Topical capsaicin for pain management: therapeutic potential and mechanisms of action of the new high-concentration capsaicin 8% patch

Summary Topical capsaicin formulations are used for pain management. Safety and modest efficacy of low-concentration capsaicin formulations, which require repeated daily self-administration, are supported by meta-analyses of numerous studies. A high-concentration capsaicin 8% patch (Qutenza™) was recently approved in the EU and USA. A single 60-min application in patients with neuropathic pain produced effective pain relief for up to 12 weeks. Advantages of the high-concentration capsaicin patch include longer duration of effect, patient compliance, and low risk for systemic effects or drug–drug interactions. The mechanism of action of topical capsaicin has been ascribed to depletion of substance P. However, experimental and clinical studies show that depletion of substance P from nociceptors is only a correlate of capsaicin treatment and has little, if any, causative role in pain relief. Rather, topical capsaicin acts in the skin to attenuate cutaneous hypersensitivity and reduce pain by a process best described as ‘defunctionalization’ of nociceptor fibres. Defunctionalization is due to a number of effects that include temporary loss of membrane potential, inability to transport neurotrophic factors leading to altered phenotype, and reversible retraction of epidermal and dermal nerve fibre terminals. Peripheral neuropathic hypersensitivity is mediated by diverse mechanisms, including altered expression of the capsaicin receptor TRPV1 or other key ion channels in affected or intact adjacent peripheral nociceptive nerve fibres, aberrant re-innervation, and collateral sprouting, all of which are defunctionalized by topical capsaicin. Evidence suggests that the utility of topical capsaicin may extend beyond painful peripheral neuropathies.

[1]  K. Bley,et al.  Genotoxicity studies with pure trans-capsaicin. , 2004, Mutation research.

[2]  P. Armati,et al.  Capsaicin-induced depolarisation of mitochondria in dorsal root ganglion neurons is enhanced by vanilloid receptors , 2001, Neuroscience.

[3]  M. Tominaga,et al.  Nociception and TRP Channels. , 2004, Current drug targets. CNS and neurological disorders.

[4]  J. McArthur,et al.  Impaired reinnervation in HIV infection following experimental denervation , 2007, Neurology.

[5]  P. McNaughton,et al.  Signalling pathways involved in the sensitisation of mouse nociceptive neurones by nerve growth factor , 2003, The Journal of physiology.

[6]  K. Bley,et al.  In Vitro Hepatic and Skin Metabolism of Capsaicin , 2008, Drug Metabolism and Disposition.

[7]  P. Anand,et al.  Vanilloid receptor 1 immunoreactivity in inflamed human bowel , 2001, The Lancet.

[8]  Khadija Alawi,et al.  The paradoxical role of the transient receptor potential vanilloid 1 receptor in inflammation. , 2010, Pharmacology & therapeutics.

[9]  F. Murina,et al.  Capsaicin and the treatment of vulvar vestibulitis syndrome: a valuable alternative? , 2004, MedGenMed : Medscape general medicine.

[10]  R Hill,et al.  NK1 (substance P) receptor antagonists--why are they not analgesic in humans? , 2000, Trends in pharmacological sciences.

[11]  P. Anand,et al.  Increased vanilloid receptor VR1 innervation in vulvodynia , 2004, European journal of pain.

[12]  J. Priestley,et al.  Localization of TRPV1 and contractile effect of capsaicin in mouse large intestine: high abundance and sensitivity in rectum and distal colon. , 2009, American journal of physiology. Gastrointestinal and liver physiology.

[13]  E. G. Friedrich Therapeutic studies on vulvar vestibulitis. , 1988, The Journal of reproductive medicine.

[14]  J. Serra,et al.  Hyperexcitable polymodal and insensitive nociceptors in painful human neuropathy , 2005, Muscle & nerve.

[15]  P. Anand,et al.  Sensory fibres expressing capsaicin receptor TRPV1 in patients with rectal hypersensitivity and faecal urgency , 2003, The Lancet.

[16]  P. Anand,et al.  Increased capsaicin receptor TRPV1 in skin nerve fibres and related vanilloid receptors TRPV3 and TRPV4 in keratinocytes in human breast pain , 2005, BMC women's health.

[17]  H. Koerber,et al.  Glial Cell Line-Derived Neurotrophic Factor Expression in Skin Alters the Mechanical Sensitivity of Cutaneous Nociceptors , 2006, The Journal of Neuroscience.

[18]  D. Katzenstein,et al.  Reduced intraepidermal nerve fiber density in HIV-associated sensory neuropathy , 2002, Neurology.

