasis, group A received Myristica fragrans with zinc oxide eugenol and group B received MTA over the pulp stumps. Teeth were then filled with glass ionomer cement and then complete coronal restorations with stainless steel crowns were given. The evaluation was done both clinically and radiographically by a blinded calibrated evaluator based on Zurn and Seale criteria at 3, 6, and 12 months. The data obtained were subjected to statistical analysis.
Results: Both groups showed 100% success clinically and radiographically throughout the follow-up period. The results indicated that Myristica fragrans showed similar performance as MTA when used as a pulpotomy medicament.
Conclusions: Myristica fragrans can be suggested as a pulpotomy agent for primary teeth. However, further clinical studies with long-term follow-ups are needed to give more affirmative results.
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Introduction
The primary tooth has an important role in orofacial development. Primary teeth maintain dental arch length and masticatory functions until permanent teeth erupt. The health of the primary teeth is important in maintaining these functions which in turn may be affected by caries, restorative procedures, and trauma. Pulp treatment procedures for primary teeth can be divided into two main categories: vital pulp therapy (VPT) and non-vital pulp therapy. The main aim of VPT in primary teeth is to treat reversible pulpal injuries and to maintain pulp vitality/functions. Factors influencing the success of VPT are adequate blood supply, the severity of inflammation, obtaining hemostasis, disinfection of the exposure site, antibacterial properties, biocompatibility of pulp covering agents, and adequate coronal seal.1 The success of the pulpotomy procedure depends upon the healing ability of radicular pulp tissue after surgical removal of the infected or affected coronal pulp.2
Ideally, a pulpotomy medicament should be bactericidal, easy to use, and harmless to the remaining pulp tissue and the surrounding structures. It should not interfere with physiologic root resorption and should be relatively inexpensive.2
Sweet introduced the formocresol pulpotomy technique in 1930 and it has subsequently become a popular medicament in the pulpotomy of primary teeth. Over the years, formocresol has been labeled as being mutagenic, toxic, and carcinogenic.3 The International Agency for Research on Cancer classified formaldehyde as carcinogenic for humans in June 2004.4
However, literature shows various materials like glutaraldehyde, calcium hydroxide, and ferric sulfate being used for pulpotomy with varying degrees of success. Each of the materials used has its limitations like toxicity, resorption, inflammation, and so on.
Mineral trioxide aggregate (MTA) was introduced in 1998 It is a very biocompatible and bioactive material with good sealing abilities and it promotes pulp tissue regeneration. However, the drawbacks include less antimicrobial efficacy, is not very economical, and a long setting time.5
Plant products from mother nature have been used since ancient times for the benefit of mankind. With the relevant increase in the incidence of antibiotics overuse and misuse in dentistry, phytomedicines with beneficial pharmacological properties are being tried.6
Information from an extensive literature review indicates that Myristica fragrans (Nutmeg) is a wonder drug from nature that has a broad spectrum of pharmacological effects. A single spice has the potential of curing a large number of diseases. Nutmeg and mace produced from M. fragrans are very effective against various animal and plant bacteria, fungi, harmful viruses, insects, and snails.7 The fruit and seed extracts of M. fragrans show hepatoprotective activity, anti-oxidant activity, memory enhancing activity, anti-cancer activity, aphrodisiac activity, anti-diabetic activity, anti-depressant activity, hypolipidemic and hypocholesterolemia effect, antimicrobial activity, anti-bacterial, anti-inflammatory, and anti-carcinogenic activities. They are well accepted because of the wealth of scientific literature supporting these effects.8
Considering these pharmacological benefits of M. fragrans, we chose it as the medicament for pulpotomy for the present study and compared it with recent medicament MTA showing a very high success rate.
