Category Archives: Chronic Inflammatory and Neuropathic Pain

The cannabinoid CB₂ receptor-selective phytocannabinoid beta-caryophyllene exerts analgesic effects in mouse models of inflammatory and neuropathic pain.

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European Neuropsychopharmacology Home

“The widespread plant volatile beta-caryophyllene (BCP) was recently identified as a natural selective agonist of the peripherally expressedcannabinoid receptor 2 (CB₂).

…the natural plant product BCP may be highly effective in the treatment of long lasting, debilitating pain states. Our results have important implications for the role of dietary factors in the development and modulation of chronic pain conditions.

Cannabis preparations, which have been used since thousands of years for the treatment of pain have recently come again into the focus as potential therapeutics for inflammatory and neuropathic pain conditions. Currently, cannabis extracts and synthetic preparations of the psychoactive cannabis compound Δ9-tetrahydrocannabinol (THC) have been approved in many countries for clinical pain management at doses and formulations that show on only minor central side effects…

A natural selective agonist for CB2 receptors is the plant volatile BCP, which represents a dietary phytocannabinoid. BCP is found in large amounts in the essential oils of many common spices and food plants… Several health effects have been attributed to BCP or medicinal plants containing BCP, including anti-inflammatory, local anesthetic, anti-carcinogenic, anti-fibrotic and anxiolytic-like activity.

In the present study, we investigated the analgesic effects of BCP in formalin-induced inflammation model and in a model of neuropathic pain, which involves the partial ligation of the sciatic nerve… BCP is the first natural CB2 receptor agonist, which could orally reduce inflammatory responses in different animal models of pain.

Thus, it is likely that BCP belongs to a group of common plant natural products with major potential impact on human health.

The oral intake of this dietary cannabinoid with vegetable food could be advantageous in the daily routine clinical practice over synthetic cannabinoid agonists.”

http://www.europeanneuropsychopharmacology.com/article/S0924-977X(13)00302-7/fulltext

http://www.thctotalhealthcare.com/category/neuropathic-pain/

Cannabinoid-mediated modulation of neuropathic pain and microglial accumulation in a model of murine type I diabetic peripheral neuropathic pain.

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“Despite the frequency of diabetes mellitus and its relationship to diabetic peripheral neuropathy (DPN) and neuropathic pain (NeP), our understanding of underlying mechanisms leading to chronic pain in diabetes remains poor.

Recent evidence has demonstated a prominent role of microglial cells in neuropathic pain states.

One potential therapeutic option gaining clinical acceptance is the cannabinoids, for which cannabinoidreceptors (CB) are expressed on neurons and microglia. We studied the accumulation and activation of spinal and thalamic microglia in streptozotocin (STZ)-diabetic CD1 mice and the impact of cannabinoid receptor agonism/antagonism during the development of a chronic NeP state.

The prevention of microglial accumulation and activation in the dorsal spinal cord was associated with limited development of a neuropathic pain state.

Cannabinoids demonstrated antinociceptive effects in this mouse model of DPN.

These results suggest that such interventions may also benefit humans with DPN, and their early introduction may also modify the development of the NeP state.”  http://www.ncbi.nlm.nih.gov/pubmed/20236533

“Tetrahydrocannabinol (THC), a component in marijuana, acts at both CB1 and CB2 receptors, but other forms of cannabinoids such as cannabinol and cannabidiol act predominantly at CB2 receptors. Such CB2 agonists may be potential anti-inflammatory therapies, antagonizing the 2-AG-induced recruitment of microglia and impacting upon development of an inflammatory state. Such properties may permit the cannabinoids to act in the prevention of microglial activation, perhaps limiting the development of neuropathic pain.

The present data confirm the efficacy of cannabinoid agonists, both for the CB1 and CB2 receptor, in modulation of acute thermal and tactile hypersensitivity as features of neuropathic pain. Furthermore, CB1 agonism from the onset of the offending stimulus (diabetes) normally leading to neuropathic pain ameliorated the development of a neuropathic pain state.”  http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2845559/

http://www.thctotalhealthcare.com/category/neuropathic-pain/

 

Therapeutic potential of cannabis in pain medicine†

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BJA

“Cannabis has been of medicinal and social significance for millennia.

