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Aromatherapy is a medical practice that uses aromatic compounds or essential oils to influence mood and health. Essential oils used in aromatherapy are created from a wide variety of medicinal plants, flowers, herbs, roots, and trees that are found all over the world and have significant, well-documented benefits on enhancing physical, emotional, and spiritual wellbeing.

This book is a comprehensive reference on aromatic compounds present in essential oils and their therapeutic use. Starting from fundamentals of essential oil biosynthesis the book guides the reader through their basic biochemistry, toxicology, profiling, blending and clinical applications. The concluding chapters also present focused information about the therapeutic effects of essential oils on specific physiological systems, plant sources, skin treatment and cancer therapeutics.

The combination of basic and applied knowledge will provide readers with all the necessary information for understanding how to develop preclinical formulations and standard clinical therapies with essential oils. This is an essential reference for anyone interested in aromatherapy and the science of essential oils.

Readership
Medicinal chemists, pharmacologists and herbalists; health care practitioners in the field of alternative and complementary medicine.

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Table of Contents
BENTHAM SCIENCE PUBLISHERS LTD.
End User License Agreement (for non-institutional, personal use)
Usage Rules:
Disclaimer:
Limitation of Liability:
General:
PREFACE
FOREWORD
DEDICATION
List of Contributors
Aromatherapy Evolution and Blending Basics of Essential Oils
Abstract
1. Introduction
2. Aromatherapy Evolution
2.1. India
2.2. China
2.3. Egyptians
2.4. Greeks
2.5. Romans
2.6. Hebrews and Early Christians
2.7. Middle Ages (500-1500AD)
2.8. Medieval Islam
2.9. Tudor Times (1485-1603)
2.10. 17th Century
2.11. 18th Century and Industrial Revolution
2.12. 19th Century Scientific Approach
2.13. Development of Aromatherapy in the 20th Century
3. Essential Oils
3.1. Top Notes
3.2. Middle Notes
3.3. Base Notes
4. Safety Guidelines
4.1. Internal Use
4.2. Hazardous Oils
4.3. Toxicity
4.4. Patch Test
4.5. Dermal/Skin Irritation
4.5.1. Sensitization
4.5.2. Phototoxicity
4.5.3. Pregnancy
4.5.4. Epilepsy
4.5.5. Diabetes
4.5.6. Homeopathy
4.5.7. Neat Application
4.5.8. Babies and Children
4.5.9. Assessing Condition
5. Selecting Oils
5.1. For Cold And Flu
5.2. For Skin Care
5.3. For Headache
5.4. For Wounds
5.5. For Mental Fatigue
5.6. For Cystitis
5.7. For Eczyema
5.8. For Refreshing
5.9. For Stress
5.10. Sore Throat
5.11. Detoxifying/Hangovers/Cellulite
5.12. For Purifying Sick Room
5.13. Effects of Essential Oils
5.14. Through Smell
5.15. Through Skin
Conclusion
References
Plant as Potential Resources for Efficacious Essential Oils: Underpinning Aromatherapy Evolution
Abstract
1. Introduction
2. PLANTS AS SOURCE OF ESSENTIAL OILS
2.1. Salvia
2.2. Hyssop
2.3. Nepeta
2.4. Thymus
2.5. Mentha
2.6. Rosemary
2.7. Eucalyptus
2.8. Lippia
2.9. Boswellia
2.10. Lavender
2.11. Rose
2.12. Marjoram
2.13. Pomegranate
2.14. Cinnamon
2.15. Glycyrrhiza
2.16. Dictamnus
Conclusion
References
Essential Oil Biochemistry
Abstract
1. INTRODUCTION
2. Chemical Characteristics of Essential Oils
3. CHEMICAL COMPOSITION AND CONGENERIC GROUPS
3.1. Chemistry of Essential oils
3.1.1. Terpenes/Terpenoids-
3.1.2. Phenylpropanoids
4. Biological Activity of Essential Oil
4.1. Essential Oils as Antibacterial Agents
4.2. Essential Oils as Antifungal Agents
4.3. Essential Oils as Antioxidant Agents
4.4. Other Activities of Essential Oil
5. ESSENTIAL OIL PREPARATION TECHNIQUES
5.1. Classical Extraction Techniques
5.1.1. Maceration
5.1.2. Cold Pressing
5.1.3. Hydrodistillation (HD)
5.1.4. Steam Distillation (SD)
5.1.5. Solvent Extraction
5.1.6. Enfleurage
5.1.7. Soxhlet Extraction
5.2. Innovative Extraction Techniques
5.2.1. Supercritical Fluid Extraction
5.2.2. Microwave-Assisted Hydrodistillation (MAHD)
5.2.3. Subcritical Extraction
5.2.4. Solvent Free Microwave Extraction
5.3. Chromatographic Separation Techniques for Essential Oil
5.3.1. Thin Layer Chromatography
5.3.2. Analytical TLC
5.3.3. Liquid Chromatography
5.3.4. Gas Chromatography
5.3.5. IR Spectrophotometry
5.3.6. NMR Spectroscopy
6. Photo toxicity
7. PROCESSING OF ESSENTIAL OILSS FOR FLAVOR FUNCTIONS
Conclusion
References
Essential Oils’ Biosynthesis and their Application
Abstract
1. Introduction
2. Aromatic Plants' Essential Oil-secreting Cells
2.1. Osmophores
2.2. Glandular Trichomes (GTs)
3. Biosynthesis of Essential Oils
3.1. Essential Oils' Chemical Composition
3.2. Extraction of Essential Oils
3.3. Essential Oils Extracted by Steam Distillation
3.4. Essential Oil Extraction using Various Solvents
4. Factors Influencing Essential Oil Quantity and Quality in Plants
4.1. Developmental Stage of the Plant
4.2. The Influence of UV Radiation
4.3. Effect of Light Quality
4.4. Effect of Salt Stress
4.5. Effect by the Presence of Arbuscular Mycorrhizal Fungi
4.6. Impact of Fertilizers on Essential Oil
5. Health Benefits of Essential Oils
5.1. Important Roles in Hormonal Balance
5.2. Increase Immunity and Fight Infections
5.3. Helps in the Improvement of Digestion
5.4. Promotes Energy Towards Higher Levels
