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Pain in multiple sclerosisFoley, Peter Leonard January 2017 (has links)
Background: Pain is frequently reported by people with multiple sclerosis (MS). It has been associated with decreased quality of life, psychiatric morbidity, interference with day to day activities, and frequent healthcare attendance. It has been reported by people with multiple sclerosis to be one of their most important symptoms, and available treatments are limited in their effectiveness. Despite this, our understanding of the epidemiology and mechanisms of pain in people with MS are limited. Our understanding of the interactions of central nervous system mechanisms and pain states overall is growing. However, the application of this knowledge to MS is incomplete. Previous studies have shown that the descending pain modulatory system (DPMS) is an endogenous network of cortical and subcortical brain structures which act to limit, or accentuate, an individual’s perception of pain, via descending brainstem pathways. Associated clinical measures include depression, anxiety, and cognitive flexibility. Our understanding of the function or dysfunction of this system in MS is limited. We do not know if the MS disease process may adversely affect the structure or function of the DPMS. Hypothesis: In people with neuropathic limb pain in relapsing remitting MS (RRMS), compared to people with RRMS who do not have pain, there will be disruption of the endogenous descending pain modulatory system. This will manifest as impaired descending inhibition of pain. Aims and Methods Establishing the background using systematic reviews: The first aim of this thesis was to establish the prevalence, natural history and associations of pain (and pain syndromes) occurring in people with MS. The second aim was to explore existing knowledge of how the MS disease process may contribute to pain states, using a systematic review of neuroimaging studies. Prospective clinical study: A case-control study of 47 people with RRMS was then carried out. 31 of these had neuropathic pain in the limbs, and 16 did not have pain. Using targeted assessments, function of the descending pain modulatory system was assessed in the following ways: First: Detailed clinical, behavioural and neuropsychological assessment, focussing on cognitive, behavioural and affective features known to be closely related to the DPMS. Second: MRI imaging of brain structure, focussing on the volume and location of MS lesions, as well as the volume of key grey-matter structures involved in the DPMS. Third: Resting state functional MRI imaging of the brain, focussing on functional connectivity between the rostral anterior cingulate cortex and two other key DPMS structures (dorsolateral prefrontal cortex, and periaqueductal gray). Results: Systematic reviews: Meta-analysis of existing prospective studies confirmed that pain is very common in MS, affecting about 63% of people with MS on average (95%CI between 55 and 70%). Many different types of pain contribute to this overall estimate. No significant associations with disease course or stage emerged. Several neuroimaging studies have assessed people with MS-associated pain using MRI. These studies were often small, and with associated methodological issues. It is likely that location of MS lesions is implicated in aetiology of pain syndromes in some cases, though our overall knowledge is limited. Prospective study: In a prospective study, people with and without pain were matched for age and gender. Furthermore, groups were balanced for a range of other variables. The pain group more frequently received gabapentinoid medications. The presence of pain was significantly associated with increased scores for depression, fatigue and catastrophising, as well as with specific impairments at neuropsychological assessment, including cognitive flexibility. Many of these impairments are directly relevant to existing models of the DPMS. Overall volume of MS lesions was not different in people with pain, though lesions were more likely to occur in the brainstem. Some alterations of grey-matter volumes in people with pain which mirrored studies of pain disorders outside MS were found, but these did not involve structures key to the DPMS. Affected structures included trigeminothalamic nucleus (relative volume increase in pain group), posterior cingulate cortex and parahippocampal gyrus (volume decrease in pain group). Functional connectivity of the rostral anterior cingulate cortex to the periaqueductal grey matter, a key structure in the descending modulation of pain, was stronger in the group without pain. Conversely, functional connectivity to the dorsolateral prefrontal cortex, repeatedly implicated in the DPMS and thought to be involved in cognitive evaluation and flexibility, was stronger in the pain group. MS lesion volume appeared to account for some of this difference in a multivariate analysis. Limitations: Key limitations of this work include cross-sectional design, small sample size, and number of statistical comparisons carried out. Conclusions: Systematic reviews examined the prevalence, natural history and associations of pain in MS, as well as examining existing neuroimaging studies which investigated how the MS disease process could contribute to pain states. A prospective study found evidence of both emotional/affective and cognitive dysfunctions relevant to the hypothesis of dysfunction in the DPMS. Higher likelihood of MS lesions in the brainstem could be relevant to DPMS function. Separately, there were structural grey-matter volume alterations reflecting those found in many pain studies outside MS. Importantly, however, these did not affect key DPMS structures. Resting state functional MRI however demonstrated altered connectivity of core DPMS structures, which may be partly mediated by MS lesion volume. Functional connectivity findings could be consistent with the hypothesis of impaired descending pain inhibition, in people with relapsing remitting MS affected by neuropathic limb pain.
