Architectural properties of the first dorsal interosseous muscle
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Abstract:
Muscle architecture is considered to reflect the function of muscle in vivo, and is important for example to clinicians in designing tendon-transfer and tendon-lengthening surgeries. The purpose of this study was to quantify the architectural properties of the FDI muscle. It is hypothesized that there will be consistency, that is low variability, in the architectural parameters used to describe the first dorsal interosseous muscle because of its clear functional role in index finger motion. The important architectural parameters identified were those required to characterize a muscle adequately by modeling. Specifically the mass, cross-sectional area, and length of the tendon and muscle were measured in cadavers along with the muscle fiber optimum length and pennation angle, and the moment arm of the first dorsal interosseous at the metacarpophalangeal joint. These parameters provide a characterization of the architecture of the first dorsal interosseous, and were used to indicate the inherent variability between samples. The results demonstrated a large amount of variability for all architectural parameters measured; leading to a rejection of the hypothesis. Ratios designed to describe the functioning of the muscles in vivo, for example the ratio of tendon to fiber optimum lengths, also demonstrated a large variability. The results suggest that function cannot be deduced from form for the first dorsal interosseous, and that subject-specific architectural parameters may be necessary for the formulation of accurate musculoskeletal models or making clinical decisions.Keywords:
Muscle architecture
Metacarpophalangeal joint
Objectives: Observe the structure of the flexor digitorum profundus (FDP) tendon macroscopically in cadaver forearms from the muscle-tendon junction to the carpal tunnel.
Methods: We used 11 forearms belonging to cadavers and fixed with formaldehyde. The forearms numbered 1, 2, 8, 9, 10, 11 were the left and right arms of the same cadavers. Those numbered 3, 4, 5, 6, 7 belonged to different cadavers. Dissections were made by using the atraumatic surgical technique. The tendons were studied to identify the structure and number of the fibers forming them.
Results: The presence of a large common tendon was found in 10 of the 11 forearms. In 4 of these, the common tendon included the tendons of all four fingers. While the common tendon included 3 fingers in four forearms, it only included tendons belonging to 2 fingers in two forearms. It was not possible in one forearm to separate the common tendon into its fibers. In another forearm, tendons belonging to each digit were separate and independent starting at the muscle-tendon junction to the attachment points.
Conclusion: The majority of the cadaver forearms used in the study displayed a single large FDP tendon in the zone between the muscle-tendon joint to the carpal tunnel entry prior to being distributed into each index. This anatomical feature should be considered in choosing materials and surgical technique for Zone V FDP tendon injuries, as well as in planning the rehabilitation process.
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Metacarpophalangeal joint
Finger joint
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Dislocations of the metacarpophalangeal (MCP) joint are not common, but when they do occur, they are usually dorsal (the proximal phalanx is displaced dorsally relative to the metacarpal), and typically involve the index finger. Prompt recognition of this injury is important to ensure the best possible outcome.
Metacarpophalangeal joint
Proximal phalanx
Phalanx
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Dorsal dislocation of the index metacarpophalangeal joint, although uncommon, is a serious injury. An open reduction is usually necessary. In the present case, an open reduction was performed by a dorsal approach. The pathological anatomy is described.
Metacarpophalangeal joint
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Objectives: Observe the structure of the flexor digitorum profundus (FDP) tendon macroscopically in cadaver forearms from the muscle-tendon junction to the carpal tunnel. Methods: We used 11 forearms belonging to cadavers and fixed with formaldehyde. The forearms numbered 1, 2, 8, 9, 10, 11 were the left and right arms of the same cadavers. Those numbered 3, 4, 5, 6, 7 belonged to different cadavers. Dissections were made by using the atraumatic surgical technique. The tendons were studied to identify the structure and number of the fibers forming them. Results: The presence of a large common tendon was found in 10 of the 11 forearms. In 4 of these, the common tendon included the tendons of all four fingers. While the common tendon included 3 fingers in four forearms, it only included tendons belonging to 2 fingers in two forearms. It was not possible in one forearm to separate the common tendon into its fibers. In another forearm, tendons belonging to each digit were separate and independent starting at the muscle-tendon junction to the attachment points. Conclusion: The majority of the cadaver forearms used in the study displayed a single large FDP tendon in the zone between the muscle-tendon joint to the carpal tunnel entry prior to being distributed into each index. This anatomical feature should be considered in choosing materials and surgical technique for Zone V FDP tendon injuries, as well as in planning the rehabilitation process.
