The effects of systemic chemical sympathectomy on local bone loss induced by sciatic neurectomy

Unloading induces bone loss as seen in experimental animals as well as in space flight or in bed-ridden conditions; however, the mechanisms involved in this phenomenon are not fully understood. Klotho mutant mice exhibit osteopetrosis in the metaphyseal regions indicating that the klotho gene product is involved in the regulation of bone metabolism. To examine whether the klotho gene product is involved in the unloading-induced bone loss, the response of the osteopetrotic cancellous bones in these mice was investigated. Sciatic nerve resection was conducted using klotho mutant (kl/kl) and control heterozygous mice (+/kl) and its effect on bone was examined by micro-computed tomography (microCT). As reported previously for wild-type mice (+/+), about 30% bone loss was induced in heterozygous mice (+/kl) by unloading due to neurectomy within 30 days of the surgery. By contrast, kl/kl mice were resistant against bone loss induced by unloading after neurectomy. Unloading due to neurectomy also induced a small but significant bone loss in the cortical bone of the mid-shaft of the femur in the heterozygous mice; no reduction in the cortical bone was observed in kl/kl mice. These results indicate that klotho mutant mice are resistant against bone loss induced by unloading due to neurectomy in both cortical and trabecular bone and indicate that klotho is one of the molecules involved in the loss of bone by unloading.

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Architectural modifications and cellular response during disuse-related bone loss in calcaneus of the sheep

Journal of Applied Physiology ◽

10.1152/jappl.1996.80.1.198 ◽

1996 ◽

Vol 80 (1) ◽

pp. 198-202 ◽

Cited By ~ 16

Author(s):

T. Thomas ◽

L. Vico ◽

T. M. Skerry ◽

F. Caulin ◽

L. E. Lanyon ◽

...

Keyword(s):

Bone Loss ◽

Cellular Response ◽

Disuse Osteoporosis ◽

Os Calcis ◽

Osteoblastic Activity ◽

Regional Effects ◽

Local Bone ◽

Bone Biopsies ◽

Strain Gauge Measurements ◽

Trabecular Number

The results of simple biomechanical unloading in models of acute-disuse osteoporosis are influenced by systemic and regional effects of the method used to generate the bone loss. A model in which strain-gauge measurements confirmed that the os calcis was unloaded in healthy ewes during ambulation was assessed by histomorphometry. Twelve nonovariectomized adult female Welsh mountain sheep were submitted to hock joint immobilization by an external fixation procedure from the tibia to the metatarsus for a period of 12 wk. Histomorphometric analysis showed that this model was able to produce pure local bone loss, as transiliac bone biopsies failed to reveal any difference between the initial and final results. Immobilized and nonimmobilized calcanei were both removed postmortem. After the 12 wk of the study, osteoclastic activity was increased in accordance with the usual disuse process. An unexpected increase of osteoblastic activity was also observed, possibly related to recovery after the initial dramatic bone loss, but an artifact of the surgical procedure such as a regional acceleration phenomenon cannot be definitively excluded. However, the increased osteoblastic activity was not sufficient to prevent accentuation of the negative bone balance, resulting in a 29% decrease of trabecular bone volume in immobilized calcanei compared with nonimmobilized calcanei. This reduction was due to thinning of trabeculae (72.4 +/- 12.1 vs. 98.9 +/- 15.9 microns; P < 0.05) without any change in trabecular number (2.74 +/- 0.72 vs. 2.79 +/- 0.40/mm2; not significant). In conclusion, this model only locally increased both osteoclastic and osteoblastic activities leading to bone loss and architectural modifications. The decreased bone formation usually observed in other models of disuse osteoporosis may therefore not constitute a local phenomenon generated by unloading.

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Effect of Pamidronate in Preventing Local Bone Loss After Total Hip Arthroplasty: A Randomized, Double-Blind, Controlled Trial

Journal of Bone and Mineral Research ◽

10.1359/jbmr.2001.16.3.556 ◽

2001 ◽

Vol 16 (3) ◽

pp. 556-564 ◽

Cited By ~ 74

Author(s):

J. Mark Wilkinson ◽

Ian Stockley ◽

Nicola F. A. Peel ◽

Andrew J. Hamer ◽

Reginald A. Elson ◽

...