5.5. Boost Cognitive Function
5.6. Reduce Anxiety and Emotional Stress
5.7. Reduce Pain and Aches
5.8. Improve the Health of Your Skin and Hair
5.9. Decrease Toxicity
5.10. Reduce Migraines and Headaches
5.11. Encourage Restful Sleep
5.12. Relief from Inflammation
5.13. The Advantages of Essential Oils for Pain Relief
5.14. Skin Irritations Can Be Healed
5.15. Alternatives to Candles and Incense that are Less Dangerous
Conclusion
References
Essential Oils Toxicity and Conflicts
Abstract
1. Introduction
2. Toxicity Myths About EOs
3. EOs' Oral Toxicity, both Short-Term (Acute) and Long-Term (Chronic)
3.1. Dermal Absorption and Detoxification
3.1.1. EOs and EO Components' Chemo-preventive Efficacy on Tumorigenesis
3.1.2. Skin-damaging Consequences of EOs and EO Components
3.2. Inhalation: Absorption and Detoxification
3.2.1. Detoxification
3.3. Dermatitis and Sensitization
3.4. Photosensitization and Phototoxicity of EOs
3.5. Commonest Allergenic EOs and Components
3.6. Abortifacient and Teratogenic Oils
3.7. Genotoxicity of EOs
3.8. Neurotoxicity of EOs
3.9. Possible Hazards of Novel EOs and Plant Extracts
4. Safe EOs and their toxicity
4.1. Clary Sage
4.2. Rosemary
4.3. Lavender
5. Safety Warnings in Aroma therapy Industry
Conclusion
References
Human Organs System and Essential Oils (EOs)
Abstract
1. Introduction
2. Mechanisms of action of Natural Essential oils
3. Anti-Cancer Activity of Essential Oils (EOs)
3.1. Antimutagenic
4. Anti-inflammatory Activity
5. Effect of Essential Oils on the Respiratory System
6. Effect of Essential Oils on the Nervous System
6.1. Analgesic Action of Essential Oil (EOs)
6.2. Anxiolytic Action
6.3. Effects of the Treatment of Stress
6.4. Influence on Learning, Memory, Attention, and Arousal
6.5. Action on Relaxation, Sedation, and Sleep
6.6. Anticonvulsive Action and Treatment of Epilepsy
6.7. Action on Dementia and Alzheimer’s Disease
7. Effect of Essential Oils on the Skin
7.1. Essential Oils and Aromatherapy as Alternative Therapy for Acne
7.1.1. Tea Tree Oil (TTO)
7.1.2. Copaiba
7.1.3. Sandalwood Oil
7.1.4. Rosemary Extract
7.1.4. Jeju Essential Oil
7.1.5. Korean Citrus
8. Effect of Essential Oils on Muscles, Joints, and the Circulation
8.1. Eucalyptus Oil
8.2. Ginger Oil
8.3. Turmeric Oil
8.4. Frankincense Oil
8.5. Orange Oil
8.6. Effect of Essential Oils on the Reproductive System
Conclusion
References
Therapeutic Applications and Pharmacological Practices of Essential Oils
Abstract
1. INTRODUCTION
2. THERAPEUTIC APPLICATION OF ESSENTIAL OILS
2.1. Modes of EO Application
2.1.1. Ingestion
2.2. Inhalation
2.3. Novel Methods of EO Application
3. PHARMACOLOGICAL PRACTICES AND PROPERTIES OF ESSEN- TIAL OILS
3.1. Expectorants and Diuretics
3.2. Antibacterial and Antifungal Actions
3.3. Antiviral Activity
3.4. Antioxidant Activity
3.5. Anti-Inflammatory Activity
3.6. Cytotoxicity / Anticancer / Chemoprotective Activity
3.7. Repellent and Insecticidal Activity
3.8. Hepatoprotective / Nephroprotective Activity
3.9. Analgaesia / Antinociceptive Activity
3.10. Skin Care Activity
3.11. Memory Booster
3.12. Respiratory Tract
3.13. Anxiety
3.14. Anti Ulcer / Gastroprotective Activity
3.15. Diabetes Remedy
3.16. Antherosclerosis Remedy
3.17. Wound Rejuvenating and Remedy
4. MECHANISM OF THE BIOLOGICAL ACTIVITIES OF ESSENTIAL OILS
Conclusion
References
Future Perspective of Aromatherapy in Skin and Cancer Therapeutics
Abstract
1. Introduction
2. National status of aromatherapy
3. International status of aromatherapy
4. Aromatherapy in skin treatment
4.1. National Status
4.2. International Status
5. Aromatherapy in Cancer Treatment
5.1. National Status
5.2. International Status
6. EOs as a Therapeutic agent
7. The current use of aromatherapy as an occupational therapy
8. Antimutagenic properties and detoxification enhan- cement
9. Antiproliferative mechanism of action of EOs
10. Cancer cell specificity of EOs
11. Synergism of EO extracts with conventional chemotherapeutic agents: the potential of combination therapy using EOs
12. The aims of aromatherapy
Conclusions
Acknowledgements
References
Aromatherapy: The Science of Essential Oils
Edited by
Pradeep Kumar Shukla
Department of Biological Sciences
Faculty of Science, Sam Higginbottom
University of Agriculture
Technology and Sciences, Prayagraj
Uttar Pradesh, India
Ajeet Kumar Srivastav
Redcliffe Hygiene Private Limited
Gurugram-122016
Haryana, India
Department of Biochemistry
Babu Banrasi Das University
Lucknow, India
Deepti Chopra
Photobiology Laboratory, Systems Toxicology and Health Risk Assessment Group
CSIR-Indian Institute of Toxicology Research
Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg
Lucknow-226001, India
Shikha Agnihotry
Department of Computational Biology and Bioinformatics
Jacob Institute of Biotechnology and Bio-Engineering
Sam Higginbottom University of Agriculture
Technology and Sciences
Prayagraj (Allahabad)
Uttar Pradesh, India
Pragati Misra
Centre for Tissue Culture Technology, Jacob Institute of Biotechnology and Bioengineering
Sam Higginbottom University of Agriculture
Technology and Sciences, Prayagraj
Uttar Pradesh, India
&
Jyoti Singh
Photobiology Laboratory, Systems Toxicology and Health Risk Assessment Group
CSIR-Indian Institute of Toxicology Research
Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg
Lucknow-226001, India