Material and methods
Preparation of essential oil of Myristica fragrans and phytochemical analysis
The essential oil of M. fragrans was prepared by hydrodistillation using Clavenger’s method. Nutmeg kernels collected for the study were authenticated and certified at the Regional Institute of Ayurveda. Ground powder of Nutmeg (50g) was placed in a 500ml distillation flask with 2/3rd volume of distilled water. The heat was applied using a heating mantle and the volatile oil was carried with the steam to a cold condenser. The lighter oil rose to the top of the separator. This process was continued for about 12h until the oil inside the water ran out and stopped collecting. The volume of essential oils was determined from a calibrated trap.9 Phyto-chemical analysis of the extract was performed by gas chromatography-mass spectroscopy analysis (GC-MS) analysis at Auriga Research Private Limited, Bengaluru, under standard protocols.10
Clinical Procedure
The present study was conducted in the Department of Pediatric Dentistry of our Institution. The sample size was estimated using the G Power software v. 3.1.9.2. Considering the effect size to be measured (d) at 64%, the power of the study at 80%, and margin of the error at 5%, the total sample size needed was 40. Anticipating 20% attrition/loss to follow-up of the study patients, the total sample size was increased to 43, which was rounded off to 50. The study participants were further subdivided into two groups having 25 samples in each group; group A received M. fragrans and group B received MTA. (Table 1)
Subjects were included based on the selection criteria (Table 2). The study was initiated after the approval from the Institutional Ethics committee and Review Board and was registered with the Central Trial Registry of India (CTRI registration No. CTRI/2020/05/025148). Informed written consent from the parent/guardian and assent from the child was taken before recruiting.
After administering local anesthesia using 2% lignocaine hydrochloride with adrenaline 1:80000, rubber dam isolation was performed. Caries removal and un-roofing of the pulp chamber were carried out using a #330 high-speed carbide bur (SS White, USA) with air-water spray. The coronal pulp was amputated using a sterile sharp spoon excavator. The pulp chamber was flushed with normal saline. Hemostasis was achieved with a sterile cotton pellet wetted with saline applied for 4–5 mins, followed by placement of a mix of M. fragrans extract with zinc oxide powder (Deepak enterprises, Mumbai, India) into putty consistency and 2mm of this placed on the pulp stumps. The cavity was then sealed with glass ionomer cement (GC Corporation, Japan) for group A. In group B, MTA white powder (Angelus, Brazil) was mixed with distilled water following the manufacturer’s instructions into a putty consistency and a 2mm thick layer of this was placed on the pulp stumps. After the initial setting, the placement of glass ionomer cement was done.11 Tooth preparation and stainless-steel crown (3M ESPE USA) placement was done in both group A and group B and post-operative radiographs were taken.12
Clinical and Radiographic follow-up
Follow-up was done both clinically and radiographically at 3, 6, and 12 months periods. A single calibrated outcome assessor, who was blinded to intervention allocation evaluated both the clinical signs and radiographic findings based on Zurn and Seale criteria (Table 3).11
Results
Gas chromatography–mass spectrometry (GC-MS) analysis of the essential oil of M. fragrans detected over 20 chemical compounds. Volatile components of Nutmeg oil constituted 3 groups: hydrocarbons, oxygenated hydrocarbons, and aromatic hydrocarbons. Hydrocarbons were mostly terpene compounds like monoterpenes (sabinene and α–pinene); oxygenated hydrocarbons composed mainly of compounds that contain alcohol, ketone, or ester, terpene alcohol (terpinene4ol), and phenylpropenes (elemicin and safrole) and the aromatic compounds wee myristicin, isoeugenol, elemicin, and safrole which are responsible for distinctive aroma of nutmeg. This clinical study results showed no statistically significant difference in age, sex, and distribution of teeth between the two groups. All the teeth in our study were clinically asymptomatic (Table 4) throughout the follow-up periods of 3, 6, and 12 months. Radiographic images also did not show any pathological changes (Table 5).
Discussion
The present clinical study was conducted on 50 primary teeth and to prevent selection bias the teeth were randomly allocated into two groups using computerized randomization (random.org) ensuring that each patient had an equal chance of receiving one of the two medicaments. The procedure in all the selected teeth was performed with rubber dam isolation. Initial hemorrhage control after access opening was done by placing moist saline sterile cotton pellets on the radicular pulp stumps under slight pressure for 5 minutes. To ensure that the pulp was healthy, a 5-minute mark was chosen because this is the midpoint of the normal bleeding time range (1–9½ minutes).13 Teeth with insufficient hemostasis were not included in the study.
