Viral Plus-B Support 120’s

Practitioner’s Technical Info
For Practitioner’s Herbal Educational purposes only!

Understanding Viral and Bacterial Infections

And How Viral Plus B Supports the Body’s Natural Defences

 The human body is constantly exposed to microorganisms such as viruses and bacteria. Most are harmless and many are beneficial, but some can challenge the immune system and lead to illness. A well-functioning immune system is therefore essential for maintaining health and helping the body recover when exposed to infectious organisms.

Viral Plus B is a comprehensive herbal and nutritional formulation designed to support the body’s natural immune response, respiratory resilience, antioxidant defence, and recovery processes when the body encounters microbial challenges.

What Is a Virus?

 A virus is a microscopic infectious particle that cannot reproduce on its own. Unlike bacteria, viruses must enter a living cell in order to replicate.

When a virus enters the body, it attaches to specific receptors on human cells. Once inside the cell, it uses the cell’s internal machinery to copy itself. New virus particles are then released and can infect additional cells.

Viruses are responsible for many common illnesses including:

• Influenza (flu)
• Common cold viruses
• Herpes viruses
• Rotavirus
• Various respiratory viruses

Because viruses live inside cells, the body relies heavily on the immune system to recognise infected cells and remove them.

What Is a Bacterium?

 Bacteria are microscopic living organisms that can exist independently. Many bacteria are beneficial and play important roles in digestion, immunity and environmental balance.

However, some bacteria can cause infections when they multiply excessively in the body or invade tissues.

Examples of bacterial infections include:

• Respiratory infections
• Urinary tract infections
• Skin infections
• Certain digestive disturbances

Unlike viruses, bacteria can often be controlled through direct immune defence mechanisms, including specialised immune cells and protective biochemical processes.

How the Body Responds to Viruses and Bacteria

 When viruses or bacteria enter the body, the immune system activates a coordinated defence process.

First, the innate immune system recognises foreign organisms and releases signalling molecules that alert immune cells. These signals attract immune cells such as macrophages and neutrophils that help neutralise invading organisms.

Next, the adaptive immune system becomes involved. T-cells help identify infected cells, while B-cells produce antibodies that mark pathogens for removal.

At the same time, the body increases protective processes such as:

• Antioxidant defence
• Tissue repair
• Inflammatory regulation
• Respiratory and mucosal protection

This coordinated response helps the body contain and resolve infections while restoring normal balance.

Why Viral Plus B Can Support Immune Defence

 Viral Plus B has been formulated with a broad spectrum of herbs and nutrients traditionally used to support the body during microbial challenges.

The formulation works by supporting several important physiological processes involved in immune defence.

Immune Activation and Regulation

 The body’s immune response must be strong enough to identify pathogens but balanced enough to avoid excessive inflammation. Nutrients and botanicals in the formulation help support normal immune cell communication and healthy immune regulation.

• Antioxidant Protection: During infections the body produces reactive molecules as part of the immune response. Antioxidants help protect tissues from oxidative stress and support cellular recovery.
• Respiratory and Mucosal Support: The respiratory tract and mucous membranes form one of the body’s first protective barriers. Supporting these tissues helps maintain the body’s natural defence against airborne microorganisms.
• Microbial Balance: Certain herbs have traditionally been used to help maintain microbial balance within the body and support normal immune activity against unwanted organisms.
• Tissue Repair and Recovery: Following immune activation, the body must repair and restore affected tissues. Nutritional support helps promote normal recovery processes and maintain resilience.

A Comprehensive Support Strategy

 Rather than targeting a single pathway, Viral Plus B supports multiple aspects of the body’s natural defence system, including:

• Immune system communication
• Antioxidant protection
• Respiratory support
• Microbial balance
• Tissue recovery

This broad approach reflects the complexity of the immune system and recognises that effective immune support involves many interacting physiological processes.

Important Note

 This supplement is intended to support normal immune function and overall well-being.

It is not intended to diagnose, treat, cure, or prevent any disease. Information presented is based on traditional use and scientific literature regarding immune physiology and microbial interactions.

Individuals with medical conditions or those taking medication should consult a qualified healthcare professional before use.

Common Viral & Bacterial Challenges and How the Body Responds

Why Immune Support Matters

 The immune system works through a complex network involving the respiratory tract, digestive system, lymphatic system, bloodstream, and specialised immune cells. Supporting these interconnected systems helps the body maintain its natural ability to respond to microbial challenges and maintain overall resilience.

