TY  - JOUR
A1  - Schaefer, Laura
A1  - Dech, Silas
A1  - Bittmann, Frank
T1  - Adaptive force and emotionally related imaginations
BT  - Preliminary results suggest a reduction of the maximal holding capacity as reaction to disgusting food imagination
JF  - Heliyon
N2  - The link between emotions and motor control has been discussed for years. The measurement of the Adaptive Force (AF) provides the possibility to get insights into the adaptive control of the neuromuscular system in reaction to external forces. It was hypothesized that the holding isometric AF is especially vulnerable to disturbing inputs. Here, the behavior of the AF under the influence of positive (tasty) vs. negative (disgusting) food imaginations was investigated. The AF was examined in n = 12 cases using an objectified manual muscle test of the hip flexors, elbow flexors or pectoralis major muscle, performed by one of two experienced testers while the participants imagined their most tasty or most disgusting food. The reaction force and the limb position were measured by a handheld device. While the slope of force rises and the maximal AF did not differ significantly between tasty and disgusting imaginations (p > 0.05), the maximal isometric AF was significantly lower and the AF at the onset of oscillations was significantly higher under disgusting vs. tasty imaginations (both p = 0.001). A proper length tension control of muscles seems to be a crucial functional parameter of the neuromuscular system which can be impaired instantaneously by emotionally related negative imaginations. This might be a potential approach to evaluate somatic reactions to emotions.
KW  - Adaptive Force
KW  - Isometric Adaptive Force
KW  - Holding capacity
KW  - Holding
KW  - isometric muscle action
KW  - Imaginations
KW  - Emotions
KW  - Motor control
KW  - Functional weakness
KW  - Manual muscle test
Y1  - 2021
U6  - https://doi.org/10.1016/j.heliyon.2021.e07827
SN  - 2405-8440
VL  - 7
IS  - 8
PB  - Elsevier
CY  - London
ER  - 
TY  - GEN
A1  - Dech, Silas
A1  - Bittmann, Frank
A1  - Schaefer, Laura
T1  - Assessment of the Adaptive Force of Elbow Extensors in Healthy Subjects Quantified by a Novel Pneumatically Driven Measurement System with Considerations of Its Quality Criteria
T2  - Postprints der Universität Potsdam : Humanwissenschaftliche Reihe
N2  - Adaptive Force (AF) reflects the capability of the neuromuscular system to adapt adequately to external forces with the intention of maintaining a position or motion. One specific approach to assessing AF is to measure force and limb position during a pneumatically applied increasing external force. Through this method, the highest (AFmax), the maximal isometric (AFisomax) and the maximal eccentric Adaptive Force (AFeccmax) can be determined. The main question of the study was whether the AFisomax is a specific and independent parameter of muscle function compared to other maximal forces. In 13 healthy subjects (9 male and 4 female), the maximal voluntary isometric contraction (pre- and post-MVIC), the three AF parameters and the MVIC with a prior concentric contraction (MVICpri-con) of the elbow extensors were measured 4 times on two days. Arithmetic mean (M) and maximal (Max) torques of all force types were analyzed. Regarding the reliability of the AF parameters between days, the mean changes were 0.31–1.98 Nm (0.61%–5.47%, p = 0.175–0.552), the standard errors of measurements (SEM) were 1.29–5.68 Nm (2.53%–15.70%) and the ICCs(3,1) = 0.896–0.996. M and Max of AFisomax, AFmax and pre-MVIC correlated highly (r = 0.85–0.98). The M and Max of AFisomax were significantly lower (6.12–14.93 Nm; p ≤ 0.001–0.009) and more variable between trials (coefficient of variation (CVs) ≥ 21.95%) compared to those of pre-MVIC and AFmax (CVs ≤ 5.4%). The results suggest the novel measuring procedure is suitable to reliably quantify the AF, whereby the presented measurement errors should be taken into consideration. The AFisomax seems to reflect its own strength capacity and should be detected separately. It is suggested its normalization to the MVIC or AFmax could serve as an indicator of a neuromuscular function.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 710 
KW  - adaptive force
KW  - neuromuscular functionality
KW  - sensorimotor control
KW  - isometric muscle action
KW  - eccentric muscle action
KW  - maximal voluntary contraction
KW  - adaptive holding capacity
KW  - reliability
KW  - validity
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-510950
SN  - 1866-8364
IS  - 710
ER  - 
TY  - JOUR
A1  - Dech, Silas
A1  - Bittmann, Frank
A1  - Schaefer, Laura
T1  - Assessment of the adaptive force of Elbow extensors in healthy subjects quantified by a novel pneumatically driven measurement system with considerations of its quality criteria
JF  - Diagnostics : open access journal
