Stratifying patients with peripheral neuropathic pain based on sensory profiles: algorithm and sample size recommendations

In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative sensory testing profiles, which are mainly characterized by either sensory loss, intact sensory function and mild thermal hyperalgesia and/or...

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Published inPain (Amsterdam) Vol. 158; no. 8; pp. 1446 - 1455
Main Authors Vollert, Jan, Maier, Christoph, Attal, Nadine, Bennett, David L.H., Bouhassira, Didier, Enax-Krumova, Elena K., Finnerup, Nanna B., Freynhagen, Rainer, Gierthmühlen, Janne, Haanpää, Maija, Hansson, Per, Hüllemann, Philipp, Jensen, Troels S., Magerl, Walter, Ramirez, Juan D., Rice, Andrew S.C., Schuh-Hofer, Sigrid, Segerdahl, Märta, Serra, Jordi, Shillo, Pallai R., Sindrup, Soeren, Tesfaye, Solomon, Themistocleous, Andreas C., Tölle, Thomas R., Treede, Rolf-Detlef, Baron, Ralf
Format Journal Article
LanguageEnglish
Published United States Wolters Kluwer 01.08.2017
Subjects
Algorithms
Humans
Hyperalgesia - physiopathology
Neuralgia - physiopathology
Pain Measurement
Pain Threshold - physiology
Physical Stimulation - methods
Research Paper
Sample Size
Surveys and Questionnaires
Online AccessGet full text

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Abstract In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative sensory testing profiles, which are mainly characterized by either sensory loss, intact sensory function and mild thermal hyperalgesia and/or allodynia, or loss of thermal detection and mild mechanical hyperalgesia and/or allodynia. Here, we present an algorithm for allocation of individual patients to these subgroups. The algorithm is nondeterministic—ie, a patient can be sorted to more than one phenotype—and can separate patients with neuropathic pain from healthy subjects (sensitivity: 78%, specificity: 94%). We evaluated the frequency of each phenotype in a population of patients with painful diabetic polyneuropathy (n = 151), painful peripheral nerve injury (n = 335), and postherpetic neuralgia (n = 97) and propose sample sizes of study populations that need to be screened to reach a subpopulation large enough to conduct a phenotype-stratified study. The most common phenotype in diabetic polyneuropathy was sensory loss (83%), followed by mechanical hyperalgesia (75%) and thermal hyperalgesia (34%, note that percentages are overlapping and not additive). In peripheral nerve injury, frequencies were 37%, 59%, and 50%, and in postherpetic neuralgia, frequencies were 31%, 63%, and 46%. For parallel study design, either the estimated effect size of the treatment needs to be high (>0.7) or only phenotypes that are frequent in the clinical entity under study can realistically be performed. For crossover design, populations under 200 patients screened are sufficient for all phenotypes and clinical entities with a minimum estimated treatment effect size of 0.5.
AbstractList In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative sensory testing profiles, which are mainly characterized by either sensory loss, intact sensory function and mild thermal hyperalgesia and/or allodynia, or loss of thermal detection and mild mechanical hyperalgesia and/or allodynia. Here, we present an algorithm for allocation of individual patients to these subgroups. The algorithm is nondeterministic-ie, a patient can be sorted to more than one phenotype-and can separate patients with neuropathic pain from healthy subjects (sensitivity: 78%, specificity: 94%). We evaluated the frequency of each phenotype in a population of patients with painful diabetic polyneuropathy (n = 151), painful peripheral nerve injury (n = 335), and postherpetic neuralgia (n = 97) and propose sample sizes of study populations that need to be screened to reach a subpopulation large enough to conduct a phenotype-stratified study. The most common phenotype in diabetic polyneuropathy was sensory loss (83%), followed by mechanical hyperalgesia (75%) and thermal hyperalgesia (34%, note that percentages are overlapping and not additive). In peripheral nerve injury, frequencies were 37%, 59%, and 50%, and in postherpetic neuralgia, frequencies were 31%, 63%, and 46%. For parallel study design, either the estimated effect size of the treatment needs to be high (>0.7) or only phenotypes that are frequent in the clinical entity under study can realistically be performed. For crossover design, populations under 200 patients screened are sufficient for all phenotypes and clinical entities with a minimum estimated treatment effect size of 0.5.In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative sensory testing profiles, which are mainly characterized by either sensory loss, intact sensory function and mild thermal hyperalgesia and/or allodynia, or loss of thermal detection