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Sistema modulador descendente da dor na fibromialgia : mediadores séricos e efeito da melatonina: ensaio clínico fase II, double-dummy, controladoZanette, Simone de Azevedo January 2014 (has links)
Introdução: A fibromialgia (FM) é uma síndrome de dor crônica musculoesquelética difusa, cuja etiologia não está totalmente conhecida. A síndrome cursa com dor, alterações do humor e sintomas de ruptura do ritmo circadiano. Sabe-se que seu processo fisiopatogênico envolve um desbalanço entre os sistemas de modulação excitatório e inibitório da dor. A capacidade do sistema modulatório inibitório está enfraquecida, com hiperativação de neurônios e da neuroglia, constituindo um quadro de sensibilização central. Portanto, estudos adicionais são necessários para compreender a relação entre possíveis marcadores séricos da hiperativação neuronal, tais como o Brain Derived Neurotrophic Factor (BDNF) e a proteína S100 beta (S100B). Além disso, estudos que busquem opções terapêuticas com efeito em vias neurobiológicas alternativas, tais como a melatonina, uma indolamina com efeitos ressincronizador, analgésico, anti-inflamatório e em sistemas moduladores da dor, como o gabaérgico, opioidérgico e glutamatérgico. Objetivos: 1) Primário: Avaliar se os níveis séricos de BDNF e S100B teriam associação com a FM e se ambos os mediadores sorológicos poderiam ser associados com o limiar de dor à pressão. 2) Secundário: Testar o tratamento com melatonina isolada ou em combinação com amitriptilina é melhor que amitriptilina isolada para modificar o sistema modulatório da dor. Assim, para provar tais hipóteses, neste estudo foram quantificados a modulação condicionada da dor e níveis de BDNF sérico em pacientes que receberam tratamento com melatonina isolada ou associada com amitriptilina. Foi também testado se melatonina melhoraria os sintomas clínicos como dor, limiar de dor à pressão e qualidade do sono relacionado à FM. Métodos: Foram selecionadas pacientes com diagnóstico de FM de acordo com o American College of Rheumatology (ACR) 2010. No primeiro estudo, de desenho transversal, foram incluídas 56 mulheres com FM, com idades entre 18 e 65 anos. Foram avaliados o limiar de dor à pressão e dosagem sérica de BDNF e S100B. No segundo estudo, foram incluídas 63 pacientes com os mesmos critérios de inclusão descritos no estudo transversal. As pacientes foram randomizadas e receberam, ao deitar, amitriptilina (25mg) (n=21), melatonina (10mg) (n=21) ou melatonina (10 mg) + amitriptilina (25mg) (n=21), durante seis semanas. O sistema modulatório descendente da dor foi acessado pela modulação condicionada da dor, através da mensuração da escala numérica de dor (NPS(0-10)) durante aferição do limiar de dor ao calor. Resultados: O resultado do estudo transversal mostrou que BDNF e S100B séricos foram correlacionados. BDNF e S100B foram inversamente correlacionados com limiar de dor à pressão. BDNF sérico foi associado com limiar de dor à pressão, idade e transtorno obsessivo compulsivo, enquanto que S100B sérica foi apenas associada com limiar de dor à pressão. O ensaio clínico randomizado demonstrou que a melatonina aumentou a potência do sistema modulatório da dor inibitório e que a modulação condicionada da dor foi negativamente correlacionada com BDNF sérico. Conclusões: Os estudos desta tese demonstram que S100B e BDNF, ambos mediadores chave no processo de sensibilização central, foram inversamente correlacionados com o limiar de dor à pressão. BDNF sérico foi, ainda, inversamente correlacionado com a redução da dor. Portanto, a avaliação