Vascularized periosteum associated with cancellous bone graft: an experimental study

The association of a vascularized periosteal flap with a cancellous bone graft was studied on a group of 20 Wistar rats. Ten rats were sacrificed at 6 weeks and seven at 12 weeks (three died prematurely). The behavior of the cancellous bone graft buried in striated muscle and the osteogenic capacity of a simple vascularized periosteal flap also were observed on the same animals. Results of the study are as follows: In 14 of 17 animals, a vascularized periosteal flap wrapped around a cancellous bone graft resulted in new cortical bone formation with little resorption of the initial cancellous graft. A vascularized musculoperiosteal flap has produced a small amount of new compact bone only in 4 of 17 animals. A cancellous bone graft buried into well-vascularized muscle tissue was resorbed (15 cases) or necrotic (2 cases) at 12 weeks. In conclusion, the association of a vascularized periosteal flap and cancellous bone is a better means to produce compact bone than a vascularized periosteal flap alone or an isolated cancellous bone graft.     

Time course for bone formation with long-term external mechanical loading.

Increased mechanical loading of bone with the rat tibia four-point bending device stimulates bone formation on periosteal and endocortical surfaces. With long-term loading cell activity diminishes, and it has been reported that early gains in bone size may reverse. This study examined the time course for bone cellular and structural response after 6, 12, and 18 wk of loading at 1,200-1, 700 microstrain (muepsilon). Bone formation rates, measured by histomorphometry, were compared within groups, between loaded and contralateral nonloaded tibiae, and between weeks. Formation surface, mineral apposition rate, and bone formation rate on periosteal and endocortical surfaces were elevated after 6 wk of loading. By 12 wk of loading, periosteal and endocortical formation surface and endocortical mineral apposition rates were elevated. By 18 wk of loading, periosteal adaptation appeared complete, whereas endocortical mineral apposition rate remained elevated. No periosteal resorption was observed. Average thickness of new bone formed, from baseline to collection, was greater in loaded than nonloaded tibiae by week 6 and was maintained through week 18. Early increases in bone formation result in periosteal apposition of new bone that persists after formation ceases.     

Alfacalcidol prevents age-related bone loss and causes an atypical pattern of bone formation in aged male rats

The current study was designed to investigate the skeletal effects of alfacalcidol in aged rats. Eighteen-month-old male rats were treated with 0, 0.1, or 0.2 microg/kg/d of alfacalcidol by daily oral gavage, 5 days/week for 12 weeks. At the beginning of the treatments, one group of rats was euthanized to serve as a baseline control. At the end of the study, the second lumbar vertebrae and the right tibial diaphysess were processed for bone histomorphometric analysis. The fourth lumbar vertebrae were subjected to strength testing. The control group of rats at 21 months of age had decreased serum testosterone levels and decreased cancellous bone mass associated with increased bone turnover on the trabecular surface. The older rats had increased bone turnover on the endocortical surface and decreased bone formation on the periosteal surface compared with the 18-month group. In contrast, alfacalcidol treatment increased cancellous and cortical bone mass in aged male rats. Trabecular bone resorption was decreased whereas bone formation was maintained or increased in the rats treated with alfacalcidol. In addition, endocortical bone formation was decreased whereas periosteal bone formation was increased in the rats treated with alfacalcidol compared with vehicle-treated rats. Marrow trabecular bone area was increased by alfacalcidol treatment in tibial diaphyses. Furthermore, bone strength of the lumbar vertebral body was increased after alfacalcidol treatment. An atypical pattern of bone formation on endosteal bone surfaces was seen in the rats treated with alfacalcidol. The atypical bone formation is characterized by small, focal packets of newly formed bone on trabecular and endocortical bone surfaces. This gave the appearance of the formation of "bone buds" emanating from trabecular surfaces. These bony outgrowths were mineralized and demonstrated significant fluorochrome label indicating recent mineralization. Also, lamellae of the bony buds did not run parallel to those of the trabecular plate to which they are attached. Arrest lines presented in most of the "bone buds". In summary, alfacalcidol treatment increased cancellous and cortical bone mass and improved bone strength, resulting in the prevention of age-related bone loss in aged male rats. An atypical pattern of bone formation observed in this study may be a result of minimodeling based bone formation stimulated by alfacalcidol treatment.     