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Muscle architecture is an important component to typical musculoskeletal models. Previous studies of human muscle architecture have focused on a single joint, two adjacent joints, or an entire limb. To date, no study has presented muscle architecture for the upper and lower limbs of a single cadaver. Additionally, muscle architectural parameters from elderly cadavers are lacking, making it difficult to accurately model elderly populations. Therefore, the purpose of this study was to present muscle architecture of the upper and lower limbs of a 104 year old female cadaver. The major muscles of the upper and lower limbs were removed and the musculotendon mass, tendon mass, musculotendon length, tendon length, pennation angle, optimal fascicle length, physiological cross-sectional area, and tendon cross-sectional area were determined for each muscle. Data from this complete cadaver are presented in table format. The data from this study can be used to construct a musculoskeletal model of a specific individual who was ambulatory, something which has not been possible to date. This should increase the accuracy of the model output as the model will be representing a specific individual, not a synthesis of measurements from multiple individuals. Additionally, an elderly individual can be modeled which will provide insight into muscle function as we age.
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Fascicle
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Muscle architecture
Vastus lateralis muscle
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Abstract Despite the functional importance of the human quadriceps femoris in movements such as running, jumping, lifting and climbing, and the known effects of muscle architecture on muscle function, no research has fully described the complex architecture of this muscle group. We used ultrasound imaging techniques to measure muscle thickness, fascicle angle and fascicle length at multiple regions of the four quadriceps muscles in vivo in 31 recreationally active, but non‐strength‐trained adult men and women. Our analyses revealed a reasonable similarity in the superficial quadriceps muscles, which is suggestive of functional similarity (at least during the uni‐joint knee extension task) given that they act via a common tendon. The deep vastus intermedius (VI) is architecturally dissimilar and therefore probably serves a different function(s). Architecture varies significantly along the length of the superficial muscles, which has implications for the accuracy of models that assume a constant intramuscular architecture. It might also have consequences for the efficiency of intra‐ and intermuscular force transmission. Our results provide some evidence that subjects with a given architecture of one superficial muscle, relative to the rest of the subject sample, also have a similar architecture in other superficial muscles. However, this is not necessarily true for vastus lateralis (VL), and was not the case for VI. Therefore, the relative architecture of one muscle cannot confidently be used to estimate the relative architecture of another. To confirm this, we calculated a value of whole quadriceps architecture by four different methods. Regardless of the method used, we found that the absolute or relative architecture of one muscle could not be used as an indicator of whole quadriceps architecture, although vastus medialis, possibly in concert with VL and the anterior portion of VI, could be used to provide a useful snapshot. Importantly, our estimates of whole quadriceps architecture show a gender difference in whole quadriceps muscle thickness, and that muscle thickness is positively correlated with fascicle angle whereas fascicle length is negatively, although weakly, correlated with fascicle angle. These results are supportive of the validity of estimates of whole quadriceps architecture. These data are interpreted with respect to their implications for neural control strategies, region‐specific adaptations in muscle size in response to training, and gender‐dependent differences in the response to exercise training.
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Fascicle
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Anterolateral ligament
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Many causes for metacarpophalangeal joint locking have been documented. However nearly all are from volar entrapment of periarticular structures. The following case, unlike those previously reported in the literature, was one with locking caused by dorsal entrapment. The differences in presentation and its importance to subsequent treatment are highlighted.
Metacarpophalangeal joint
Entrapment
Presentation (obstetrics)
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