N2  - Adaptive Force (AF) reflects the capability of the neuromuscular system to adapt adequately to external forces with the intention of maintaining a position or motion. One specific approach to assessing AF is to measure force and limb position during a pneumatically applied increasing external force. Through this method, the highest (AFmax), the maximal isometric (AFisomax) and the maximal eccentric Adaptive Force (AFeccmax) can be determined. The main question of the study was whether the AFisomax is a specific and independent parameter of muscle function compared to other maximal forces. In 13 healthy subjects (9 male and 4 female), the maximal voluntary isometric contraction (pre- and post-MVIC), the three AF parameters and the MVIC with a prior concentric contraction (MVICpri-con) of the elbow extensors were measured 4 times on two days. Arithmetic mean (M) and maximal (Max) torques of all force types were analyzed. Regarding the reliability of the AF parameters between days, the mean changes were 0.31–1.98 Nm (0.61%–5.47%, p = 0.175–0.552), the standard errors of measurements (SEM) were 1.29–5.68 Nm (2.53%–15.70%) and the ICCs(3,1) = 0.896–0.996. M and Max of AFisomax, AFmax and pre-MVIC correlated highly (r = 0.85–0.98). The M and Max of AFisomax were significantly lower (6.12–14.93 Nm; p ≤ 0.001–0.009) and more variable between trials (coefficient of variation (CVs) ≥ 21.95%) compared to those of pre-MVIC and AFmax (CVs ≤ 5.4%). The results suggest the novel measuring procedure is suitable to reliably quantify the AF, whereby the presented measurement errors should be taken into consideration. The AFisomax seems to reflect its own strength capacity and should be detected separately. It is suggested its normalization to the MVIC or AFmax could serve as an indicator of a neuromuscular function.
KW  - adaptive force
KW  - sensorimotor control
KW  - isometric muscle action
KW  - eccentric muscle action
KW  - maximal voluntary contraction
KW  - adaptive holding capacity
KW  - reliability
KW  - validity
KW  - neuromuscular functionality
Y1  - 2021
U6  - https://doi.org/10.3390/diagnostics11060923
SN  - 2075-4418
VL  - 11
IS  - 6
PB  - MDPI
CY  - Basel
ER  - 
TY  - GEN
A1  - Dech, Silas
A1  - Bittmann, Frank
A1  - Schaefer, Laura
T1  - Behavior of oxygen saturation and blood filling in the venous capillary system of the biceps brachii muscle during a fatiguing isometric action
T2  - Postprints der Universität Potsdam : Humanwissenschaftliche Reihe 618
N2  - The objective of the study is to develop a better understanding of the capillary circulation in contracting muscles. Ten subjects were measured during a submaximal fatiguing isometric muscle action by use of the O2C spectrophotometer. In all measurements the capillary-venous oxygen saturation of hemoglobin (SvO2) decreases immediately after the start of loading and levels off into a steady state. However, two different patterns (type I and type II) emerged. They differ in the extent of deoxygenation (–10.37 ±2.59 percent points (pp) vs. –33.86 ±17.35 pp, P = .008) and the behavior of the relative hemoglobin amount (rHb). Type I reveals a positive rank correlation of SvO2 and rHb (? = 0.735, P <.001), whereas a negative rank correlation (? = –0.522, P <.001) occurred in type II, since rHb decreases until a reversal point, then increases averagely 13% above the baseline value and levels off into a steady state. The results reveal that a homeostasis of oxygen delivery and consumption during isometric muscle actions is possible. A rough distinction in two types of regulation is suggested.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 618 
KW  - muscle oxygenation
KW  - hemoglobin amount
KW  - isometric muscle action
KW  - O2C spectrophotometer
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-460166
SN  - 1866-8364
IS  - 618
SP  - 79
EP  - 87
ER  - 
TY  - JOUR
A1  - Dech, Silas
A1  - Bittmann, Frank
A1  - Schaefer, Laura
T1  - Behavior of oxygen saturation and blood filling in the venous capillary system of the biceps brachii muscle during a fatiguing isometric action
JF  - European Journal of Translational Myology
N2  - The objective of the study is to develop a better understanding of the capillary circulation in contracting muscles. Ten subjects were measured during a submaximal fatiguing isometric muscle action by use of the O2C spectrophotometer. In all measurements the capillary-venous oxygen saturation of hemoglobin (SvO2) decreases immediately after the start of loading and levels off into a steady state. However, two different patterns (type I and type II) emerged. They differ in the extent of deoxygenation (–10.37 ±2.59 percent points (pp) vs. –33.86 ±17.35 pp, P = .008) and the behavior of the relative hemoglobin amount (rHb). Type I reveals a positive rank correlation of SvO2 and rHb (? = 0.735, P <.001), whereas a negative rank correlation (? = –0.522, P <.001) occurred in type II, since rHb decreases until a reversal point, then increases averagely 13% above the baseline value and levels off into a steady state. The results reveal that a homeostasis of oxygen delivery and consumption during isometric muscle actions is possible. A rough distinction in two types of regulation is suggested.
