Skeletal Toxicity Associated with Chronic Ethanol Exposure in a Rat Model Using Total Enteral Nutrition

doi:10.1124/jpet.301.3.1132

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ETHANOL

Vol. 301, Issue 3, 1132-1138, June 2002

Skeletal Toxicity Associated with Chronic Ethanol Exposure in a Rat Model Using Total Enteral Nutrition

Elizabeth C. Brown, Daniel S. Perrien, Terry W. Fletcher, David J. Irby, James Aronson , Guan G. Gao , William J. Hogue, Robert A. Skinner, Larry J. Suva, Martin J. J. Ronis, Reza Hakkak, Thomas M. Badger and Charles K. Lumpkin, Jr.

Departments of Pediatrics (T.W.F., D.J.I., J.A., G.G.G., M.J.J.R., T.M.B., C.K.L.), Orthopaedics (J.A., W.R.H., R.A.S., L.J.S.), and Clinical Nutrition (R.H.), University of Arkansas for Medical Sciences, Little Rock, Arkansas; and Laboratory for Limb Regeneration Research, Arkansas Children's Hospital Research Institute (E.C.B., D.S.P., J.A., G.G.G, C.K.L.), Little Rock, Arkansas

Chronic alcohol abuse decreases bone mass, inhibits osteoblast differentiation and function, increases fracture incidence,and delays fracture healing. Four studies were designed to useintragastric ethanol delivery as part of a total enteral nutrition(TEN) system to determine the negative systemic effects of chronicethanol on 1) the rat skeleton and 2) local rapid bone formationduring limb lengthening (distraction osteogenesis, DO). In study1, three-point bending tests demonstrated that after 75 days ofethanol exposure, the tibiae had significantly lower load to failureversus control diet (p = 0.0006) or ad libitum chow-fed rats (p= 0.0029). Study 2 examined alcohol's effects on the density andcross-sectional area of the proximal tibial metaphysis using peripheralquantitative computed tomography and found that after 25 daysof ethanol exposure the trabecular volumetric bone mineral density(p = 0.011) and cortical cross-sectional area (p = 0.011) werelower compared with controls. In study 3, a comparison of distractedtibial radiographs and histological sections demonstrated ethanol-relateddecreases in both gap mineralization (p = 0.03) and bone columnformation (p = 0.01). Histological comparisons in study 4 reproducedthe ethanol-related deficits in new bone formation during DO (p= 0.001). These results indicate that the TEN system is a viablemodel to study ethanol's effects on the skeleton and that chronicethanol delivery via TEN decreases trabecular bone density, corticalarea, and mature bone strength. Also, the DO studies demonstrate,for the first time, that chronic ethanol inhibits rapid bone formationduring limblengthening.

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