Macrophages in bone fracture healing: Their essential role in endochondral ossification.

In fracture healing, skeletal and immune system are closely interacting through common cell precursors and molecular mediators. It is thought that the initial inflammatory reaction, which involves migration of macrophages into the fracture area, has a major impact on the long term outcome of bone repair. Interestingly, macrophages reside during all stages of fracture healing. Thus, we hypothesized a critical role for macrophages in the subsequent phases of bone regeneration. This study examined the impact of in vivo induced macrophage reduction, using clodronate liposomes, on the different healing phases of bone repair in a murine model of a standard closed femoral fracture. A reduction in macrophages had no obvious effect on the early fracture healing phase, but resulted in a delayed hard callus formation, thus severely altering endochondral ossification. Clodronate treated animals clearly showed delayed bony consolidation of cartilage and enhanced periosteal bone formation. Therefore, we decided to backtrack macrophage distribution during fracture healing in non-treated mice, focusing on the identification of the M1 and M2 subsets. We observed that M2 macrophages were clearly prevalent during the ossification phase. Therefore enhancement of M2 phenotype in macrophages was investigated as a way to further bone healing. Induction of M2 macrophages through interleukin 4 and 13 significantly enhanced bone formation during the 3week investigation period. These cumulative data illustrate their so far unreported highly important role in endochondral ossification and the necessity of a fine balance in M1/M2 macrophage function, which appears mandatory to fracture healing and successful regeneration.

Callus formation is related to the expression ratios of estrogen receptors-alpha and -beta in ovariectomy-induced osteoporotic fracture healing.

INTRODUCTION: This study characterizes ovariectomized (OVX)-induced osteoporotic fracture healing with focus on estrogen receptors (ERs). Callus formation plays a critical role in fracture healing, and ERs are well-known mechanosensors in osteogenic pathways. It was hypothesized that callus formation was related to and partially determined by the difference in expression patterns of ERs in both normal and OVX-induced osteoporotic fractures. METHODS: Closed femoral fracture in SHAM and ovariectomized rats were used in this study. Weekly callus width (CW) and area (CA), endpoint mechanical properties, gene expressions of Col-1, BMP-2, ER-α, ER-ß and ER-α:ER-ß ratios (ER-ratios), and correlations were assessed at 2, 4 and 8 weeks post-fracture. RESULTS: CW and CA results confirmed that OVX-induced osteoporotic fracture was delayed at 2-4 weeks with impaired endpoint mechanical properties. Gene expressions of ER-α and ER-ß were higher in the SHAM group at week 2 (p < 0.05) and later lowered at week 8; whereas the OVX group showed an opposing trend. Moderate correlation existed between ER-α and BMP-2 (0.545, p = 0.003), and ER-ratio and BMP-2 (0.601, p = 0.001), and BMP-2 to CW and CA (r = 0.709, p = 0.000 and r = 0.588, p = 0.001, respectively). ER-α and ER-ß proteins expressions were confirmed by immunohistochemistry at the fracture callus in reparative progenitor cells, osteoblasts- and osteoclasts-like cells. CONCLUSION: We conclude that the delayed healing rate and impaired callus quality in OVX-induced osteoporotic fracture is related to the delayed expression of ERs. A high ER-α:ER-ß ratio favors callus formation.

Delayed fracture healing in aged senescence-accelerated P6 mice.

BACKGROUND: Osteoporosis is characterized by poor bone quality. However, it is still controversially discussed whether osteoporosis compromises fracture healing. Herein, we studied whether the course of healing of a femur fracture is affected by osteoporosis or age. METHODS: Using the senescence-accelerated osteoporotic mouse, strain P6 (SAMP6), and a closed femur fracture model, we studied the process of fracture healing in 5- and 10-month-old animals, including biomechanical, histomorphometric, and protein biochemical analysis. RESULTS: In five-month-old osteoporotic SAMP6 mice, bending stiffness, callus size, and callus tissue distribution as well as the concentrations of the bone formation marker osteocalcin and the bone resorption markers tartrate-resistant acid phosphatase form 5b (TRAP) and deoxypyridinoline (DPD) did not differ from that of non-osteoporotic, senescence-resistant, strain 1 (SAMR1) controls. In contrast, femur fractures in 10-month-old SAMP6 mice showed a significantly reduced bending stiffness and an increased callus size compared to fractures in age-matched SAMR1 controls. This indicates a delayed fracture healing in advanced age SAMP6 mice. The delay of fracture healing was associated with higher concentrations of TRAP and DPD. Significant differences in osteocalcin concentrations were not found between SAMP6 animals and SAMR1 controls. CONCLUSION: In conclusion, the present study indicates that fracture healing in osteoporotic SAMP6 mice is not affected in five-month-old animals, but delayed in animals with an age of 10 months. This is most probably due to the increased osteoclast activity in advanced age SAMP6 animals.