Stainless steel crown was cemented after the procedure to restore tooth anatomy and function, protect the remaining tooth structure, and provide a biological seal to prevent bacterial infiltration of the remaining vital pulp tissue. Farooq (2002) and Guelmann (2005) have shown that the final restoration of the pulpotomized tooth is significantly associated with the success of the pulpotomy. The stainless-steel crown is the restoration of choice or the “gold standard” because it protects the tooth from fracture (full crown coverage), minimizes the possibility of leakage, and ensures a biological seal.14
In this study, a single operator performed the procedure to avoid inter-operator discrepancy. The participants, outcome assessor, and statistician were blinded to the allocation.
Follow-up evaluation was done at 3, 6, and 12 months intervals by a well-trained evaluator unaware of medicament allocation. Masked post-treatment radiographs were used for evaluation to avoid bias that may arise from the difference in radioopacity of the medicaments used.15
In the present study, all the clinical parameters and radiographic parameters showed 100% success in both MTA and M. fragrans groups at 3, 6, and 12 months follow-up periods. The results of our study with MTA showed both clinical and radiographic success of 100% which are similar to studies done by Lin Lin (2020), Silva et al. (2019), and Vilella-Pastor (2021).16,17,18
Mineral trioxide aggregate (MTA) showed a high effectiveness between 87.1%–100%.19 It has shown 100% clinical success in numerous studies and slightly less radiographic success rates. 19
Togaru et al. performed pulpotomy on 90 decayed primary molars with MTA and biodentine. The results of the clinical trial showed a 100% success rate with MTA at 9 months follow-up. At the 12-month follow-up, the clinical success rate decreased to 95.5% and only one tooth presented radiographic signs such as inter radicular radiolucency and periodontal ligament widening.20 Bani et al. (2017) compared MTA and biodentine and evaluated the pulpotomized teeth at 12, 18, and 24 months follow-up. The results showed a clinical success rate of 96.8% for both medicaments while the success rate radiographically for the MTA group was 87.1%.21 According to Yildirim et al., the MTA group in a clinical trial of 140 teeth presented a high clinical success rate of 100% at 24 months follow-up and 93.9% of the teeth treated with MTA had no radiographic signs of failure.22
The essential oil of M. fragrans has over 20 active biological constituents as shown by GC-MS analysis.23,24
Antimicrobial activity
The compounds present in the essential oil of M. fragrans include myristicin, trimyristin, and myristic acid which show a different spectrum of activity against different microorganisms.24 Groups such as COOH, COOR, NH2 , or SH have been suggested to be the functional groups responsible for the antibacterial activity which are present in myristic acid and trimyristin.25 Antibacterial potential of myristicin may be due to the presence of an unsaturated side chain on the aromatic ring. The bacterial cell wall is the possible target of the compounds such as organic acids, esters, and aromatic compounds like myristicin, trimyristin, and myristic acid.25,26 Macelignan is very effective against Streptococcus-mutans .27 Shinohara et al. determined that malabaricone C isolated from Nutmeg irreversibly inhibited Arggingipain by 50% at a concentration of 0.7 μg/ml and selectively suppressed Porphyromonas gingivalis growth.28 In vitro study by Yanti et al. showed a reduction in the growth of S. mutans, Actinomyces viscosus , and Streptococcus sanguinis in biofilms after 24 hours.29 Shafiei et al. showed a significant decrease in the bacterial concentration of Aggregatibacter actinomycetemcomitans and P. gingivalis with the extracts of flesh, seed, and mace of M. fragrans.30
Anti-inflammatory activity:
The essential oil of Nutmeg contains limonene, β-pinene, α-pinene, and sabinene which are known as 5-lipoxygenase inhibitors.31 Limonene is also a COX-2 selective inhibitor that has significant inhibitory effects on Prostaglandin E2 (PGE2) production. Terpene-4-ol which is 7.2% in seed oil and 23.6% in mace oil, suppresses the production of interleukin 1 beta (IL-1β) and Tumor necrosis factor- alpha (TNF-α), IL-8, IL-10, and PGE2. α-pinene reduces pro-inflammatory IL-6 in mouse colon but does not suppress IL-1β. Sabinene, eugenol, α-pinene inhibit TNF-α production.5,8 Sabinene also inhibits IL-1β and IL-6.31,32,33
Osteoblast proliferation stimulation activity:
M. fragrans compounds have a proven ability to stimulate osteoblastic differentiation. Machilin A present in M. fragrans stimulated osteoblast differentiation by activating p38 mitogen-activated protein (MAP) kinase. Other lignans like safrole, myristargenol, mace lignan, nectandrin B, mesodihydroguaiaretic acid, machilin F, licarin B, and licarin A from M. fragrans also showed similar actions and have anabolic activity in bone metabolism.34
Analgesic activity:
Extracts from plants of the Myristicaceae family have been shown to inhibit phospholipase A2, which lowers the availability of arachidonic acid precursor for prostaglandin synthesis. The antinociceptive activity of Nutmeg extracts may be attributed to the inhibition of the release of IL-1β and IL-8 by cells or due to bradykinin and prostaglandin suppression.35
M. fragrans is a resource of medicinally active compounds and has diverse pharmacological effects. The proven antimicrobial, anti-inflammatory, analgesic, and osteoblastic activity of Nutmeg may be beneficial for the healing of pulp which has shown success in this study. Conclusion This is the first clinical trial using M. fragrans in the pulpotomy of primary teeth. Results of this study showed that it is effective as a pulpotomy medicament and is comparable to MTA.