[19]  A. Rapoport,et al.  A Double-Blind Placebo-Controlled Trial of Intranasal Capsaicin for Cluster Headache , 1993, Cephalalgia : an international journal of headache.

[20]  C. Maggi,et al.  Preventative effect of repeated nasal applications of capsaicin in cluster headache , 1994, Pain.

[21]  P. Carli,et al.  Idiopathic vulvodynia. Clinical evaluation of the pain threshold with acetic acid solutions. , 1995, The Journal of reproductive medicine.

[22]  J. Olerud,et al.  Neuropeptides in the skin: interactions between the neuroendocrine and the skin immune systems , 1998, Experimental dermatology.

[23]  Justin C McArthur,et al.  The time course of epidermal nerve fibre regeneration: studies in normal controls and in people with diabetes, with and without neuropathy. , 2004, Brain : a journal of neurology.

[24]  R. Meyer,et al.  Roles of capsaicin-insensitive nociceptors in cutaneous pain and secondary hyperalgesia. , 2001, Brain : a journal of neurology.

[25]  K. Bley,et al.  Pharmacokinetic Analysis of Capsaicin After Topical Administration of a High-Concentration Capsaicin Patch to Patients With Peripheral Neuropathic Pain , 2009, Therapeutic drug monitoring.

[26]  Yuchiao Chang,et al.  Evidence of focal small-fiber axonal degeneration in complex regional pain syndrome-I (reflex sympathetic dystrophy) , 2006, Pain.

[27]  M. Schmelz,et al.  Microneurographic single-unit recordings to assess receptive properties of afferent human C-fibers , 2010, Neuroscience Letters.

[28]  P. Anand,et al.  Neuronal Markers in Allergic Rhinitis: Expression and Correlation With Sensory Testing , 2007, The Laryngoscope.

[29]  E. Ernst,et al.  Evidence for the efficacy of complementary and alternative medicines in the management of osteoarthritis: a systematic review. , 2011, Rheumatology.

[30]  L. Djouhri,et al.  Spontaneous Pain, Both Neuropathic and Inflammatory, Is Related to Frequency of Spontaneous Firing in Intact C-Fiber Nociceptors , 2006, The Journal of Neuroscience.

[31]  F. Hucho,et al.  TRPV1 at nerve endings regulates growth cone morphology and movement through cytoskeleton reorganization , 2007, The FEBS journal.

[32]  Opinion of the Scientific Committee on Food on Capsaicin , 2002 .

[33]  James N. Campbell,et al.  Early Onset of Spontaneous Activity in Uninjured C-Fiber Nociceptors after Injury to Neighboring Nerve Fibers , 2001, The Journal of Neuroscience.

[34]  T. Meert,et al.  The time course of CO2 laser-evoked responses and of skin nerve fibre markers after topical capsaicin in human volunteers , 2010, Clinical Neurophysiology.

[35]  J. Tobias,et al.  A multicenter, randomized, double-blind, controlled study of NGX-4010, a high-concentration capsaicin patch, for the treatment of postherpetic neuralgia. , 2011, Pain medicine.

[36]  Y. H. Zhang,et al.  NGF-mediated sensitization of the excitability of rat sensory neurons is prevented by a blocking antibody to the p75 neurotrophin receptor , 2004, Neuroscience Letters.

[37]  L. Kemény,et al.  Human Keratinocytes Are Vanilloid Resistant , 2008, PloS one.

[38]  R. Moots,et al.  Evidence for the efficacy of complementary and alternative medicines in the management of rheumatoid arthritis: a systematic review. , 2011, Rheumatology.

[39]  S. Weintraub,et al.  Heat generates oxidized linoleic acid metabolites that activate TRPV1 and produce pain in rodents. , 2010, The Journal of clinical investigation.

[40]  S. McMahon,et al.  Sensitisation of visceral afferents by nerve growth factor in the adult rat , 1996, Pain.

[41]  B. Fusco,et al.  Repeated intranasal capsaicin applications to treat chronic migraine. , 2003, British journal of anaesthesia.

[42]  M. Roizen,et al.  Review of the effectiveness of capsaicin for painful cutaneous disorders and neural dysfunction. , 1998, The Clinical journal of pain.

[43]  M. Hilliges,et al.  Increased Intraepithelial Innervation in Women with Vulvar Vestibulitis Syndrome , 1998, Gynecologic and Obstetric Investigation.

[44]  S. Schmidt,et al.  Topical treatment of chronic low back pain with a capsicum plaster , 2003, Pain.