KW  - muscle oxygenation
KW  - hemoglobin amount
KW  - isometric muscle action
KW  - O2C spectrophotometer
Y1  - 2020
U6  - https://doi.org/10.4081/ejtm.2019.8800
SN  - 2037-7460
VL  - 30
IS  - 1
SP  - 79
EP  - 87
PB  - Unipress
CY  - Padova
ER  - 
TY  - GEN
A1  - Schaefer, Laura
A1  - Dech, Silas
A1  - Aehle, Markus
A1  - Bittmann, Frank
T1  - Disgusting odours affect the characteristics of the Adaptive Force in contrast to neutral and pleasant odours
T2  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe
N2  - The olfactomotor system is especially investigated by examining the sniffing in reaction to olfactory stimuli. The motor output of respiratory-independent muscles was seldomly considered regarding possible influences of smells. The Adaptive Force (AF) characterizes the capability of the neuromuscular system to adapt to external forces in a holding manner and was suggested to be more vulnerable to possible interfering stimuli due to the underlying complex control processes. The aim of this pilot study was to measure the effects of olfactory inputs on the AF of the hip and elbow flexors, respectively. The AF of 10 subjects was examined manually by experienced testers while smelling at sniffing sticks with neutral, pleasant or disgusting odours. The reaction force and the limb position were recorded by a handheld device. The results show, inter alia, a significantly lower maximal isometric AF and a significantly higher AF at the onset of oscillations by perceiving disgusting odours compared to pleasant or neutral odours (p < 0.001). The adaptive holding capacity seems to reflect the functionality of the neuromuscular control, which can be impaired by disgusting olfactory inputs. An undisturbed functioning neuromuscular system appears to be characterized by a proper length tension control and by an earlier onset of mutual oscillations during an external force increase. This highlights the strong connection of olfaction and motor control also regarding respiratory-independent muscles.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 758 
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-548980
SN  - 1866-8364
SP  - 1
EP  - 16
PB  - Universitätsverlag Potsdam
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Schaefer, Laura
A1  - Dech, Silas
A1  - Aehle, Markus
A1  - Bittmann, Frank
T1  - Disgusting odours affect the characteristics of the adaptive force in contrast to neutral and pleasant odours
JF  - Scientific Reports
N2  - The olfactomotor system is especially investigated by examining the sniffing in reaction to olfactory stimuli. The motor output of respiratory-independent muscles was seldomly considered regarding possible influences of smells. The Adaptive Force (AF) characterizes the capability of the neuromuscular system to adapt to external forces in a holding manner and was suggested to be more vulnerable to possible interfering stimuli due to the underlying complex control processes. The aim of this pilot study was to measure the effects of olfactory inputs on the AF of the hip and elbow flexors, respectively. The AF of 10 subjects was examined manually by experienced testers while smelling at sniffing sticks with neutral, pleasant or disgusting odours. The reaction force and the limb position were recorded by a handheld device. The results show, inter alia, a significantly lower maximal isometric AF and a significantly higher AF at the onset of oscillations by perceiving disgusting odours compared to pleasant or neutral odours (p < 0.001). The adaptive holding capacity seems to reflect the functionality of the neuromuscular control, which can be impaired by disgusting olfactory inputs. An undisturbed functioning neuromuscular system appears to be characterized by a proper length tension control and by an earlier onset of mutual oscillations during an external force increase. This highlights the strong connection of olfaction and motor control also regarding respiratory-independent muscles.