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PREFACE

Writing the first edition of a book on the fascinating topic of aromatherapy, The Science of Essential Oils, is a privilege and an honour for us.

Since about 6,000 years ago, essential oils have been utilised to boost one's health or disposition. Aromatherapy is "the therapeutic application or the medical use of aromatic compounds (essential oils) for holistic healing," according to the National Association for Holistic Aromatherapy (NAHA). Numerous essential oils are thought to contain antiviral, nematocidal, antifungal, insecticidal, and antioxidant characteristics in addition to varying degrees of antibacterial action. Applications for aromatherapy include inhalation, topical use, and massage. Users should be mindful that "natural" goods are actually chemicals and might be dangerous if used improperly.

When using essential oils, it is critical to follow the advice of a trained professional. This book also discusses how commonly used therapeutic drugs, personal care products, and other chemicals, when consumed or applied to the body, can be toxic if not thoroughly researched. Although there is a growing awareness of the benefits of Aromatherapy, it is still underutilised, and people need to be educated about how Aromatherapy is safe for users through therapeutic application and what precautions can be taken before use. All of the authors in this book are highly skilled researchers who have extensive and up-to-date knowledge of the subject matter and are actively conducting research in the relevant fields.

We made every attempt to give information compiled from research articles already published on the topic for each chapter, and we organised it into subsections to make it easier to read. We did our best to utilise plain language that readers of all reading levels might understand. We anticipate that after reading the book, the reader will be better informed about the advantages of routine use of essential oils, aromatherapy in general, and about how other plants and natural elements interact with aromatherapy on the skin and inside the body.

Pradeep Kumar Shukla Department of Biological Sciences Faculty of Science, Sam Higginbottom University of Agriculture Technology and Sciences, Prayagraj Uttar Pradesh, IndiaAjeet Kumar Srivastav Redcliffe Hygiene Private Limited Gurugram-122016 Haryana, India Department of Biochemistry Babu Banrasi Das University Lucknow, IndiaDeepti Chopra Photobiology Laboratory, Systems Toxicology and Health Risk Assessment Group CSIR-Indian Institute of Toxicology Research Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg Lucknow-226001, IndiaShikha Agnihotry Department of Computational Biology and Bioinformatics Jacob Institute of Biotechnology and Bio-Engineering Sam Higginbottom University of Agriculture Technology and Sciences Prayagraj (Allahabad) Uttar Pradesh, IndiaPragati Misra Centre for Tissue Culture Technology, Jacob Institute of Biotechnology and Bioengineering Sam Higginbottom University of Agriculture Technology and Sciences, Prayagraj Uttar Pradesh, India &Jyoti Singh

FOREWORD

One of humanity's greatest legacies is the extensive knowledge about plants, which forms the basis of culture itself. The fascination of ambient pancha-mahabhutas in plant bodies is the first step in the biological process of producing essential oils. Owing to their distillation of “essential” components from “nonessential”, essential oils are the most significant plant wealth. They are frequently referred to as the “plant's soul” or the “quintessence for healing”. Aromatherapy is a form of traditional, alternative, or harmonizing therapy that uses volatile plant metabolites, known as essential oils, and other aromatic plant compounds to change a person's mind, body, and spirit. Essential oils are so-called “essential,” not for their indispensable role in life, but because “essential” is the attribute of “essence”, and these oils comprise the essence of a plant’s fragrance. Aromatherapy encompasses not only the artistic application of essential oils to induce virtuous changes on aesthetic and mystical levels but also the scientific application of essential oils to effect salutary changes in the physical realm. Essential oils have a tremendous impact on the body's and mind's deepest levels.

Nowadays, there is rising attention to the use of alternate and complementary therapies along with core medicine. This empirical discovery suggests that human immune responses may be stimulated, augmented, or somehow refined by persistent exposure to aromatic compounds. Aromatherapy is the practice of using essential oils as the major therapeutic agent to treat several diseases. Essential oils have been used for millennia by humans for their paramount importance in traditional and alternative medicinal approaches. Furthermore, their applications are also documented in Ayurveda, Chinese medicine, and homeopathy. There is a curiosity to unveil/rediscover the possible paradoxes of synthesis, mechanisms, and applications of essential oils and provide validated information on a common platform.

The book “Aromatherapy: The Science of Essential Oils” shows a broad picture of essential oils-based aromatherapy in several sub-sections, including historical perspective, aromatherapy evolution, essential oils biochemistry and biosynthesis, therapeutic applications, and pharmacological aspects of essential oils, essential oil toxicities, and regulatory aspects. The major highlights of the book pertain to correlation studies on essential oils mediated skin remediation; the use of a combination of different essential oils for aromatherapy; understanding of the molecular mechanism behind aromas and the role of aromatherapy; essential oils characteristics and properties against particular condition; current status and future prospective of aromatherapy. The book effectively presents many perceptions, and replicas, and a treasure of brilliant articles, both detailed overviews and studies, which can broaden our understanding of all aspects of essential oils as limitless molecules meant for numerous applications. The material in this book was gathered from reliable, reputable sources. It provides a great comparison to help grasp the principles of aromatherapy based on essential oils.

The chapters, written by professionals and experts in their corresponding fields, cover a profuse spectacle of topics and provide a groundwork in the natural chemistry of essential oils and their major applications. This comprehensiveness of the book brands it as a ‘one-stop platform’ and devising it as equally valuable for physiochemists, medical professionals, plant scientists, pharma-industrialists, microbiologists, ayurveda experts, biotechnologists, herbal-drug scientists, and physicians. Beyond multidisciplinary, interdisciplinary, and transdisciplinary research that incorporates the viewpoints of several disciplines, integrated, theory- and issue-driven aromatherapy procedures/protocols have vast scope. The intricacy of essential oils is being revealed with continual investigation, and it is becoming more and more clear how important they are to many businesses and how they may be used in healthcare. Future discoveries and creative uses might result from the continued investigation and comprehension of their intricate biological makeup. Furthermore, research and documentation on aromatherapy must eventually be placed within the larger frameworks of protecting biodiversity, managing resources sustainably, and protecting intellectual and biological property rights. This book will additionally accommodate as a wide-ranging outline of traditional and current information on the health effects of aromatherapy, that will be pertinent to the advancing back to nature crusade of today’s world.

This book is intended to satiate the requirements of EO manufacturers, purveyors, and consumers as well as the scientific fraternity, academicians, and legislators who will find the most recent knowledge given by exclusive experts under one cover. I am certain that readers in the field of life sciences would find this book very useful. The authors, editorial team, and publisher deserve congratulations and best compliments for publishing this useful book.

Ir. Jonathan A. Lal Sam Higginbottom University of Agriculture Technology and Sciences Prayagraj, Uttar Pradesh-211007 India

DEDICATION

In grateful remembrance of Professor Ramesh Chandra Pant, whose love for learning continues to inspire us through the pages of life.

In the tapestry of our lives, there are threads woven by exceptional individuals who leave an indelible mark on our hearts and minds. You were one such luminary, a beacon of wisdom, compassion, and inspiration. You have ignited our curiosity, fuelled our dreams, and left an indelible mark on our hearts. Your legacy lives on, in the hearts of those who were fortunate enough to be your students. As we continue to learn and grow, we carry the torch of your teachings, forever grateful for the privilege of having known and learned from you. Your teachings continue to resonate in our hearts, guiding us throughout life.