Effect of Brand's glucosamine with essence of chicken on collagen-induced arthritis in rats

The anti-arthritic effects of glucosamine incorporated in a chicken-meat extract known as Brand's Glucosamine with Essence of Chicken versus glucosamine or Essence of Chicken (EOC) alone were investigated on collagen induced arthritis (CIA) in dark agouti (DA) rats. Four groups of rats received basic food (control), 1.2% glucosamine (GLU), 0.8% EOC and 1.2% GLU + 0.8% EOC (GLU + EOC) admixed with basic food for 25 days following CIA. Foot pads were isolated on day 25 for histopathological evaluation. Clinical assessment of hind paw swelling as measured by foot pad volumes and histopathological scoring based on the degree of edema, periosteal new bone formation, periostitis and inflammatory cell infiltration of the isolated foot pad were performed. Arthritic rats given GLU + EOC showed significant reduction in left hind paw swelling following onset of arthritis. Correspondingly, a lesser degree of edema, periosteal new bone formation, periostitis and inflammatory cell infiltration was seen in histological sections of the left hind foot pads of these rats. A similar trend of reduced hind paw swelling was observed in the right hind paws of the same rats and those fed with EOC. Rats fed with GLU alone did not demonstrate these beneficial effects. The present findings demonstrate that a combination of glucosamine and EOC is effective in reducing the histopathological severity of arthritis, probably due to its ability to reduce the inflammatory conditions in CIA.     

The process of bone regeneration from devitalization to revitalization after pedicle freezing with immunohistochemical and histological examination in rabbits

The pedicle freezing procedure by liquid nitrogen is a method for the reconstruction of tumor-bearing bone after malignant tumor resection. However, the regenerative mechanism of bone after the pedicle freezing procedure is unclear. We investigated the complete process from devitalization to revitalization of bone after the pedicle freezing procedure in 13 rabbits. After osteotomy the 5 mm distal femurs were immersed in liquid nitrogen, and the specimens were divided into frozen area and sub-frozen area. The bilateral femurs were harvested for evaluation of bone regeneration by histological and immunohistochemical examination (VEGF, CD31, BMP-2 and Runx2) from 1 week to 52 weeks. The diameter of operating femurs was compared with contralateral femurs from 6 weeks to 52 weeks.No viable cells could be found from 1 to 8 weeks in the frozen area, and a mean 1.83 cm necrotic range were detected in the sub-frozen area. The periosteal reaction, massive fibrous tissue and immature bone matrix invaded from the normal area to the necrotic area from 12 weeks. Subsequently, the necrotic bone was gradually replaced by newly formed bone by creeping substitution, with endochondral and intramembrane bone formation. The diameter of frozen femurs was significantly larger than the contralateral femur at the same period from 8 weeks to 52 weeks (P < 0.01). All immunohistochemical factors were positively expressed in both areas at different time points. The active osteoblasts and microvessel migrated from marrow cavity and periosteum into dead bone. This study suggested that the frozen bone not only provides a scaffold but also possesses excellent osteoinductive properties.     

Exacerbation of arthritis by IL-1 in rat joints previously injured by peptidoglycan-polysaccharide

The arthropathic activity of mouse recombinant IL-1 (mrIL-1) after intraarticular (i.a.) injection into rat ankles was investigated. Nanogram quantities of either mrIL-1 alpha or mrIL-1 beta induced an acute transient arthritis. Arthritis induced by i.a. mrIL-1 developed more rapidly and was more severe in ankles previously injured by i.a. injection of group A streptococcal peptidoglycan-polysaccharide (PG-APS) fragments. In addition, a protracted pain response, as judged by severe limping, occurred 60 to 90 min after mrIL-1 injection into joints previously injured by PG-APS or 4 to 6 h after mrIL-1 injection into naive joints. The severity of arthritis was related to the mrIL-1 dose. Arthropathic activity of mrIL-1 alpha was neutralized by goat anti-mouse IL-1 alpha IgG, and the activity of both the alpha and beta preparations was heat labile. Repeated episodes of acute inflammation were induced by repeated i.a. injection of mrIL-1. In naive ankles this led to chronic synovitis without histologic evidence of erosions. However, in joints previously injured by PG-APS, repeated mrIL-1 injection induced a more severe chronic synovitis with a 50% incidence of early pannus formation and limited marginal erosions of cartilage and subchondral bone. Thus, mrIL-1 induces an acute exacerbation of arthritis in joints previously injured by PG-APS and repeated exposure of these joints to mrIL-1 promotes chronic erosive synovitis. These studies provide evidence for an in vivo function of IL-1 and are consistent with its role as one of the mediators in the local regulation of inflammation in recurrences of arthritis induced by bacterial cell wall polymers.     