Y1  - 2021
U6  - https://doi.org/10.1038/s41598-021-95759-0
SN  - 2045-2322
VL  - 11
SP  - 1
EP  - 16
PB  - Springer Nature
CY  - London
ER  - 
TY  - GEN
A1  - Schaefer, Laura
A1  - Dech, Silas
A1  - Wolff, Lara L.
A1  - Bittmann, Frank
T1  - Emotional Imagery Influences the Adaptive Force in Young Women
BT  - Unpleasant Imagery Reduces Instantaneously the Muscular Holding Capacity
T2  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche  Reihe
N2  - The link between emotions and motor function has been known for decades but is still not clarified. The Adaptive Force (AF) describes the neuromuscular capability to adapt to increasing forces and was suggested to be especially vulnerable to interfering inputs. This study investigated the influence of pleasant an  unpleasant food imagery on the manually assessed AF of elbow and hip flexors objectified by a handheld device in 12 healthy women. The maximal isometric AF was significantly reduced during unpleasant vs. pleasant imagery and baseline (p < 0.001, dz = 0.98–1.61). During unpleasant imagery, muscle lengthening started at 59.00 ± 22.50% of maximal AF, in contrast to baseline and pleasant imagery, during which the isometric position could be maintained mostly during the entire force increase up to ~97.90 ± 5.00% of maximal AF. Healthy participants showed an immediately impaired holding function triggered by unpleasant imagery, presumably related to negative emotions. Hence, AF seems to be suitable to test instantaneously the effect of emotions on motor function. Since musculoskeletal complaints can result from muscular instability, the findings provide insights into the understanding of the causal chain of linked musculoskeletal pain and mental stress. A case example (current stress vs. positive imagery) suggests that the approach presented in this study might have future implications for psychomotor diagnostics and therapeutics.
T3  - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 816 
KW  - Adaptive Force
KW  - maximal isometric Adaptive Force
KW  - holding capability
KW  - neuromuscular adaptation
KW  - motor control
KW  - pleasant and unpleasant imagery
KW  - emotions
KW  - emotional imagery
KW  - manual muscle test
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-582014
SN  - 1866-8364
IS  - 816
ER  - 
TY  - JOUR
A1  - Schaefer, Laura
A1  - Dech, Silas
A1  - Wolff, Lara L.
A1  - Bittmann, Frank
T1  - Emotional Imagery Influences the Adaptive Force in Young Women
BT  - Unpleasant Imagery Reduces Instantaneously the Muscular Holding Capacity
JF  - Brain Sciences
N2  - The link between emotions and motor function has been known for decades but is still not clarified. The Adaptive Force (AF) describes the neuromuscular capability to adapt to increasing forces and was suggested to be especially vulnerable to interfering inputs. This study investigated the influence of pleasant an  unpleasant food imagery on the manually assessed AF of elbow and hip flexors objectified by a handheld device in 12 healthy women. The maximal isometric AF was significantly reduced during unpleasant vs. pleasant imagery and baseline (p < 0.001, dz = 0.98–1.61). During unpleasant imagery, muscle lengthening started at 59.00 ± 22.50% of maximal AF, in contrast to baseline and pleasant imagery, during which the isometric position could be maintained mostly during the entire force increase up to ~97.90 ± 5.00% of maximal AF. Healthy participants showed an immediately impaired holding function triggered by unpleasant imagery, presumably related to negative emotions. Hence, AF seems to be suitable to test instantaneously the effect of emotions on motor function. Since musculoskeletal complaints can result from muscular instability, the findings provide insights into the understanding of the causal chain of linked musculoskeletal pain and mental stress. A case example (current stress vs. positive imagery) suggests that the approach presented in this study might have future implications for psychomotor diagnostics and therapeutics.
