Impaired bone healing biology secondary to soft tissue deficits and chemotherapy contribute to non-union, fracture and infection following limb salvage surgery in Osteosarcoma patients. Approved bone healing augments such as recombinant human bone morphogenetic protein-2 (rhBMP-2) have great potential to mitigate these complications. rhBMP-2 use in sarcoma surgery is limited, however, due to concerns of pro-oncogenic signalling within the tumour resection bed. To the contrary, recent pre-clinical studies demonstrate that BMP-2 may induce Osteosarcoma differentiation and limit tumour growth. Further pre-clinical studies evaluating the oncologic influences of BMP-2 in Osteosarcoma are needed. The purpose of this study is to evaluate how BMP-2 signalling affects Osteosarcoma cell proliferation and metastasis in an active tumour bed. Two Osteosarcoma cell lines (143b and SaOS-2) were assessed for proliferative capacity and invasion. 143b and SaOS-2 cells were engineered to upregulate BMP-2. In vitro proliferation was assessed using a cell viability assay, motility was assessed with a scratch wound healing assay, and degree of osteoblastic differentiation was assessed using qRT-PCR of Osteoblastic markers (CTGF, ALP, Runx-2 and Osx). For in vivo evaluation, Osteosarcoma cells were injected into the intramedullary proximal tibia of immunocompromised (NOD-SCID) mice and local tumour growth and metastases were assessed using weekly bioluminescence imaging (BLI) and tumour volume measurements for 4–6 weeks. At the experimental end point we assessed radiographic tumour burden using ex-vivo micro-CT, as well as tibial and pulmonary gross and histologic pathology. SaOS-2 was more differentiated than 143b, with increased expression of Runx-2 (p = 0.009), Osx (p = 0.004) and ALP (p = 0.035). BMP-2 upregulation did not stimulate an osteoblast differentiation response in 143b, but stimulated an increase in Osx expression in SaOS-2 (p = 0.002). BMP-2 upregulation in 143b cells resulted in increased proliferation in vitro (p = 0.014), faster in vitro wound healing (p = 0.03), significantly increased tumour volume (p = 0.001) with enhanced osteolysis detected on micro-CT, but did not affect rates of lung metastasis (67% vs. 71%, BMP-2 vs. Control). BMP-2 over-expression in SaOS-2 cells reduced in vitro proliferation when grown in partial osteogenic-differentiation media (p < 0.001), had no effect on in vitro wound healing (p = 0.28), reduced in vivo SaOS-2 tumour burden at 6 weeks (photon counts, p < 0.0001), decreased tumour-associated matrix deposition as assessed by trabecular thickness (p = 0.02), and did not affect rates of lung metastasis (0% vs. 0%). Our results indicate BMP-2 signalling incites a proliferative effect on a poorly differentiated Osteosarcoma cell line (143b), but conditionally reduces proliferative capacity and induces a partial differentiation response in a moderately-differentiated Osteosarcoma cell line (SaOS-2). This dichotomous effect may be due to the inherent ability for Osteosarcoma cells to undergo BMP-2 mediated terminal differentiation. Importantly, these results do not support the clinical application of BMP-2 in Osteosarcoma limb salvage surgery due to the potential for stimulating growth of poorly differentiated Osteosarcoma cells within the tumour bed. Additional studies assessing the effects of BMP-2 in an immune-competent mouse model are ongoing.
Impaired bone healing biology secondary to soft tissue deficits and chemotherapy contribute to non-union, fracture and infection following limb salvage surgery in Osteosarcoma patients. Approved bone healing augments such as recombinant human bone morphogenetic protein-2 (rhBMP-2) have great potential to mitigate these complications. rhBMP-2 use in sarcoma surgery is limited, however, due to concerns of pro-oncogenic signalling within the tumour resection bed. To the contrary, recent pre-clinical studies demonstrate that BMP-2 may induce Osteosarcoma differentiation and limit tumour growth. Further pre-clinical studies evaluating the oncologic influences of BMP-2 in Osteosarcoma are needed. The purpose of this study is to evaluate how BMP-2 signalling affects Osteosarcoma cell proliferation and metastasis in an active tumour bed. Two Osteosarcoma cell lines (143b and SaOS-2) were assessed for proliferative capacity and invasion. 143b and SaOS-2 cells were engineered to upregulate BMP-2. In vitro proliferation was assessed using a cell viability assay, motility was assessed with a scratch wound healing assay, and degree of osteoblastic differentiation was assessed using qRT-PCR of Osteoblastic markers (CTGF, ALP, Runx-2 and Osx). For in vivo evaluation, Osteosarcoma cells were injected into the intramedullary proximal tibia of immunocompromised (NOD-SCID) mice and local tumour growth and metastases were assessed using weekly bioluminescence imaging and tumour volume measurements for 4–6 weeks. At the experimental end point we assessed radiographic tumour burden using ex-vivo micro-CT, as well as tibial and pulmonary gross and histologic pathology. SaOS-2 was more differentiated than 143b, with significantly increased expression of the Osteoblast markers Osx (p = 0.004) and ALP (p = 0.035). BMP-2 upregulation did not