International Physiology Journal

International Physiology Journal

International Physiology Journal

Current Issue Volume No: 1 Issue No: 2

Research Article Open Access Available online freely Peer Reviewed Citation

Assessment of Energy of Consciousness Healing on Cell Growth of Plant Stem Cells Callus Culture

Gopal Nayak 1,   Mahendra Kumar Trivedi 1,   Alice Branton 1,   Dahryn Trivedi 1,   Snehasis Jana 2  

1Trivedi Global, Inc., Henderson, USA.

2Trivedi Science Research Laboratory Pvt. Ltd., Bhopal, India.

Abstract

The present study was aimed to evaluate the effect of Consciousness Energy Healing Treatment on plant callus of Mandukparni (Centellaasiatica), Katsarika (Barleriacristata), and Amla (Phyllanthus emblica) in Murashige & Skoog liquid medium (MS) for its growth and yield on day 7. The plant callus of all the three plants were divided into two parts, one part received Biofield Energy Treatment remotely (known as The Trivedi Effect®-Energy of Consciousness Healing Treatment) by a renowned Biofield Energy Healer, Gopal Nayak and denoted as Biofield Energy Treated group, while another part did not receive any treatment and defined as control. Plants callus were observed on day 7 after treatment and visualized under phase contrast microscope for cell growth, captured photomicrographs along with wet weight compared with day 0. Results suggested that three plants viz. Mandukparni, Katsarika, and Amla callus after 7 days showed a significant improved growth rate as compared with the respective untreated groups. The weight of the callus growth (in mg) after Biofield Energy Treatment among Mandukparni, Katsarika, and Amla callus on day 7 was 630, 782, and 920 mg, respectively. However, the percentage increase in weight of the callus in Mandukparni, Katsarika and Amla was 11.1%, 52.4%, and 68.5%, respectively than untreated. Hence, results concluded a significant growth in callus weight after Biofield Energy Treatment, which suggested the action as complementary and alternate approach in order to produce most high-value phytoconstituents from plant callus that can be used for making various drugs, food flavoring and colouring agents.

Author Contributions
Received 17 Aug 2018; Accepted 17 Aug 2018; Published 21 Aug 2018;

Academic Editor: Nasim Habibzadeh, Teesside university, United Kingdom.

Checked for plagiarism: Yes

Review by: Single-blind

Copyright ©  2018 Gopal Nayak, et al.

License
Creative Commons License     This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Competing interests

The authors have declared that no competing interests exist.

Citation:

Gopal Nayak, Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Snehasis Jana (2018) Assessment of Energy of Consciousness Healing on Cell Growth of Plant Stem Cells Callus Culture . International Physiology Journal - 1(2):15-23. https://doi.org/10.14302/issn.2578-8590.ipj-18-2309

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DOI 10.14302/issn.2578-8590.ipj-18-2309

Introduction

Plant tissue culture also defined as cell culture, sterile culture, in vitro, and axenic is one of the vital tool now a days in basic and applied science research studies, which have been implicated in various commercial application 1. Under defined in vitro physical and chemical conditions, plant cell tissue culture is maintained in an aseptic conditions from cells, tissue, organ, and their associated components. These cultures are very useful for commercial applications for its secondary metabolites, which can be directly used as drug or as one of the major constituents of medicinal agent. The plant callus cultures are one of the best methods for the conservation of medicinal plants, which provide high-value natural products (NPs) such as codeine, nicotine, strychnine, azadirachtin, morphine, and paclitaxel 2. Besides, they are also used as flavoring and coloring agents using various approved commercial methods. Chemical synthesis of metabolites is one of the alternative and costly approaches, which is also associated with the toxic by-products 3. Thus, plant tissue culture can be considered as the best approach and well-established platform for NPs synthesis with various advantage and wide therapeutic application 4, 5. The present experimental study assessed the growth and yield of plant callus of Mandukparni (Centellaasiatica), Katsarika (Barleriacristata) and Amla (Phyllanthus emblica) after treatment with The Trivedi Effect®-Energy of Consciousness Healing Treatment by a renowned Biofield Energy Healer, Gopal Nayak. Centellaasiatica L. also known as Indian pennywort, it has been reported for multiplication of its callus through shoot tip culture 6 and meristem tip culture 7. Besides, this plant has significant benefits used for asthma treatment, skin diseases, nervine tonic, hypertension, dropsy, bronchitis, and urethritis (inflammation of the urethra) 8. Phyllanthus emblica Linn. (Indian gooseberry or amla) significantly used as alternative medicine in order to boost the vitality and vigor, along with its significant action as anti-inflammatory, wound healing, antianemia, cardioprotective, antipyretic, anti-diarrheal, analgesic, and many more 9. Similarly, Barleriacristata, a perennial shrub has been reported to have many biological active compounds viz. iridoids, flavonoids, and phenylethanoid derivatives against many biological activities 10.