KW  - Adaptive Force
KW  - maximal isometric Adaptive Force
KW  - holding capability
KW  - neuromuscular adaptation
KW  - motor control
KW  - pleasant and unpleasant imagery
KW  - emotions
KW  - emotional imagery
KW  - manual muscle test
Y1  - 2022
U6  - https://doi.org/10.3390/brainsci12101318
SN  - 2076-3425
VL  - 12
IS  - 10
PB  - MDPI
CY  - Basel, Schweiz
ER  - 
TY  - THES
A1  - Dech, Silas
T1  - Isometric muscle function
T1  - Die Isometrische Muskelfunktion
BT  - with specific respect to oxygen supply and adaptive force
BT  - unter besonderer Betrachtung der Sauerstoffversorgung und Adaptiven Kraft
N2  - The cumulative dissertation consists of four original articles. These considered isometric muscle ac-tions in healthy humans from a basic physiological view (oxygen and blood supply) as well as possibilities of their distinction. It includes a novel approach to measure a specific form of isometric hold-ing function which has not been considered in motor science so far. This function is characterized by an adaptation to varying external forces with particular importance in daily activities and sports.
The first part of the research program analyzed how the biceps brachii muscle is supplied with oxygen and blood by adapting to a moderate constant load until task failure (publication 1). In this regard, regulative mechanisms were investigated in relation to the issue of presumably compressed capillaries due to high intramuscular pressures (publication 2).
Furthermore, it was examined if oxygenation and time to task failure (TTF) differs compared to an-other isometric muscle function (publication 3). This function is mainly of diagnostic interest by measuring the maximal voluntary isometric contraction (MVIC) as a gold standard. For that, a person pulls on or pushes against an insurmountable resistance. However, the underlying pulling or pushing form of isometric muscle action (PIMA) differs compared to the holding one (HIMA).
HIMAs have mainly been examined by using constant loads. In order to quantify the adaptability to varying external forces, a new approach was necessary and considered in the second part of the research program. A device was constructed based on a previously developed pneumatic measurement system. The device should have been able to measure the Adaptive Force (AF) of elbow ex-tensor muscles. The AF determines the adaptability to increasing external forces under isometric (AFiso) and eccentric (AFecc) conditions. At first, it was questioned if these parameters can be relia-bly assessed by use of the new device (publication 4). Subsequently, the main research question was investigated: Is the maximal AFiso a specific and independent variable of muscle function in comparison to the MVIC? Furthermore, both research parts contained a sub-question of how results can be influenced.
Parameters of local oxygen saturation (SvO2) and capillary blood filling (rHb) were non-invasively recorded by a spectrophotometer during maximal and submaximal HIMAs and PIMAs. 
These were the main findings: Under load, SvO2 and rHb always adjusted into a steady state after an initial decrease. Nevertheless, their behavior could roughly be categorized into two types. In type I, both parameters behaved nearly parallel to each other. In contrast, their progression over time was partly inverse in type II. The inverse behavior probably depends on the level of deoxygenation since rHb increased reliably at a suggested threshold of about 59% SvO2. This triggered mechanism and the found homeostatic steady states seem to be in conflict with the concept of mechanically compressed capillaries and consequently with a restricted blood flow. Anatomical configuration of blood vessels might provide one hypothetical explanation of how blood flow might be maintained. HIMA and PIMA did not differ regarding oxygenation and allocation to the described types. The TTF tended to be longer during PIMA. 
As a sub-question, oxygenation and TTF were compared between (HIMA) and intermittent voluntary muscle twitches during a weight holding task. TTF but not oxygenation differed significantly 
(Twitch > HIMA). A changed neuromuscular control might serve as a speculative explanation of how the results can be explained. This is supported by the finding that the TTF did not correlate significantly with the extent of deoxygenation irrespective of the performed task (HIMA, PIMA or Twitch).
Other neuromuscular aspects of muscle function were considered in second part of the re-search program. The new device mentioned above detected different force capacities within four trials at two days each. Among AF measurements, the functional counterpart of a concentric muscle action merging into an isometric one was analyzed in comparison to the MVIC.
Based on the results, it can be assumed that a prior concentric muscle action does not influence the MVIC. However, the results were inconsistent and possibly influenced by systematic errors. In con-trast, maximal variables of the AF (AFisomax and AFeccmax) could be measured in a reliable way which is indicated by a high test-retest reliability. Despite substantial correlations between force variables, the AFisomax differed significantly from MVIC and AFmax, which was identical with AFeccmax in almost all cases. Moreover, AFisomax revealed the highest variability between trials.