sérica de BDNF e S100B merece estudos adicionais para determinar seu potencial papel sinalizador no espectro da sensibilização central nessa doença. / Introduction: Fibromyalgia (FM) is a syndrome of chronic diffuse musculoskeletal pain whose etiology is not fully known. This syndrome causes pain, mood swings and symptoms of rupture of the circadian rhythm. Its pathophysiological process involves an imbalance between excitatory and inhibitory pain modulatory systems. The ability of inhibitory systems is weakened, providing a framework of central sensitization, with dysfunction in the descending pain modulatory system, hyper-activation of neurons and neuroglia. Therefore, additional studies are needed to understand the possible relationship between serum markers of neuronal hyperactivity, such as Brain Derived Neurotrophic Factor (BDNF) and S100B. Particularly, studies seeking therapeutic options with effect in neurobiological alternative pathways such as melatonin, a indolamine with resynchronization, analgesic, and anti-inflammatory effects and actions on the modulatory pain systems such as GABAergic, opiodergic and glutamatergic. Objectives: 1) Primary: Evaluate whether the serum levels of BDNF and S100B have association with FM and if both serological mediators could be associated with pressure pain threshold. 2) Secondary: To test the hypothesis that treatment with melatonin alone or in combination with amitriptyline is better than amitriptyline alone to modify the endogenous pain modulatory system. Thus, to prove these hypothesis, it was quantified the conditioned pain modulation and serum BDNF levels in FM patients receiving treatment with melatonin alone or in combination with amitriptyline. Also, it was tested whether melatonin would improve clinical symptoms such as pain, pressure pain threshold and quality of sleep related to FM. Methods: Patients with FM according to the American College of Rheumatology (ACR) 2010 were selected. In the first study, a cross-sectional design, 56 women aging 18-65 years old, with FM were included. It was evaluated the pressure pain threshold, and serum levels of BDNF and S100B. In the second study, 63 patients were included with the same inclusion criteria described in the cross-sectional study. Patients were randomized and received at bedtime amitriptyline (25 mg) (n = 21), melatonin (10 mg) (n = 21) or melatonin (10 mg) + amitriptyline (25 mg) (n = 21) for six weeks. The descending pain modulatory system was accessed by the conditioned pain modulation, measuring the numerical pain scale [NPS (0-10)] during the heat pain threshold. Results: On the cross-sectional study serum BDNF and S100B were correlated. Serum BDNF and S100B were correlated with the pressure pain threshold. Serum BDNF was associated with pressure pain threshold, age and obsessive compulsive disorder, while serum S100B was associated with pressure pain threshold, only. The randomized clinical trial showed that melatonin increased the efficacy of inhibitory pain modulatory system and the conditioned pain modulation was negatively correlated with serum BDNF. Conclusions: The studies of this thesis show that both key mediators of the central sensitization process, BDNF and S100B, were inversely correlated with the pressure pain threshold. They also showed that melatonin increased the inhibitory pain modutalory system. Furthermore, it emphasizes that serum BDNF was inversely correlated with pain reduction. Therefore, assessment of serum BDNF and S100B deserve further studies to determine their potential as a proxy for the central sensitization spectrum in FM.
