TY  - GEN
A1  - Wippert, Pia-Maria
A1  - Puschmann, Anne-Katrin
A1  - Drießlein, David
A1  - Arampatzis, Adamantios
A1  - Banzer, Winfried
A1  - Beck, Heidrun
A1  - Schiltenwolf, Marcus
A1  - Schmidt, Hendrik
A1  - Schneider, Christian
A1  - Mayer, Frank
T1  - Development of a risk stratification and prevention index for stratified care in chronic low back pain. Focus: yellow flags (MiSpEx network)
N2  - Introduction: Chronic low back pain (LBP) is a major cause of disability; early diagnosis and stratification of care remain challenges.

Objectives: This article describes the development of a screening tool for the 1-year prognosis of patients with high chronic LBP risk (risk stratification index) and for treatment allocation according to treatment-modifiable yellow flag indicators (risk prevention indices, RPI-S).

Methods: Screening tools were derived from a multicentre longitudinal study (n = 1071, age >18, intermittent LBP). The greatest prognostic predictors of 4 flag domains ("pain," "distress," "social-environment," "medical care-environment") were determined using least absolute shrinkage and selection operator regression analysis. Internal validity and prognosis error were evaluated after 1-year follow-up. Receiver operating characteristic curves for discrimination (area under the curve) and cutoff values were determined.

Results: The risk stratification index identified persons with increased risk of chronic LBP and accurately estimated expected pain intensity and disability on the Pain Grade Questionnaire (0-100 points) up to 1 year later with an average prognosis error of 15 points. In addition, 3-risk classes were discerned with an accuracy of area under the curve = 0.74 (95% confidence interval 0.63-0.85). The RPI-S also distinguished persons with potentially modifiable prognostic indicators from 4 flag domains and stratified allocation to biopsychosocial treatments accordingly.

Conclusion: The screening tools, developed in compliance with the PROGRESS and TRIPOD statements, revealed good validation and prognostic strength. These tools improve on existing screening tools because of their utility for secondary preventions, incorporation of exercise effect modifiers, exact pain estimations, and personalized allocation to multimodal treatments.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 351 
KW  - Back pain prognosis
KW  - Back pain diagnosis
KW  - Pain screening
KW  - PROGRESS/TRIPOD
KW  - Prediction of disability/intensity
KW  - Yellow flags
KW  - Exercise
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-403424
ER  - 
TY  - JOUR
A1  - Wippert, Pia-Maria
A1  - Puschmann, Anne-Katrin
A1  - Drießlein, David
A1  - Arampatzis, Adamantios
A1  - Banzer, Winfried
A1  - Beck, Heidrun
A1  - Schiltenwolf, Marcus
A1  - Schmidt, Hendrik
A1  - Schneider, Christian
A1  - Mayer, Frank
T1  - Development of a risk stratification and prevention index for stratified care in chronic low back pain. Focus: yellow flags (MiSpEx network)
JF  - Pain reports
N2  - Introduction: Chronic low back pain (LBP) is a major cause of disability; early diagnosis and stratification of care remain challenges.

Objectives: This article describes the development of a screening tool for the 1-year prognosis of patients with high chronic LBP risk (risk stratification index) and for treatment allocation according to treatment-modifiable yellow flag indicators (risk prevention indices, RPI-S).

Methods: Screening tools were derived from a multicentre longitudinal study (n = 1071, age >18, intermittent LBP). The greatest prognostic predictors of 4 flag domains ("pain," "distress," "social-environment," "medical care-environment") were determined using least absolute shrinkage and selection operator regression analysis. Internal validity and prognosis error were evaluated after 1-year follow-up. Receiver operating characteristic curves for discrimination (area under the curve) and cutoff values were determined.

Results: The risk stratification index identified persons with increased risk of chronic LBP and accurately estimated expected pain intensity and disability on the Pain Grade Questionnaire (0-100 points) up to 1 year later with an average prognosis error of 15 points. In addition, 3-risk classes were discerned with an accuracy of area under the curve = 0.74 (95% confidence interval 0.63-0.85). The RPI-S also distinguished persons with potentially modifiable prognostic indicators from 4 flag domains and stratified allocation to biopsychosocial treatments accordingly.