Viral Plus B is designed to complement these natural defence mechanisms and support the body during periods when immune resilience may be needed most.

Situations When People Often Choose Immune Support 

Maintaining Everyday Immune Resilience

 While immune supplements can provide supportive nutritional and botanical ingredients, long-term immune health is also influenced by lifestyle factors such as:

• balanced nutrition
• adequate sleep
• regular physical activity
• stress management
• proper hydration

Viral Plus B is designed to complement these healthy lifestyle practices by supporting the body’s natural immune defence systems.

Why a Multi-Herb Immune Formula May Be More Effective Than Single Ingredients 

Supporting the Body Through Multiple Pathways

 The immune system functions through an integrated network involving:

• respiratory tissues
• digestive immune activity
• circulating immune cells in the bloodstream
• lymphatic filtration systems
• cellular antioxidant defence
• immune signalling pathways

Supporting these systems together helps maintain the body’s natural ability to recognise, respond to and recover from microbial challenges.

Viral Plus B was developed to provide broad immune support through multiple complementary mechanisms, helping maintain overall immune resilience.

How the Immune System Protects the Body – A Simple Overview

 The immune system protects the body through several coordinated defence systems. Rather than acting as a single organ, it functions through a network of immune cells, tissues and signalling molecules distributed throughout the body.

Understanding these defence systems helps explain why maintaining immune balance is important for overall health and resilience.

Where Most Immune Activity Happens

 Many people are surprised to learn that immune activity occurs throughout the body rather than in a single location.

Important immune centres include:

• the digestive tract, where a large portion of immune activity occurs
• the respiratory system, which is often the first point of contact for airborne microbes
• the lymphatic system, which filters pathogens and circulates immune cells
• the bloodstream, which transports immune cells throughout the body
• the skin and mucosal tissues, which act as protective barriers

Supporting these interconnected systems helps maintain the body’s natural ability to respond to microbial challenges.

Supporting the Body’s Natural Defences

 A balanced immune system must be able to:

• recognise foreign microorganisms
• coordinate defensive responses
• maintain controlled inflammatory signalling
• protect healthy cells during immune activity
• restore tissue balance after immune challenges

Nutritional and botanical support can complement healthy lifestyle practices such as balanced nutrition, adequate sleep, hydration and stress management, all of which play important roles in maintaining immune resilience.

How Viral Plus B Supports the Body

 What happens when your body encounters viruses or bacteria 

 Why This Multi-Support Approach Matters

Viruses and bacteria challenge the body in different ways, but both require a strong and balanced immune response. Viral Plus B is designed to support several important aspects of immune health simultaneously:

• immune recognition
• cellular defence
• antioxidant protection
• inflammatory balance
• respiratory tissue support
• recovery and resilience

This integrated approach helps the body maintain its natural ability to respond to microbial challenges while supporting recovery and overall immune health.

Where Is the Immune System in the Body:

 The immune system is not located in a single organ. Instead, it functions through a network of tissues, cells and protective barriers throughout the body. These systems continuously communicate with one another to detect viruses, bacteria and other foreign microorganisms.

Viral Plus B is designed to support several of these key systems involved in immune defence and immune resilience.

 Why Viral Plus B Is Different From Ordinary Immune Supplements: 

Many immune supplements focus on only one or two nutrients. Viral Plus B was developed to support multiple immune processes simultaneously, recognising that the immune system works through many interconnected biological pathways.

• Multi-Pathway Immune Support: Rather than focusing on a single immune function, the formulation supports several processes involved in immune recognition, cellular defence and recovery.
• Respiratory System Support: Respiratory tissues are among the first points of contact for airborne pathogens. Supporting these tissues helps maintain the body’s natural defence barriers.
• Antioxidant and Cellular Protection: Immune activity generates oxidative stress. Nutritional support helps maintain healthy cellular environments during immune challenges.
• Microbial Balance: Certain botanicals have traditionally been used to help maintain a healthy balance between beneficial microorganisms and unwanted pathogens.
• Immune Regulation: A healthy immune system must respond strongly to pathogens but remain balanced enough to avoid excessive inflammatory responses.
• Recovery and Resilience: Supporting recovery processes helps the body restore tissue health after immune activity and maintain long-term resilience.
• Comprehensive Nutritional Support: The formulation combines botanical and nutritional components designed to support overall immune readiness and physiological balance.