List of Contributors

Alka SagarDepartment of Microbiology and Biotechnology, Meerut Institute of Engineering and Technology, Meerut, UP, IndiaAshwani KumarDepartment of Entomology, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaArchana ShuklaDepartment of Biological Sciences, Faculty of Science, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaAngel KushwahaDepartment of Molecular and Cellular Engineering, Jacob Institute of Biotechnology and Bioengineering, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaAjeet Kumar SrivastavRedcliffe Hygiene Private Limited, Gurugram-122016, Haryana, India Department of Biochemistry, Babu Banrasi Das University, Lucknow, IndiaArun K. ChaurasiaDepartment of Genetics and Plant Breeding, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaChirag MaheshwariICAR-Central Institute of Agricultural Engineering, Navi Bagh, Bhopal, Madhya Pradesh-462038, India ICAR-Indian Agricultural Research Institute, Pusa, New Delhi-110012, IndiaDeepti ChopraPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group CSIR-Indian Institute of Toxicology Research Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg Lucknow-226001, IndiaDivya DubeyPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group, CSIR-Indian Institute of Toxicology Research, Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg, Lucknow-226001, IndiaEugenia P. LalDepartment of Biological Sciences, Faculty of Science, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaGagan SharmaRedcliffe Hygiene Private Limited, Gurugram-122016, Haryana, IndiaGhanshyam PandeyDepartment of Plant Protection and Plant Pathology, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaJyoti SinghPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group, CSIR-Indian Institute of Toxicology Research, Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg, Lucknow-226001, IndiaJaya UpadhyayDepartment of Gastroenterology, Sanjay Gandhi Post graduate Institute of Medical Sciences, Lucknow, Uttar Pradesh, IndiaLakshmi BalaDepartment of Biochemistry, Babu Banrasi Das University, Lucknow, IndiaMuzaffar HasanICAR-Central Institute of Agricultural Engineering, Navi Bagh, Bhopal, Madhya Pradesh, IndiaMohd. Danish KamarPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group, CSIR-Indian Institute of Toxicology Research, Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg, Lucknow-226001, India Academy of Scientific and Innovative Research, AcSIR Headquarters, CSIR-HRDC Campus, Sector 19, Kamla Nehru Nagar, Ghaziabad-201002, Uttar Pradesh, IndiaManoj Kumar TripathiICAR-Central Institute of Agricultural Engineering, Navi Bagh, Bhopal, Madhya Pradesh-462038, IndiaPragati MisraCentre for Tissue Culture Technology, Jacob Institute of Biotechnology and Bioengineering, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaPradeep Kumar ShuklaDepartment of Biological Sciences, Faculty of Science, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaPriyanka SpringDepartment of Botany, Abhilashi PG Institute of Science, Mandi, Himanchal Pradesh University, Himanchal Pradesh, IndiaRahul M. SrivastavaMaulana Azad National Institute of Agricultural Engineering, Bhopal, Madhya Pradesh, IndiaRajpal S. JadamICAR-Central Institute of Agricultural Engineering, Navi Bagh, Bhopal, Madhya Pradesh-462038, IndiaShikha AgnihotryDepartment of Computational Biology and Bioinformatics, Jacob Institute of Biotechnology and Bio-Engineering, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj (Allahabad), Uttar Pradesh, IndiaSandeep NegiPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group CSIR-Indian Institute of Toxicology Research Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg Lucknow-226001, IndiaShambhavi PandeyDepartment of Forensic Sciences , Faculty of Science, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaSuman SanjuDepartment of Botany, Abhilashi PG Institute of Science, Mandi, Himanchal Pradesh University, Himanchal Pradesh, IndiaSuchit Ashish JohnDepartment of Biological Sciences, Faculty of Science, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaShailesh MarkerDepartment of Genetics and Plant Breeding, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, IndiaSaumya ShuklaPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group, CSIR-Indian Institute of Toxicology Research, Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg, Lucknow-226001, India Department of Biochemistry, School of Dental Sciences, Babu Banarasi Das University, BBD City, Faizabad Road, Lucknow-226028, Uttar Pradesh, IndiaSakshi YadavPhotobiology Laboratory, Systems Toxicology and Health Risk Assessment Group, CSIR-Indian Institute of Toxicology Research, Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg, Lucknow-226001, India Department of Botany, University of Lucknow, Lucknow-226007, India

Aromatherapy Evolution and Blending Basics of Essential Oils

Shikha Agnihotry1,*,Deepti Chopra3,Jyoti Singh3,Sandeep Negi3,Ajeet Kumar Srivastav2,5,Jaya Upadhyay4,Gagan Sharma2
1 Department of Computational Biology and Bioinformatics, Jacob Institute of Biotechnology and Bio-Engineering, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj (Allahabad), Uttar Pradesh, India
2 Redcliffe Hygiene Private Limited, Gurugram-122016, Haryana, India
3 Photobiology Laboratory, Systems Toxicology and Health Risk Assessment Group CSIR-Indian Institute of Toxicology Research Vishvigyan Bhavan 31, P.O. Box No. 80, M.G. Marg Lucknow-226001, India
4 Department of Gastroenterology, Sanjay Gandhi Post graduate Institute of Medical Sciences, Lucknow, Uttar Pradesh, India
5 Department of Biochemistry, Babu Banrasi Das University, Lucknow, India

Abstract

The history of aromatherapy begins over 3500 years BC. Aromatics were at the time for religious purposes, perfume, and medicine. Then, in 1910, René-Maurice Gattefossé, a chemical engineer from Lyon, discovered the therapeutic properties of pure lavender after an explosion in his laboratory, which left him with major burns. He treated them with lavender essential oil. Won over by that “miracle”, he founded the French Society of Aromatic Products and published around twenty works that are still considered references today. These works would give aromatherapy its reputation and its very name, as it was Gattefossé who coined the term “aromatherapy”, in 1935. He conducted many rewarding personal and scientific experiments on essential oils. Other scientists, such as Charles Chamberland, a biologist and assistant to Louis Pasteur, had already examined their spectacular antimicrobial action. In the 5th century BCE, Hippocrates was already treating patients with aromatic vapours. Aromatherapy is a branch of phytotherapy that uses the volatile active ingredients of aromatic plants. These are plants that have the ability to synthesize an essence. This science focusses on the use of essential oils for therapeutic, curative, or preventive purposes. For the most part, the essential oils are extracted by steam distillation of parts of the plant (such as leaves, flowers, or bark). Only the essences of citrus pericarp (such as orange or mandarin zest) tend to be obtained via mechanical cold pressing. In 1929, Sévelinge, a pharmacist from Lyon, demonstrated the antibacterial efficacy of certain essential oils.

Then, in the 1950s, a military physician used them to treat injured soldiers in Indo- china. In 1975, Pierre Franchomme, a pharmacologist and aromatologist, brought about decisive progress by proposing that the concept of “chemotype”, the “plant’s true chemical ID card”, should be taken into account, listing the key aromatic compounds characterizing each plant and how they affect its properties. Today, aromatherapy is more frequently the focus of scientific studies. It is recognized as a fully-fledged branch of medicine. Over 17,000 articles on aromatherapy have appeared in an international high-level scientific publications.