Limitations
Since this is the first clinical trial using M. fragrans as pulpotomy medicament, more studies with larger sample sizes, longer follow-up periods, diverse clinical and radiographic presentations, and well-controlled clinical conditions will be affirmative.
Conflict of interest
Nil
Supporting File
References
- Parisay I, Ghoddusi J, Forghani M. A review on vital pulp therapy in primary teeth. Iran Endod J 2015 Winter; 10(1):6-15.
- Fuks AB. Pulp therapy for the primary dentition. In: Pinkham JR, Casamassimo PS, Fields HW Jr, McTigue DJ, Nowak A. Pediatric Dentistry: Infancy Through Adolescence. 5th ed. St. Louis, Mo: Elsevier Saunders Co; 2013:331-51.
- Myers DR, Shoaf HK, Dirksen TR, et al. Distribution of 14C-formaldehyde after pulpotomy with formocresol. J Am Dent Assoc 1978; 96(5): 805–813.
- International Agency for Research on Cancer. Press release no. 153. 15 2004.
- Subramaniam P, Konde S, Mathew S,et al. Mineral trioxide aggregate as pulp capping agent for primary teeth pulpotomy: 2year follow up study. J Clin Pediatr Dent. 2009; 33(4): 311-4.
- Kamat S, Rajeev K, Prahlad S. Role of herbs in endodontics: an update. Endodontology 2010;23:98- 102.
- Jaiswal P, Kumar P, Singh VK, et al. Biological Effects of Myristica fragrans. Annu Rev Biomed Sci 2009;11:21-29.
- Tripathi nagja, Kumar vimal, Acharya sanjeev Myristica fragrans: a comprehensive review. Int j pharm pharm sci, vol 8, issue 2, 27-30.
- AlJumaily EF, AlAmiry MH. Extraction and purification of terpenes from Nutmeg (Myristica fragrans). J Al Nahrain Univer 2012;15:151-60.
- Setty JV, Srinivasan I, Satheesh RT, et al. In vitro evaluation of antimicrobial effect of Myristica fragrans on common endodontic pathogens. J Indian Soc Pedod Prev Dent 2020;38:145-51.
- Zurn D, Seale NS (2008) Light-cured calcium hydroxide vs formocresol in human primary molar pulpotomies: a randomized controlled trial. Pediatric Dentistry 2008;30:34-41.
- American Academy of Pediatric Dentistry: Guidelines for pulp therapy for primary and young permanent teeth. Pediatr Dent 2016;37(6):244-52.
- Vargas KG, Packham B, Lowman D. Preliminary evaluation of sodium hypochlorite for pulpotomies in primary molars. Pediatr Dent. 2006; 28(6):511- 517.
- Guelmann M, fair J, Bimstein E. Permanent Vs Temporary Restorations After Emergency Pulpotomies In Primary Molars. Pediatr Dent 2005; 27:478-81.
- Musale PK, Kulkarni N, Kothare SS. An In Vivo Evaluation of Biodentine™ as a Pulpotomy Agent in Primary Teeth. J South Asian Assoc Pediatr Dent 2018;1(2):39-46.
- Lin YT, Lin YJ. Success rates of mineral trioxide aggregate, ferric sulfate, and sodium hypochlorite pulpotomies: A prospective 24-month study. J Formos Med Assoc. 2020; 119(6): 1080-1085.