Endoscopic foreheadplasty: a histologic comparison of periosteal refixation after endoscopic versus bicoronal lift

Endoscopic brow lift techniques using temporary fixation rely on rapid readherence of the periosteum to calvarial bone. Little is known about the histologic events that occur during the early postoperative period after these procedures. An animal study was designed to compare and contrast periosteal fixation to bone and unelevated periosteum, with endoscopic and bicoronal brow lift techniques. One method of temporary fixation is the use of absorbable (polylactic/polyglycolic acid copolymer) LactoSorb screws; a histologic analysis of implanted LactoSorb screws was also performed. Sixteen rabbits underwent brow lifts; eight underwent endoscopic brow lift and fixation with LactoSorb screws without skin excision, and another eight underwent traditional bicoronal brow lift with skin excision and closure under tension. Animals were killed 1, 2, 6, and 12 weeks after the procedures were performed to evaluate the interaction of periosteum and bone and the normal, unelevated periosteum/calvarium interface at a site distant from the operative area. Histologic specimens were examined for the degree of apposition of periosteum to bone and for any fibrous or bony reaction at this interface. Histologic analysis showed various degrees of periosteal fibrosis and fixation to calvarial bone. After an initial phase of minimal periosteal adherence and moderate inflammation, the periosteum became progressively more adherent to bone in both groups, with no significant differences between treatment groups in rates of fixation. Fixation required at least 6 weeks. LactoSorb screws were surrounded by an area of mild inflammation and were progressively hydrolyzed and digested. Periosteal fixation increases over time for bicoronal and endoscopic brow lifts with minimal differences between the two techniques. With this animal model, periosteal adherence to calvarium requires at least 6 weeks with complete adherence by 12 weeks. In addition, the use of absorbable fixation screws seems to be both effective and well tolerated. The histologic changes associated with periosteal healing observed in this study suggest that permanent or semipermanent fixation may improve the accuracy and early postoperative maintenance of forehead advancement.     

Collagenase-3 (MMP-13) deficiency protects C57BL/6 mice from antibody-induced arthritis

Introduction

Matrix metalloproteinases (MMPs) are important in tissue remodelling. Here we investigate the role of collagenase-3 (MMP-13) in antibody-induced arthritis.

Methods

For this study we employed the K/BxN serum-induced arthritis model. Arthritis was induced in C57BL/6 wild type (WT) and MMP-13-deficient (MMP-13^–/–) mice by intraperitoneal injection of 200 μl of K/BxN serum. Arthritis was assessed by measuring the ankle swelling. During the course of the experiments, mice were sacrificed every second day for histological examination of the ankle joints. Ankle sections were evaluated histologically for infiltration of inflammatory cells, pannus tissue formation and bone/cartilage destruction. Semi-quantitative PCR was used to determine MMP-13 expression levels in ankle joints of untreated and K/BxN serum-injected mice.

Results

This study shows that MMP-13 is a regulator of inflammation. We observed increased expression of MMP-13 in ankle joints of WT mice during K/BxN serum-induced arthritis and both K/BxN serum-treated WT and MMP-13^–/– mice developed progressive arthritis with a similar onset. However, MMP-13^–/– mice showed significantly reduced disease over the whole arthritic period. Ankle joints of WT mice showed severe joint destruction with extensive inflammation and erosion of cartilage and bone. In contrast, MMP-13^–/– mice displayed significantly decreased severity of arthritis (50% to 60%) as analyzed by clinical and histological scoring methods.

Conclusions

MMP-13 deficiency acts to suppress the local inflammatory responses. Therefore, MMP-13 has a role in the pathogenesis of arthritis, suggesting MMP-13 is a potential therapeutic target.     