How the Body Responds to Viruses and Bacteria:

 When viruses or bacteria enter the body, the immune system activates a coordinated defence process involving several stages that work together to recognise, neutralise and remove invading microorganisms.

Supporting these natural defence processes helps maintain the body’s ability to respond effectively to microbial challenges.

Supporting Overall Immune Resilience:

 Daily lifestyle factors also play an important role in maintaining immune strength and resilience.

• balanced nutrition
• adequate sleep
• regular physical activity
• stress management
• proper hydration

Viral Plus B is designed to complement these healthy lifestyle practices by providing additional nutritional and botanical support for the body’s natural immune defences.

 How Viral Plus B Supports the Respiratory System:

 The respiratory system is one of the body’s most important protective barriers against airborne viruses and bacteria. Every day we inhale thousands of microscopic particles, and specialised immune cells within the respiratory lining constantly monitor and respond to potential threats. Viral Plus B is designed to support the body’s natural respiratory defences by helping maintain healthy mucosal barriers, supporting immune signalling in respiratory tissues, and promoting antioxidant protection for the delicate lining of the airways.

Maintaining strong respiratory resilience helps the body respond effectively to microbial challenges while supporting overall lung and airway health.

• Upper Respiratory Protection: The nose, sinuses and throat form the first protective barrier against airborne microorganisms. Maintaining healthy mucosal surfaces helps trap and remove unwanted particles before they reach deeper tissues.
• Airway Immune Activity: Immune cells located throughout the respiratory tract help recognise foreign microorganisms and initiate protective responses when pathogens are detected.
• Mucosal Barrier Support: The respiratory lining produces protective mucus that traps pathogens and helps remove them through natural clearance mechanisms.
• Inflammatory Balance: Controlled inflammatory responses help the immune system eliminate pathogens while protecting respiratory tissues from excessive irritation.
• Antioxidant Protection: During immune activity in the respiratory system, oxidative stress may increase. Antioxidant support helps protect lung and airway tissues during immune responses.

Early Signs Your Immune System May Need Extra Support:

 The immune system works continuously to protect the body from viruses, bacteria and environmental stressors. At times the body may require additional nutritional and botanical support to maintain immune balance and resilience. Recognising early signs of immune strain may help individuals support their immune system before more significant illness develops.

• Frequent Respiratory Discomfort: Recurring throat irritation, congestion or respiratory sensitivity may indicate that the body is encountering increased environmental or microbial challenges.
• Persistent Fatigue: Ongoing tiredness or low energy levels can occur when the immune system is working harder to maintain normal balance.
• Slow Recovery from Illness: Taking longer than usual to recover from common infections may suggest the immune system requires additional nutritional support.
• Increased Sensitivity to Seasonal Changes: Some individuals experience more frequent immune challenges during seasonal transitions when environmental stress on the body increases.
• High Stress or Poor Sleep: Chronic stress and inadequate sleep are known to influence immune regulation and may increase the body’s need for supportive nutrition.
• Digestive Imbalance: Because much immune activity occurs in the gut, digestive disturbances can sometimes reflect broader immune system strain.
• Providing supportive nutrition, maintaining healthy lifestyle habits and supporting the body’s natural defence mechanisms can help maintain long-term immune resilience.

Viruses vs Bacteria – Why the Body Needs Different Defences:

 Viruses and bacteria are both microscopic organisms that can challenge the body’s immune system, but they behave very differently. Because of these differences, the body must use different defence strategies to manage each type of microorganism. Viral Plus B was developed to support the body’s natural immune responses involved in recognising, controlling and recovering from both viral and bacterial challenges.

Understanding these differences helps explain why the body relies on multiple immune processes to manage microbial challenges effectively. Supporting immune balance, respiratory health, antioxidant protection and recovery processes helps the body maintain its natural ability to respond to both viral and bacterial encounters.

Supporting the Body’s Natural Immune Defences:

 A strong immune system depends on many interconnected systems working together. Healthy lifestyle habits play an important role in maintaining immune resilience.

• balanced nutrition
• adequate sleep
• regular physical activity
• stress management
• proper hydration

Viral Plus B is designed to complement these healthy practices by providing botanical and nutritional support that helps maintain the body’s natural immune defence systems.

The 5 Layers of Immune Defence in the Human Body:

The human immune system protects the body through several interconnected layers of defence. Each layer plays a specific role in recognising, controlling and removing viruses, bacteria and other microorganisms. Understanding these layers helps explain why comprehensive immune support involves more than just one nutrient or pathway.

