Journal of Ayurveda and Integrated Medical Sciences

Introduction

Chronic pain is one of the most widespread and challenging global health issues, impacting between 15% and 30% of adults worldwide and contributing to substantial disability and healthcare burdens, particularly in the context of musculoskeletal disorders (MSDs) and neurodegenerative diseases.^[1] In India, approximately 13% of the population suffers from chronic pain, with a higher incidence among women and the elderly.^[2] This condition not only limits daily functioning - affecting essential activities such as walking and lifting - but also imposes severe economic costs, contributing to reduced productivity, work absenteeism, and healthcare expenditures. Although nonsteroidal anti-inflammatory drugs (NSAIDs) and opioids are common in conventional pain management, they come with risks of adverse effects and dependency, often proving inadequate as long-term solutions.^[3] Ayurveda, the ancient Indian medical system, provides a holistic approach to pain management, focusing on balancing the Vata Dosha, which regulates neural and muscular functions.^[4] Techniques such as Viddhaagni Karma, an innovative blend of Viddha Karma and Agnikarma, harness both physiological and neurological principles to offer immediate and lasting pain relief. By addressing the physical, psychological, and social aspects of pain, Ayurveda complements modern treatments, filling gaps in accessibility, side-effect management, and sustainable care. This review explores Viddhaagnikarma's potential as a groundbreaking strategy for chronic pain management, underscoring Ayurveda’s role in developing more integrative and effective frameworks for pain alleviation and care.

Methodology

Information Sources

Main Ayurvedic texts of Susruta Samhita, Charaka Samhita, Astanga Hridaya Samhita, Bhava Prakasha, Sharangadara Samhita, Baishajjaya Ratnawali, Madhava Nidana, Chakkradatta were reviewed for treatment modalities for pain, Viddha Karma, Agnikarma

Search Strategy

The search was done for treatment modalities bringing forward,

Classical texts like Sushruta Samhita emphasize critical role of Roga Marga (disease pathways) in propagation and manifestation of pain, highlighting its multifactorial etiology and systemic impacts.

Pain Pathway: Definition and Mechanisms

Pain is the primary symptom in most musculoskeletal disorders and is often the primary reason patients seek medical attention. It is commonly defined as "an unpleasant sensory and emotional experience, typically linked to actual or potential tissue injury." ^[9]

Pain is a complex sensory and emotional experience typically arising from actual or potential tissue damage, serving as a crucial protective mechanism. This multifaceted process involves a network of specialized neurons and pathways that transmit, process, and modulate nociceptive (pain-related) signals from the peripheral tissues to the central nervous system (CNS). Pain perception is not only physiological but also shaped by emotional, cognitive, and contextual factors, integrating both sensory and affective dimensions.

Key Components of the Pain Pathway^[10]

1. Nociceptors and Primary Afferent Neurons: At the pain pathway’s entry point are nociceptors—sensory receptors responsive to noxious stimuli of thermal, mechanical, or chemical nature, located in peripheral tissues such as the skin, muscles, and organs. Nociceptive signals travel through primary afferent neurons, distinguished by two main types:

• A-delta fibers: Myelinated fibers that quickly transmit sharp, well-localized pain, allowing rapid reaction to acute stimuli.
• C fibers: Unmyelinated, slower-conducting fibers responsible for dull, throbbing, or aching sensations typically associated with prolonged pain.

2. Spinal Cord Processing (Dorsal Horn): Upon entering the spinal cord via the dorsal root, nociceptive signals synapse in the dorsal horn. Here, they undergo modulation by local interneurons, which can amplify or inhibit signal transmission, adding complexity to the pain experience. This modulation is a critical factor in determining pain perception intensity.

