Anticoagulants as Prophylaxis for DVT and NSAIDs Analgesic
|✅ Paper Type: Free Essay||✅ Subject: Sciences|
|✅ Wordcount: 1946 words||✅ Published: 6th Apr 2018|
The process of healing in a fractured bone depends on several factors related to the patient, fracture site, and treatment (Muller et al., 2004). In contrast to healing in other soft tissue, bone fracture healing is a very remarkable process, because rather than leading to scar tissue formation, normal bone healing leads to the regeneration of the anatomy of the bone and complete return to function (Sfeir et al., 2005).
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Administrations of different pharmacological agents have been known to have an effect on the fracture healing process. Such agents include corticosteroids, non-steroidal anti-inflammatory drugs (NSAIDS), antibiotics and anticoagulants (lppokratis et al., 2007). Among these drugs, NSAIDS and anticoagulants are commonly used in the management of fracture cases. Not only are they prescribed in daily practise, they are frequently administered concomitantly (Ellen, 2003).
NSAIDs are often used because of their analgesic effects. They carry out their pharmacologic effect by inhibition of cyclooxygenase. Diclofenac sodium, a commonly used NSAID derived from phenylacetic acid, is indicated for the management of acute and chronic conditions. Anticoagulants on the other hand are commonly used for the prevention and treatment of deep vein thrombosis (DVT). Major orthopedic trauma is a compelling risk factor for the development of DVT. This condition has been observed to occur in 50-70% of patients submitted to acute fixation of proximal femoral fracture, multiple fracture patients, and those presenting with spinal cord trauma when no prophylactic measure is performed. The most commonly used anticoagulants are low molecular weight heparin (LMWH) and warfarin (Guyton and Hall, 2006).
One study has reported no difference in quantitative amount of direct or radiographically measured callus formed during NSAIDs use. (Herbenick et al., 2008). In another study, Muller et al., 2004 reported that diclofenac sodium when given orally affected the mechanical properties of bone, reduced body weight gain and reduced the coefficient of non-fractured bone. A significant delay in fracture healing following administration of enoxaparin was reported by Street et al. (2000). Their study found fewer proliferating cells and fewer transforming pericytes in the medullary cavity at day 7 and 14 and weaker mechanical properties at day 21 compared to the control animals. Hak et al., (2006), however reported no deleterious effect of LMWH on fracture healing mechanical properties.
Regardless of the frequent use of anticoagulants as prophylaxis for DVT and NSAIDs as analgesic in the management of trauma cases, few studies have shown their combined effect during fracture healing. The present study was thus designed to evaluate the effect of combine use of these drugs on the histology and histomorphometry of bone tissues in experimental rat model of bone fractures.
Materials and Method
Thirty six male Wistar rats weighing between 150g to 200g were used. Animals were housed in clean plastic cages and provided with food and water ad libitum throughout the experimental period. All animals were handled in accordance with the guidelines for animal research as detailed in the NIH Guidelines for the care and use of laboratory Animals (NIH Publication, 2011) and experimental protocol were approved by local institutional research and ethics committee.
Animals were randomly divided into 3 groups (A, B and C) of 12 animals. All animas were submitted to diaphyseal fracture of right tibia after being anesthetized with chloroform via inhalation under aseptic conditions. Animals were then allowed to move freely without any immobilization (Muller et al 2004).
Following fracture, animals in group B were administered with diclofenac and heparin, while group C were administered with diclofenac and warfarin. Group A animals served as control. Diclofenac was administered intramuscularly on alternate thigh muscle at 5mg/kg/day. Heparin was administered subcutaneously at 0.5mg/kg/day and warfarin was administered orally at 0.005mg/kg/day. Drug administration commenced12 hours following fracture was continued for daily for a period of 21 days. Four animals were selected from each group for radiographic, histologic and histomorphometric analysis at day 7, 14 and 21 days interval following treatment.
Standardized radiographs (Faxitron, Wheeling, IL USA) were performed at the time of sacrifice, using constant settings with the animal anesthetized and positioned prone with both hind limbs fully abducted. Fracture union was evaluated by two, blinded, independent observers. Fracture union was defined as the presence of bridging callus along opposite cortices. (Hak et al., 2006)
Histological and Histomorphometric analysis:
Following radiographic evaluation, animals were sacrificed, and right tibia dissected out. Tibia bones were immediately fixed in 10% formal saline for at least 24 hours. Fixed tibia tissues were then subjected to decalcification using 10% EDTA (pH 7.4) for 7 days. Following decalcification, tibia tissues were processed for routine paraffin wax embedding. Sections of 5 um thick were cut and stained using routine Haematoxylin and Eosin (H&E) procedure for general tissue histology and Van Geison staining procedure for collagen fibres.