These results indicate that maximal force capacities should be assessed separately. The adaptive holding capacity of a muscle can be lower compared to a commonly determined MVIC. This is of relevance since muscles frequently need to respond adequately to external forces. If their response does not correspond to the external impact, the muscle is forced to lengthen. In this scenario, joints are not completely stabilized and an injury may occur. This outlined issue should be addressed in future research in the field of sport and health sciences.
At last, the dissertation presents another possibility to quantify the AFisomax by use of a handheld device applied in combination with a manual muscle test. This assessment delivers a more practical way for clinical purposes.
N2  - Die kumulative Dissertation setzt sich im Kern aus vier Originalartikel zusammen. Diese betrachten isometrische Muskelaktionen beim gesunden Menschen aus grundlegender physiologischer Sicht (Sauerstoff- und Blutversorgung) sowie Möglichkeiten ihrer Unterscheidung. Sie beinhaltet einen neuartigen Ansatz zur Messung einer spezifischen Form der isometrischen Haltefunktion, die bisher in der Bewegungswissenschaft nicht berücksichtigt wurde. Diese Funktion ist durch eine Anpassung an variierende äußere Kräfte gekennzeichnet, die bei täglichen Aktivitäten und im Sport von besonderer Bedeutung ist.
Im ersten Teil des Forschungsprogramms wurde untersucht, wie der M. biceps brachii mit Sauerstoff und Blut versorgt wird, indem er sich an eine moderate konstante Belastung bis zum Versagen der Aufgabe anpasst (Publikation 1). In diesem Zusammenhang wurden Regulationsmechanismen in Bezug auf die Problematik der hohe intramuskulären Drücke betrachtet, die theoretisch zu einer Komprimierung der Kapillaren führen (Publikation 2).
Darüber hinaus wurde untersucht, ob sich die Sauerstoffversorgung und die Zeit bis zum Versagen der Aufgabe (time to task failure, TTF) im Vergleich zu einer anderen isometrischen Muskelfunktion unterscheiden (Publikation 3). Diese Funktion ist hauptsächlich von diagnostischem Interesse, indem die maximale willkürliche isometrische Kontraktion (MVIC) als Goldstandard gemessen wird. Dabei zieht oder drückt eine Person an/gegen einen unüberwindbaren Widerstand. Die zugrundeliegende ziehende oder drückende Form der isometrischen Muskelaktion (pushing or pulling isometric muscle action, PIMA) unterscheidet sich jedoch von der haltenden Form (holding isometric muscle action, HIMA).
HIMAs wurden bisher hauptsächlich unter Verwendung konstanter Lasten untersucht. Um die Anpassungsfähigkeit an variierende äußere Kräfte zu quantifizieren, war ein neuer Ansatz erforderlich, der im zweiten Teil des Forschungsprogramms berücksichtigt wurde. Dazu wurde ein Gerät konstruiert, das auf einem zuvor entwickelten pneumatischen Messsystem basiert. Das Gerät sollte in der Lage sein, die Adaptive Force (AF) der Ellbogenstreckmuskulatur zu messen. Die AF bestimmt die Anpassungsfähigkeit an steigende äußere Kräfte unter isometrischen (AFiso) und exzentrischen AFecc) Bedingungen. Zunächst wurde die Frage gestellt, ob diese Parameter mit dem neuen Gerät zuverlässig erfasst werden können (Publikation 4). Anschließend wurde die Hauptforschungsfrage untersucht: Ist die maximale AFiso eine spezifische und unabhängige Variable der Muskelfunktion im Vergleich zur MVIC? Darüber hinaus enthielten beide Forschungsteile eine Unterfrage, wie die Ergebnisse beeinflusst werden können.
Die Parameter der lokalen Sauerstoffsättigung (SvO2) und der Kapillarblutfüllung (rHb) wurden während der maximaler und submaximaler HIMAs und PIMAs nicht-invasiv mit einem Spektrophotometer erfasst.