and mild mechanical hyperalgesia and/or allodynia. Here, we present an algorithm for allocation of individual patients to these subgroups. The algorithm is nondeterministic-ie, a patient can be sorted to more than one phenotype-and can separate patients with neuropathic pain from healthy subjects (sensitivity: 78%, specificity: 94%). We evaluated the frequency of each phenotype in a population of patients with painful diabetic polyneuropathy (n = 151), painful peripheral nerve injury (n = 335), and postherpetic neuralgia (n = 97) and propose sample sizes of study populations that need to be screened to reach a subpopulation large enough to conduct a phenotype-stratified study. The most common phenotype in diabetic polyneuropathy was sensory loss (83%), followed by mechanical hyperalgesia (75%) and thermal hyperalgesia (34%, note that percentages are overlapping and not additive). In peripheral nerve injury, frequencies were 37%, 59%, and 50%, and in postherpetic neuralgia, frequencies were 31%, 63%, and 46%. For parallel study design, either the estimated effect size of the treatment needs to be high (>0.7) or only phenotypes that are frequent in the clinical entity under study can realistically be performed. For crossover design, populations under 200 patients screened are sufficient for all phenotypes and clinical entities with a minimum estimated treatment effect size of 0.5.
Supplemental Digital Content is Available in the Text. Phenotype stratification of patients with peripheral neuropathic pain can be conducted with a novel algorithm based on sensory profiles. In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative sensory testing profiles, which are mainly characterized by either sensory loss, intact sensory function and mild thermal hyperalgesia and/or allodynia, or loss of thermal detection and mild mechanical hyperalgesia and/or allodynia. Here, we present an algorithm for allocation of individual patients to these subgroups. The algorithm is nondeterministic—ie, a patient can be sorted to more than one phenotype—and can separate patients with neuropathic pain from healthy subjects (sensitivity: 78%, specificity: 94%). We evaluated the frequency of each phenotype in a population of patients with painful diabetic polyneuropathy (n = 151), painful peripheral nerve injury (n = 335), and postherpetic neuralgia (n = 97) and propose sample sizes of study populations that need to be screened to reach a subpopulation large enough to conduct a phenotype-stratified study. The most common phenotype in diabetic polyneuropathy was sensory loss (83%), followed by mechanical hyperalgesia (75%) and thermal hyperalgesia (34%, note that percentages are overlapping and not additive). In peripheral nerve injury, frequencies were 37%, 59%, and 50%, and in postherpetic neuralgia, frequencies were 31%, 63%, and 46%. For parallel study design, either the estimated effect size of the treatment needs to be high (>0.7) or only phenotypes that are frequent in the clinical entity under study can realistically be performed. For crossover design, populations under 200 patients screened are sufficient for all phenotypes and clinical entities with a minimum estimated treatment effect size of 0.5.
In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative sensory testing profiles, which are mainly characterized by either sensory loss, intact sensory function and mild thermal hyperalgesia and/or allodynia, or loss of thermal detection and mild mechanical hyperalgesia and/or allodynia. Here, we present an algorithm for allocation of individual patients to these subgroups. The algorithm is nondeterministic—ie, a patient can be sorted to more than one phenotype—and can separate patients with neuropathic pain from healthy subjects (sensitivity: 78%, specificity: 94%). We evaluated the frequency of each phenotype in a population of patients with painful diabetic polyneuropathy (n = 151), painful peripheral nerve injury (n = 335), and postherpetic neuralgia (n = 97) and propose sample sizes of study populations that need to be screened to reach a subpopulation large enough to conduct a phenotype-stratified study. The most common phenotype in diabetic polyneuropathy was sensory loss (83%), followed by mechanical hyperalgesia (75%) and thermal hyperalgesia (34%, note that percentages are overlapping and not additive). In peripheral nerve injury, frequencies were 37%, 59%, and 50%, and in postherpetic neuralgia, frequencies were 31%, 63%, and 46%. For parallel study design, either the estimated effect size of the treatment needs to be high (>0.7) or only phenotypes that are frequent in the clinical entity under study can realistically be performed. For crossover design, populations under 200 patients screened are sufficient for all phenotypes and clinical entities with a minimum estimated treatment effect size of 0.5.