Supporting these natural defence layers helps maintain the body’s ability to recognise and respond to microbial challenges effectively.

Why Comprehensive Immune Support Matters:

 The immune system is complex and relies on multiple biological systems working together. Supporting immune recognition, antioxidant balance, respiratory health and tissue recovery helps the body maintain overall resilience when exposed to viruses and bacteria.

Viral Plus B is designed to complement healthy lifestyle practices and provide botanical and nutritional support that helps maintain the body’s natural immune defences and long-term immune readiness.

Types of microbial challenges, a visual star rating for how supportive the formula may be, and key ingredients involved, without making treatment claims.

 Viral Plus B – Microbial Support Overview

What the Star Ratings Mean 

⭐ ⭐ ⭐ ⭐ ⭐ Very strong supportive coverage
⭐ ⭐ ⭐ ⭐ Strong supportive coverage
⭐ ⭐ ⭐ Moderate supportive coverage

These ratings indicate how well the combined formulation supports the body’s natural defences against different microbial challenges, based on traditional herbal use and nutritional immune support research.

Why Multiple Ingredients Are Used

Viruses and bacteria interact with the body in different ways, which is why Viral Plus B includes ingredients that support multiple protective processes:

• immune signalling and regulation
• respiratory tissue protection
• microbial balance
• antioxidant defence
• cellular recovery and resilience

By supporting these natural processes simultaneously, the formulation helps maintain the body’s overall ability to respond to microbial challenges.

Viral Plus B – How the Formula Supports the Body 

 Why This Multi-Support Approach Matters

Viruses and bacteria affect the body in different ways, but both require a strong and balanced immune response. Supporting several defence mechanisms simultaneously helps the body maintain its natural ability to recognise, control and recover from microbial challenges.

Viral Plus B is designed to support these interconnected immune processes and complement healthy lifestyle practices such as balanced nutrition, adequate sleep and stress management.

What to Expect When Supporting the Body Against Viruses & Bacteria 

Why This Timeline Matters

When viruses or bacteria enter the body, the immune system responds through multiple coordinated stages. Supporting these natural processes helps the body maintain its ability to respond effectively, regulate inflammation, and restore balance after immune challenges.

Viral Plus B is designed to complement the body’s natural defence systems and support overall immune resilience during periods of increased microbial exposure.

Interactions Table 

General Interaction Guidance

 Individuals should consult a healthcare professional before using this supplement if they are:

• taking prescription medication
• undergoing medical treatment
• preparing for surgery
• managing chronic health conditions

Maintaining appropriate spacing between supplements and medications may help reduce potential interactions.

Pregnant & Breastfeeding Women 

Children Use & Guidance 

General Safety Notes 

• This supplement is intended to support normal immune function.
• It is not intended to diagnose, treat, cure or prevent disease.
• Individuals with medical conditions or those taking medication should consult a healthcare professional before use.

Ingredients which are traditionally used for a Virus & Bacteria supplement
Technical info: For herbal knowledge educational purposes only!

Alpha Lipoic Acid: Alpha lipoic acid functions as a mitochondrial antioxidant that restores intracellular glutathione levels, an important defensive molecule produced by immune and epithelial cells during viral and bacterial exposure. By improving cellular redox balance within respiratory tissues, lymphocytes and macrophages, it helps cells resist viral-induced oxidative damage. This antioxidant stabilisation assists immune cells during exposure to RNA viruses such as influenza and coronavirus strains while protecting tissues during inflammatory responses triggered by bacterial infection.

Andrographis Paniculata: Andrographis contains diterpene lactones, primarily andrographolide, which influence viral replication pathways and inflammatory signalling. These compounds act in respiratory epithelial tissues and immune cells, helping limit replication of several RNA viruses including influenza-type respiratory viruses. Andrographis also demonstrates antibacterial activity against certain Gram-positive and Gram-negative organisms. Through modulation of cytokine signalling and macrophage activation, it supports the body’s ability to control both viral and bacterial microbial challenges.

Astragalus Root: Astragalus contains polysaccharides, triterpenoid saponins and flavonoids that influence innate immune signalling and antiviral cellular responses. These compounds stimulate macrophages, dendritic cells and natural killer cells that target virus-infected cells, particularly within respiratory and lymphatic tissues. Astragalus has been traditionally used during respiratory viral infections including influenza-type viruses. It also supports antibacterial immune responses by enhancing phagocytosis and immune signalling involved in elimination of invading bacterial organisms.