Keywords: Aromatherapy, Essential Oil, Therapeutic, Phytotherapy and Chemotherapy.
*Corresponding author Shikha Agnihotry: Department of Computational Biology and Bioinformatics, Jacob Institute of Biotechnology and Bio-Engineering, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj (Allahabad), Uttar Pradesh, India; E-mail: [email protected]

1. Introduction

A subset of phytotherapy denoted as aromatherapy makes utilization of the volatile active components of fragrant plants. The application of essential oils (EOs) for medicinal, curative, or preventative reasons is the main accentuation of this science. The term “aromatherapy” was first utilized in 1935 by Lyon-born chemist René-Maurice Gattefossé, who used EOs in several fruitful scientific and personal studies. Notwithstanding their olfactory resemblance, EOs are compounds with distinct chemical characteristics because of their composition, which gives them a uniqueness that cannot be superseded by other synthetic molecules. Since they have a categorical chemical makeup, synthetic products—referred to as “essences”—function in a constrained way inside the body, whereas EO acts more broadly [1, 2]. Because of their numerous biological benefits and therapeutic applications, EOs are among the most consequential natural products made from plants [3, 4]. For millennia, essential oils have played a consequential role in many diverse civilizations all over the world. Even the most archaic races understood that scent essences had a particular influence. Essential oils were employed for ceremonial and medicinal purposes by the Chinese, Indians, and Egyptians. Archaic Egyptians were well vigilant of the physiological effects of scents and the first types of aromatherapy. Sanskrit is the pristine language of the old Indian book recognized as Ayurveda. Derived from the terms Veda, which betokens “erudition,” and ayur, which denotes “life.” The most revered book in India, the Vedas, lists approximately 700 distinct herbs and aromatics, codifying the utilization of these substances for both religious and medicinal purposes. Herbs have been utilized by humans for medicinal purposes since the dawn of time. One of the first inscribed records of humans is the Rig Veda, which was composed about 5,000 years ago in India. It verbalizes how herbs can be remedied. The textbooks for the age-old medicinal science of Ayurveda, which is still in utilization today, are included in a number of texts. Herbal recipes abound in these publications. Virtually all therapeutic plants are fragrant plants, just as they were in the past. Like virtually all other medicinal traditions that have persisted through the ages, Ayurveda was drawn to the fragrances of plants and engendered methods to extract their scents. One of the sacred plants in India is basil, which is verbalized to arouse the mind and heart and give love and devotional spirit. However, it took considerably longer for the methodical extraction of essences for medicinal or cosmetic uses to emerge. Essential oil use is growing these days, and aromatherapy is becoming more widely accepted.

Interest in utilizing coalesced essential oils in aromatherapy as therapeutically efficacious agents has significantly increased recently. There is a dearth of research on the aromatherapy benefits of coalesced essential oils on humans, even though these oils are being utilized more and more to enhance patients' quality of life and palliate a variety of illnesses. Applying an amalgamation of essential oils might have a synergistic impact and be efficacious in treating solicitousness and melancholy [5]. Essential oils are fascinating natural compounds derived from aromatic plants that play a paramount role in conventional pharmacopeia. There has been an abundance of attention lately on utilizing sundry EOs as substitute medicinal and antibacterial agents. Furthermore, more focused and logical research is still required to address how to apply those efficacious EOs and their individual constituents in the pabulum and agriculture sectors in order to engender novel natural pharmaceutical drugs and incipient health-oriented products [6].

2. Aromatherapy Evolution

The therapeutic use of aromatic plants seems to be as old as human civilization itself. Plants such as fennel, coriander seeds, cumin, and many others have been found at the sites of ancient burial grounds. Many texts from Asia to Ancient Egypt, and much of the Mediterranean area, describe the various procedures and rituals involved in the making of healing ointments, medicated oils, poultices, and healing perfumes [7, 8].

Aromatic oils have been a part of human history for more than 3,500 years BC and appear with regularity throughout all major civilisations down the ages, with uses ranging from religious ritual, food flavouring, medicine, perfumery and masking of bad odours [9]. It is impossible to date exactly when the plants were first used medicinally, since such a development would have occurred over thousands of years [10]. In ancient times, our ancestors relied on a combination of experimentation and observation to explore the diverse uses of plants. They engaged in trial and error, testing various parts of plants, such as leaves, roots, or berries, to discern their potential applications as food, medicine, or in other aspects of daily life. This hands-on approach allowed them to discover the valuable properties and benefits offered by different plants, gradually building a repository of knowledge that has been passed down through generations. Such knowledge would have been passed on to succeeding generations as part of a verbal tradition, eventually becoming the herbal medicine that we recognise today, and out of which aromatherapy developed [11].

Furthermore, during the Neolithic period (7000 B.C. to 1000 B.C.) in the Eastern world, there is evidence that humanity discovered certain plants containing fatty oil – plants such as olive, castor, flax and sesame – which could be extracted by pressing and then used to cook with, anoint with, and for their own medicinal preparations [12]. The practice of using aromatic fumigations to uplift the spirit and help cure diseases has also been used by the world's greatest civilizations throughout history [13]. The use of aromatic plants was originally part of herbal medicine. Herbal medicine dates back thousands of years and is not confined to any one geographical area. Residual patterns of use and trade in contemporary society suggest that nearly every part of the world has some history of the use of aromatic plants in its healthcare system [14]. The use of technology in the distillation of essential oils from aromatic plants that forms the basis for contemporary “aromatherapy,” as we know it, is much more recent [15]. However, among the many countries that have a documented history of using aromatic plants in their healing traditions are India, China, Egypt, France, Greece, Iraq, Syria (part of Mesopotamia), Switzerland, Tibet, UK, and the United States (Native Americans) [16]. Early aromatics were used in the form of steams, smokes, inhalants, fumigants, snuffs, salves, lotions, compresses, poultices, waters, colognes, perfumes, and baths. Egypt, One of the most famous manuscripts concerning aromatic medicine is the Papyrus Ebers manuscript written around 2800 BC. Another document, written about 800 years later, mentions “fine oils and choice perfumes.” These manuscripts, written while the Great Pyramid was being built, show that frankincense, myrtle, galbanum, and eaglewood were used as medicine during the time of Moses (from the Old Testament) and myrrh was used to treat hay fever. When Tutankhamun’s tomb was opened in 1922, thirty-five alabaster jars of perfume were found in his burial chamber and they were still faintly aromatic. All of them were broken or empty and the contents—frankincense and myrrh (highly valued commodities)—stolen [17].

Aromatherapy is a highly popular form of complementary medicine, usually entailing the application of essential plant oils to the skin by gentle massage. It has relaxing effects but other claims have not been substantiated by reliable trial evidence. Allergic airborne contact dermatitis occurred in a patient who had previously used several essential oils for aromatherapy. The toxicity of essential oils has already been reviewed [18].

Nearly six thousand years ago, aromatics were first used by the Egyptians for religious ceremonies like burials as a means of ‘cleansing the spirit’, and to enhance their existing practice of prayer. During that period, one of the common methods to unlock the medicinal properties of certain herbs and spices was through the practice of burning them as incense. Their initial belief was that the smoke created when burning those plants would act as a passage for their prayers to be carried to the heavens, directly to the deities they worshipped [19]. In addition, during healing ceremonies, different combinations of herbs and spices were burned to drive the ‘evil spirits’ from the bodies of the sick. Evidence of these events is depicted in many discovered ceramic jars and pots, as well as hieroglyphic messages in the tombs of the buried. Both births and burial were accompanied by herbs like frankincense and Myrrh, which are both referenced in the Bible as well as other historic religious texts for their value and ties to deities [20].

