Repository logo
 

The effects of stroke on the skeleton


Type

Thesis

Change log

Authors

Poole, Kenneth 

Abstract

Stroke is now a well-recognised risk factor for hip fracture. The aim of this study was to elucidate the pathophysiological mechanisms by which hip bone loss occurs in hemiplegia and to test the efficacy of a novel pharmaceutical strategy for preserving bone in stroke patients. Patients who were admitted acutely with a first-ever stroke and who remained unable to walk one week later were studied prospectively for 12 months, with a series of bone mineral density measurements of the hips (dual energy X-ray absorptiometry) in the context of a randomised controlled trial. Untreated patients (n=13) experienced a decline in bone mineral density at the hemiplegic hip that was rapid, with the greatest losses in the trochanteric region of the affected side. This bone loss was prevented by the administration of a single 4 mg dose of the intravenous bisphosphonate, zoledronate (n=14) within 35 days of stroke onset. Computed tomography of the hips in 8 untreated patients more than a year after stroke confirmed that the greatest difference between sides was in the trochanteric region. Serum vitamin D measurements in 44 patients with acute stroke were substantially lower than healthy elderly controls, with 77% of patients in the insufficient range, suggesting that vitamin D insufficiency preceded stroke.

Histomorphometric analysis of iliac bone biopsies from hemiplegic patients 10 weeks following stroke showed normal erosion parameters, but a striking decrease in the surface extent of osteoid when compared with healthy reference values. Unexpectedly, treatment with zoledronate was associated with a significantly higher osteoid surface compared with placebo treated subjects in cancellous, endocortical and cortical bone. Sclerostin, a newly discovered osteocyte-derived protein was studied using immunohistochemical staining of the bone biopsies. Sclerostin is known to be an inhibitor of active osteoblasts, which led to the hypothesis that in stroke, the proportion of osteocytes expressing sclerostin would be inversely associated with the surface extent of bone formation. Histological analysis revealed widespread expression of sclerostin in osteocytes and their canaliculi in all subjects. However, examining individual osteocytes in relation to bone forming surfaces revealed that newly embedded osteocytes did not express sclerostin until after primary mineralisation. It is proposed that this precise pattern and timing of sclerostin expression by osteocytes allows bone formation to continue locally (during remodelling), but prevents excessive new bone formation elsewhere, as seen in the single gene disorder sclerosteosis.

Description

Date

Advisors

Keywords

Bone, Osteoporosis, Osteocyte, Stroke, Sclerostin, Hemiplegia, Computed tomography, Histology, Immunohistochemistry, Histomorphometry, Vitamin D

Qualification

Doctor of Philosophy (PhD)

Awarding Institution

University of Cambridge
Sponsorship
1. Medical Research Council MRC Clinical Research Training Fellowship RG 35509/ RCAG 057/ G84-6048/LREC 01/245 2. Research Grant National Osteoporosis Society (NOS) Intravenous bisphosphonates in the prevention of osteoporosis associated with stroke. RG 33986/ RCAG 050/ HMW140102/LREC 01/245 3. Raymond and Beverly Sackler PhD Studentship