去卵巢大鼠腰椎骨微结构变化的动态观察

目的:动态观察去卵巢大鼠腰椎骨微结构的变化。方法:将90只3月龄雌性SD大鼠按体重进行分层随机抽样分组,分为基础组(10只)、假手术组(40只)和去卵巢组(40只)。手术前(0周)处死基础组大鼠,手术后3、6、12、24周时,分批处死假手术和去卵巢组大鼠各8-10只。从每组随机取6只大鼠的第5腰椎行micro-CT扫描及三维结构重建,选取椎体1 mm处,2.0 mm×3.5mm,厚0.9 mm的骨组织为感兴趣区域(interesting area),进行骨形态计量学分析。结果:与同一时间点假手术组大鼠比较,去卵巢3周时,第5腰椎体积骨密度(v BMD)、骨体积分数(BV/TV)、骨小梁数目(Tb.N)、骨小梁厚度(Tb.Th)、骨小梁间隙(Tb.Sp)和结构模型指数(SMI)均无显著变化;去卵巢6周时,Tb.Th显著下降(P0.05),而其他指标均无显著变化;从去卵巢12周到24周时,不仅Tb.Th显著下降(P0.05),而且v BMD、BV/TV和Tb.N也显著下降(P0.05),同时Tb.Sp和SMI显著增加(P0.05)。结论:3月龄大鼠在去卵巢后的6周时骨小梁厚度变薄,12周以后,体积骨密度和骨体积分数下降,骨小梁数目减少。     

Prefabrication of bone by use of a vascularized periosteal flap and bone morphogenetic protein.

The purpose of this pilot study was to prefabricate a vascularized bone graft by using a vascularized periosteal flap containing osteoprogenitor cells, a structural matrix, and recombinant human bone morphogenetic protein-2 (rhBMP-2). In a rat model, a periosteal flap vascularized by the saphenous artery and vein was dissected off the medial surface of the tibia. This flap consisted of three layers-periosteum, muscle, and fascia-and was tubed on itself to form a watertight chamber that was then transferred on its vascular pedicle to the groin. A total of 78 vascularized periosteal chambers were constructed in 39 animals and divided into 10 groups. In group 1, the periosteal chamber was left empty. Groups 2, 3, and 4 consisted of the periosteal flap and rhBMP-2, but in group 3, the proximal vascular pedicle was ligated, and in group 4, the flap was harvested without the periosteal layer and turned inside out. Groups 5 through 10 consisted of the vascularized periosteal flap containing several different structural matrices (calcium alginate spheres, polylactic acid, or demineralized bone matrix) with or without rhBMP-2. Animals were killed at 2, 4, or 8 weeks in each group. The presence and density of any new bone formation was evaluated both radiologically and histologically. Significant bone formation was seen only in those periosteal flaps containing rhBMP-2 and either the calcium alginate or polylactic acid matrix. New bone formation increased both radiologically and histologically from 2 weeks to 8 weeks only in the periosteal flaps containing the polylactic acid matrix and rhBMP-2. This preliminary study therefore suggests that four factors-blood supply, osteoprogenitor cells in the periosteal layer, a biodegradable matrix, and rhBMP-2-are required for optimal prefabrication of a vascularized bone graft.     

Systemically administered bone morphogenetic protein-6 restores bone in aged ovariectomized rats by increasing bone formation and suppressing bone resorption

Although recombinant human bone morphogenetic proteins (BMPs) are used locally for treating bone defects in humans, their systemic effect on bone augmentation has not been explored. We have previously demonstrated that demineralized bone (DB) from ovariectomized (OVX) rats cannot induce bone formation when implanted ectopically at the subcutaneous site. Here we showed in vitro that 17beta-estradiol (E2) specifically induced expression of Bmp6 mRNA in MC3T3-E1 preosteoblastic cells and that bone extracts from OVX rats lack BMPs. Next we demonstrated that 125I-BMP-6 administered systemically accumulated in the skeleton and also restored the osteoinductive capacity of ectopically implanted DB from OVX rats. BMP-6 applied systemically to aged OVX rats significantly increased bone volume and mechanical characteristics of both the trabecular and cortical bone, the osteoblast surface, serum osteocalcin and osteoprotegerin levels, and decreased the osteoclast surface, serum C-telopeptide, and interleukin-6. E2 was significantly less effective, and was not synergistic with BMP-6. Animals that discontinued BMP-6 therapy maintained bone mineral density gains for another 12 weeks. BMP-6 increased in vivo the bone expression of Acvr-1, Bmpr1b, Smad5, alkaline phosphatase, and collagen type I and decreased expression of Bmp3 and BMP antagonists, chordin and cerberus. These results show, for the first time, that systemically administered BMP-6 restores the bone inductive capacity, microarchitecture, and quality of the skeleton in osteoporotic rats.     