Keyword(s):

Total Hip Arthroplasty ◽

Bone Loss ◽

Hip Arthroplasty ◽

Controlled Trial ◽

Double Blind ◽

Total Hip ◽

Local Bone

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Therapeutic Strategies to Reverse Local Bone Loss in Erosive Arthritis

Current Rheumatology Reviews ◽

10.2174/157339707782408964 ◽

2007 ◽

Vol 3 (4) ◽

pp. 275-279

Author(s):

Jochen Zwerina ◽

Karin Polzer ◽

Silvia Hayer ◽

Kurt Redlich ◽

Georg Schett

Keyword(s):

Bone Loss ◽

Therapeutic Strategies ◽

Erosive Arthritis ◽

Local Bone

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Osteoporosis: A factor on residual limb pain in traumatic trans-tibial amputations

Prosthetics and Orthotics International ◽

10.1080/03093640802016316 ◽

2008 ◽

Vol 32 (2) ◽

pp. 172-178 ◽

Cited By ~ 6

Author(s):

Kamil Yazicioglu ◽

Ilknur Tugcu ◽

Bilge Yilmaz ◽

Ahmet Salim Goktepe ◽

Haydar Mohur

Keyword(s):

Bone Loss ◽

Lower Limb ◽

Gait Pattern ◽

Residual Limb ◽

Disuse Atrophy ◽

Mineral Density ◽

Limb Pain ◽

Local Bone ◽

Painful Sensation ◽

Residual Limb Pain

Residual limb pain is defined as a painful sensation or feeling from the remaining part of the leg. Aggressive bone edge, bone spur formation, neuroma, abscess or bursitis are common causes of residual limb pain. On the other hand, regional osteoporosis on femur and tibia is an inevitable consequence in patients with lower limb amputations. The etiology of bone loss is uncertain but it is likely to be a local phenomenon in lower limb amputees. Altered gait pattern, decreased weight load, disuse atrophy and lack of muscular action at the limb seem to be important causal factors in the development of both local and generalized osteoporosis. The aims of this study are: (i) To determine if there is significant bone mineral density (BMD) difference at proximal tibias and femurs between intact and amputated limbs, (ii) to investigate the factors affecting bone loss in these areas and (iii) to investigate the possible relationship between residual limb pain and local bone loss. The 36 men who participated in this study had amputations due to land-mine injuries. Dual energy X-ray absorptiometry was used to determine BMD of the proximal femur and proximal tibia. The non-amputated limb was used as a control for the amputated side. BMD values on the amputated side were significantly lower than non-amputated side. In addition, BMD values on the amputated limbs with residual limb pain were significantly less than in those without residual limb pain. Insufficient mechanical loading leads to bone loss in patients with trans-tibial amputations. Furthermore, bone loss at tibia may be a cause of residual limb pain. However, this needs to be confirmed with more specific studies in the future.

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Osteogenic and Anti-Inflammatory Behavior of Injectable Calcium Phosphate Loaded with Therapeutic Drugs

Nanomaterials ◽

10.3390/nano10091743 ◽

2020 ◽

Vol 10 (9) ◽

pp. 1743

Author(s):

Ines Fasolino ◽

Alessandra Soriente ◽

Luigi Ambrosio ◽

Maria Grazia Raucci

Keyword(s):

Bone Loss ◽

Bone Structure ◽

Bone Fractures ◽

Musculoskeletal Diseases ◽

Calcium Phosphates ◽

Diclofenac Sodium ◽

Bone Lesions ◽

Local Bone ◽

Inflammatory Drugs ◽

Anti Inflammatory

Bone fractures related to musculoskeletal disorders determine long-term disability in older people with a consequent significant economic burden. The recovery of pathologically impaired tissue architecture allows avoiding bone loss-derived consequences such as bone height reduction, deterioration of bone structure, inflamed bone pain, and high mortality for thighbone fractures. Actually, standard therapy for osteoporosis treatment is based on the systemic administration of biphosphonates and anti-inflammatory drugs, which entail several side effects including gastrointestinal (GI) diseases, fever, and articular pain. Hence, the demand of innovative therapeutic approaches for locally treating bone lesions has been increasing in the last few years. In this scenario, the development of injectable materials loaded with therapeutically active agents (i.e., anti-inflammatory drugs, antibiotics, and peptides mimicking growth factors) could be an effective tool to treat bone loss and inflammation related to musculoskeletal diseases, including osteoporosis and osteoarthritis. According to this challenge, here, we propose three different compositions of injectable calcium phosphates (CaP) as new carrier materials of therapeutic compounds such as bisphosphonates (i.e., alendronate), anti-inflammatory drugs (i.e., diclofenac sodium), and natural molecules (i.e., harpagoside) for the local bone disease treatment. Biological quantitative analyses were performed for screening osteoinductive and anti-inflammatory properties of injectable drug-loaded systems. Meanwhile, cell morphological features were analyzed through scanning electron microscopy and confocal investigations. The results exhibited that the three systems exerted an osteoinductive effect during later phases of osteogenesis. Simultaneously, all compositions showed an anti-inflammatory activity on inflammation in vitro models.

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