3. Ascending Pathways to the CNS: Nociceptive signals ascend to the brain via two primary tracts:

A comprehensive understanding of this pathway is fundamental for advancing pain management and improving therapeutic outcomes for individuals with acute or chronic pain.^[12]

Figure 1: Pain Pathway

Literature review of Viddha Karma

Overview of Shastra Karma Procedures

The ancient medical text, Sushruta Samhita, outlines eight principal types of surgical interventions, collectively known as Shastra Karma. These include: Chedana (excision), Bhedana (incision), Lekhana (scraping), Vyadhana (puncturing), Eshana (probing), Aharana (extraction), Visravana (draining), and Seevana (suturing).^[13] Derived from the Sanskrit root "vid," meaning “to pierce or penetrate,”^[14] the term Viddha or Vyadhana reflects procedures aimed at puncturing or penetrating tissues. In the Sushruta Samhita, Viddha Karma is described as a method for creating a channel to release entrapped elements, such as air (Vayu) or blood, facilitating the drainage of fluids in conditions like Jalodara (ascites), Mutravriddhi (urinary retention), and pus in Vidradhi (abscess).^[15]

Indications for Viddha Karma

The primary indication for Viddha Karma lies in addressing disorders caused by vitiated Vata dosha. When Vata dosha becomes aggravated and enters the blood (Rakta), it leads to a condition termed Raktaavruta Vata, where both Rakta and Vata are disturbed due to exposure to harmful etiological factors.

it alleviates pain and inflammation and aids in clearing accumulated Doshas at the afflicted sites​. Different tools and substances are used for Agnikarma, such as metallic rods (Shalakas) for muscle-related issues, and materials like Pippali (Piper longum) for skin applications.^[19] This specificity ensures treatment is tailored to the tissue affected and the nature of the ailment. Studies have indicated that Agnikarma shows effectiveness where conventional medications may cause side effects with prolonged use, particularly in cases like osteoarthritis, sciatica, and chronic inflammatory conditions.^[20]

Modern parallels in heat-based treatments, such as diathermy^[21] electrocautery^[22] and infrared therapy,^[23] support Agnikarma’s efficacy in pain management. Research suggests that local heat application may enhance blood flow and trigger pain inhibition pathways, providing both immediate relief and long-term healing effects.

Integration of Viddha and Agni

Viddhagnikarma is a therapeutic Ayurvedic procedure combining two ancient techniques: Viddha Karma (puncture therapy) and Agnikarma (thermal cauterization). This dual-action approach leverages both mechanical and thermal stimulation to manage musculoskeletal and chronic pain, particularly in conditions like sciatica. Rooted in Ayurvedic wisdom, Viddhagnikarma shares some principles with acupuncture but distinguishes itself through the addition of heat, which enhances circulation, alleviates pain, and promotes tissue healing​.^[24]

Theoretical Basis of Viddhagnikarma

• Viddha Karma (Puncture Therapy): As outlined in Sushruta Samhita, Viddha Karma involves piercing specific anatomical sites to create a controlled stimulus that alleviates pain. By stimulating Marma^[25] points (intersections of muscles, veins, ligaments, joints, and bones), this puncture technique triggers endorphin release, which reduces pain by blocking pain signals transmitted to the CNS. This effect aligns with modern neurophysiological concepts of pain modulation​.^[26]
• Agnikarma (Thermal Cauterization): Agnikarma uses heat to treat pain and inflammation at a local level, achieving results similar to monopolar electrocautery.

5. Placement of Earthing Plate

Position the earthing/cautery plate beneath the patient’s thigh to complete the necessary electrical circuit for the cautery process.

This preparatory step ensures both safety and precision, establishing the foundation for a successful Viddhagnikarma procedure.

Figure 2: Materials required for Viddhaagnikarma

Step 2: Main Procedure (Pradhana Karma)

1. Needle Insertion

Insert a sterile 261½-gauge surgical needle perpendicularly to a depth of approximately 0.5 cm at each marked tender point over the relevant dermatomes. This specific insertion depth targets and stimulates the desired points while minimizing unnecessary tissue trauma.

2. Heat Application through Electrical Stimulation

Apply a controlled low-frequency electrical current to each needle, set between 0.50 mHz and 1 mHz, for a duration of 2-5 seconds. This frequency generates localized heat around needle, providing intended therapeutic effect at each puncture site.