- Silva LLCE, Cosme-Silva L, Sakai VT, et al. Comparison between calcium hydroxide mixtures and mineral trioxide aggregate in primary teeth pulpotomy: a randomized controlled trial. J Appl Oral Sci. 2019; 27: e20180030.
- Vilella-Pastor S, Sáez S, Veloso A, et al. Long-term evaluation of primary teeth molar pulpotomies with Biodentine and MTA: a CONSORT randomized clinical trial. Eur Arch Paediatr Dent. 2021; 22(4): 685-692.
- Boulioni F E and Arhakis A. Pulp Dressing Agents Used in Primary Teeth: A Review of the Literature. European Journal of Dental and Oral Health.
- Togaru H, Muppa R, Srinivas N, et al. Clinical and radiographic evaluation of success of two commercially available pulpotomy agents in primary teeth: An in vivo study. J Contemp Dent Pract. 2016; 17(7): 557-63.
- Bani M, Aktaş N, Çınar Ç, et al. The clinical and radiographic success of primary molar pulpotomy using Biodentine™ and mineral trioxide aggregate: A 24-month randomized clinical trial. Pediatr Dent. 2017; 39(4): 284-288.
- Yildirim C, Basak F, Akgun OM, et al. Clinical and radiographic evaluation of the effectiveness of formocresol, mineral trioxide aggregate, Portland cement, and enamel matrix derivative in primary teeth pulpotomies: A two-year follow-up. J Clin Pediatr Dent. 2016; 40(1): 14-20.
- Saputro MA, Andarwulan N, Faridah DN. Physical characterization and essential oil properties of West Sumatra mace and nutmeg seed (Myristica fragrans Houtt) at different ages at harvest. J Pharmacogn Phytochem 2016;5:371-6.
- Kumari TP, Rani P, Sundar SK, et al. GC-MS analysis and antibacterial activity of Myristica fragrans seed extracts against lower respiratory tract pathogen Acinetobacter baumanii. Asian J Pharm Clin Res 2014;7:126-9.
- Narasimhan B, Dhake AS. Antibacterial principles from Myristica fragrans seeds. J Med Food 2006;9:395-9.
- Olajide OA, Ajayi FF, Ekhelar AI, et al. Biological effects of Myristica fragrans (nutmeg) extract. Phytother Res 1999;13:344-5.
- Chung JY, Choo JH, Lee MH, et al. Anticariogenic activity of macelignan isolated from Myristica fragrans (nutmeg) against Streptococcus mutans. Phytomedicine 2006;13:261-6.
- Shinohara C, Mori S, Ando T, et al. Arg-gingipain inhibition and anti-bacterial activity selective for Porphyromonas gingivalis by malabaricone C. Biosci Biotechnol Biochem 1999;63:1475-7.
- Yanti, Rukayadi Y, Kim KH, et al. In vitro antibiofilm activity of macelignan isolated from Myristica fragrans Houtt. against oral primary colonizer bacteria. Phytother Res 2008;22:308-12.
- Shafiei Z, Shuhairi NN, Md Fazly Shah Yap N, et al; Antibacterial activity of Myristica fragrans against oral pathogens. Evid Based Complement Alternat Med 2012;2012:825362.
- Jangid KR, Jayakumar ND, Varghese SS. Achievable therapeutic effects of Myristica fragrans (Nutmeg) on periodontitis a short review. Int J Pharm Pharm Sci 2014;6:591-4.
- Maria Graca Miguel. Antioxidant and antiinflammatory activities of essential oils- A short review. Molecules 2010;15:9252-9287.
- Gomes A, Fernandes E, Lima JLFC, et al. Molecular mechanisms of anti-inflammatory activity mediated by flavinoids. Curr Med Chem 2008;15:1586-1605.
- Lee SU, Shim KS, Ryu SY, et al. Machilin, an isolated from Myristica fragrans, stimulates osteoblast differentiation. Planta Med 2009;75:152-7.
- Al-Shammary Hayfaa A, A Malik Al-Saadi Sahar, M Al-Saeidy Awatif. Evaluation of analgesic activity and toxicity of alkaloids in Myristica fragrans seeds in mice. Journal of Pain Research 2013:6 611–615.