Conclusion: The screening tools, developed in compliance with the PROGRESS and TRIPOD statements, revealed good validation and prognostic strength. These tools improve on existing screening tools because of their utility for secondary preventions, incorporation of exercise effect modifiers, exact pain estimations, and personalized allocation to multimodal treatments.
KW  - Back pain prognosis
KW  - Back pain diagnosis
KW  - Pain screening
KW  - PROGRESS/TRIPOD
KW  - Prediction of disability/intensity
KW  - Yellow flags
KW  - Exercise
Y1  - 2017
U6  - https://doi.org/10.1097/PR9.0000000000000623
VL  - 9
SP  - 1
EP  - 11
PB  - Wolters Kluwer Health
CY  - Riverwoods, IL
ER  - 
TY  - JOUR
A1  - Niederer, Daniel
A1  - Vogt, Lutz
A1  - Wippert, Pia-Maria
A1  - Puschmann, Anne-Katrin
A1  - Pfeifer, Ann-Christin
A1  - Schiltenwolf, Marcus
A1  - Banzer, Winfried
A1  - Mayer, Frank
T1  - Medicine in spine exercise (MiSpEx) for nonspecific low back pain patients: study protocol for a multicentre, single-blind randomized controlled trial
JF  - Trials
N2  - Background: Arising from the relevance of sensorimotor training in the therapy of nonspecific low back pain patients and from the value of individualized therapy, the present trial aims to test the feasibility and efficacy of individualized sensorimotor training interventions in patients suffering from nonspecific low back pain. Methods and study design: A multicentre, single-blind two-armed randomized controlled trial to evaluate the effects of a 12-week (3 weeks supervised centre-based and 9 weeks home-based) individualized sensorimotor exercise program is performed. The control group stays inactive during this period. Outcomes are pain, and pain-associated function as well as motor function in adults with nonspecific low back pain. Each participant is scheduled to five measurement dates: baseline (M1), following centre-based training (M2), following home-based training (M3) and at two follow-up time points 6 months (M4) and 12 months (M5) after M1. All investigations and the assessment of the primary and secondary outcomes are performed in a standardized order: questionnaires - clinical examination biomechanics (motor function). Subsequent statistical procedures are executed after the examination of underlying assumptions for parametric or rather non-parametric testing. Discussion: The results and practical relevance of the study will be of clinical and practical relevance not only for researchers and policy makers but also for the general population suffering from nonspecific low back pain.
KW  - Sensorimotor training
KW  - Motor control
KW  - Low back pain
KW  - Exercise
KW  - Functional capacity
KW  - Individualized intervention
Y1  - 2016
U6  - https://doi.org/10.1186/s13063-016-1645-1
SN  - 1745-6215
VL  - 17
PB  - BioMed Central
CY  - London
ER  - 
TY  - JOUR
A1  - Müller, Juliane
A1  - Stoll, Josefine
A1  - Mueller, Steffen
A1  - Mayer, Frank
T1  - Dose-response relationship of core-specific sensorimotor interventions in healthy, well-trained participants
BT  - study protocol for a (MiSpEx) randomized controlled trial
JF  - Trials
N2  - Background: Core-specific sensorimotor exercises are proven to enhance neuromuscular activity of the trunk, improve athletic performance and prevent back pain. However, the dose-response relationship and, therefore, the dose required to improve trunk function is still under debate. The purpose of the present trial will be to compare four different intervention strategies of sensorimotor exercises that will result in improved trunk function. Discussion: The results of the study will be clinically relevant, not only for researchers but also for (sports) therapists, physicians, coaches, athletes and the general population who have the aim of improving trunk function.
KW  - Sensorimotor training
KW  - Perturbation
KW  - Exercise
KW  - MiSpEx
Y1  - 2018
U6  - https://doi.org/10.1186/s13063-018-2799-9
SN  - 1745-6215
VL  - 19
PB  - BMC
CY  - London
ER  - 
TY  - JOUR
A1  - Mueller, Juliane
A1  - Stoll, Josefine
A1  - Mueller, Steffen
A1  - Mayer, Frank
T1  - Dose-response relationship of core-specific
sensorimotor interventions in healthy, welltrained
participants
BT  - study protocol for a (MiSpEx) randomized controlled trial
JF  - Trials
N2  - Background: Core-specific sensorimotor exercises are proven to enhance neuromuscular activity of the trunk, improve athletic performance and prevent back pain. However, the dose-response relationship and, therefore, the dose required to improve trunk function is still under debate. The purpose of the present trial will be to compare four different intervention strategies of sensorimotor exercises that will result in improved trunk function.