At around the same time, the Chinese were also practicing medicine using plants, and “Yellow Emperor’s Classic of Internal Medicine” was written to depict their knowledge of plant medicine. This text is believed to be the oldest surviving medical book in the history of China and contains briefings on over 300 different plants and their medicinal value [21]. Some historians argue that because this text was written to highlight the actual medicinal properties of plants, it is a proof that the Chinese recognized aromatics as a form of medicine prior to the Egyptians. Regardless of the timeline, “Yellow Emperor’s Classic of Internal Medicine” is still used by many of the writers and authorities in the realm of Aromatherapy when referencing the medicinal properties of many different plants, thousands of years after it was written [22].

Long after the origin of aromatics, the Egyptians, through further refined practice, began using plants and herbs in oils for topical use on their skin as perfumes. Often, they were used after bathing to protect their skin and hair from drying out in the sun, but they were also used in festivals and celebrations simply as a fragrance. This evolutionary step for essential oils was incredibly important to their continued use, as perfumes became tremendously popular around the world. So much so, in fact, it’s said that when Julius Caesar returned to Rome from Egypt with Cleopatra, he threw perfume bottles into the crowds of people welcoming him home [23].

Across the Mediterranean in Greece, a physician by the name of Asclepius made a name for himself through his use of herbs and oils while performing surgeries. It wasn’t until the fall of the Egyptian empire, nearly 900 years later, that Europeans began to gain notoriety for their use and knowledge of aromatherapy, in part because of the legendary status of the Egyptian methods of aromatics. However, in the absence of the Empire, Greek physicians began developing more widely recognized methodologies by which to extract many medicinal properties of essential oils [24].

After that historical period, a significant figure emerged in the medical field, Ibn Sina, who lived from 980 to 1037 A.D. He is widely acknowledged as one of the most influential Islamic physicians, both during his time and in subsequent eras. He is responsible for writing ‘Al-Qanun fi al-Tibb’ which translates to ‘The Canon of Medicine’, and is a 14-volume dissertation of all existing medical knowledge. He included the stories and findings of influential physicians before him, as well as his own findings, and became a medical textbook for hundreds of years following its release. Ibn Sina is responsible for discovering over 100 methods of treatment using plants, and many of his methods are still in use today [25].

Fast forward to the late 16th century, when the physician John Gerard published ‘Herball or General Historie of Plantes’ which became a reference text and book of learning for apothecaries living in Britain at that time [26]. Such apothecaries had previously been only mixing medicines that were being prescribed by doctors, but now were experimenting with plants and herbs on their own and began treating patients. It was at this time that the Black Death made it’s second appearance in Europe, and it was nearly as deadly as the first time it hit. This time around, however, it was apparent that there were effective medicinal properties in plants, as the only people who were reported to not succumb to the disease were apothecaries and people who were in constant contact with herbs and medicinal plants. Although there is not substantial enough evidence to prove this was the case, it’s an interesting piece of lore regarding aromatherapy and the medicinal value of plants [9].

Aromatherapy preferences and complications in 3000 otolaryngology patients have been studied. Among these patients, 1.67% had some form of complication induced by essential oils used in aromatherapy, including skin eruptions, respiratory distress, and other symptoms. Some patients (0.93%) refused aromatherapy because of individual preference and unpleasant smell. People were advised to follow instructions at all times and to never use these oils for an extended period or overuse them [27].

It was not until 1830, in Grasse, France, a city of perfume makers and a venerated centre of distillation, that the study of essential oils came into being. Very quickly, some of the leading scientists of the time, such as Louis Pasteur, took an interest in it. From as early as 1887, Charles Chamberland, a disciple and assistant to Pasteur, began scientifically measuring the antiseptic effects of oregano, clove, and cinnamon essential oils on anthrax [28].

Then, in 1910, René-Maurice Gattefossé, a chemical engineer from Lyon, discovered the therapeutic properties of pure lavender after an explosion in his laboratory, which left him with major burns. He treated them with lavender essential oil. Won over by that “miracle”, he founded the French Society of Aromatic Products and published around twenty works that are still considered references today. These works would give aromatherapy its reputation and its very name, as it was Gattefossé who coined the term “aromatherapy”, in 1935 He’s most known for that reason, but he is also a legend for the book he wrote on aromatherapy titled, “Aromatherapie: Les Huilesessentielles hormones vegetales” [28, 29].

In 1929, Sévelinge, a pharmacist from Lyon, demonstrated the antibacterial efficacy of certain essential oils. Then, in the 1950s, a military physician used them to treat injured soldiers in Indochina war. Aromatherapy was on its way and nothing could stop it. In 1975, Pierre Franchomme, a pharmacologist and aromatologist, brought about decisive progress by proposing that the concept of “chemotype”, the “plant’s true chemical ID card”, should be taken into account, listing the key aromatic compounds characterising each plant and how they affect its properties [30].

Enter Hippocrates, widely regarded as the father of medicine, who founded a line of thinking regarding the use of essential oils and plants that would become the basis by which aromatherapy centralizes its focus: Holistic medicine. Hippocrates argued that the body as a whole should be treated as although it is a single organism, and the methods by which to treat any illness should be applied to the body in its entirety [31, 32].

It was a contribution of all these researchers, and many many others, that built the foundation for the practice of aromatherapy and aromatics that we still take part in today. Now, we enter the Modern Era of aromatherapy, where essential oils are abundant and those who use them for their healing and therapeutic properties have endless resources available. In today’s world, one can customize the methods by which they practice their aromatherapy to fit their needs, and the options are continuing to expand [33].

2.1. India

Ancient India, was one of the first civilizations that aimed at treating people holistically. Traditional Indian medicine, known as Ayurvedic (means ‘life knowledge’), is the oldest form of medical practice in the world, with plants and plant extracts being in continuous use from at least 5000 years ago up to the present day [34, 35].

One of the earliest books on plants is called “Vedas,” and it was written in India around 2000 BC. It describes the many applications of over 700 plants and substances, including sandalwood, ginger, myrrh, cinnamon, and coriander, for both sacred and therapeutic purposes [36].

2.2. China

The ancient Chinese were extremely knowledgeable about the medicinal properties of plants. The Chinese healing system, which included medical treatments such as acupuncture, shiatsu, and herbal remedies, can be traced back to 2500 BC and served as the foundation for what is now known as “Traditional Chinese Medicine” (TCM) [37]. The balance of Qi (energy), Yin, and Yang (passive, negative, and positive active forces), and the five elements (Fire, Earth, Metal, Water, and Wood) the primary focus for health. Around 2800 BC, the Yellow Emperor, Huang Ti wrote a book called “Internal Medicine” about disease causes and treatment, which included information on many plants and herbal remedies [38]. It is one of the world's oldest books, and still available in print today. However, China's main contribution to the aromatherapy story lies within the citrus family, since it is believed that nearly all citrus species originated in this country, eventually reaching the Mediterranean world in the 10th century via the Arabs [39, 40].