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Sistema modulador descendente da dor na fibromialgia : mediadores séricos e efeito da melatonina: ensaio clínico fase II, double-dummy, controladoZanette, Simone de Azevedo January 2014 (has links)
Introdução: A fibromialgia (FM) é uma síndrome de dor crônica musculoesquelética difusa, cuja etiologia não está totalmente conhecida. A síndrome cursa com dor, alterações do humor e sintomas de ruptura do ritmo circadiano. Sabe-se que seu processo fisiopatogênico envolve um desbalanço entre os sistemas de modulação excitatório e inibitório da dor. A capacidade do sistema modulatório inibitório está enfraquecida, com hiperativação de neurônios e da neuroglia, constituindo um quadro de sensibilização central. Portanto, estudos adicionais são necessários para compreender a relação entre possíveis marcadores séricos da hiperativação neuronal, tais como o Brain Derived Neurotrophic Factor (BDNF) e a proteína S100 beta (S100B). Além disso, estudos que busquem opções terapêuticas com efeito em vias neurobiológicas alternativas, tais como a melatonina, uma indolamina com efeitos ressincronizador, analgésico, anti-inflamatório e em sistemas moduladores da dor, como o gabaérgico, opioidérgico e glutamatérgico. Objetivos: 1) Primário: Avaliar se os níveis séricos de BDNF e S100B teriam associação com a FM e se ambos os mediadores sorológicos poderiam ser associados com o limiar de dor à pressão. 2) Secundário: Testar o tratamento com melatonina isolada ou em combinação com amitriptilina é melhor que amitriptilina isolada para modificar o sistema modulatório da dor. Assim, para provar tais hipóteses, neste estudo foram quantificados a modulação condicionada da dor e níveis de BDNF sérico em pacientes que receberam tratamento com melatonina isolada ou associada com amitriptilina. Foi também testado se melatonina melhoraria os sintomas clínicos como dor, limiar de dor à pressão e qualidade do sono relacionado à FM. Métodos: Foram selecionadas pacientes com diagnóstico de FM de acordo com o American College of Rheumatology (ACR) 2010. No primeiro estudo, de desenho transversal, foram incluídas 56 mulheres com FM, com idades entre 18 e 65 anos. Foram avaliados o limiar de dor à pressão e dosagem sérica de BDNF e S100B. No segundo estudo, foram incluídas 63 pacientes com os mesmos critérios de inclusão descritos no estudo transversal. As pacientes foram randomizadas e receberam, ao deitar, amitriptilina (25mg) (n=21), melatonina (10mg) (n=21) ou melatonina (10 mg) + amitriptilina (25mg) (n=21), durante seis semanas. O sistema modulatório descendente da dor foi acessado pela modulação condicionada da dor, através da mensuração da escala numérica de dor (NPS(0-10)) durante aferição do limiar de dor ao calor. Resultados: O resultado do estudo transversal mostrou que BDNF e S100B séricos foram correlacionados. BDNF e S100B foram inversamente correlacionados com limiar de dor à pressão. BDNF sérico foi associado com limiar de dor à pressão, idade e transtorno obsessivo compulsivo, enquanto que S100B sérica foi apenas associada com limiar de dor à pressão. O ensaio clínico randomizado demonstrou que a melatonina aumentou a potência do sistema modulatório da dor inibitório e que a modulação condicionada da dor foi negativamente correlacionada com BDNF sérico. Conclusões: Os estudos desta tese demonstram que S100B e BDNF, ambos mediadores chave no processo de sensibilização central, foram inversamente correlacionados com o limiar de dor à pressão. BDNF sérico foi, ainda, inversamente correlacionado com a redução da dor. Portanto, a avaliação sérica de BDNF e S100B merece estudos adicionais para determinar seu potencial papel sinalizador no espectro da sensibilização central nessa doença. / Introduction: Fibromyalgia (FM) is a syndrome of chronic diffuse musculoskeletal pain whose etiology is not fully known. This syndrome causes pain, mood swings and symptoms of rupture of the circadian rhythm. Its pathophysiological process involves an imbalance between excitatory and inhibitory pain modulatory systems. The ability of inhibitory systems is weakened, providing a framework of central sensitization, with dysfunction in the descending pain modulatory system, hyper-activation of neurons and neuroglia. Therefore, additional studies are needed to understand the possible relationship between serum markers of neuronal hyperactivity, such as Brain Derived Neurotrophic Factor (BDNF) and S100B. Particularly, studies seeking therapeutic options with effect in neurobiological alternative pathways such as melatonin, a indolamine with resynchronization, analgesic, and anti-inflammatory effects and actions on the modulatory pain systems such as GABAergic, opiodergic and glutamatergic. Objectives: 1) Primary: Evaluate whether the serum levels of BDNF and S100B have association with FM and if both serological mediators could be associated with pressure pain threshold. 