The potential mechanisms of certain Energy-Healing practices have been increased from many decades in different biological fields. As a result, healing practitioners (The Trivedi Effect®) have been involved in a wide number of preclinical, in vitro cell lines, analytical, pharmaceutical, agricultural studies. Complementary and Alternative Medicine (CAM) has also defined and recognized Biofield Energy Healing with significant results in biological studies 11. National Center for Complementary and Alternative Medicine (NCCAM) also mentioned about the importance of Biofield therapies in the subcategory of Energy Therapies. Hence, Biofield Energy Healing is increasingly accepted to promote human wellness as an alternate approach 12, 13. The Trivedi Effect®-Consciousness Energy Healing Treatment has been reported with significant revolution in the physicochemical properties of metals 14, 15, 16, 17, improved agricultural crop yield, productivity, and quality 18, 19, 20, transformed antimicrobial characteristics of pathogenic microbes at genetic level 21, 22, 23, improved biological activity of nutraceutical compounds for skin health 24, 25, livestock 26, biotechnology 27, 28, improved bioavailability 29, 30, 31, nutraceuticals 32, 33, cancer research 34, 35, bone health 36, 37, 38, human health and wellness.

Materials and Methods

Chemicals and Reagents

The liquid MS medium (Murashige Skoog's) was purchase from Sigma-Aldrich, India. Serological pipettes and T75 culture flask were procured from Thermo Scientific, while the culture petridish and 200 μL microtips were purchased from Tarson, USA. All the other chemicals used in this experiment were analytical grade procured from India.

Experimental Design

The three plant callus was taken in the experimental group’s viz. plant callus of Mandukparni (Centellaasiatica), Katsarika (Barleriacristata), and Amla (Phyllanthus emblica). For experimental testing, each callus culture and plant MS media were divided into two parts, one is control and other is the Biofield Energy Treated. All the groups were visualized for growth and yield of the callus on day 0 and day 7.

Energy of Consciousness Treatment Strategies

The test samples, three plant callus and MS media were divided into two parts, one part each of the test sample (plant callus and MS media) was treated with the Biofield Energy by a renowned Biofield Energy Healer (also known as The Trivedi Effect®) and coded as the Biofield Energy Treated DMEM, while the second part did not receive any sort of treatment in the control test sample (plant callus and MS media) group. This Biofield Energy Healing Treatment was provided by Gopal Nayak remotely for ~5 minutes, while the test item was located in the research laboratory of Dabur Research Foundation, New Delhi, India. This Biofield Energy Treatment was administered for 5 minutes through the Healer’s unique Energy Transmission process remotely to the test sample under laboratory conditions. Gopal Nayak in this study never visited the laboratory in person, nor had any contact with the test sample (plant callus and MS media). Further, the control groups were treated with a sham healer for comparative purposes. The sham healer did not have any knowledge about the Biofield Energy Treatment. After that, the Biofield Energy Treated and untreated samples were kept in similar sealed conditions for experimental study. After that, the Biofield Energy Treated and untreated samples were kept in similar sealed conditions for experimental study.

Collection of Plant and Surface Sterilization

Healthy leaflet of the mandukparni, katsarika, and amla explants were collected in appropriately sized. All the three explants were thoroughly washed using running tap water for 20 minutes in order to remove the traces of dust, foreign materials, etc. followed by washing with the fungicide solution. Further, the explants were exposed to surface sterilization using 70% ethanol for about 40 seconds and again washed 4-5 times using sterile double distilled water.

Culture Media and Conditions

All the three fine cuts were made in the young leaf (wound induction), which were cultured on MS basal medium, gelled with 0.8% agar containing 3% sucrose. The pH of the callus medium was adjusted approximately 5.8 before agar was gelled. All the plant callus cultures were maintained in growth condition at 25 ± 2º C and 60% to 70% relative humidity with a photoperiod of 16 hour at 3000 lux light intensity with a photoperiod of 16 hour light and 8 hour dark.