[45]  K. Albers,et al.  Effects of the neurotrophic factor artemin on sensory afferent development and sensitivity. , 2008, Sheng li xue bao : [Acta physiologica Sinica].

[46]  R. Moreland,et al.  Capsaicin causes protein synthesis inhibition and microtubule disassembly through TRPV1 activities both on the plasma membrane and intracellular membranes. , 2007, Biochemical pharmacology.

[47]  P. Anand,et al.  The Potential Role of Nerve Growth Factor (NGF) in Painful Neuromas and the Mechanism of Pain Relief by their Relocation to Muscle , 2006, Journal of hand surgery.

[48]  W. Khovidhunkit,et al.  Pharmacokinetic and the effect of capsaicin in Capsicum frutescens on decreasing plasma glucose level. , 2009, Journal of the Medical Association of Thailand = Chotmaihet thangphaet.

[49]  Y. Shimomura,et al.  Capsaicin and its analogs inhibit the activity of NADH-coenzyme Q oxidoreductase of the mitochondrial respiratory chain. , 1989, Archives of biochemistry and biophysics.

[50]  S. Tepper,et al.  Intranasal Medications for the Treatment of Migraine and Cluster Headache , 2004, CNS drugs.

[51]  P. Holzer The pharmacological challenge to tame the transient receptor potential vanilloid‐1 (TRPV1) nocisensor , 2008, British journal of pharmacology.

[52]  M. Nolano,et al.  Intradermal Injection of Capsaicin in Humans Produces Degeneration and Subsequent Reinnervation of Epidermal Nerve Fibers: Correlation with Sensory Function , 1998, The Journal of Neuroscience.

[53]  M. Caterina,et al.  TRPV1 shows dynamic ionic selectivity during agonist stimulation , 2008, Nature Neuroscience.

[54]  K. Ørstavik,et al.  Microneurographic findings of relevance to pain in patients with erythromelalgia and patients with diabetic neuropathy , 2010, Neuroscience Letters.

[55]  William R Kennedy,et al.  Opportunities afforded by the study of unmyelinated nerves in skin and other organs , 2004, Muscle & nerve.

[56]  J. Diamond,et al.  Increased NGF mRNA expression in denervated rat skin , 1993, Neuroreport.

[57]  M. Wallace,et al.  NGX-4010, a high-concentration capsaicin patch, for the treatment of postherpetic neuralgia: a randomised, double-blind study , 2008, The Lancet Neurology.

[58]  J. Teisinger,et al.  A "cute" desensitization of TRPV1. , 2011, Current pharmaceutical biotechnology.

[59]  A. Oaklander The density of remaining nerve endings in human skin with and without postherpetic neuralgia after shingles , 2001, Pain.

[60]  W. Bowles,et al.  Chronic nerve growth factor administration increases the peripheral exocytotic activity of capsaicin-sensitive cutaneous neurons , 2006, Neuroscience Letters.

[61]  P. Anand Neurotrophic factors and their receptors in human sensory neuropathies. , 2004, Progress in brain research.

[62]  J. Polak,et al.  Symptoms of notalgia paresthetica may be explained by increased dermal innervation. , 1991, The Journal of investigative dermatology.

[63]  K. Soltani,et al.  Inhibition of axon reflex vasodilatation by topically applied capsaicin. , 1981, The Journal of investigative dermatology.

[64]  P. Anand,et al.  Increased capsaicin receptor TRPV1 nerve fibres in the inflamed human oesophagus , 2004, European journal of gastroenterology & hepatology.

[65]  N. Calcutt,et al.  Reduced heat sensitivity and epidermal nerve fiber immunostaining following single applications of a high-concentration capsaicin patch , 2004, Pain.

[66]  K. Whitmore,et al.  Capsaicin for the treatment of vulvar vestibulitis. , 2005, American journal of obstetrics and gynecology.

[67]  T. Crawford,et al.  Quantitative analysis of epidermal innervation in Fabry disease , 1999, Neurology.

[68]  K. Bley,et al.  A randomized, controlled, open-label study of the long-term effects of NGX-4010, a high-concentration capsaicin patch, on epidermal nerve fiber density and sensory function in healthy volunteers. , 2010, The journal of pain : official journal of the American Pain Society.

[69]  S. Lee,et al.  Capsaicin in hot chili pepper: carcinogen, co-carcinogen or anticarcinogen? , 1996, Food and Chemical Toxicology.

[70]  Motor and sensory mechanisms of feeding in Pleurobranchaea. , 1974, Journal of neurobiology.