A novel method to 'exercise' rats: making rats rise to erect bipedal stance for feeding - raised cage model

We employed a novel method to exercise rats: making them rise to bipedal stance for feeding using raised cages. We studied its effects on the skeletons of 6 and 10-month-old intact or orchidectomized (ORX) rats. Body and hindlimb muscle weights, tibial BMC and periosteal cortical bone formation increased after housing in raised cages, but more so in 6-month-old animals than in 10-month-old ones. In 6-month-old orchidectomized rats, raised cages partially prevented ORX-induced bone loss by stimulating periosteal cortical bone (TX) formation and decreased bone resorption next to marrow. In 10-month-old male orchidectomized rats, raised cages also decreased the endosteal and trabecular bone resorption, but not enough to prevent completely ORX-induced net bone losses. Because the osteogenic effects of raised cages alone were only partial, we also studied the interaction between raised cage and prostaglandin E(2) (PGE(2)) in 10-month-old retired female breeders. When treated with combined raised cage and PGE(2), both cortical (TX) and trabecular bone mass of the proximal tibial metaphysis and lumbar vertebral body increased over either raised cages or PGE(2) treatment alone, that was accompanied by dramatic increased bone formation at periosteal and endosteal surfaces. Thus making rats rise to erect bipedal stance for feeding helps to prevent bone loss after orchidectomy; it amplifies the anabolic effects of PGE(2), and it provides an inexpensive, non-invasive and reliable way to increase mechanical loading of certain bones of the rat skeleton.     

In vitro and in vivo induction of bone formation based on ex vivo gene therapy using rat adipose-derived adult stem cells expressing BMP-7

BACKGROUND: Adipose-derived adult stem (ADAS) cells are multipotent cells capable of differentiating into osteoblasts, adipocytes and chondrocytes. The aim of this study was to determine whether BMP-7-expressing ADAS cells would elicit bone formation invitro and in vivo. METHODS: ADAS cells were harvested from Lewis rats and transduced with adenovirus carrying the recombinant human bone morphogenetic protein-7 (Ad-BMP-7) gene. Untransduced cells and cells transduced with adenovirus carrying the enhanced green fluorescence protein (Ad-EGFP) gene served as controls. BMP-7 expression was assessed by RT-PCR, immunofluorescence on day 1, and Western blot on days 4, 8 and 12. Alkaline phosphatase (ALP) activity was assayed on days 2, 4, 6, 8, 10 and 12. Osteocalcin production and bone nodule formation were detected by immunohistochemistry and von Kossa stain on day 12. A total of 1 x 10(6) cells mixed with type I collagen were implanted into the subcutaneous pocket in Lewis rat and subjected to histologic analysis 1, 2 and 4 weeks post-implantation. RESULTS: The Ad-BMP-7-transduced ADAS cells expressed BMP-7 at both mRNA and protein levels. ALP activity was detected in Ad-BMP-7-transduced cells from day 2 to day 12, peaking on day 8. Osteocalcin production and matrix mineralization further confirmed that these cells differentiated into osteoblasts and induced bone formation in vitro. Histologic examination revealed that implantation of BMP-7-expressing ADAS cells could induce new bone formation in vivo. DISCUSSION: ADAS cells would be a promising source of adult autologous stem cells for BMP gene therapy and tissue engineering.     

Changes of bone morphology in response to hindlimb suspension of rats.