It is obtained from Cannabis sativa and the plant’s name reflects its ancient use—cannabis may represent a compound of Sanskrit and Hebrew words meaning ‘fragrant cane’, while sativa is Latin for cultivated.

Cannabis is also known as hemp.

Marijuana describes the dried cannabis flowers and leaves which are smoked, while hashish refers to blocks of cannabis resin which can be eaten.

Advances in cannabis research have paralleled developments in opioid pharmacology whereby a psychoactive plant extract has elucidated novel endogenous signalling systems with therapeutic significance.

Cannabinoids (CBs) are chemical compounds derived from cannabis.

This review discusses the basic science and clinical aspects of CB pharmacology with a focus on pain medicine.

Advances in cannabis research have ensured a future for these analgesic molecules which have been used since antiquity.”

http://bja.oxfordjournals.org/content/101/1/59.long

http://www.thctotalhealthcare.com/category/pain-2/

CB1 receptors modulate affective behaviour induced by neuropathic pain.

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“Patients suffering from chronic pain are often also diagnosed with a psychiatric condition, in particular generalized anxiety and major depression. The underlying pathomechanisms contributing to this comorbidity, however, are not entirely clear.

In this manuscript we have focussed on the potential role of the cannabinoid receptor CB1, because it is known to modulate neuronal circuits contributing to chronic pain states and affective behaviours.

For this purpose we analysed the consequences of a partial sciatic nerve ligation on anxiety- and depression related behaviours in mice lacking CB1 receptors.

Our results show that the development of mechanical hypersensitivity was similar in CB1 deficient mice and wild type controls. However, CB1 knockouts showed much more pronounced behavioural manifestations of anxiety-related behaviors in the light-dark and zero-maze tests, sucrose anhedonia, and disturbed home-cage activity.

These results indicate that the endocannabinoid system affects chronic pain-induced mood changes through CB1 receptors.”

The role of the endocannabinoid system in pain.

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“Preparations of the Cannabis sativa plant have been used to analgesic effect for millenia, but only in recent decades has the endogenous system responsible for these effects been described.

The endocannabinoid (EC) system is now known to be one of the key endogenous systems regulating pain sensation, with modulatory actions at all stages of pain processing pathways.

The EC system is composed of two main cannabinoid receptors (CB1 and CB2) and two main classes of endogenous ligands or endocannabinoids (ECs).

The receptors have distinct expression profiles, with CB1 receptors found at presynaptic sites throughout the peripheral and central nervous systems (PNS and CNS, respectively), whilst CB2 receptor is found principally (but not exclusively) on immune cells.

The endocannabinoid ligands are lipid neurotransmitters belonging to either the N-acyl ethanolamine (NAEs) class, e.g. anandamide (AEA), or the monoacylglycerol class, e.g. 2-arachidonoyl glycerol (2-AG).

Both classes are short-acting transmitter substances, being synthesised on demand and with signalling rapidly terminated by specific enzymes. ECs acting at CB1 negatively regulate neurotransmission throughout the nervous system, whilst those acting at CB2 regulate the activity of CNS immune cells.

Signalling through both of these receptor subtypes has a role in normal nociceptive processing and also in the development resolution of acute pain states.

In this chapter, we describe the general features of the EC system as related to pain and nociception and discuss the wealth of preclinical and clinical data involving targeting the EC system with focus on two areas of particular promise: modulation of 2-AG signalling via specific enzyme inhibitors and the role of spinal CB2 in chronic pain states.”

http://www.ncbi.nlm.nih.gov/pubmed/25846617

http://www.thctotalhealthcare.com/category/pain-2/

Tonic Modulation of Nociceptive Behavior and Allodynia by Cannabinoid Receptors in Formalin Test in Rats.