2.3. Egyptians

The ancient Egyptians are widely regarded as the forefathers in the use of aromatic plants. They used fragrant oils not only in incense, medicine, massage, skincare, and cosmetics but also in their highly refined embalming process [41].

During this period, the ancient Egyptians did not have records of distillation, which means they likely employed alternative methods like 'enfleurage' and 'maceration' to create aromatic oils. In the absence of distillation, they had to rely on these techniques to extract fragrances from plants. In the 'enfleurage' process, they would immerse the plant material in oil and then squeeze the mixture through a cloth to capture the aromatic essence. On the other hand, 'maceration' involved heating the aromatic substances in oil to achieve a similar outcome. These resourceful methods allowed the ancient Egyptians to harness the captivating scents of plants for various purposes. During this time, a wide variety of medicinal herbs from around the world were grown in the pharaohs' gardens. However, the therapeutic preparations made from aromatic oils and the creation of perfumes for the Pharaohs were used to anoint them in times of prayer, war, and love were under the supervision of temple priests and physicians of the day [42].

Egyptians valued personal hygiene, and the Ebers Papyrus from 1500 BC offers one of the first known recipes for body deodorant. This proves that Egyptian doctors were well-versed in the medicinal benefits of a wide variety of herbs [43].

The Egyptians placed a high value on perfume, which was closely associated with religion. It was so important that each Egyptian God was assigned a specific fragrance, which was frequently used to anoint their statues. Some prescriptions and formulae for improving sanitation have also survived, having been recorded on stone tablets. One of the most popular methods of applying perfume was to place a cone of solid unguent on the head, which would slowly melt in the heat covering the head and body with the aromatic mixture [44].

The ancient Egyptians were the experts at embalming and perfuming temples with plant resins and essences. Indeed, when Howard Carter and his team opened Tutankhamen's tomb in 1922, they discovered several pots and jars that still contained scented unguents of frankincense, Indian Spikenard, and kyphi - they had been sealed for over 3000 years [45]. The strong antiseptic and antibacterial properties of the oils were used to embalm the dead, preventing the flesh from rotting, with the goal of preserving mummies for 3000 years, as it was believed that this was how long it took for the soul to pass through all animals of the earth and then back into a human being [46]. However, one of the most popular perfumes among the Egyptians was known as “kyphi,” which was used for much more than just perfume because it could also be used as an antiseptic, incense, poison antidote, a balsamic, and, according to Plutarch, a tranquilizer that “lulled one to sleep, allayed anxieties, and brightened dreams.” A potent narcotic called calamus, cassia, cinnamon, peppermint, citronella, pistacia, juniper, acacia, henna, cyperus, “resin,” cedarwood, frankincense, myrrh, and raisins were among the 23 elements that made up the concoction known as kyphi.

Kyphi was so deeply ingrained in Egyptian culture that the sun God, Ra, was worshipped in Heliopolis (the City of the Sun) by burning incense three times a day - a “resin” at sunrise, myrrh at noon, and kyphi at sunset. Kyphi was also used by both the Greeks and the Romans [45]. Aromatic woods, herbs, and spices were also burned to honour their Gods; Egyptians believed that as the smoke rose, their prayers would be carried with it [47]. When this magnificent civilization eventually collapsed, Europe became the new center of medicine [44].

2.4. Greeks

The Nile Valley in Egypt, known as the “Cradle of Medicine,” is where the Greeks learned a great deal about fragrant herbs. Herodutos and Democrates visited this area in about 500BC. Assyrian women would “bruise with stone, wood of cypress, cedar, and frankincense, and upon it poured water until it became of a specific consistency,” according to Herodotus. To impart a really pleasant odour, they coated the body and face with this. A medical school was later founded on the Greek island of Cos, and it gradually gained notoriety thanks to Hippocrates' support [48]. Greek-born Hippocrates (460–377 BC), regarded as the “Father of Medicine,” wrote about the medicinal qualities of plants and herbs, thereby preserving all knowledge gleaned from the Egyptians. His therapy would involve herbal infusion, massage, internal herb use, baths, and physical therapy. He believed in the idea of holism, which is the idea that surgery should only be done as a last option [49].

Hippocrates understood the benefits of burning certain aromatic plants as a Preventive measure against infectious diseases as early as the fourth century BC. His understanding of fragrant essence was once even employed to fumigate Athens and purge it of the plague. Hippocrates preached about the “healing power of nature” together with Galen (2 AD). He is recorded as saying that “the road to health is to take an aromatic bath and scented massage every day” and that “the physician must be experienced in many things, but surely in rubbing... Nothing can tighten a joint that is too loose and nothing can relax a joint that is too rigid [48-50].

Greek medicine was built on the principles of mental, emotional, and physical equilibrium. The return to healthy condition was considered as re-establishing the balance, which was disturbed by the disease; this approach was known as holism [49]. Hippocrates is perhaps better recognized today for the Hippocratic Oath, which all newly licensed doctors are required to take [50].

The first dissertation on smell, titled “Concerning Odours,” was written by Theophrastus (370–285 BC), a Greek philosopher who studied under both Plato and Aristotle and eventually served as the head of the Peripatetic School. He compiled a list of all Greek and foreign aromatics and discussed possible applications for each. Theophrastus was the one who made one of the greatest that using aromatic oils topically can still have an impact on how the body functions. His work “Enquiry into Plants” shows the earliest attempts to carefully record plant observations and list them based on commonalities, such as whether they were annual, biennial, or perennial [51]. The Greeks thought that divine origins might be traced to sweet, aromatic scents. In their earliest mythologies, Gods arrived on scented clouds while dressed in fragrant essence-drenched robes. The Greeks also held that the dead travelled to a place called Elysium after passing away, where the air was perpetually perfumed with delectable scents from perfumed rivers [52].

The perfume “Megaleion,” which was made by a Greek named Magallus using a combination of myrrh, cinnamon, and cassia, became well-known throughout the nation, due to its ability to heal wounds and reduce inflammation. The Greek troops would also carried an ointment containing myrrh into combat due to its great antibacterial and wound-healing capabilities, this was no surprise [53]. Marestheus, a great physician and another well-known Greek realized that certain aromatic plants frequently had stimulant qualities and that the scents of roses, fruit, and spices could enliven drained minds [54].

2.5. Romans

Numerous Greek physicians worked in Rome as well, sharing their expertise with yet another highly developed civilization. However, the Romans increased the use of aromatic plants in hygiene and beauty products in addition to using them as medicines. In addition to being utilized in water and in massage mixtures, aromatic oils and essences were frequently employed in public baths [55].