Berberine Hydrochloride: Berberine is an isoquinoline alkaloid known for broad antimicrobial activity. It interferes with microbial DNA replication, enzyme systems and cellular signalling used by bacteria and some viruses. In intestinal tissues it helps regulate microbial balance by inhibiting growth of pathogenic bacteria including certain Gram-negative organisms. Berberine also affects viral replication pathways and inflammatory signalling processes that occur when viruses infect epithelial cells, contributing to broader antiviral and antibacterial defence.

Black Seed (Nigella sativa): Black seed contains thymoquinone, thymohydroquinone and nigellone which influence antiviral signalling and microbial defence pathways. These compounds act within respiratory and immune tissues helping maintain immune cell activity against viruses and microbial pathogens. Black seed has demonstrated activity against several viral families and also exhibits antibacterial properties against common pathogenic bacteria. Its antioxidant and anti-inflammatory effects support tissue stability during infections affecting respiratory and systemic tissues.

Black Jack (Bidens pilosa): Bidens pilosa contains flavonoids, phenolic acids and polyacetylenes that influence antimicrobial and antiviral activity. These compounds interfere with microbial growth and support immune responses against viruses and bacterial organisms. Bidens has been traditionally used for infections affecting digestive, blood and respiratory systems. Its phytochemicals assist macrophage activity and microbial clearance while contributing to maintenance of physiological balance during microbial exposure.

Boswellia (Frankincense): Boswellia resin contains pentacyclic triterpenes known as boswellic acids which influence inflammatory signalling pathways associated with infection. During viral or bacterial illness, excessive inflammatory signalling can damage tissues, particularly in the respiratory system. Boswellia helps regulate these inflammatory mediators while maintaining tissue stability. This supportive activity assists the body in managing inflammation triggered by viral infections or bacterial microbial activity.

Bromelain: Bromelain is a proteolytic enzyme complex derived from pineapple containing cysteine proteases that influence inflammatory and immune signalling pathways. During viral respiratory infections bromelain assists by reducing inflammatory mediators in bronchial and sinus tissues while improving mucus clearance. These enzymatic actions help maintain respiratory tissue integrity during viral exposure such as influenza-type respiratory viruses. Bromelain also exhibits antibacterial activity by disrupting microbial adhesion to mucosal tissues.

Cat’s Claw (Uncaria tomentosa): Cat’s claw contains oxindole alkaloids, quinovic acid glycosides and polyphenols that influence antiviral and immune signalling pathways. These compounds stimulate phagocytic activity and enhance recognition of virus-infected cells within lymphatic and immune tissues. Cat’s claw has demonstrated activity against several viral families including herpes viruses and respiratory viruses. In addition, its antimicrobial constituents contribute to antibacterial defence and support microbial balance during infection.

Citrus Bioflavonoids: Citrus bioflavonoids such as hesperidin, rutin and quercetin derivatives strengthen vascular and epithelial integrity while influencing antiviral defence pathways. These flavonoids help stabilise cellular membranes and support antioxidant protection during viral infections affecting respiratory tissues. Their ability to modulate inflammatory signalling and oxidative stress assists immune cells in controlling viral replication and maintaining tissue resilience during bacterial or viral exposure.

Cordyceps sinensis: Cordyceps contains cordycepin, adenosine derivatives and polysaccharides that influence antiviral immune responses and cellular energy metabolism. These compounds support macrophage activity and natural killer cell function, particularly within respiratory and circulatory tissues. Cordyceps has been traditionally used for respiratory infections and microbial challenges. Its ability to regulate inflammatory signalling and improve cellular energy production helps maintain resilience during viral and bacterial exposure.

Cryptolepsis sanguinolenta: Cryptolepsis contains indoloquinoline alkaloids such as cryptolepine which demonstrate strong antimicrobial activity. These compounds interfere with microbial DNA replication and enzyme activity used by pathogens to multiply. Cryptolepsis has been widely studied for activity against bacterial organisms and parasitic infections, while also showing antiviral properties. Its antimicrobial actions help support microbial balance within blood, digestive and immune tissues during infectious challenges.

Cumin Black Seed (Nigella sativa): Black cumin seed contains thymoquinone and nigellone which influence antiviral signalling and microbial defence pathways. These compounds have demonstrated inhibitory effects on viral replication in several studies involving respiratory viruses and herpes viruses. In addition, thymoquinone exhibits antibacterial activity against certain Gram-positive and Gram-negative bacteria. These actions support respiratory immune defence and help maintain microbial balance throughout the body.

