Bone Lesion Clinical Trial
Official title:
Prospective Randomized Clinical Trial Comparing Ultraporous Beta-TCP With BMA to Combined TCP With Calcium Sulfate in Curetted Benign Bone Lesions
For benign curetted tumor defects, ultraporous beta-tricalcium phosphate (TCP) synthetic graft material (Vitoss; Orthovita, Inc., now Stryker, Inc.) persists for a year or longer in some cases even when BMA is added. What is not known is whether the addition to TCP of calcium sulfate (CS), which by itself has a more rapid resorption profile, will lead to more rapid resorption and incorporation of the composite graft material.
Bone graft obtained from a patient's own bone (autogenous), usually around the pelvis, is
currently considered the gold standard for bone grafting material. It provides a structural
scaffold on which the patient's own bone may grow into (osteoconduction), growth factors that
can stimulate healing (osteoinduction), and primitive cells (progenitors) that can stimulate
bone formation directly (osteogenesis). It readily regains a blood supply from the
surrounding tissues (revascularization) and is incorporated into the recipient site. However,
there are significant disadvantages in the use of the patient's own bone graft including
complications where the bone is taken from (donor site morbidity), limited availability and
expense. Hence, human donor bone procured at the time of death (allografts) and synthetic
bone fillers have been used as an alternative to the patient's own bone (autogenous bone
graft). Both of these provide an osteoconductive scaffolding but nothing more. For defects
created by scraping (curettage) of non-cancerous (benign) bone lesions, a structural scaffold
(osteoconduction) is generally considered the minimal necessary role that the graft material
must serve to allow healing of the defect. In many cases, this is adequate to allow healing
of the defect by a process of creeping substitution, with neighboring bone growing from the
periphery to the center in a centripetal fashion.
Ideally, the pace at which the graft material is resorbed is identical to the parallel pace
of new bone formation. However, some materials have extremely slow replacement and are
essentially never replaced fully for all practical purposes. An example of this is coralline
hydroxyapatite. At the opposite end of the spectrum, some graft materials are resorbed at a
far faster rate than bone formation. An example of this has been calcium sulfate. In the
investigator's experience with the use of the synthetic bone graft substitute ultraporous
beta-tricalcium phosphate (TCP) (Vitoss, Orthovita, Inc.) over the first 3 years of its
availability, the graft material, when combined with local blood alone, performed well
clinically but persisted for a year or longer radiographically in some cases. Prolonged
persistence of the graft material may serve as a potential stress riser, although the
investigator did not observe any untoward late effects in our published work. Subsequently,
the investigator completed a randomized prospective evaluation of ultraporous beta-TCP alone
and compared to beta-TCP combined with autologous bone marrow aspirate (BMA). The hypothesis
was that both graft resorption and trabeculation (radiographic measures of incorporation of
the synthetic material by the native bone) would be more advanced at each time point in those
patients that received BMA plus TCP compared to those that received TCP alone. However, based
upon the investigator's clinical impression, there does not appear to be a clinically
relevant difference in the rate of bone incorporation. On the other hand, even at 1 year
post-operatively, there appears by CT scan to be persistent beta-TCP in the grafted defects.
Hence, it is felt that the rate of resorption and incorporation of the beta-TCP, with or
without BMA does not keep pace with new bone formation.
Recently, a new osteoconductive synthetic bone graft material has become available that
combines beta-TCP and calcium sulfate (PRO-DENSE® Injectable Regenerative Graft, Wright
Medical Technology, Inc.). Theoretically, the calcium sulfate from this product will leach
out more quickly, leaving a more porous local environment comprised of residual beta-TCP.
Hence, the hypothesis of this study is that PRO-DENSE® may result in a more desirable,
physiologic pace of graft incorporation when compared to beta-TCP and BMA. The overall study
plan is to compare, in a randomized prospective fashion, PRO-DENSE injectable regenerative
graft to ultraporous beta-TCP (VITOSS® morsels, OrthoVita, Inc.), the latter combined with
bone marrow aspirate (BMA). VITOSS is the same porous material the investigator has used in
an earlier study and is conducive to the addition of osteoinductive agents such as BMA,
whereas PRO-DENSE is not.
A total of 56 patients with any type of benign bone lesion indicated for surgical curettage
would be offered inclusion in the study, randomized to receive either PRO-DENSE or VITOSS
with BMA, and followed for a minimum of 2 years post-operatively. Bone marrow aspiration
would be obtained by a needle inserted through the skin (percutaneous aspiration) from the
large bone of the pelvis (iliac crest) using a standard bone marrow aspiration needle.
Patients with infection, bone marrow disorders, or other conditions that preclude use of
supplementary the patient's bone marrow as well as those who prefer to use their own bone
graft material (autograft) or donated human bone graft (allograft) alone would be excluded.
Each patient will undergo radiographic evaluation of the lesion at 6 weeks, 3 months, 6
months, 1 year, 18 months and 2 years post operatively. At one time point (1 year) a
computerized tomogram (CT) of the grafted region will be obtained for each patient. Two
qualified, blinded, independent reviewers will evaluate the radiographs and CT scans for six
criteria: 1.) presence of graft within the soft tissues, 2.) presence of a rim of
radiolucency surrounding the grafted defect, 3.) size/circumference of the rim of
radiolucency, 4.) resorption of graft material, 5.) trabeculation through the defect and 6.)
persistence of graft material in the lesion. Kappa statistics have shown good agreement for
these parameters in our published retrospective preliminary analysis of results for the TCP
use without bone marrow by the investigator.
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