2) Secondary: To test the hypothesis that treatment with melatonin alone or in combination with amitriptyline is better than amitriptyline alone to modify the endogenous pain modulatory system. Thus, to prove these hypothesis, it was quantified the conditioned pain modulation and serum BDNF levels in FM patients receiving treatment with melatonin alone or in combination with amitriptyline. Also, it was tested whether melatonin would improve clinical symptoms such as pain, pressure pain threshold and quality of sleep related to FM. Methods: Patients with FM according to the American College of Rheumatology (ACR) 2010 were selected. In the first study, a cross-sectional design, 56 women aging 18-65 years old, with FM were included. It was evaluated the pressure pain threshold, and serum levels of BDNF and S100B. In the second study, 63 patients were included with the same inclusion criteria described in the cross-sectional study. Patients were randomized and received at bedtime amitriptyline (25 mg) (n = 21), melatonin (10 mg) (n = 21) or melatonin (10 mg) + amitriptyline (25 mg) (n = 21) for six weeks. The descending pain modulatory system was accessed by the conditioned pain modulation, measuring the numerical pain scale [NPS (0-10)] during the heat pain threshold. Results: On the cross-sectional study serum BDNF and S100B were correlated. Serum BDNF and S100B were correlated with the pressure pain threshold. Serum BDNF was associated with pressure pain threshold, age and obsessive compulsive disorder, while serum S100B was associated with pressure pain threshold, only. The randomized clinical trial showed that melatonin increased the efficacy of inhibitory pain modulatory system and the conditioned pain modulation was negatively correlated with serum BDNF. Conclusions: The studies of this thesis show that both key mediators of the central sensitization process, BDNF and S100B, were inversely correlated with the pressure pain threshold. They also showed that melatonin increased the inhibitory pain modutalory system. Furthermore, it emphasizes that serum BDNF was inversely correlated with pain reduction. Therefore, assessment of serum BDNF and S100B deserve further studies to determine their potential as a proxy for the central sensitization spectrum in FM.
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Sistema modulador descendente da dor na fibromialgia : mediadores séricos e efeito da melatonina: ensaio clínico fase II, double-dummy, controladoZanette, Simone de Azevedo January 2014 (has links)
Introdução: A fibromialgia (FM) é uma síndrome de dor crônica musculoesquelética difusa, cuja etiologia não está totalmente conhecida. A síndrome cursa com dor, alterações do humor e sintomas de ruptura do ritmo circadiano. Sabe-se que seu processo fisiopatogênico envolve um desbalanço entre os sistemas de modulação excitatório e inibitório da dor. A capacidade do sistema modulatório inibitório está enfraquecida, com hiperativação de neurônios e da neuroglia, constituindo um quadro de sensibilização central. Portanto, estudos adicionais são necessários para compreender a relação entre possíveis marcadores séricos da hiperativação neuronal, tais como o Brain Derived Neurotrophic Factor (BDNF) e a proteína S100 beta (S100B). Além disso, estudos que busquem opções terapêuticas com efeito em vias neurobiológicas alternativas, tais como a melatonina, uma indolamina com efeitos ressincronizador, analgésico, anti-inflamatório e em sistemas moduladores da dor, como o gabaérgico, opioidérgico e glutamatérgico. Objetivos: 1) Primário: Avaliar se os níveis séricos de BDNF e S100B teriam associação com a FM e se ambos os mediadores sorológicos poderiam ser associados com o limiar de dor à pressão. 2) Secundário: Testar o tratamento com melatonina isolada ou em combinação com amitriptilina é melhor que amitriptilina isolada para modificar o sistema modulatório da dor. Assim, para provar tais hipóteses, neste estudo foram quantificados a modulação condicionada da dor e níveis de BDNF sérico em pacientes que receberam tratamento com melatonina isolada ou associada com amitriptilina. Foi também testado se melatonina melhoraria os sintomas clínicos como dor, limiar de dor à pressão e qualidade do sono relacionado à FM. Métodos: Foram selecionadas pacientes com diagnóstico de FM de acordo com o American College of Rheumatology (ACR) 2010. No primeiro estudo, de desenho transversal, foram incluídas 56 mulheres com FM, com idades entre 18 e 65 anos. Foram avaliados o limiar de dor à pressão e dosagem sérica de BDNF e S100B. No segundo estudo, foram incluídas 63 pacientes com os mesmos critérios de inclusão descritos no estudo transversal. As pacientes foram randomizadas e receberam, ao