Elderberry (Sambucus nigra): Elderberry contains anthocyanins, flavonoids and phenolic acids that influence antiviral defence mechanisms within respiratory epithelial tissues. These compounds help interfere with viral attachment and replication processes associated with influenza-type viruses and other respiratory viral infections. Elderberry also supports immune cell signalling and antioxidant protection, helping maintain tissue stability during viral infection and assisting immune responses against microbial challenges.

Garlic (Allium sativum): Garlic contains organosulfur compounds including allicin, ajoene and diallyl sulfides which exhibit broad antimicrobial activity. These compounds disrupt microbial enzyme systems and interfere with replication processes used by bacteria and certain viruses. Garlic has demonstrated activity against respiratory viruses and several bacterial organisms. Within the bloodstream, respiratory tissues and digestive tract it supports microbial control mechanisms while enhancing immune cell responses to infected cells.

Gotu Kola (Centella asiatica): Gotu kola contains triterpenoid saponins such as asiaticoside and madecassoside that influence immune signalling and tissue repair processes. These compounds support microcirculation and cellular recovery in tissues affected by infection. By stabilising connective tissues and supporting inflammatory balance, Gotu kola assists the body during viral and bacterial illness. Its antioxidant properties help protect cells from oxidative stress produced during immune responses.

Grape Seed Extract (Vitis vinifera): Grape seed extract contains oligomeric proanthocyanidins (OPCs) which act as potent antioxidants that protect cellular membranes and vascular tissues during infection. These compounds strengthen epithelial barriers and support immune cell function in respiratory and circulatory tissues. OPCs help inhibit oxidative stress caused by viral replication and bacterial toxins, assisting the body in maintaining cellular stability and tissue integrity during microbial exposure.

Horehound (Marrubium vulgare): Horehound contains diterpenes such as marrubiin which support respiratory tissue health and mucus regulation. These compounds assist bronchial clearance during respiratory infections caused by viruses or bacteria. By promoting healthy mucus flow and airway function, horehound helps maintain respiratory defence mechanisms. Its mild antimicrobial properties also support microbial balance in respiratory tissues exposed to environmental pathogens.

Irish Moss (Chondrus crispus): Irish moss contains sulfated polysaccharides such as carrageenans that help form protective mucosal barriers in respiratory and digestive tissues. These compounds support the body’s ability to trap and remove microorganisms entering through mucosal surfaces. Sulfated polysaccharides have also been studied for antiviral properties against certain enveloped viruses by interfering with viral attachment to host cells. Irish moss therefore contributes to mucosal defence and microbial resistance.

Ivy Leaf Extract (Hedera helix): Ivy leaf contains saponins such as hederacoside C which influence respiratory mucus clearance and bronchial relaxation. These compounds support airway function during respiratory infections involving viral or bacterial irritation. By assisting mucus clearance from bronchial tissues, ivy leaf helps maintain respiratory defence mechanisms and supports recovery of airway tissues following microbial exposure.

Lemon Balm (Melissa officinalis): Lemon balm contains rosmarinic acid, caffeic acid and essential oils that influence antiviral activity, particularly against viruses from the herpes family. These compounds interfere with viral attachment to host cells and support immune signalling in tissues affected by infection. Lemon balm has demonstrated inhibitory effects on herpes simplex viruses and other viral pathogens, while its antioxidant activity helps maintain cellular protection during viral stress.

Lion’s Mane Mushroom (Hericium erinaceus): Lion’s Mane contains beta-glucans, hericenones and erinacines that influence immune signalling and antimicrobial defence pathways. These polysaccharides activate macrophages, dendritic cells and natural killer cells which identify virus-infected or bacteria-contaminated tissues. Lion’s Mane also supports gut immune tissues where a large portion of immune activity occurs. By strengthening mucosal immune defences and microbial recognition systems it assists the body in responding to viral and bacterial challenges.

L-Lysine: L-lysine is an essential amino acid that influences viral replication pathways, particularly within the herpes virus family. By competing with arginine metabolism required for viral replication, lysine helps inhibit multiplication of viruses such as herpes simplex and varicella-zoster (shingles). Lysine also supports antibody production and immune cell function. These actions help the body maintain control over latent viral infections that may reactivate under stress or immune suppression.

