Johannes A. Schuijers scite author profile

We detected nerve growth factor (NGF) by immunohistochemical localization in both fractured and unfractured rat rib. In unfractured bone, periosteal mesenchymal osteoprogenitor cells appeared to be the only skeletal cells which stained for NGF. Adjacent skeletal muscle fibers exhibited NGF staining both in fractured and unfractured bone. Fracture callus periosteal osteoprogenitor cells, marrow stromal cells, osteoblasts, young osteocytes and endothelial cells of new capillaries had moderate to heavy staining for NGF at 1 and 3 weeks after fracture. Deeply positioned osteocytes and osteoclasts showed no NGF staining. Most chondrocytes of fracture calluses stained for NGF, however, some chondrocytes did not stain which may indicate that NGF is produced at particular stages of chondrocytic differentiation. In calluses, periosteal matrix stained heavily for NGF when juxtaposed to cartilage and less obviously when associated with new bone at both 1 and 3 weeks post-fracture. However, other fibrous, cartilaginous and osseous matrices did not stain for NGF at any time. At 6 weeks post-fracture, NGF staining was largely confined to periosteal osteoprogenitor cells. The detection of NGF in periosteal osteoprogenitor cells of unfractured rib points to these cells having a role in nerve maintenance in intact bone. Furthermore, the localization of NGF in osteoprogenitor cells, marrow stromal cells, osteoblasts, certain chondrocytes, endothelial cells, periosteal matrix of the fracture callus and skeletal muscle may mean that these entities participate in fracture innervation. The presence of NGF in the callus may also indicate a direct, as yet undefined action of this neurotrophin on skeletal cell metabolism.

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Topical application of nerve growth factor improves fracture healing in rats

Grills

Schuijers

Ward

1997

Journal Orthopaedic Research

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The aim of the present study was to examine the effects of nerve growth factor on the healing of unsplinted fractured ribs. After fracture of a rib in male rats, nerve growth factor was delivered by a miniosmotic pump to the fracture site for 7 days at the rate of 1.4 micrograms/day. Callus catecholamine concentrations, bone callus size, histomorphometry, and biomechanical properties of the repairing rib were measured at 7, 21, and 42 days after fracture. After 21 days, concentrations of norepinephrine and epinephrine were significantly increased in the group treated with nerve growth factor compared with those in the control group (211% norepinephrine and 322% epinephrine). Also, the midline longitudinal area of non-osseous (fibrous tissue and cartilage) callus of the fracture was significantly smaller (54%) and had a higher proportion of cartilage in the treated group than in the controls. By 42 days, there was only bony callus between the fracture ends in both the control group and the treated group. The treated group, however, again showed significantly elevated concentrations of norepinephrine and epinephrine (286 and 382%, respectively) and significantly elevated breaking stress (50%) and Young's modulus (51%), together with a reduction in the transverse cross-sectional area of the repair site (57%). The resultant increases in effectiveness and rate of repair of bone with administration of nerve growth factor suggest that it may play an important role in the healing processes of fractured bone.

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Galanin treatment offsets the inhibition of bone formation and downregulates the increase in mouse calvarial expression of TNFα and GalR2 mRNA induced by chronic daily injections of an injurious vehicle

McDonald

Schuijers

Gundlach

et al. 2007

Bone

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Early fracture callus displays smooth muscle‐like viscoelastic properties ex vivo: Implications for fracture healing

McDonald

Dooley

McDonald

et al. 2009

Journal Orthopaedic Research

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Cells of early, fibrous callus in bone fractures possess much alpha smooth muscle actin. This callus contracts and relaxes; however, active and passive components of its force production have yet to be defined. We aimed to establish whether passive viscoelastic properties of early soft fracture callus are smooth muscle-like in nature. Under anesthesia one rib was fractured in rats and calluses removed 7 days later for analysis. Urinary bladder detrusor muscle and Achilles tendon were also resected and analyzed. Force production in these tissues was measured using a force transducer when preparations were immersed in calcium-free Krebs-Henseleit solution (pH 7.4, 228C). Viscoelastic responses were measured in each preparation in response to 50 mN increases and decreases in force after achieving basal tissue tension by preconditioning. Callus, bladder, and tendon all displayed varying, reproducible degrees of stress relaxation (SR) and reverse stress relaxation (RSR) (n ¼ 7 for all groups). Hysteresis was observed in callus, with the first SR response significantly larger than that produced in subsequent stretches (p < 0.05). Callus SR responses were greater than tendon (p < 0.001) but less than bladder (p < 0.001). Callus RSR responses were greater than tendon (p < 0.001), but no significant difference was seen between RSR of callus and bladder. We concluded that early, soft callus displayed significant SR and RSR phenomena similar to smooth muscle tissue, and SR and RSR may be important in maintenance of static tension in early callus by promoting osteogenesis and fracture healing. ß

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Early callus of fractured rib of rat contracts and relaxes ex vivo

Dooley

Howgate

Schuijers

et al. 2004

Journal Orthopaedic Research

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~ ~~~~~ AbstractPurpose. Wound contraction is an essential process in early soft-tissue repair, yet contraction of callus in fracture repair has not been investigated previously. Fracture callus consists of several cell types, many of which may have the capacity to contract. Accordingly, the purpose of the present study was to (i) determine whether early soft fracture calluses contract and relax ex vivo and (ii) identify and locate the contractile protein, alpha smooth muscle actin (aSMA) in callus.Methods. One non-weight-bearing rib was fractured in adult male rats under anaesthesia and 10 calluses were removed 5 , 7 and 9 days later for examination. Force production by calluses was measured using a sensitive force transducer when callus preparations were immersed sequentially in solutions known to either contract or relax smooth muscle preparations. Calluses and unfractured rib were analysed for the presence of aSMA using Western Blot and immunohistochemical techniques.Results. When immersed in normal Krebs-Henseleit solution (K-H; pH 7.4, 22 "C) 7 callus preparations contracted and 3 relaxed. The force response was phasic (3 calluses) or tonic (7 calluses). Subsequent immersion in Ca'+-free K-H resulted in no change in force in 4 calluses, a decrease in force (relaxation) in 3 calluses, and an increase in force (contraction) in 2 calluses when compared to the force in the preceding solution (K-H). The final incubation in a solution having a high [K+] (64 mM) partially relaxed 6 calluses, contracted 3 and produced no change in force in 1 callus compared to the final force of the callus in the Ca2+-free solution. Collagen (in the form of rat Achilles tendon), the major structural protein in soft fracture callus, relaxed in K-H and continued to relax during exposure to Ca'+-free K-H and to solutions having a high [K+].Western Blot and immunohistochemical studies detected the presence of aSMA in calluses and (in particular) in osteoprogenitor cells of fibrous callus respectively, as well as its absence from unfractured rib.Conclusions. (i) Early, soft fracture callus is capable of contracting and relaxing, (ii) the responses of callus to K-H, Ca'+-free and high [K+] solutions are distinctly different from the responses of smooth muscle preparations reported in the literature, (iii) the cell types in callus, particularly osteoprogenitor cells in uncalcified, collagenous matrix, have an essential contractile protein, aSMA, to support the observed contraction and relaxation and (iv) the contraction of soft fracture callus may facilitate fracture repair by creating tension within the callus and drawing the fracture ends together. Crown

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