Dies waren die wichtigsten Ergebnisse: Unter Belastung pendelten sich SvO2 und rHb nach einem anfänglichen Abfall immer in einen stabilen Zustand ein. Dennoch konnte ihr Verhalten grob in zwei Typen eingeteilt werden. Bei Typ I verhielten sich beide Parameter nahezu parallel zueinander. Im Gegensatz dazu war ihr zeitlicher Verlauf bei Typ II teilweise invers. Das umgekehrte Verhalten hängt wahrscheinlich vom Grad der Desoxygenierung ab, da der rHb-Wert zuverlässig bei einem Schwellenwert von etwa 59 % SvO2 anstieg. Diser Auslösemechanismus und die gefundenen homöostatischen Gleichgewichtszustände scheinen im Widerspruch zu dem Konzept mechanisch komprimierter Kapillaren und folglich zu einem eingeschränkten Blutfluss zu stehen. Die anatomische Lage und Verlauf der Blutgefäße könnte eine hypothetische Erklärung dafür liefern, wie der Blutfluss aufrechterhalten werden könnte. HIMA und PIMA unterschieden sich nicht hinsichtlich der Sauerstoffzufuhr und der Zuordnung zu den beschriebenen Typen. Die TTF war bei PIMA tendenziell länger.
Als Unterfrage wurden Oxygenierung und TTF zwischen (HIMA) und intermittierenden freiwilligen Muskelzuckungen während einer Gewichthalteaufgabe verglichen. Die TTF, nicht aber die Oxygenierung, unterschied sich signifikant (Zuckung > HIMA). Eine veränderte neuromuskuläre Kontrolle könnte als spekulative Erklärung für die Ergebnisse dienen. Dies wird durch die Feststellung unterstützt, dass die TTF unabhängig von der durchgeführten Aufgabe (HIMA, PIMA oder Zuckung) nicht signifikant mit dem Ausmaß der Desoxygenierung korrelierte.
Andere neuromuskuläre Aspekte der Muskelfunktion wurden im zweiten Teil des Forschungsprogramms berücksichtigt. Mit dem oben erwähnten neuen Gerät wurden innerhalb von vier Versuchen an jeweils zwei Tagen unterschiedliche Kraftkapazitäten ermittelt. Unter den AF-Messungen wurde der funktionelle Gegenpart einer konzentrischen Muskelaktion, die in eine isometrische übergeht, im Vergleich zur MVIC analysiert.
Aufgrund der Ergebnisse kann davon ausgegangen werden, dass eine vorherige konzentrische Muskelaktion die MVIC nicht beeinflusst. Allerdings waren die Ergebnisse inkonsistent und möglicherweise durch systematische Fehler beeinflusst. Im Gegensatz dazu konnten die Variablen der AF (AFisomax und AFeccmax) zuverlässig gemessen werden, was sich durch eine hohe Test-Retest-Reliabilität zeigte. Trotz erheblicher Korrelationen zwischen den Kraftvariablen unterschied sich AFisomax signifikant von MVIC und AFmax, welcher in fast allen Fällen mit AFeccmax identisch war. Außerdem wies AFisomax die höchste Variabilität zwischen den Versuchen auf.
Diese Ergebnisse deuten darauf hin, dass diese Maximalkräfte separat erfasst werden sollten. Die adaptive Haltekapazität eines Muskels kann im Vergleich zu einer allgemein ermittelten MVIC niedriger sein. Dies ist von Bedeutung, da Muskeln häufig angemessen auf äußere Kräfte reagieren müssen. Wenn ihre Reaktion nicht der äußeren Einwirkung entspricht, ist der Muskel gezwungen, sich zu verlängern. In diesem Fall werden die Gelenke nicht vollständig stabilisiert und es kann zu einer Verletzung kommen. Dieses Thema sollte in der künftigen Forschung im Bereich der Sport- und Gesundheitswissenschaften betrachtet werden.
Schließlich wird in der Dissertation eine weitere Möglichkeit zur Quantifizierung der AFisomax mit Hilfe eines Handgeräts in Kombination mit einem manuellen Muskeltest vorgestellt. Diese Bewertung bietet eine praktischere Alternative für klinische Zwecke.
KW  - isometric contraction
KW  - holding isometric muscle action
KW  - neuromuscular functionality
KW  - muscle oxygen saturation
KW  - microvascular blood filling
KW  - muscle blood flow
KW  - time to task failure
KW  - haltende isometrische Muskelaktion
KW  - isometrische Kontraktion
KW  - Kapillarblutfüllung
KW  - Muskeldurchblutung
KW  - muskuläre Sauerstoffsättigung
KW  - neuomuskuläre Funktionalität
KW  - Kraftausdauer
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-571265
ER  -