Marshmallow Root (Althaea officinalis): Marshmallow root contains mucilage polysaccharides and flavonoids that support protective barriers within respiratory and digestive tissues. These mucilaginous compounds coat mucosal surfaces, helping maintain epithelial integrity during viral or bacterial irritation. By supporting protective mucus layers in the throat, bronchi and gastrointestinal tract, marshmallow root assists the body in trapping and removing invading microorganisms while reducing tissue irritation during infection.

Mullein Flowers (Verbascum thapsus): Mullein contains iridoid glycosides, flavonoids and saponins that influence respiratory immune defence and antimicrobial activity. These compounds support the removal of mucus and microbial debris from bronchial tissues. Mullein has traditionally been used during respiratory infections involving viruses or bacteria affecting the lungs and upper airways. Its antimicrobial properties assist respiratory tissues in maintaining microbial balance and supporting natural airway defence mechanisms.

Myrrh (Commiphora myrrha): Myrrh resin contains sesquiterpenes, terpenoids and furanosesquiterpenes which exhibit antimicrobial and antiviral activity. These compounds influence microbial membrane integrity and immune signalling involved in pathogen clearance. Myrrh has been traditionally used for infections affecting the respiratory tract, oral cavity and digestive tissues. Its antimicrobial actions contribute to controlling bacterial growth while supporting immune responses against viral pathogens.

N-Acetyl-L-Cysteine (NAC): NAC functions as a precursor for glutathione synthesis, one of the body’s most important intracellular antioxidants. By restoring glutathione levels in respiratory epithelial cells and immune cells, NAC helps protect tissues from oxidative stress produced during viral infections. NAC also supports mucus regulation in respiratory tissues, assisting the body in clearing pathogens from bronchial passages. These actions support resilience during respiratory viral infections.

Olive Leaf (Olea europaea): Olive leaf contains phenolic compounds such as oleuropein and hydroxytyrosol which influence antiviral and antimicrobial defence pathways. These compounds interfere with viral replication processes and support immune signalling mechanisms involved in pathogen elimination. Olive leaf has demonstrated activity against several viral families including respiratory viruses and herpes viruses. In addition, it exhibits antibacterial activity against certain pathogenic bacteria affecting digestive and respiratory tissues.

Pau d’Arco (Tabebuia impetiginosa): Pau d’Arco contains naphthoquinones including lapachol and beta-lapachone which exhibit antimicrobial and antiviral activity. These compounds influence microbial enzyme systems and interfere with replication processes used by bacteria, fungi and certain viruses. Pau d’Arco has traditionally been used during systemic infections affecting the blood, digestive tract and respiratory tissues. By influencing microbial growth and immune signalling pathways it assists the body in maintaining microbial balance.

Pine Bark Extract (Pinus pinaster): Pine bark extract contains oligomeric proanthocyanidins (OPCs) which protect cellular membranes and vascular tissues from oxidative stress during infection. These flavonoid compounds support immune cell activity and enhance circulation of immune mediators through microvascular tissues. By stabilising endothelial cells and supporting antioxidant defences, pine bark extract helps maintain tissue integrity during viral infections and bacterial inflammatory responses.

Plantain Leaf (Plantago major): Plantain leaf contains iridoid glycosides such as aucubin along with flavonoids and polysaccharides that influence antimicrobial and anti-inflammatory pathways. These compounds support mucosal immune defence in respiratory and digestive tissues. Plantain has traditionally been used to support the body during infections affecting the throat, lungs and gastrointestinal tract. Its antimicrobial actions help maintain microbial balance while supporting epithelial barrier protection.

Quercetin: Quercetin is a flavonoid widely studied for antiviral and anti-inflammatory activity. It influences viral replication pathways by interfering with enzymes and cellular processes used by viruses to reproduce. Quercetin has demonstrated activity against several respiratory viruses and contributes to stabilising mast cells and inflammatory signalling. Within respiratory epithelial tissues and immune cells, it assists the body in maintaining antiviral defence and reducing tissue stress during infection.

Reishi Mushroom (Ganoderma lucidum): Reishi contains beta-glucans, triterpenoids and polysaccharides that influence immune recognition and antiviral defence mechanisms. These compounds activate macrophages, dendritic cells and natural killer cells that target infected tissues. Reishi has traditionally been used to support resilience during viral infections affecting respiratory and systemic tissues. Its immunomodulatory activity helps maintain balanced immune responses against viral and bacterial pathogens.