[71]  R. Moore,et al.  Topical capsaicin for chronic neuropathic pain in adults. , 2009, The Cochrane database of systematic reviews.

[72]  A. C. Cuello,et al.  Capsaicin-induced depletion of substance P from primary sensory neurones , 1978, Brain Research.

[73]  E. Torebjörk,et al.  Psychophysical evidence of nociceptor sensitization in vulvar vestibulitis syndrome , 2001, Pain.

[74]  P. Kopelman,et al.  The role of endogenous nerve growth factor in human diabetic neuropathy , 1996, Nature Medicine.

[75]  A. Rice,et al.  Mechanisms of neuropathic pain. , 2001, British journal of anaesthesia.

[76]  S. Benemei,et al.  The concept of neurogenic inflammation , 2008, BJU international.

[77]  Michael J M Fischer Calcitonin gene-related peptide receptor antagonists for migraine , 2010, Expert opinion on investigational drugs.

[78]  J. García-Sancho,et al.  The Endoplasmic Reticulum of Dorsal Root Ganglion Neurons Contains Functional TRPV1 Channels* , 2009, The Journal of Biological Chemistry.

[79]  J. Ochoa,et al.  NEUROPATHIC PAIN: REDEFINITION AND A GRADING SYSTEM FOR CLINICAL AND RESEARCH PURPOSES , 2009, Neurology.

[80]  P. Anand,et al.  Increased capsaicin receptor TRPV1-expressing sensory fibres in irritable bowel syndrome and their correlation with abdominal pain , 2008, Gut.

[81]  B. Kidd,et al.  Assessment of cutaneous sensory and autonomic axon reflexes in rheumatoid arthritis. , 1995, Annals of the rheumatic diseases.

[82]  R. Meyer,et al.  Uninjured C-fiber nociceptors develop spontaneous activity and alpha-adrenergic sensitivity following L6 spinal nerve ligation in monkey. , 1999, Journal of neurophysiology.

[83]  D. Simpson,et al.  Long-term safety of NGX-4010, a high-concentration capsaicin patch, in patients with peripheral neuropathic pain. , 2010, Journal of pain and symptom management.

[84]  A. Cattaneo Tanezumab, a recombinant humanized mAb against nerve growth factor for the treatment of acute and chronic pain. , 2010, Current opinion in molecular therapeutics.

[85]  E. Wilder-Smith,et al.  Epidermal transient receptor potential vanilloid 1 in idiopathic small nerve fibre disease, diabetic neuropathy and healthy human subjects , 2007, Histopathology.

[86]  T. Forst,et al.  The influence of local capsaicin treatment on small nerve fibre function and neurovascular control in symptomatic diabetic neuropathy , 2002, Acta Diabetologica.

[87]  R. Freeman,et al.  Capsaicin induces degeneration of cutaneous autonomic nerve fibers , 2010, Annals of neurology.

[88]  R. Tandan,et al.  Topical capsaicin in painful diabetic neuropathy. Controlled study with long-term follow-up. , 1992, Diabetes care.

[89]  C. Pincelli Nerve growth factor and keratinocytes: a role in psoriasis. , 2000, European journal of dermatology : EJD.

[90]  Y. Chan,et al.  Determinants of epidermal nerve fiber density in normal individuals , 2006, Muscle & nerve.

[91]  M. Rowbotham,et al.  Postherpetic Neuralgia: Irritable Nociceptors and Deafferentation , 1998, Neurobiology of Disease.

[92]  D. Pareyson,et al.  Expression of capsaicin receptor immunoreactivity in human peripheral nervous system and in painful neuropathies , 2006, Journal of the peripheral nervous system : JPNS.

[93]  D. Simpson,et al.  Controlled trial of high-concentration capsaicin patch for treatment of painful HIV neuropathy , 2008, Neurology.

[94]  Alexandru D. P. Papoiu,et al.  Topical capsaicin. The fire of a ‘hot’ medicine is reignited , 2010, Expert opinion on pharmacotherapy.

[95]  C. Pukall,et al.  Current Perspectives in Vulvodynia , 2009, Women's health.

[96]  M. Rowbotham,et al.  Cutaneous Innervation Density in the Allodynic Form of Postherpetic Neuralgia , 1996, Neurobiology of Disease.

[97]  J. Chung,et al.  Transient receptor potential vanilloid-1 mediates heat-shock-induced matrix metalloproteinase-1 expression in human epidermal keratinocytes. , 2007, The Journal of investigative dermatology.

[98]  R. Altman,et al.  Topical Therapy for Osteoarthritis: Clinical and Pharmacologic Perspectives , 2009, Postgraduate medicine.