Methods/design: A single-blind, four-armed, randomized controlled trial with a 3-week (home-based) intervention phase and two measurement days pre and post intervention (M1/M2) is designed. Experimental procedures on both measurement days will include evaluation of maximum isokinetic and isometric trunk strength (extension/flexion, rotation) including perturbations, as well as neuromuscular trunk activity while performing strength testing. The primary outcome is trunk strength (peak torque). Neuromuscular activity (amplitude, latencies as a response to perturbation) serves as secondary outcome. The control group will perform a standardized exercise program of four sensorimotor exercises (three sets of 10 repetitions) in each of six training sessions (30 min duration) over 3 weeks. The intervention groups’ programs differ in the number of exercises, sets per exercise and, therefore, overall training amount (group I: six sessions, three exercises, two sets; group II: six sessions, two exercises, two sets; group III: six sessions, one exercise, three sets). The intervention programs of groups I, II and III include additional perturbations for all exercises to increase both the difficulty and the efficacy of the exercises performed. Statistical analysis will be performed after examining the underlying assumptions for parametric and non-parametric testing.

Discussion: The results of the study will be clinically relevant, not only for researchers but also for (sports) therapists, physicians, coaches, athletes and the general population who have the aim of improving trunk function.
KW  - Sensorimotor training
KW  - Perturbation
KW  - Exercise
KW  - MiSpEx
Y1  - 2018
U6  - https://doi.org/10.1186/s13063-018-2799-9
SN  - 1745-6215
VL  - 19
IS  - 424
PB  - BioMed Central
CY  - London
ER  - 
TY  - GEN
A1  - Mueller, Juliane
A1  - Stoll, Josefine
A1  - Mueller, Steffen
A1  - Mayer, Frank
T1  - Dose-response relationship of core-specific
sensorimotor interventions in healthy, welltrained
participants
BT  - study protocol for a (MiSpEx) randomized controlled trial
T2  - Postprints der Universität Potsdam Humanwissenschaftliche Reihe
N2  - Background: Core-specific sensorimotor exercises are proven to enhance neuromuscular activity of the trunk, improve athletic performance and prevent back pain. However, the dose-response relationship and, therefore, the dose required to improve trunk function is still under debate. The purpose of the present trial will be to compare four different intervention strategies of sensorimotor exercises that will result in improved trunk function.

Methods/design: A single-blind, four-armed, randomized controlled trial with a 3-week (home-based) intervention phase and two measurement days pre and post intervention (M1/M2) is designed. Experimental procedures on both measurement days will include evaluation of maximum isokinetic and isometric trunk strength (extension/flexion, rotation) including perturbations, as well as neuromuscular trunk activity while performing strength testing. The primary outcome is trunk strength (peak torque). Neuromuscular activity (amplitude, latencies as a response to perturbation) serves as secondary outcome. The control group will perform a standardized exercise program of four sensorimotor exercises (three sets of 10 repetitions) in each of six training sessions (30 min duration) over 3 weeks. The intervention groups’ programs differ in the number of exercises, sets per exercise and, therefore, overall training amount (group I: six sessions, three exercises, two sets; group II: six sessions, two exercises, two sets; group III: six sessions, one exercise, three sets). The intervention programs of groups I, II and III include additional perturbations for all exercises to increase both the difficulty and the efficacy of the exercises performed. Statistical analysis will be performed after examining the underlying assumptions for parametric and non-parametric testing.

Discussion: The results of the study will be clinically relevant, not only for researchers but also for (sports) therapists, physicians, coaches, athletes and the general population who have the aim of improving trunk function.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 499 
KW  - Sensorimotor training
KW  - Perturbation
KW  - Exercise
KW  - MiSpEx
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-422414
SN  - 1866-8364
IS  - 499
ER  -