As the Roman Empire grew, it gained access to a wide range of plants and herbs. As a result, they used fragrances and aromatic oils excessively. They utilized three different types of perfume: “diapasmata,” which is a powdered perfume, “ladysmata,” which were solid unguents, “stymmata,” which were scented oils. These were used as after-shower massage oils and to scent hair body, clothes, and bedding. According to legend, Cleopatra expertly used fragrant fragrances to seduce Mark Antony. Additionally, according to the legend, Nero allegedly consumed more incense at his wife's burial than Arabia could produce in a year. Interestingly, the phrase “perfume” refers to the lighting of incense and is derived from the Latin phrase “per fumum,” which means “through the smoke” [56].

Greek military doctor Pedanius Dioscorides (40–90 AD) served in Nero's Roman emperor's army. He wrote a book titled “De Materia Medica” and was able to travel far (to Germany, Italy, and Spain) (the oldest surviving Greek herbal). This vast five-volume work includes information on the habitat of over 500 plants, how to prepare them, as well as more than 1,000 herbal remedies [57]. For at least the following 1200 years, this book served as the primary medical reference for the Western world, earning Dioscorides, the moniker “The Father of Pharmacology.” The most authoritative historical source on the medications used by the Greeks, Romans, and other ancient cultures is De Materia Medica, with much of the herbal knowledge included in Dioscorides' book still having an impact on herbal medicine today [58]. Claudius Galen, a well-known Roman surgeon, physician, and philosopher, was of Greek ancestry. He studied medicine and began his medical profession by using medicinal plants to treat the wounds of Roman gladiators, providing him the chance to learn about wounds. Galen is credited with saving every gladiator who came under his care, and as a result of his achievements, he swiftly advanced to the position of personal physician with numerous Roman emperors. Galen was the person who asserted that the brain, not the nose, interprets smells [59].

The Roman Empire expanded throughout time to encompass a sizable portion of the globe, and with it, their understanding of the therapeutic properties of plants. The Romans are credited with introducing perfumery to the British Isles. Plants like fennel, parsley, sage, rosemary, and thyme were among the seeds and plants that were gathered from all over the world and eventually made it to Britain's coastline where they gradually naturalized [60]. But as this vast empire crumbled and Christianity spread, many Roman doctors fled to Constantinople, bringing with them priceless medical writings that were later translated into a wide range of other languages [61].

2.6. Hebrews and Early Christians

The Origins of Christianity Around 1240 BC, the Jewish people began their 40-year journey from Egypt to Israel, bringing with them a variety of precious gums and oils, as well as the knowledge of how to use them. In the Old Testament book of Exodus, God told Moses to make a 'holy anointing oil' out of myrrh, sweet cinnamon, calamus, cassia, and olive oil. Such a combination had extremely potent antiviral and antibacterial properties, protecting anyone who came into contact with it. Not only that, but myrrh's wound-healing properties were well-known even before this time [62]. Purification of Hebrew women occurred during a year in the Hebrew civilisation and was accomplished during the first six months by regular anointing with 'oil of myrrh,' with other aromatics being used for the latter six months. During the Exodus and other times when bathing was impractical for Jewish women, a small linen bag containing myrrh and other aromatics was hung on a cord between the breasts to act as a deodorant [63].

Whereas ancient Indian temples were made of sandalwood, King Solomon's temple in Jerusalem was made of aromatic cedarwood (“cedars of Lebanon”). Perhaps they recognized the need for a soothing atmosphere when attending religious ceremonies [64, 65].

According to the records, Phoenician merchants brought precious cinnamon, frankincense, ginger, and myrrh from the Orient, under the fact that there is a competition in the world. They symbolized his deity status (frankincense for a God) and his death (myrrh was used to embalm the dead). Gold, incidentally, was symbolic of his royal status (gold for a king) [66] Spikenard was said to have been imported from India and was used by Mary to anoint Jesus before his crucifixion, and the sponge that was held up to him while he hung on the cross was a mixture of vinegar and myrrh, possibly to ease the pain of crucifixion victims [62].

2.7. Middle Ages (500-1500AD)

Age (500–1500 AD) aromatic essences and waters were brought back to Europe by the Knights of the Crusades. The popularity of these aromatic oils grew to such an extent that it sparked the creation of perfumes. However, it was not until the bubonic plague made its way to Europe in the fourteenth century that the true worth of these plants and herbs was realized [67]. On-street corners, fires were to be lit at night and to burn frankincense, benzoin, and pine, among other things. Using incense, perfumed candles, and aromatic “strewing” herbs that were thrown on the floors to be walked on, producing their own fragrances to stop infection and cover up what must have been terribly unpleasant, the smell of death and the fight against infection were waged indoors. and unhealthy bodily odours [68]. In order to combat the Black Death at the time, aromatic plants were widely used. People frequently carried or wore pomanders—oranges that had been packed with cloves—or herbal bouquets. The finest antiseptic defence against the plague at the time was provided by these fragrant plants, and people were aware of this. It is important to note that because they frequently handle aromatic plant materials, apothecaries and perfumers were believed to be resistant to the Plague [14]. To filter their breathing and create an environment that was believed to be antiseptic and resistant to the bubonic plague, doctors of the time frequently wore nasal bags filled with fragrant herbs like cinnamon and cloves.

To further purify the air, they inhaled; they waved in front of them while walking a long stick on an open work top that was also filled with fragrant herbs. Throughout the Middle Ages and until the 17th century, physicians continued to apply these techniques [69]. But at this time, monks were the primary growers of fragrant herbs, like thyme and melissa, which had come to these shores from Italy. When botany was added to the study of medicine, these aromatic gardens were carried on by medical universities. Eventually, during the Renaissance, they evolved into botanical gardens, or what came to be known as “physic” gardens.

In Britain, Oxford became home to the first of these physic gardens in 1621 [70]. A German abbess by the name of St. Hildegard of Bingen (1098–17, September 1179) planted lavender in the 12th century and used its essential oil for medicinal purposes. She was renowned for her healing abilities, which included the effective use of medicines, herbs, and priceless stones [71]. The principal commercial route for Arab civilization during the Middle Ages was through Venice, and it was from this city that the passion for perfumed leather gloves first emerged. It's probable that Catherine D'Medici, an Italian noble woman, introduced this style to the rest of Europe when she wed the future French king, and took her perfumer to France in 1533.

The major product of Grasse, France, at the time was leather, but when this trend caught on, the town's shrewd, businessmen started scenting their leather with the aromatic plants that grew nearby, eventually turning to flowers like tuberose, acacia, violets, lavender, and roses. Grasse's leather sector was gradually supplanted by perfume production as the need for leather declined, and this is still the case today [72]. In the 16th century, a man by the name of Paracelsus rose to fame as a surgeon, astrologer, physician, and alchemist, revolutionized medicine and laid the groundwork for both modern and alternative forms of treatment.