Plant Callus Suspension Culture

All the three cultures were incubated in a culture room and after some days, callus induction was started in all the samples. Further, the suspension culture was made from the friable creamish calli, which was transferred to the T75 culture flasks in liquid MS media supplemented with different phytohormones such as cytokines (6-benzylaminopurine, BAP with 5.0 mg/L and kinetin, KIN with 0.5 mg/L concentration) and auxins (α-naphthalene acetic acid, NAA with 2.0 mg/L and 2,4-dichlorophenoxyacetic acid, 2,4-Dwith 2.0 mg/L). The aliquots of mandukparni, katsarika, and amla stem cells were cultured in T-75 cell culture flasks. The flasks received Biofield Energy Treatment (known as The Trivedi Effect®) at this stage without touching the cells. Following the treatment, the above T-75 flasks were incubated till day 7 in a shaking incubator (120 rpm) under photoperiod of 16 hours at 3000 lux light intensity provided by cool white fluorescent tubes. The incubation conditions were similar to that of untreated cells. On day 7, the flasks were observed and visualized under phase contrast microscope for monitoring cell growth and photomicrographs were captured at 200X magnification. The wet weight of all the callus was taken after day 7 39.

Results and Discussion

Assessment of Biofield Energy Healing Treatment on Mandukparni (Centella asiatica) Callus Growth and Yield

Mandukparni (Centellaasiatica) growth and yield of plant callus after Biofield Energy Healing Treatment and the results are presented in Figure 1, while the percentage increase in the callus weight was presented in Figure 4. Mandukparni callus flasks were observed and visualized under phase contrast microscope for cell growth and photomicrographs were captured at 200X magnification on day 0 and day 7 in both the groups, which was compared. The plant callus at day 7 as presented showed significant growth after Biofield Energy Treatment, while the callus growth was high on day 7 as compared with the untreated plant callus and MS media. However, experimental data suggested that the Mandukparni weight of callus on day 0 in the untreated group was 323 mg, while it was 300 mg in the Biofield Energy Treated group. On the other hand, on day 7, the untreated and Biofield Energy Treated callus weight was 620 and 630 mg, respectively. The weight increase in untreated group was 297 mg, while Biofield Energy Treated group showed a weight increase of 330 mg. Overall, the data showed 11.1% increased in the plant callus growth on day 7 after Biofield Energy Healing Treatment as compared with the control group. The experimental data suggested the significant callus growth, which have been used for many biological activities such as antioxidant, anti-feedant, anti-leprotic, antibacterial, and anti-tuberculosis activity along with significant use in leprosy and tuberculosis due to the presence of brahminoside, asiaticoside, indocentelloside, brahmoside, and theankuniside 40, 41, 42. Biofield Energy Treatment showed an improved callus growth of Centellaasiatica, which can be used against many biological disorders. Overall, the experimental data assumed that The Trivedi Effect® has significant capacity to improve the callus growth that can be used for isolation of biological active constituents, which have wide application against various pharmacological activities.

Figure 1.Microscopic pictures of Mandukparni (Centella asiatica) plant callus on day 0 and 7 in the control and Biofield Energy Treated groups.
Microscopic pictures of Mandukparni (Centella asiatica) plant callus on day 0 and 7 in the control and Biofield Energy Treated groups.

Effect of Biofield Energy Healing Treatment on Katsarika (Barleria cristata) Callus Growth and Yield

Katsarika plant callus growth and yield after Biofield Energy Healing Treatment by a renowned Biofield Energy Healer, Gopal Nayak showed a significant growth and the results are presented in Figure 2. Katsarika callus flasks were observed and visualized under phase contrast microscope for cell growth and photomicrographs were captured at 200X magnification on day 0 and day 7. The plant callus at day 7 as presented in the Figure 2, showed a significant growth after Biofield Energy Treatment, while the callus growth was high on day 7 as compared with the untreated plant callus and MS media. The experimental data revealed that the katsarika weight of callus (day 0) in the untreated group was 290 mg, while it was 302 mg in the Biofield Energy Treated group. On the other hand, on day 7 the katsarika weight of callus in the untreated group was 605 mg, while it was 782 mg in the Biofield Energy Treated group. The weight increase in control group was 315 mg, while Biofield Energy Treated group showed a weight increase of 480 mg. Overall, the data showed 52.4%increased in plant callus growth on day 7 as compared with the untreated control (day 0). The results suggested that Biofield Energy Healing Treatment has significant capacity to improve the plant callus of Barleriacristata. Thus, it can be used against isolation of vital phytoconstituents like iridoids, flavonoids, and phenylethanoid derivatives 10.

Figure 2.Representative photomicrographs of Katsarika (Barleria cristata) callus on day 0 and 7 in the control and Biofield Energy Treated groups.
Representative photomicrographs of Katsarika (Barleria cristata) callus on day 0 and 7 in the control and Biofield Energy Treated groups.