Stained sections were observed under Leica DM750 digital research microscope. Photomicrographs were taken via attached ICC50 digital camera from 3 non-overlapping areas of stained sections. These were then imported onto Image J software (NIH sponsored public domain image analysis software) for histomorphometric analysis which included osteocytes cell count and cortical width measurement.
Data obtained from histomorphometric count and measurement were analysed using One-way ANOVA followed by Students-Newman-Keuls (SNK) tests for multiple comparison. GraphPadPrsim 5 (GraphPad Inc., USA) software was package use for statistical analysis. Significant difference was set at p<0.05.
X-Ray photos of rat tibia after 7days of treatment showed fracture lines that were clearly visible with no sign of callus formation. After 14 days however minimal deposition of callus formation in all groups was observed. Bridging callus was more in control and group B rats as compared with group C and group D. After 21 days of Treatment more deposits of callus with fracture line no longer visible was observed in control and group B as compared with group C and D (Figure 1).
H&E staining showed intact osteocytes within lacunae, empty lacunae, and resorption cavities in all groups (Figure 2).Van Gieson staining technique differentiates between mature and immature collagen fibres (callus). Mature collagen fibres stains deep red while immature fibres stains pale orange. The colour intensity of the deep red was observed in the control group through the 21 days of treatment. However groups B and C had more immature collagen fibres all through the 21 days of treatment when compared to the control (Figure 3).
Data analysis shows that administration of diclofenac plus heparin and diclofenac plus warfarin in groups B and C respectively, significantly increased (p<0.05) osteocytes count compared to control group, at day 7, 14 and 21. No significant difference was observed in oseteocytes count between groups B and C. In addition, diclofenac plus warfarin group showed significant decrease (p<0.05) in cortical width compared to control and diclofenac plus heparin group, at day 21 only (Figure 4).
In the current study, we found that administration of heparin and diclofenac as well as warfarin and diclofenac resulted in increased number of osteocytes count at week 1, 2 and 3when compared with the control. Though at day 14 the osteocyte count of diclofenac heparin animals was significantly higher than diclofenac warfarin group. Increased osteocytes number is associated with increase in activity of osteoclast, subsequently increasing bone resorption (Lynda 2011).
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The use of anticoagulant is associated with surgical site heamatoma formation. The early use of LMWH in patients with fractures may lead to larger fracture site hematoma. It is generally accepted that fracture site hematoma could be beneficial in fracture healing. Studies by Grundnes and Reikera in 1993 have shown that evacuation of this hematoma could be deleterious on fracture healing. However Street et al 2000 showed that though hematoma could be beneficial, high concentration of potassium in fracture site hematoma is cytotoxic to endothelial cells and osteoblasts. Therefore increased fracture site heamatoma volume may have deleterious effect on fracture healing. Hak et al 2006 reported the presence of heamatoma formation in short term administered LMWH in animals. In this study, we observed no hematoma formation at fracture site in diclofenac heparin administered animals. However, the presence of hematoma was observed in animals receiving diclofenac and warfarin which persisted for the period of 3 weeks.
Studies by Avioli et al 1975 and Matzsch et al 1990 identified long term use of heparin to be a risk factor for the development of osteoporosis in humans. Their finding was supported by Chowdhury et al., 1992, they concluded that low doses of standard heparin directly stimulates bone resorption by increasing the number of differentiated osteoclasts and by enhancing the activity of individual osteoclast. One study by Nishiyama et al., (1997) comparing the effects of heparin and LMWH (dalteparin) after 8 days of injection, observed that rats treated with standard heparin showed a significant reduction in osteoid surface and mineral apposition rates and seven of eight rats suffered spontaneous femoral fracture. When compared with the rats treated with LMWH, they observed minimal decrease in bone indices and no fractures. These finding is supported by this study were we observe decrease cortical thickness in animals treated with diclofenac and anticoagulants when compared with the control. However this decrease was more marked in diclofenac warfarin group than in diclofenac heparin group. Decrease in cortical width has been said to lead to cortical porosity resulting in increased fragility of bone. (Bouvaed et al., 2012; Evangelos and Meletios 2014). In this study radiographic evidence showed reduced callus formation in anticoagulants and diclofenac treated animals at the end of the 3rd week. However no reduction in callus formation was obsereved in control group. This is consistent with studies done by Hak et al., 2006.
In conclusion the combined use of diclofenac and anticoagulants could affect the quality of fracture healing, hence the study recommends that concomitant use of diclofenac and anticoagulants should be applied with caution.
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