3. Repeated Cycles

Repeat the heating procedure 4-5 times at each site, with 30-60 seconds between each cycle.

This structured approach in Viddhagnikarma ensures precision, safety, and efficacy, providing targeted pain relief with minimal risk.

Probable Mechanism of Action of Viddhaagnikarma

1. Viddha Karma

Involves piercing or needling to clear blockages (Aavruta Vata) and restore energy balance, enhancing flow of vital forces (Srotoshodana).^[29]

2. Agni Karma

Localized heat (using alternating current) is applied to pacify Vata and Kapha Doshas, targeting the root causes of pain.^[30]

Pain Relief Mechanisms

1. Endorphin Activation

Activates μ- and δ-opioid receptors, stimulating the release of endorphins for natural pain relief.^[31]

2. Neurotransmitter Modulation:

Increases serotonin and norepinephrine, which dampen pain signals, while enhancing inhibitory neurotransmitters (GABA, glycine) and reducing excitatory ones (glutamate), leading to reduced pain intensity.^[31]

Anti-inflammatory Effect:

• Suppresses the activation of glial cells involved in amplifying chronic pain, reducing inflammation and related discomfort.^[31]

Neuropathic Pain Management:

1. Low-frequency Settings (0-0.05 Hz):

These frequencies stimulate cellular repair, providing long-lasting analgesic effects, particularly beneficial for neuropathic pain.^[31]

2. Gate Control Theory:

Heat stimulates large-diameter A-beta fibers to inhibit pain signals transmitted by smaller C and A-delta fibers, reducing overall pain perception.^[32]

Impact on Spinothalamic Tract:

The activation of A-beta fibers inhibits pain signals carried by smaller C and A-delta fibers through the spinothalamic tract, reducing pain perception by preventing these signals from reaching brain.^[33]

Ayurveda, the traditional Indian system of medicine, offers a unique alternative through the technique of Viddhagnikarma, which combines two established therapies - Viddha Karma (puncture therapy) and Agnikarma (thermal cauterization). Viddhagnikarma addresses pain through a dual-action mechanism: mechanical stimulation via needle puncture and thermal application via cauterization. This approach taps into both physiological and neurochemical pain pathways, presenting a holistic solution that potentially mitigates pain while promoting tissue repair and regeneration. By incorporating puncture to stimulate endorphin release^[31] and applying localized heat to enhance circulation,^[34] Viddhagnikarma promotes cellular healing,^[31] which distinguishes it from standard pharmacological treatments that primarily target symptom alleviation.

The literature highlights Viddhagnikarma’s potential to relieve pain in conditions such as sciatica, osteoarthritis, and other Vata-dominant disorders. Although deeply rooted in Ayurvedic principles, its mechanisms of action resonate with modern neurophysiological understandings of pain modulation. For example, the application of heat in Viddhagnikarma has been shown to activate opioid receptors (specifically μ- and δ-opioid receptors), facilitating endorphin release for natural analgesia. Furthermore, it enhances the action of neurotransmitters like serotonin and norepinephrine, which play a significant role in the modulation of pain pathways, thus establishing Viddhagnikarma as a scientifically relevant and integrative approach to pain management.

The use of low-frequency oscillations (0-0.05 Hz)^[28] within Viddhagnikarma is particularly beneficial in managing neuropathic pain, as it provides sustained analgesic effects and aids cellular repair.^[31] The low-frequency settings induce a biophysical effect on cellular cytoplasm, enhancing the technique’s potency in neuropathic pain management.^[31] Additionally, Viddhagnikarma’s approach aligns with the gate control theory, which posits that activating large-diameter A-beta fibers through heat inhibits the transmission of pain signals from smaller C and A-delta fibers, effectively reducing pain perception.^[32] The therapeutic benefits of Viddhagnikarma extend beyond immediate relief.

Through its multi-dimensional approach and emphasis on promoting endogenous healing, Viddhagnikarma stands poised to contribute significantly to both modern and traditional frameworks of pain management, enhancing the quality of life for those with chronic musculoskeletal pain.

References

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