Myogenic progenitors contribute to open but not closed fracture repair.

BACKGROUND: Bone repair is dependent on the presence of osteocompetent progenitors that are able to differentiate and generate new bone. Muscle is found in close association with orthopaedic injury, however its capacity to make a cellular contribution to bone repair remains ambiguous. We hypothesized that myogenic cells of the MyoD-lineage are able to contribute to bone repair. METHODS: We employed a MyoD-Cre+:Z/AP+ conditional reporter mouse in which all cells of the MyoD-lineage are permanently labeled with a human alkaline phosphatase (hAP) reporter. We tracked the contribution of MyoD-lineage cells in mouse models of tibial bone healing. RESULTS: In the absence of musculoskeletal trauma, MyoD-expressing cells are limited to skeletal muscle and the presence of reporter-positive cells in non-muscle tissues is negligible. In a closed tibial fracture model, there was no significant contribution of hAP+ cells to the healing callus. In contrast, open tibial fractures featuring periosteal stripping and muscle fenestration had up to 50% of hAP+ cells detected in the open fracture callus. At early stages of repair, many hAP+ cells exhibited a chondrocyte morphology, with lesser numbers of osteoblast-like hAP+ cells present at the later stages. Serial sections stained for hAP and type II and type I collagen showed that MyoD-lineage cells were surrounded by cartilaginous or bony matrix, suggestive of a functional role in the repair process. To exclude the prospect that osteoprogenitors spontaneously express MyoD during bone repair, we created a metaphyseal drill hole defect in the tibia. No hAP+ staining was observed in this model suggesting that the expression of MyoD is not a normal event for endogenous osteoprogenitors. CONCLUSIONS: These data document for the first time that muscle cells can play a significant secondary role in bone repair and this knowledge may lead to important translational applications in orthopaedic surgery. Please see related article: http://www.biomedcentral.com/1741-7015/9/136.

Global gene profiling reveals a downregulation of BMP gene expression in experimental atrophic nonunions compared to standard healing fractures.

Nonunion is a challenging problem that may occur following certain bone fractures. However, there has been little investigation of the molecular basis of nonunions. Bone morphogenetic proteins (BMPs) play a significant role in osteogenesis. However, little is known about the expression patterns of BMPs in abnormal bone healing that results in nonunion formation. These facts prompted us to investigate and compare the gene expression patterns of BMPs and their antagonists in standard healing fractures and nonunions using rat experimental models. Standard closed healing fractures and experimental atrophic nonunions produced by periosteal cauterization at the fracture site were created in rat femurs. At postfracture days 3, 7, 10, 14, 21, and 28, total RNA was extracted from the callus of standard healing fracture and fibrous tissue of nonunion (n=4 per each time point and each group). Gene expression of BMPs, BMP antagonists, and other regulatory molecules were studied by methods including Genechip microarray and real-time quantitative RT-PCR. Gene expression of BMP-2, 3, 3B, 4, 6, 7, GDF-5, 7, and BMP antagonists noggin, drm, screlostin, and BAMBI were significantly lower in nonunions compared to standard healing fractures at several time points. Downregulation in expression of osteogenic BMPs may account for the nonunions of fracture. The balance between BMPs and their endogenous antagonists is critical for optimal fracture healing.

Healing of fractures in osteoporotic rat mandible shown by the expression of bone morphogenetic protein-2 and tumour necrosis factor-alpha.

We studied the healing process of mandibular closed fractures in osteoporotic rats using specific antibodies to bone morphogenetic protein-2 (BMP-2) and tumour necrosis factor-alpha (TNF-alpha). We confirmed the osteoporosis in rats after oophorectomy by micro-CT, and then caused unilateral closed fractures in the mandible and monitored the healing process after 7, 14, 21, and 28 days. Data were compared simultaneously with those from a group of rats that had a sham operation. During healing of the fracture in the osteoporotic group there was a prolonged phase of endochondral ossification, with an increased number of osteoclasts (p<0.01). Expressions of BMP-2 and TNFalpha were more pronounced in the osteoporotic group and there was an increase in the number of osteoblasts and TNFalpha(+) cells compared with the normal control (p<0.01). BMP-2 was related to the differentiation of osteoblasts and the higher values of TNFalpha were correlated with the up-regulation of osteoclasts during the prolonged phase of bone turnover. We conclude that the healing of fractures in osteoporotic bone is delayed about a week compared with controls. In the healing of fractures in osteoporotic bone, there were more osteoblasts and osteoclasts but there was a predominance of osteoclasts probably induced by TNFalpha. The prolonged phase of bone turnover with osteoclast predominance in the osteoporotic group is suggestive of the cause of delay in the healing of the fracture.

