Defective Implant Osseointegration Under Protein Undernutrition: Prevention by PTH or Pamidronate

Protein deficiency is associated with impaired titanium osseointegration. We studied whether systemic treatment with PTH or pamidronate could influence the resistance to pull‐out of titanium rods implanted into rats proximal tibia under normal and isocaloric low protein intake. PTH or pamidronate pr...

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Published in:Journal of bone and mineral research 2007-10, Vol.22 (10), p.1526-1533
Main Authors: Dayer, Romain, Badoud, Isabelle, Rizzoli, René, Ammann, Patrick
Format: Article
Language:English
Subjects:
Animal Feed
Animals
Biological and medical sciences
Body Weight - drug effects
Diphosphonates - pharmacology
Female
Fundamental and applied biological sciences. Psychology
implants
Implants, Experimental
nutrition
Osseointegration - drug effects
Osseointegration - physiology
pamidronate
Parathyroid Hormone - pharmacology
Proteins - pharmacology
PTH
Rats
Rats, Sprague-Dawley
rodent
Skeleton and joints
Tensile Strength
Tomography Scanners, X-Ray Computed
Vertebrates: osteoarticular system, musculoskeletal system
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Summary:Protein deficiency is associated with impaired titanium osseointegration. We studied whether systemic treatment with PTH or pamidronate could influence the resistance to pull‐out of titanium rods implanted into rats proximal tibia under normal and isocaloric low protein intake. PTH or pamidronate prevented the deleterious effects of protein undernutrition on bone microarchitecture close to the implant and on mechanical fixation. PTH even significantly improved implant osseointegration. Introduction: Protein deficiency is highly prevalent among elderly patients hospitalized in orthopedic wards. Reduced protein intake impairs titanium osseointegration in rats. Whether stimulator of bone formation or inhibitor of bone resorption could improve implant osseointegration under protein deprivation is not known. We studied the effects of systemic treatment with PTH or pamidronate on the resistance to pull‐out of titanium rods implanted into rats proximal tibia under normal and isocaloric low protein intake. Materials and Methods: We measured the resistance to pull‐out 1‐mm ‐diameter titanium rods implanted into the proximal tibias of 49 adult female rats receiving a normal or an isocaloric low protein diet. After 2 wk on either diet, the implants were inserted, and the rats received PTH(1–34), pamidronate or saline vehicle for 8 wk. The tibias were removed for μCT morphometry, followed by the evaluation of pull‐out strength. Results: Pull‐out strength was lower in rats fed an isocaloric low protein diet compared with rats fed a normal protein intake (−29%). PTH and pamidronate significantly increased pull‐out strength in animals fed a normal or a low protein diet, the effect of PTH being of higher magnitude. The PTH‐ or pamidronate‐mediated increase in pull‐out strength was associated with significant increases of relative bone volume, bone‐to ‐implant contact, and trabecular thickness, whereas trabecular spacing was reduced, in the vicinity of the implants. Conclusions: We confirmed that isocaloric low protein intake impairs titanium implant osseointegration. PTH or pamidronate prevented the deleterious effects of protein undernutrition and even significantly improved the implant osseointegration. These results indicate that systemic administration of PTH or pamidronate could be considered for preventing uncemented arthroplasty loosening in protein undernourished patients.
ISSN:0884-0431
1523-4681
DOI:10.1359/jbmr.070610