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“Cannabinoids produce anti-nociceptive and anti-hyperalgesic effects in acute, inflammatory and neuropathic pain models.

The current study investigated the role of cannabinoid (CB1 and CB2) receptors in modulating formalin-induced nociceptive behavior and mechanical allodynia in the rat…

The results indicate that CB1 and CB2 receptors mediate a tonically inhibitory action on formalin-induced inflammatory pain, especially long-term allodynia, in bilateral hind paws.”

http://www.ncbi.nlm.nih.gov/pubmed/25687494

http://www.thctotalhealthcare.com/category/pain-2/

Cannabis smoking and serum C-reactive protein: A quantile regressions approach based on NHANES 2005-2010.

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“In this epidemiological study, we aim to present estimates on suspected cannabis-attributable immunomodulation as manifest in serum C-reactive protein (CRP) levels as non-specific inflammatory markers with interpretable clinical values…

Extending pre-clinical research on cannabis-attributable immunomodulation, this study’s CRP evidence points toward possible anti-inflammatory effects of cannabis smoking…”

http://www.ncbi.nlm.nih.gov/pubmed/25529540

Treatment with a Heme Oxygenase 1 Inducer Enhances the Antinociceptive Effects of µ-Opioid, δ-Opioid, and Cannabinoid 2 Receptors during Inflammatory Pain.

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“The administration of µ-opioid receptor (MOR), δ-opioid receptor (DOR), and cannabinoid 2 receptor (CB2R) agonists attenuates inflammatory pain.

We investigated whether treatment with the heme oxygenase 1 (HO-1) inducer, cobalt protoporphyrin IX (CoPP), could modulate the local effects and expression of MOR, DOR, or CB2R during chronic inflammatory pain…

This study shows that the HO-1 inducer (CoPP) increased the local antinociceptive effects of MOR, DOR, and CB2R agonists during inflammatory pain by altering the peripheral expression of MOR and DOR.

Therefore, the coadministration of CoPP with local morphine, DPDPE, or JWH-015 may be a good strategy for the management of chronic inflammatory pain.”

http://www.ncbi.nlm.nih.gov/pubmed/25204546

The Pharmacokinetics, Efficacy, Safety, and Ease of Use of a Novel Portable Metered-Dose Cannabis Inhaler in Patients With Chronic Neuropathic Pain: A Phase 1a Study.

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“Chronic neuropathic pain is often refractory to standard pharmacological treatments.

Although growing evidence supports the use of inhaled cannabis for neuropathic pain, the lack of standard inhaled dosing plays a major obstacle in cannabis becoming a “main stream” pharmacological treatment for neuropathic pain.

The objective of this study was to explore the pharmacokinetics, safety, tolerability, efficacy, and ease of use of a novel portable thermal-metered-dose inhaler (tMDI) for cannabis in a cohort of eight patients suffering from chronic neuropathic pain and on a stable analgesic regimen including medicinal cannabis…

This trial suggests the potential use of the Syqe Inhaler device as a smokeless delivery system of medicinal cannabis, producing a Δ9-THC pharmacokinetic profile with low interindividual variation of Cmax, achieving pharmaceutical standards for inhaled drugs.”

http://www.ncbi.nlm.nih.gov/pubmed/25118789

http://www.thctotalhealthcare.com/category/neuropathic-pain/

Acute Resistance Exercise Induces Antinociception by Activation of the Endocannabinoid System in Rats.

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“Resistance exercise (RE) is also known as strength training, and it is performed to increase the strength and mass of muscles, bone strength, and metabolism. RE has been increasingly prescribed for pain relief. However, the endogenous mechanisms underlying this antinociceptive effect are still largely unexplored. Thus, we investigated the involvement of the endocannabinoid system in RE-induced antinociception…

The present study suggests that a single session of RE activates the endocannabinoid system to induce antinociception.”

http://www.ncbi.nlm.nih.gov/pubmed/24977916