Biochemical changes after trauma and skeletal surgery of the lower extremity: quantification of the operative burden.

OBJECTIVE: To quantify changes in variables of inflammation, coagulation, and fibrinolysis in blunt trauma patients with lower extremity fractures who underwent different types of surgical procedures. DESIGN: Prospective, cohort study. SETTING: Level I university trauma center. PATIENTS: We allocated 83 blunt trauma patients in stable condition and 22 patients eligible for elective hip replacement to four treatment groups. INTERVENTIONS: In 34 multiply traumatized patients with femoral fracture (group PTFF) and in 28 patients with an isolated femoral fracture (group IFF), primary unreamed intramedullary nailing for stabilization of the femoral shaft fracture was performed. In 22 patients, an elective uncemented total hip arthroplasty (group THA) was inserted for osteoarthritis, and in 21 control patients, an isolated ankle fracture (group AF) was acutely stabilized. MEASUREMENTS AND MAIN RESULTS: From serially sampled central venous blood, the perioperative concentrations of interleukin (IL)-6, of tumor necrosis factor-alpha, of prothrombin fragments 1 + 2, and of D-dimer cross-linked fibrin degradation products were evaluated. Intramedullary instrumentation for an isolated femur fracture caused a significant perioperative increase in the concentrations of IL-6 (preoperative IL-6, 52 +/- 12 pg/mL; IL-6 30 mins postinsertion, 78 +/- 14 pg/mL; p = .02). This increase was comparable with group THA (preoperative IL-6, 46 +/- 16 pg/mL; IL-6 30 mins postinsertion, 67 +/- 11 pg/mL; p = .03). A positive correlation occurred between both groups (r = .83, p < .0004). Multiple trauma patients demonstrated significantly (p = .0002) higher IL-6 concentrations than all other groups throughout the study period and showed a significant increase after femoral nailing (preoperative IL-6, 570 +/- 21 pg/mL; IL-6 30 mins postinsertion, 690 +/- 24 pg/mL; p = .003), whereas no perioperative change was seen in group AF. The highest IL-6 increases were associated with a longer ventilation time (group PTFF) and a longer period of positive fluid balances (groups PTFF, IFF, THA). The coagulatory variables demonstrated similar perioperative increases in groups IFF and THA, but not in groups PTFF and AF. The IL-6 concentrations and the prothrombin fragments 1 + 2 concentrations correlated between groups THA and IFF at 30 mins and at 1 hr after surgery (r2 = .64, p < .02). In all patients the clinical variables were stable perioperatively. CONCLUSIONS: Major surgery of the lower extremity causes changes to the inflammatory, fibrinolytic, and coagulatory cascades in patients with stable cardiopulmonary function. The inflammatory response induced by femoral nailing is biochemically comparable to that induced by uncemented total hip arthroplasty. In multiple trauma patients, increases, which occurred in addition to those induced by the initial trauma, were measured. Definitive primary femoral stabilization by intramedullary nailing imposes an additional burden to the patient with blunt trauma. A careful preoperative investigation is required to evaluate whether primary definitive stabilization can be performed safely.

Severe depression of host immune functions following closed-bone fracture, soft-tissue trauma, and hemorrhagic shock.

