The selective neuronal nitric oxide synthase inhibitor 7-nitroindazole has acute analgesic but not cumulative effects in a rat model of peripheral neuropathy

Dableh, Liliane J; Henry, James L.

doi:10.2147/jpr.s17007

JPR

2011

DOI: 10.2147/jpr.s17007

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The selective neuronal nitric oxide synthase inhibitor 7-nitroindazole has acute analgesic but not cumulative effects in a rat model of peripheral neuropathy

Liliane J Dableh¹,

James L. Henry²

Abstract: Chronic neuropathic pain that may arise from various nerve injuries or insults remains notoriously difficult to manage. The neuronal isoform of the enzyme nitric oxide synthase (nNOS) has been shown to be involved in the spinal transmission of nociception in animal models of chronic pain. The aim of this study is to evaluate the effect of single dose and repeated administration of a selective nNOS inhibitor. Rats were unilaterally implanted with a 2-mm polyethylene cuff around the sciatic nerve. Paw withdrawal… Show more

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Cited by 3 publications

References 19 publications

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Nitric Oxide and Opioids Involvement in Isobolographic Nsaids Antinociception

et al. 2019

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Different NSAIDs are used as antinociceptive in various analgesic assays, among which should be mentioned: ibuprofen, ketorolac , ketoprofen, meloxicam , paracetamol and others. It has been shown that NSAIDs possess antinociceptive activity by blocking cyclooxygenase enzymes (COXs). The present study was designed to evaluate the possible involvement of the nitridergic pathway due to L-NAME and the opioidergic route by NTX in the antinoception induced by NSAIDs using a murine pain model the tail flick test in an automatic tail flick algesiometer. The antinociception was evaluated by means of isobolographic analysis. The interaction between the combination of NSAIDs, via i.p., on basis of their ED25, demonstrated that the coadministration of the drugs were synergistic with the exception of the lack of effect in combination of meloxicam with ibuprofen and with ketorolac, since the result was additive. These data validate that the NSAIDs administered alone or in combinations produce antinociception in which other mechanisms of action must be added to the simple inhibition of COXs. In addition, the pretreatment of the mice with L-NAME and NTX does not change previous isobolographic parameters of the mixture of NSAIDs.

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Nitric Oxide and Opioids Involvement in Isobolographic Nsaids Antinociception

et al. 2019

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Involvement of NO in Antinociception of NSAIDS in Murine Formalin Hind Paw Assay

et al. 2020

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There are different animal models to evaluate pain among them the formalin hind paw assay which is widely used since some of its events appear to be similar to the clinical pain of humans. The assay in which a dilute solution of formalin is injected into the dorsal hindpaw of a murine produces two ‘phases’ of pain behavior separated by a inactive period. The early phase (Phase I) is probably due to direct activation of nociceptors and the second phase (Phase II) is due to ongoing inflammatory input and central sensitization. Mice were used to determine the potency antinociceptive of piroxicam (1,3,10,and 30 mg/kg), parecoxib (0.3, 1,3,10 and 30 mg/kg), dexketoprofen (3,10,30 and 100 mg/kg) and ketoprofen (3,10,30 and 100 mg/kg). Dose-response for each NSAIDs were created before and after 5 mg/kg of L-NAME i.p. or 5 mg/kg i.p. of 7-nitroindazole. A least-squares linear regression analysis of the log dose–response curves allowed the calculation of the dose that produced 50% of antinociception (ED50) for each drug. The ED50 demonstrated the following rank order of potency, in the phase I: piroxicam > dexketoprofen > ketoprofen > parecoxib and in the phase II: piroxicam > ketoprofen > parecoxib > dexketoprofen. Pretreatment of the mice with L-NAME or 7-nitroindazol induced a significant increase of the analgesic power of the NSAIDs, with a significant reduction of the ED50. It is suggested that NO may be involved in both phases of the trial, which means that nitric oxide regulates the bioactivity of NSAIDs.

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Farelerde Oluşturulan Deneysel Nöropatik Ağrıya Karşı Tramadol ve Agmatinin Etkilerinde Nitrerjik Sistemin Rolü

Mete¹,

Aksu²

2015

Cukurova Medical Journal

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Yaşam kalitesini düşüren nöropatik ağrının tedavisinde antikonvülsanlar, antidepresanlar, lokal anestezikler, sodyum kanal blokörleri, narkotik analjezikler gibi ilaçlar kullanılmakla birlikte alternatif tedaviler üzerine de yoğun olarak çalışılmaktadır. Bu ilaçlardan birisi olan tramadol (TR)'un, nöropatik ağrı semptomlarını azalttığı bildirilmiştir. Santral sinir sisteminde yeni bir nöromediyatör olarak bilinen agmatin (AG)'in ise deneysel akut ve kronik ağrı çalışmalarında antinosiseptif etkileri olduğu bildirilmiştir. Çalışmamızda, siyatik sinir parsiyel sıkı ligasyonu ile oluşturulan nöropatik ağrı modelinde TR ve AG'in tek başına ve kombine kullanıldıklarında antiallodinik etkileri ile bu etkilerde nitrerjik sistemin rolünün incelenmesi amaçlanmıştır. Materyal ve Metod: Çalışmada Balb/c türü erkek farelere anestezi altında sağ siyatik sinir bağlanarak nöropati oluşturuldu. Naive, sham, nöropati kontrol ve nöropati + ilaç grupları oluşturuldu. Nöropatik ağrı ameliyattan iki hafta sonra soğuk plaka testi ile değerlendirildi. TR ve AG'in antiallodinik etkileri incelendi. Bu etkilerde nitrerjik sistemin rolünü araştırmak üzere nitrik oksid prekürsörü L-arjinin (LA), nitrik oksid sentaz (NOS) inhibitörleri N-Nitro-L-arjinin Metil Ester (L-NAME), N-Metil-L-arjinin Asetat (L-NMMA) ve 7-Nitroindazol (7-NI) kullanıldı. Son olarak TR ve AG kombinasyonunun antiallodinik etkisi incelendi. Bulgular: Deneylerin sonuçlarına göre TR ve AG, nöropati oluşturulan farelerde cold-plate latensini uzatarak antiallodinik etki oluşturdu. LA, TR ve AG'in antiallodinik etkisini değiştirmedi. Uygulanan üç NOS inhibitörü TR'un antiallodinik etkisini artırırken, AG'in etkisini sadece L-NAME artırdı. Kombine uygulanan TR ve AG, tek başlarına göstermiş olduklarından daha yüksek bir antiallodinik etki gösterdiler. Sonuç: Bulgularımıza göre TR ve AG'in nöropatik ağrıda ümit veren bileşikler olduğu ve iki bileşiğin kombine kullanımının daha etkili olacağı söylenebilir. Bu maddelerin antiallodinik etkilerinde NOS inhibisyonunun rolü farklı derecelerdedir ve etkilerinde sadece NOS inhibisyonu değil, farklı mekanizmalar da rol oynayabilir.

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The selective neuronal nitric oxide synthase inhibitor 7-nitroindazole has acute analgesic but not cumulative effects in a rat model of peripheral neuropathy

Cited by 3 publications

References 19 publications

Nitric Oxide and Opioids Involvement in Isobolographic Nsaids Antinociception

Nitric Oxide and Opioids Involvement in Isobolographic Nsaids Antinociception

Involvement of NO in Antinociception of NSAIDS in Murine Formalin Hind Paw Assay

Farelerde Oluşturulan Deneysel Nöropatik Ağrıya Karşı Tramadol ve Agmatinin Etkilerinde Nitrerjik Sistemin Rolü

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