Effects of chronic hindlimb suspension or exposure to 2-G from postnatal day 4 to month 3 followed by ambulation recovery on the floor on the morphology of hindlimb bones were investigated in rats. The dorsi-flexion of the ankle was inhibited in the suspended group and such phenomena were not recovered at all. The mean weight and length of femur, tibia, and fibula were less than the cage controls at the end of suspension, but gradually increased during recovery. However, they were still less than those of the age-matched controls even after 3-month recovery. External bending of shaft and rotation of distal end of tibia were observed in the suspended group and these phenomena were not recovered at all. These morphological changes caused the inhibition of dorsi-flexion of ankle joints. The electromyogram activities of ankle plantar-flexors, soleus, plantaris, lateral gastrocnemius, were inhibited and those of dorsi-flexor, tibialis anterior, were increased during suspension. Typical changes in bone morphology were not induced by exposure to 2-G. It was suggested that gravitational unloading during developing period causes irreversible inhibition of normal bone growth. It was also indicated that the suspension-related changes in bone morphology may be caused by abnormal mechanical stress due to the altered mobilization of hindlimb muscles.     

Cancellous and cortical bone mechanical properties and tissue dynamics during pregnancy, lactation, and postlactation in the rat

There are substantial changes in maternal skeletal dynamics during pregnancy, lactation, and after lactation. The purpose of this study was to correlate changes in cortical and cancellous bone mass, structure, and dynamics with mechanical properties during and after the first reproductive cycle in rats. Rats were mated and groups were taken at parturition, end of lactation and 8 wk after weaning, and were compared with age-matched, nulliparous controls. Measurements were taken on femoral cortical bone and lumbar vertebral body cancellous bone. At the end of pregnancy, there was an increase in cortical periosteal bone formation and an increase in cortical volume, but a suppression of turnover in cancellous bone with no change in cancellous or cortical mechanical properties. Lactation was associated with a decrease in cortical and cancellous bone strength with a decrease in bone volume, but an increase in turnover on cancellous and endocortical surfaces. After lactation, there was a partial or full restoration of mechanical properties. This study demonstrates substantial changes in bone mechanics that correlate with changes in bone structure and dynamics during the first reproductive cycle in rats. The greatest changes were observed during the lactation period with partial or full recovery in the postlactational period.     

TLR4在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达

目的：检测Toll样受体4（TLR4）在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达,为进一步研究肝硬化时骨髓损伤的发生机制提供实验依据。方法：选择Wistar大鼠给予腹腔注射CCl4,一周两次,建立肝硬化大鼠模型。分别于建模8周和12周检测大鼠血浆内毒素的水平,免疫组化检测大鼠骨髓血窦内皮细胞上TLR4的表达情况,RT-PCR测定骨髓组织中TLR4mRNA的表达,分析TLR4的表达与内毒素血症间的关系。结果：给予CCl4 8周和12周时,对照组大鼠血浆内毒素水平分别为（0．216±0．024）Eu／ml和（0．133±0．022）Eu／ml,模型组大鼠血浆内毒素水平分别为（0．626±0．021）Eu／ml和（0．725±0．031）Eu／ml,分别较对照组显著升高,差异均有统计学意义（P〈0．001）;骨髓血窦内皮细胞TLR4蛋白表达及骨髓组织中TLR4mRNA的表达均显著高于对照组,差异均有统计学意义（P〈0．05）。大鼠骨髓TLR4蛋白和mRNA表达与血浆内毒素水平均呈显著正相关（r=0．841,0．803,P均〈0．001）。结论：CCl4诱导的肝硬化大鼠骨髓血窦内皮细胞TLR4表达升高,并伴随大鼠内毒素血症的发生,提示肝硬化时肠源性内毒素血症可能参与了骨髓的造血功能的损害和病变。     

TLR4 在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达

目的：检测Toll样受体4(TLR4)在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达,为进一步研究肝硬化时骨髓损伤 的发生机制提供实验依据。方法：选择Wistar大鼠给予腹腔注射CCl4,一周两次,建立肝硬化大鼠模型。分别于建模8 周和12 周 检测大鼠血浆内毒素的水平,免疫组化检测大鼠骨髓血窦内皮细胞上TLR4 的表达情况,RT-PCR 测定骨髓组织中TLR4 mRNA 的表达,分析TLR4 的表达与内毒素血症间的关系。结果：给予CCl4 8 周和12 周时,对照组大鼠血浆内毒素水平分别为(0.216± 0.024) Eu/ml 和(0.133± 0.022) Eu/ml,模型组大鼠血浆内毒素水平分别为(0.626± 0.021) Eu/ml 和(0.725± 0.031) Eu/ml,分别较对 照组显著升高,差异均有统计学意义(P<0.001);骨髓血窦内皮细胞TLR4蛋白表达及骨髓组织中TLR4 mRNA的表达均显著高于 对照组,差异均有统计学意义(P<0.05)。大鼠骨髓TLR4 蛋白和mRNA表达与血浆内毒素水平均呈显著正相关（r=0.841,0.803,P 均<0.001）。结论：CCl4 诱导的肝硬化大鼠骨髓血窦内皮细胞TLR4 表达升高,并伴随大鼠内毒素血症的发生,提示肝硬化时肠源 性内毒素血症可能参与了骨髓的造血功能的损害和病变。     