deitar, amitriptilina (25mg) (n=21), melatonina (10mg) (n=21) ou melatonina (10 mg) + amitriptilina (25mg) (n=21), durante seis semanas. O sistema modulatório descendente da dor foi acessado pela modulação condicionada da dor, através da mensuração da escala numérica de dor (NPS(0-10)) durante aferição do limiar de dor ao calor. Resultados: O resultado do estudo transversal mostrou que BDNF e S100B séricos foram correlacionados. BDNF e S100B foram inversamente correlacionados com limiar de dor à pressão. BDNF sérico foi associado com limiar de dor à pressão, idade e transtorno obsessivo compulsivo, enquanto que S100B sérica foi apenas associada com limiar de dor à pressão. O ensaio clínico randomizado demonstrou que a melatonina aumentou a potência do sistema modulatório da dor inibitório e que a modulação condicionada da dor foi negativamente correlacionada com BDNF sérico. Conclusões: Os estudos desta tese demonstram que S100B e BDNF, ambos mediadores chave no processo de sensibilização central, foram inversamente correlacionados com o limiar de dor à pressão. BDNF sérico foi, ainda, inversamente correlacionado com a redução da dor. Portanto, a avaliação sérica de BDNF e S100B merece estudos adicionais para determinar seu potencial papel sinalizador no espectro da sensibilização central nessa doença. / Introduction: Fibromyalgia (FM) is a syndrome of chronic diffuse musculoskeletal pain whose etiology is not fully known. This syndrome causes pain, mood swings and symptoms of rupture of the circadian rhythm. Its pathophysiological process involves an imbalance between excitatory and inhibitory pain modulatory systems. The ability of inhibitory systems is weakened, providing a framework of central sensitization, with dysfunction in the descending pain modulatory system, hyper-activation of neurons and neuroglia. Therefore, additional studies are needed to understand the possible relationship between serum markers of neuronal hyperactivity, such as Brain Derived Neurotrophic Factor (BDNF) and S100B. Particularly, studies seeking therapeutic options with effect in neurobiological alternative pathways such as melatonin, a indolamine with resynchronization, analgesic, and anti-inflammatory effects and actions on the modulatory pain systems such as GABAergic, opiodergic and glutamatergic. Objectives: 1) Primary: Evaluate whether the serum levels of BDNF and S100B have association with FM and if both serological mediators could be associated with pressure pain threshold. 2) Secondary: To test the hypothesis that treatment with melatonin alone or in combination with amitriptyline is better than amitriptyline alone to modify the endogenous pain modulatory system. Thus, to prove these hypothesis, it was quantified the conditioned pain modulation and serum BDNF levels in FM patients receiving treatment with melatonin alone or in combination with amitriptyline. Also, it was tested whether melatonin would improve clinical symptoms such as pain, pressure pain threshold and quality of sleep related to FM. Methods: Patients with FM according to the American College of Rheumatology (ACR) 2010 were selected. In the first study, a cross-sectional design, 56 women aging 18-65 years old, with FM were included. It was evaluated the pressure pain threshold, and serum levels of BDNF and S100B. In the second study, 63 patients were included with the same inclusion criteria described in the cross-sectional study. Patients were randomized and received at bedtime amitriptyline (25 mg) (n = 21), melatonin (10 mg) (n = 21) or melatonin (10 mg) + amitriptyline (25 mg) (n = 21) for six weeks. The descending pain modulatory system was accessed by the conditioned pain modulation, measuring the numerical pain scale [NPS (0-10)] during the heat pain threshold. Results: On the cross-sectional study serum BDNF and S100B were correlated. Serum BDNF and S100B were correlated with the pressure pain threshold. Serum BDNF was associated with pressure pain threshold, age and obsessive compulsive disorder, while serum S100B was associated with pressure pain threshold, only. The randomized clinical trial showed that melatonin increased the efficacy of inhibitory pain modulatory system and the conditioned pain modulation was negatively correlated with serum BDNF. Conclusions: The studies of this thesis show that both key mediators of the central sensitization process, BDNF and S100B, were inversely correlated with the pressure pain threshold. They also showed that melatonin increased the inhibitory pain modutalory system. Furthermore, it emphasizes that serum BDNF was inversely correlated with pain reduction. Therefore, assessment of serum BDNF and S100B deserve further studies to determine their potential as a proxy for the central sensitization spectrum in FM.
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