stimulate an osteoblast differentiation response in 143b, but stimulated an increase in Osx expression in SaOS-2 (p = 0.002). BMP-2 upregulation in 143b cells resulted in increased proliferation in vitro (p = 0.014), faster in vitro wound healing (p = 0.03), significantly increased tumour volume (p = 0.001) with enhanced osteolysis detected on micro-CT, but did not affect rates of lung metastasis (67% vs. 71%, BMP-2 vs. Control). BMP-2 over-expression in SaOS-2 cells reduced in vitro proliferation when grown in osteogenic-differentiation media (p < 0.001), had no effect on in vitro wound healing (p = 0.28), reduced in vivo SaOS-2 tumour burden at 6 weeks (photon counts, p < 0.0001), decreased tumour-associated matrix deposition as assessed by trabecular thickness (p = 0.02), but did not affect rates of lung metastasis (0% vs. 0%). Our results indicate BMP-2 signalling incites a proliferative effect on a poorly differentiated Osteosarcoma cell line (143b), but conditionally reduces proliferative capacity and induces a partial differentiation response in a moderately-differentiated Osteosarcoma cell line (SaOS-2). This dichotomous effect may be due to the inherent ability for Osteosarcoma cells to undergo BMP-2 mediated terminal differentiation. Importantly, these results do not support the clinical application of BMP-2 in Osteosarcoma limb salvage surgery due to the potential for stimulating growth of poorly differentiated Osteosarcoma cells within the tumour bed. Additional studies assessing the effects of BMP-2 in an immune-competent mouse model are ongoing.
Elderly patients with hip fractures are often malnourished and in a catabolic state upon admission to hospital. Waiting time for surgery is commonly unpredictable, and often more than 24 hours. Due to an assumed stress-induced delayed gastric emptying time with a possible associated risk of aspiration, fasting guidelines are the same as for other trauma patients. This leads to prolonged fasting time in these patients who are often metabolically compromised, with negative effects on post-operative recovery and prolonged hospital stay. The aim of this study was to investigate if 400 ml of a carbohydrate-rich beverage could be given to patients with a hip fracture 2–3 hours before surgery without carrying a risk of pulmonary aspiration. The gastric emptying rate of 400 ml 12.6 % carbohydrate rich drink was investigated in ten elderly women with a hip fracture awaiting surgery. The emptying rate was assessed by an indirect method, the paracetamol absorption technique. Results were compared with two control groups of healthy persons.Background
Methods
Several studies have evaluated the association between timing of hip fracture surgery and mortality in elderly patients. The evaluation of functional outcome is lacking. We studied the effect of delayed surgery on the patient’s ability to return to independent living, the incidence of pressure sore and total length of hospital stay. Days of hospital stay included the post-operative period and the rehabilitation admission in the first 4 months following the operation. Patients older than 50 years of age, admitted to two major hospitals in Stockholm during one year were included in the study (n = 853). To eliminate the effect of time interval between injury and admission, all patients who arrived to the hospital later than 24 hours of the injury (n=75) were excluded. Patients with pathological fracture (n = 30) were also excluded. The time intervals between hospital admission and the operation were evaluated against the patient post-operative independent living at 4 months follow up. We divided the patients into two groups depending on delay to surgery. We performed a comparison of those patients who operated within 24 hours with those who hade been operated more than 24 hours after the admission. Moreover we repeated the analysis using 36 and 48 hours cut-off points. After adjustment for age, ASA, walking ability, living with some one, gender and reason for delay, the late operated groups had a significantly decreased OR for return to independent living at 36 and 48 hours cutoff points (OR 0.5 respectively 0.3) but not at 24 hour cut-off point. The incidence of pressure sore in the late operated groups was significantly increased at all 3 cutoff points after adjustment for age, ASA, walking ability, dementia, and duration of surgery (OR 2.2, 3.4 and 4.2 respectively). The median length of hospital stay was significantly increased in the late operated groups (14 versus 18 days at 24 hours, 15 versus 19 days at 36 hours, and 15 versus 21 days at 48 hours cut-off point). Linear regression analysis with adjustment for age, ASA, walking ability, dementia, gender and place of residence showed that there was a significant relationship between waiting time for operation (hours) and length of hospital stay (days) (B 0.148, P 0.002). Accordingly for every 6.75 hours delay in surgery, the total hospital stays increased by one day. Our conclusion is that early operation of patients with hip fracture is associated with a significantly improved ability to return to independent living, a reduced incidence of decubitus ulcers and reduction in the length of hospital stay before the 4-month follow up.