OBJECTIVE: To determine the contribution of soft-tissue trauma plus hemorrhage, bone fracture and hemorrhage, as well as the contribution of bone fracture, soft-tissue trauma and hemorrhage on host immune function. SUBJECTS: Adult male mice (n = 6/group). DESIGN: Prospective, randomized, controlled study. SETTING: Animal laboratory at a university-affiliated hospital. INTERVENTIONS: Closed-bone fracture (right lower leg; external fixation) and/or soft-tissue trauma (2.5-cm midline laparotomy, closed in two layers) were induced before hemorrhagic shock (mean arterial blood pressure of 35 +/- 5 (SEM) mm Hg for 90 mins, followed by fluid resuscitation) in male C3H/HeN mice and the animals were killed at 72 hrs after initiation of the experiment. MEASUREMENTS AND MAIN RESULTS: Splenocyte interleukin (IL)-2 and IL-3 release capacity, as well as splenic and peritoneal macrophage IL-1 and IL-6 release capacity were determined. Different traumatic insults, i.e., bone fracture or soft-tissue trauma in conjunction with hemorrhage, produced comparable immune depression. More significant depression of splenocyte IL-2 and IL-3 release capacity as well as macrophage IL-1 and IL-6 release capacity occurred with the combined insult (i.e., bone fracture/soft-tissue injury and hemorrhage) than after bone injury or tissue trauma alone with hemorrhage. CONCLUSIONS: The combination of closed-bone fracture and soft-tissue trauma before hemorrhage leads to even more compromised immunity than either soft-tissue trauma or closed-bone fracture along with hemorrhage. The markedly depressed immune function following bone injury, soft-tissue trauma, and hemorrhagic shock may contribute to the increased susceptibility of severely injured patients to sepsis and the ensuing multiple organ failure in the clinical situation.

[Effect of radix Salviae miltiorrhizae on calcium, zinc, copper content in serum, callus and bony tissue in early stage of healing process in rat closed tibial fracture].

Changes of calcium, zinc, copper contents in serum, callus and bony tissue in the early stage of the healing process of rat closed tibial fracture, also the changes of them with radix Salviae miltiorrhizae (RSM) treatment were studied. It was found that calcium, zinc contents and Zn/Cu ratio increased significantly and the rise of serum copper content was inhibited by the administration of RSM after fracture. Zn/Cu ratio in fracture callus was correlated to the calcium content in fracture callus. These findings suggested that the effect of the promotion of RSM on fracture healing was related to the increased zinc content in serum, also related to the acceleration of mobilization of zinc in fractured bone, and to the acceleration of fracture callus formation and mineralization process by the increased zinc and Zn/Cu ratio in the callus of the fracture.

[The role of cyclic nucleotides in reparative bone formation]. / Rol' tsiklicheskikh nukleotidov v reparativnom kosteobrazovanii.

Distinct alterations in content of cyclic nucleotides were observed during treatment of 133 patients with fractures of long tubular bones. The following effects were found after initial increase in cAMP content: increase in tissue permeability, aseptic inflammation, inhibition of cell mitosis, acceleration of cell enzymes synthesis, of protein biosynthesis and of the rate of microcirculation in the traumatized region. Elevation of cGMP concentration led to initiation of bone marrow proliferation, to augmented formation of organic matrix and its mineralization. Monitoring of cyclic nucleotides concentration enabled to evaluate the reparative osteogenesis activity.

[Animal experimental scintigraphic studies of closed lower leg fractures during the 1st 24 hours following the fracture trauma]. / Tierexperimentelle szintigraphische Untersuchungen bei geschlossenen Unterschenkelfrakturen während der ersten 24 Stunden nach dem Frakturtrauma.

A closed fracture in the medium third part of the tibia was carried out in 50 rabbits. The scintigraphy was performed in groups of 5 animals at a time 2, 4, 6, 10, 12, 14, 16, 18, and 24 hours after the fracture trauma, in each case 45 minutes after the injection of 8 MBq 99mTc diphosphonat per kg body weight. The ROI activity quotient of both shank diaphysis was analysed. The first ascent was observed at the tenth postoperative hour. The ROI activity quotient was 2.1 24 hours after the fracture trauma. No marking of the fracture area was observed but an increase of the activity altogether above the diaphysis, and no ascent of the activity quotient in the neighbouring joints was observed.

[Adenohypophyseal hormone and corticosteroid content in the blood and urine in light mechanical injury]. / Soderzhanie nekotorykh gormonov adenogipofiza i kortikosteroidov v krovi i mochi bol'nykh pri legkoi mekhanicheskoi travme.

A considerably increased content of adrenocorticotropic, somatotropic and thyreo-stimulating hormones of the hypophysis in the blood serum, as well as corticosteroids in the blood and especially in the day urine was noted in 27 male patients with the first 4--8 days after light mechanical traumas not resulting in pronounced disturbances of homeostasis and having favourable outcomes. It has been shown that a simultaneous assessment of cortisole and corticosterone in the day urine is most informative among the studied forms of adrenal hormones (17-OCS, cortisole, corticosterone) in the evaluation of the functional state of the adrenal cortex and corticosteroid balance in the organism of the patients.