[99]  H. Frerick,et al.  Capsicum Pain Plaster in Chronic Non-specific Low Back Pain , 2001, Arzneimittelforschung.

[100]  P. Anand,et al.  Burning mouth syndrome as a trigeminal small fibre neuropathy: Increased heat and capsaicin receptor TRPV1 in nerve fibres correlates with pain score , 2007, Journal of Clinical Neuroscience.

[101]  Stephen P. H. Alexander,et al.  Vanilloid receptor agonists and antagonists are mitochondrial inhibitors: how vanilloids cause non-vanilloid receptor mediated cell death. , 2007, Biochemical and biophysical research communications.

[102]  P. Hollenbeck,et al.  Nerve Growth Factor Signaling Regulates Motility and Docking of Axonal Mitochondria , 2004, Current Biology.

[103]  C. Woolf,et al.  p38 MAPK Activation by NGF in Primary Sensory Neurons after Inflammation Increases TRPV1 Levels and Maintains Heat Hyperalgesia , 2002, Neuron.

[104]  P. Anand,et al.  Transient receptor potential vanilloid receptor subtype 1 in painful bladder syndrome and its correlation with pain. , 2006, The Journal of urology.

[105]  M. Devor Response of nerves to injury in relation to neuropathic pain , 2006 .

[106]  P. Sand,et al.  Vulvodynia & pelvic pain? Think interstitial cystitis. , 2008, The Nurse practitioner.

[107]  A. Szallasi,et al.  TRP channels and pain. , 2009, Current pharmaceutical design.

[108]  A. Vinik,et al.  Small fiber neuropathy is associated with the metabolic syndrome. , 2005, Metabolic syndrome and related disorders.

[109]  G. Wendelschafer‐Crabb,et al.  Quantitation of epidermal nerves in diabetic neuropathy , 1996, Neurology.

[110]  Linda R Watkins,et al.  Beyond neurons: evidence that immune and glial cells contribute to pathological pain states. , 2002, Physiological reviews.

[111]  I. Chessell,et al.  The role of P2X7 in pain and inflammation , 2007, Purinergic Signalling.

[112]  T. Christmas,et al.  Nerve fibre proliferation in interstitial cystitis , 2005, Virchows Archiv A.

[113]  R. Miller,et al.  Capsaicin-induced neurotoxicity in cultured dorsal root ganglion neurons: Involvement of calcium-activated proteases , 1995, Neuroscience.

[114]  J. McArthur,et al.  Neuropathological alterations in diabetic truncal neuropathy: evaluation by skin biopsy , 1998, Journal of neurology, neurosurgery, and psychiatry.

[115]  W. Johnson Final report on the safety assessment of capsicum annuum extract, capsicum annuum fruit extract, capsicum annuum resin, capsicum annuum fruit powder, capsicum frutescens fruit, capsicum frutescens fruit extract, capsicum frutescens resin, and capsaicin. , 2007, International journal of toxicology.

[116]  N. Hikawa,et al.  Mechanism of inhibitory action of capsaicin on particulate axoplasmic transport in sensory neurons in culture. , 1993, Journal of neurobiology.

[117]  P. Anand,et al.  TRPV3 is a temperature-sensitive vanilloid receptor-like protein , 2002, Nature.

[118]  A. Vinik,et al.  Intraepidermal nerve fibers are indicators of small-fiber neuropathy in both diabetic and nondiabetic patients. , 2004, Diabetes care.

[119]  V. P. Misra,et al.  Use of the novel contact heat evoked potential stimulator (CHEPS) for the assessment of small fibre neuropathy: correlations with skin flare responses and intra-epidermal nerve fibre counts , 2007, BMC neurology.

[120]  P. Anand,et al.  Expression of the TRPV1 receptor differs in quiescent inflammatory bowel disease with or without abdominal pain , 2010, Gut.

[121]  P. Blumberg,et al.  Vanilloid (Capsaicin) receptors and mechanisms. , 1999, Pharmacological reviews.

[122]  J. Galligan,et al.  Transient receptor potential vanilloid subtype 1 channel mediated neuropeptide secretion and depressor effects: role of endoplasmic reticulum associated Ca2+ release receptors in rat dorsal root ganglion neurons , 2008, Journal of hypertension.

[123]  M. Rowbotham,et al.  Natural history of cutaneous innervation following herpes zoster , 2010, PAIN.

[124]  T. Nurmikko,et al.  Analgesic Therapy in Postherpetic Neuralgia: A Quantitative Systematic Review , 2005, PLoS medicine.