Rhodiola rosea: Rhodiola contains phenylpropanoids and salidroside which influence stress-regulating pathways and immune signalling. During viral or bacterial infections, physiological stress can weaken immune responses. Rhodiola supports the hypothalamic-pituitary-adrenal axis and helps maintain balanced immune activity under stress conditions. By supporting energy metabolism and cellular resilience, it assists the body in maintaining defensive responses during infectious challenges.

Rutin: Rutin is a flavonoid glycoside derived from quercetin that strengthens capillary integrity and supports antioxidant defence during infection. These compounds stabilise vascular tissues and help maintain circulation of immune mediators throughout the body. Rutin also contributes to antiviral defence by supporting cellular antioxidant systems that protect tissues during viral replication and bacterial inflammatory responses.

Selenium (as Amino Acid Chelate): Selenium is an essential trace mineral incorporated into selenoproteins such as glutathione peroxidase and thioredoxin reductase that regulate oxidative stress during infection. Adequate selenium levels support immune signalling and cellular resistance to viral replication, particularly in respiratory epithelial tissues. Selenium has been associated with improved resistance to RNA viruses and supports immune cell function involved in controlling both viral and bacterial pathogens.

Slippery Elm (Ulmus rubra): Slippery elm contains mucilage polysaccharides that form protective coatings on mucosal tissues of the throat, digestive tract and respiratory passages. These mucilaginous compounds help maintain epithelial barrier integrity during infections affecting mucosal surfaces. By supporting protective mucus layers and soothing inflamed tissues, slippery elm assists the body in trapping and removing microorganisms while reducing irritation caused by viral or bacterial exposure.

Thyme (Thymus vulgaris): Thyme contains essential oils rich in thymol and carvacrol which exhibit strong antimicrobial and antiviral activity. These compounds disrupt microbial cell membranes and inhibit enzyme systems used by bacteria and certain viruses. Thyme has traditionally been used for respiratory infections, where it supports bronchial tissues and helps maintain microbial balance in the airways. Its antimicrobial effects contribute to control of respiratory bacterial and viral pathogens.

Trans-Resveratrol: Resveratrol is a polyphenolic compound that influences antiviral signalling pathways and cellular defence mechanisms. It interferes with viral replication processes and modulates inflammatory signalling within infected tissues. Resveratrol has demonstrated activity against several viral families including respiratory viruses and herpes viruses. Within immune and vascular tissues it also acts as a strong antioxidant, helping protect cells from oxidative stress associated with infection.

Turkey Tail Mushroom (Trametes versicolor): Turkey tail contains polysaccharide-K (PSK) and polysaccharopeptides which influence immune recognition and antimicrobial defence. These beta-glucan rich compounds activate macrophages, dendritic cells and natural killer cells responsible for identifying infected or abnormal cells. Turkey tail has been studied for its ability to support immune responses against viruses and microbial pathogens while maintaining balanced immune regulation.

Turmeric (Curcuma longa): Turmeric contains curcuminoids, primarily curcumin, which influence inflammatory signalling pathways and antimicrobial defence mechanisms. Curcumin has demonstrated activity against several viral replication pathways and supports immune cell signalling. Within respiratory, digestive and circulatory tissues turmeric helps regulate inflammatory responses associated with infection while contributing to antibacterial and antiviral defence.

Vitamins A, C, D and E: These vitamins support multiple aspects of antiviral and antibacterial defence. Vitamin A helps maintain integrity of respiratory and mucosal epithelial tissues that act as barriers against microbial entry. Vitamin C supports immune cell activity and antioxidant protection during infection. Vitamin D regulates immune signalling involved in antimicrobial peptide production. Vitamin E protects cellular membranes from oxidative damage during immune responses.

Wormwood, African (Artemisia afra): African wormwood contains sesquiterpene lactones, flavonoids and volatile oils that influence antimicrobial and antiviral defence mechanisms. These phytochemicals have traditionally been used during respiratory infections where viruses and bacteria affect bronchial and lung tissues. The compounds assist immune signalling and microbial defence pathways within respiratory and circulatory systems. Artemisia species have also been widely researched for activity against viral pathogens and microbial infections affecting respiratory tissues.

Zinc Bisglycinate: Zinc is an essential trace mineral required for numerous enzymatic processes involved in immune defence and antiviral activity. Zinc ions influence viral replication pathways by interfering with enzymes required for viral genome synthesis, particularly within RNA viruses that infect respiratory tissues. Adequate zinc levels also support immune cell development, antibody production and antimicrobial defence mechanisms, helping the body maintain resistance against viral and bacterial pathogens.