Intramuscular nerve damage in lacerated skeletal muscles may direct the inflammatory cytokine response during recovery.

The expression of inflammatory cytokines and growth factors in surgically repaired lacerated muscles over a 12-week recovery phase was investigated. We hypothesized that these expression levels are influenced by both neural and muscular damage within lacerated muscles. Microarrays were confirmed with reverse transcription-polymerase chain reaction assays and histology of biopsies at the lesion of three simulated lacerated muscle models in 130 adult rats.

Myosin heavy chain isoform profiles remain altered at 7 months if the lacerated medial gastrocnemius is poorly reinnervated: a study in rabbits.

Lacerated skeletal muscles often do not recover full function after repair. Denervated muscles with altered myosin heavy chain isoform (MHC) profiles are known to result in functional impairment. We studied the functional recovery of lacerated muscles, assessing MHC profile changes in association to the involvement of the intramuscular nerve (IM).

An autologous cell lysate extract from human embryonic stem cell (hESC) derived osteoblasts can enhance osteogenesis of hESC.

It was recently demonstrated that osteogenesis of hESC was more efficient without the initial embryoid body formation step. This study sought to further improve this direct differentiation culture system, by developing an autologous osteogenic-inducing culture supplement extracted from hESC-derived osteogenic cells themselves. A whole cell lysate was prepared from hESC-derived osteogenic cells, simply by exposure to deionized water followed by free-thawing and subsequent filtration.

The cut intramuscular nerve affects the recovery in the lacerated skeletal muscle.

The recovery of lacerated skeletal muscles are said to be slow and incomplete. Often the intramuscular (IM-) nerve is concomitantly cut, but never repaired. We questioned whether the IM-nerve should also be reanastamosed before repairing the skeletal muscle.

The role of intramuscular nerve repair in the recovery of lacerated skeletal muscles.

The repair of lacerated muscle often results in suboptimal recovery. An important cause of poor outcome is denervation of the distal segment. The rabbit medial gastrocnemius muscle laceration model was used to assess whether intramuscular nerve repair resulted in better recovery.

Properties of the two neuromuscular compartments in a split bipennate muscle.

Bipennate muscles may be split along their distal aponeurosis, dividing each into two compartments. These sub-muscle units may be used in tendon transfers. This paper presents the contractile properties of the two sub-units of the flexor carpi ulnaris in a macaca fascicularis, after it was split by up to 80% of its length.