Effect of Biofield Energy Healing Treatment on Amla (Phyllanthus emblica) Callus Growth and Yield

The results of Amla plant callus growth and yield after Biofield Energy Healing Treatment are presented in Figure 3. Amla callus flasks were observed and visualized under phase contrast microscope for cell growth and photomicrographs were captured at 200X magnification on day 0 and day 7. The plant callus at day 7 showed a significant improved callus growth after Biofield Energy Treatment as compared with the untreated plant callus. However, results suggested that the amla plant callus weight in the untreated group was 403 mg, while it was 369 mg in the Biofield Energy Treated group on day 0. On the other hand, on day 7 the amla callus weight in the untreated group was 730 mg, while it was 920 mg in the Biofield Energy Treated group. The weight increase in control group was 327 mg, while Biofield Energy Treated group showed a weight increase of 551 mg. Overall, the data showed 68.5% increase in amla plant callus growth as compared with the untreated control. Phyllanthus emblica is one of the best dietary sources of vitamin C, amino acids, and minerals. It contains emblicol, phyllembelic acid, phyllembelin, rutin, curcuminoids, phenolic compounds and tannins as the major constituents for various biological activities. Biofield Energy Healing Treatment showed a significant improved growth of plant callus, which can be highly useful to isolate the important phytoconstituents. Amla has been reported with significant biological activities such as antidiarrheal, antitussive, analgesic, hepatoprotective, wound healing, anti-atherogenic, anti-atherosclerotic, adaptogenic, gastro-protective, anti-hypercholesterolemia, nephron-protective, and neuroprotective properties 43, 44, 45.

Figure 3.Representative pictures of Amla (Phyllanthus emblica) callus on day 0 and 7 in untreated and Biofield Energy Treated groups.
Representative pictures of Amla (Phyllanthus emblica) callus on day 0 and 7 in untreated and Biofield Energy Treated groups.

Overall, the comparative data of all the three plants after treatment with The Trivedi Effect®-Energy of Consciousness Healing Treatment showed a significant increased in plant callus weight of Mandukparni (Centellaasiatica), Katsarika (Barleriacristata) and Amla (Phyllanthus emblica). However, Centellaasiatica, Barleriacristata, and Phyllanthus emblica showed a significant improved callus weight by 11.1%, 52.4%, and 68.5%, respectively on day 7 as compared with the day 0 (Figure 4).

Figure 4.Comparative analysis of change in callus weight in Phyllanthus emblica, Barleria cristata, and Centella asiatica after Biofield Energy Healing Treatment.
Comparative analysis of change in callus weight in Phyllanthus emblica, Barleria cristata, and Centella asiatica after Biofield Energy Healing Treatment.

Conclusions

Plant callus can be used against many biological activities using their vital phytoconstituents. The present study concluded that Biofield Energy Healing Treatment has significant capacity to improve the growth and yield of Mandukparni, Katsarika, and Amla. The Trivedi Effect®-Energy of Consciousness Healing Treatment on plant callus of all the three plants, which showed a significant improved growth of callus cultures as observed by phase contrast microscope. The weight increase in control group of Centella callus was 297 mg, while Biofield Energy Treated group showed a weight increase of 330 mg. The weight of the Centella callus was 620 mg, while it was increased by 630 mg (11.1% increased) on day 7 as compared with the untreated Centella callus. The weight increase of Barleriacristata callus in control group was 315 mg, while Biofield Energy Treated group showed a weight increase of 480 mg. Katsarika (Barleriacristata) callus weight was 605 and 782 mg in untreated and Biofield Energy Treated sample, which showed 52.4% improved callus growth on day 7. The weight increase in control group of Phyllanthus emblica was 327 mg, while Biofield Energy Treated group showed a weight increase of 551 mg. In addition, the callus weight of Phyllanthus emblica in the control group was 730 mg, while it was significantly increased to 920 mg after Biofield Energy Treatment on day 7. The experimental data suggested that the percentage increase in callus weight of Phyllanthus emblica was 68.5% as compared with the untreated group. Overall, data suggested that Biofield Energy Healing Treatment by a renowned Biofield Energy Healer, Gopal Nayak has the significant capacity to improve the growth of plant callus, which can be used to isolate the natural products from different medicinal plants and used as anti-inflammatory, immunostimulant, adaptogenic, hepatoprotective, and significant healing potential against various inflammatory diseases. Besides, The Trivedi Effect® can be used against several applications such as medicines, dyes, fragrances and flavors in pharmaceutical, cosmetic, and food industries.

Acknowledgements

Authors are grateful to Dabur Research Foundation, Trivedi Science, Trivedi Global, Inc., Trivedi Testimonials and Trivedi Master Wellness for their support throughout the work.

Abbreviations

MS: Murashige and Skoog (1962) medium

NAA: α-naphthalene acetic acid

IAA: Indole-3-acetic acid

2,4-D: 2,4-dichlorophenoxyacetic acid

BAP: 6-benzylaminopurine

KIN: Kinetin

NPs: Natural Products

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