Irreversible morphological changes in leg bone following chronic gravitational unloading of growing rats

Effects of gravitational unloading or loading on the growth and development of hindlimb bones were studied in rats. Male Wistar rats were hindlimb-unloaded or loaded at 2-G from the postnatal day 4 to month 3. The morphology and mineral content of tibia and fibula, as well as the mobility of ankle joints, were measured at the end of 3-month suspension or loading, and 1, 2, and 3 months after ambulation recovery. Growth-related increases of bone weight and mineral density were inhibited by unloading. But they were gradually recovered toward the control levels, even though they were still less than those in the age-matched controls after 3 months. None of the parameters were influenced by 2-G loading. However, here we report that chronic unloading causes abnormal morphological development in hindlimb bone of growing rats. Irreversible external bend of the shaft and rotation of the distal end of tibia, which limit the dorsiflexion of ankle joints, were induced following chronic gravitational unloading during developing period. It is also suggested that such phenomena are caused by the abnormal mechanical forces imposed by muscle utilization with altered patterns. The activity of ankle dorsiflexor was increased and that of plantarflexor was inhibited during unloading.     

The Use of Biodegradable Implants in the Fixation of Small Animal Cancellous Bone Fractures

In this study the cancellous bone fractures of 10 dogs and 2 cats were surgically treated with biodegradable implants to fixate the fractures. The implants were made of selfreinforced PGA homopolymers. The patients were allowed to walk on their operated limbs immediately after the fixation and they started to use them within one week. All patients except one used their operated limbs without lameness in 6 weeks and the twelfth case in 8 weeks, due to a postoperative periosteal infection. Radiographically, the fractures of 10 patients healed in 6 weeks and in 12 weeks in 2 cases. No other pathological reactions in the bone could be seen in the radiographs than the periosteal infection. Because the implants resolved spontaneously there was no need for a second operation to remove them.     

The role of prostaglandins in bone in vivo

Prostaglandins of the E series, primarily E2 and E1, have the greatest activity in bone. Following discovery of their potent ability to stimulate bone resorption in vitro, clinical investigations have placed prostaglandins at sites of localized bone resorption associated with inflammatory or space occupying lesions in vivo. These studies have shown that prostaglandin production at such sites may be increased by cytokines such as interleukin-1 but the mechanisms by which prostaglandins stimulate bone resorption are not yet known. Observation of periosteal bone formation in patients given, pharmacological doses of prostaglandin has led to investigation of its bone forming activity. Young, growing rats have increased metaphyseal bone formation and this is accompanied by increased periosteal and endocortical bone formation in older animals. In the mature animals there is a generalized activation of remodelling with increased formation in the remodeling cycle. This is also seen in oophorectomized rats and results in repletion of the lost bone in this model of osteoporosis. In animal models of localized disuse osteopenia, prostaglandins are found to be elevated at the site of bone loss and prostaglandin inhibitors at least partially protect against the exaggerated resorption that occurs. This is also seen in models of orthodontic tooth movement, periodontitis and osteomyelitis. Prostaglandin synthesis inhibitors have been shown to delay healing of bone and this has led to limitations on their use clinically in some situations. Exogenously administered prostaglandins have been found to enhance periosteal callus formation, but healing is not uniformly enhanced. Prostaglandins have also been associated with hypercalcemia in certain animal tumors that model human hypercalcemia of malignancy but are probably most important in this condition as mediators in the localized resorption of bone at tumor sites. These in vivo studies have shown that prostaglandins are involved with increases in both bone formation and bone resorption. In vitro studies have shown that prostaglandins stimulate osteoblasts as well as osteoclastic bone resorption but understanding these effects under in vivo conditions will require further investigation.