Author Bennett, David L.H.
Jensen, Troels S.
Hansson, Per
Magerl, Walter
Schuh-Hofer, Sigrid
Freynhagen, Rainer
Gierthmühlen, Janne
Treede, Rolf-Detlef
Tesfaye, Solomon
Haanpää, Maija
Attal, Nadine
Baron, Ralf
Enax-Krumova, Elena K.
Shillo, Pallai R.
Hüllemann, Philipp
Ramirez, Juan D.
Serra, Jordi
Vollert, Jan
Sindrup, Soeren
Bouhassira, Didier
Themistocleous, Andreas C.
Rice, Andrew S.C.
Finnerup, Nanna B.
Tölle, Thomas R.
Maier, Christoph
Segerdahl, Märta
AuthorAffiliation Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, United Kingdom
Diabetes Research Unit, Sheffield Teaching Hospitals NHS Foundation Trust, Sheffield, United Kingdom
Center of Biomedicine and Medical Technology Mannheim CBTM, Medical Faculty Mannheim, Heidelberg University, Heidelberg, Germany
Department of Neurology, Klinikum rechts der Isar, Technische Universität München, Munich, Germany
Division of Neurological Pain Research and Therapy, Department of Neurology, Universitätsklinikum Schleswig-Holstein, Campus Kiel, Kiel, Germany
Pain Research, Department of Surgery and Cancer, Imperial College, London, United Kingdom
Brain Function Research Group, School of Physiology, Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, South Africa
Department of Pain Medicine, BG University Hospital Bergmannsheil GmbH, Ruhr-University Bochum, Bochum, Germany
Neuroscience Technologies, Ltd, Barcelona, Spain
Department of Neurology, Danish Pain Research Cente
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– name: Department of Pain Medicine, BG University Hospital Bergmannsheil GmbH, Ruhr-University Bochum, Bochum, Germany
– name: Brain Function Research Group, School of Physiology, Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, South Africa
– name: Division of Neurological Pain Research and Therapy, Department of Neurology, Universitätsklinikum Schleswig-Holstein, Campus Kiel, Kiel, Germany
– name: Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, United Kingdom
– name: Pain Research, Department of Surgery and Cancer, Imperial College, London, United Kingdom
– name: Diabetes Research Unit, Sheffield Teaching Hospitals NHS Foundation Trust, Sheffield, United Kingdom
– name: Department of Neurology, Danish Pain Research Center, Aarhus University Hospital, Aarhus, Denmark
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– name: Neuroscience Technologies, Ltd, Barcelona, Spain
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  givenname: Elena K.
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  givenname: Juan D.
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  surname: Segerdahl
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  organization: H. Lundbeck A/S, Copenhagen, Denmark
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/28595241$$D View this record in MEDLINE/PubMed
http://kipublications.ki.se/Default.aspx?queryparsed=id:136389765$$DView record from Swedish Publication Index
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Snippet In a recent cluster analysis, it has been shown that patients with peripheral neuropathic pain can be grouped into 3 sensory phenotypes based on quantitative...
Supplemental Digital Content is Available in the Text. Phenotype stratification of patients with peripheral neuropathic pain can be conducted with a novel...
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SubjectTerms Algorithms
Humans
Hyperalgesia - physiopathology
Neuralgia - physiopathology
Pain Measurement
Pain Threshold - physiology
Physical Stimulation - methods
Research Paper
Sample Size
Surveys and Questionnaires
Title Stratifying patients with peripheral neuropathic pain based on sensory profiles: algorithm and sample size recommendations
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https://www.ncbi.nlm.nih.gov/pubmed/28595241
https://www.proquest.com/docview/1908433117
https://pubmed.ncbi.nlm.nih.gov/PMC5515640
http://kipublications.ki.se/Default.aspx?queryparsed=id:136389765
Volume 158
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