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Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_31 | Pages 1 - 1
1 Aug 2013
Winter A Bradman H Hayward A Gibson S
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It is well recognised that patients with diabetes mellitus have a predisposition towards stenosing flexor tenosynovitis (FTS). However, recent research has suggested an association between the development of FTS and haemoglobin A1c (HbA1c) level which is used as a marker of glycaemic control. National guidelines on management of diabetes suggest treatment should aim to maintain HbA1c at <6.5%.

The aim of our study is to quantify glycaemic control in patients undergoing surgical A1 pulley release.

We retrospectively reviewed the blood results of 78 patients who underwent FTS surgery. 27 of these had an HbA1c checked within 6 months of their surgery and we therefore presumed these patients were diabetic. For diabetic patients the average HbA1c was 7.9% (range 5.3–11.4) and only 7 of the 27 patients had an HbA1c within the recommended range.

In this cohort 33% of patients were presumed diabetic and 74% of these had a documented HbA1c above the national target suggesting a significant number presenting for surgery have poor glycaemic control. Therefore it may be of benefit to screen for this in patients undergoing FTS surgery.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 288 - 288
1 May 2009
Kalia Singhrao T Coathup M Gibson S Blunn G
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Introduction: Recent studies have shown that MSCs can be isolated from the peripheral blood of many different species. Hematopoietic stem cell (HSC) mobilization from the bone marrow to the circulating bloodstream can be induced using granulocyte colony stimulating factors (G-CSF). As it has been shown that HSCs and MSCs have positive interactions with each other, it may be possible that G-CSF also promotes the release of circulating peripheral blood MSCs (PBMSCs). The hypothesis of this study was that G-CSF would increase the mobilization of peripheral blood-derived stromal-like cells.

Materials and Methods: Six sheep with normal hematological profiles were given 5& #956;g/kg Neupogen& #63721; (filgrastim, G-CSF) subcutaneously for five days. Pre- and post-G-CSF treatment, blood was taken 4, 12, 24, and 2 weeks post-treatment. PBMSCs were isolated from the blood and cells plated at a cell density of 4.0 x 10e4 nucleated cells/cm2. Fibroblastic colony forming units (CFU-F) were counted 7 and 14 days after initial culture. The cells were tested for their multipotency by treating them with osteogenic, adipogenic, and chondrogenic supplements, and staining with the Von Kossa, Oil Red ‘O,’ and Alcian Blue stains, respectively, to show differentiation down the different lineages.

Results: No CFU-F formation was observed in all blood samples taken before G-CSF therapy (0 CFU-F) after 7 and 14 days in culture. After G-CSF treatment, CFU-Fs were observed in blood samples taken 4, 12, and 336 hours (2 weeks) post-G-CSF. The CFU-F count was highest after 14 days in culture in the blood samples obtained 2 weeks post-G-CSF administration (1.027 ± 30.1353 CFU-F/cm2), compared to the lowest count, which was at 12 hours post-G-CSF treatment (0.064 ± 0.064 CFU-F/cm2). Hematology showed an increase in white blood cell (WBC), neutrophil, and eosinophil counts 24 hours after G-CSF administration. Two weeks post-G-CSF treatment, WBC, neutrophil, lymphocyte, and monocyte counts dropped back to normal range values. The highest number of CFU-F/cm2 were observed at this time. When WBC numbers were correlated with CFU-F counts using Pearson’s correlation co-efficient, the result was 0.523, a significant value (p=0.023) indicating that 27.4% of the WBC counts were related to CFU-F counts and vice versa. When time was accounted for as a third variable using the test for partial correlation coefficients, the co-efficient was found to be −0.0063, and was not significant (p=0.492). Expanded cells were fibroblastic in morphology, and upon differentiation were positive for the Von Kossa, Oil Red ‘O,’ and Alican Blue stains, indicating differentiation down the osteogenic, adipogenic, and chondrogenic lineages, respectively.

Discussion and Conclusions: We have shown that PBMSCs can be isolated after G-CSF administration in sheep, and that the numbers of CFU-F increase after WBC levels have returned to normal. A previous in vitro study proposed that the increased BMSC growth observed when co-cultured with CD45+ HSCs was due to positive interactions between HSCs and MSCs, indicating a possible steady-state balance. PBMSCs may have important future applications in bone tissue regeneration.


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_III | Pages 498 - 498
1 Aug 2008
Gibson S McAllister K Kumar CS
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Aim: To evaluate intraoperative use of the Mini C-Arm compared with standard X-ray image intensification

Method: Radiation exposure data was collected for patients undergoing orthopaedic operative procedures. Data was collected over a 3 month period using a standard Siemens Siremobil 2000 X-Ray image intensifier (175 procedures) and also from a new smaller surgeon– operated Vertec Fluoroscan X-Ray image intensifier (144 procedures). Skin entrance radiation dose was calculated for the procedures with each X-ray unit.

Results: There were sufficient numbers of wrist procedures to permit comparison of the X-ray units.

The skin entrance dose of radiation was calculated and found to be lower for all procedures with the surgeon-operated X-ray unit.

Discussion: New, small surgeon-operated X-ray image intensifiers are now available and are safer for theatre staff due to reduced X-ray beam scatter. These X-ray units remove the need for a radiographer to be present in theatre. This is also of importance as staff shortages in radiography persist.

Conclusion: Surgeon-operated X-ray image intensification is safe and convenient in the orthopaedic operating theatre without increasing radiation exposure.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_III | Pages 238 - 239
1 Sep 2005
Wardlaw D Choudhary S Muthukumar T Gibson S
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Study Design: A prospective randomised controlled trial with blind radiological assessment.

Objective: To assess the radiological outcome of instrumented posterolateral lumbar fusion in a prospective randomised study comparing the use of allograft (fresh frozen human femoral head) to autologous bone (from the posterior iliac crest) using a validated method.

Methods: Sixty-nine patients having instrumented postero-lateral fusion using the Steffee plate were randomised to one of two groups, to receive either allograft bone or autologous bone. The same surgeon using the same surgical technique performed or supervised all cases. The radiological results of the two groups were assessed as well as the quality of fusion.

Outcome measures: The radiographs were assessed for fusion or non-fusion by three independent observers using the same criteria, and a second time by one of the observers. The Kappa scores for the inter-observer and intra-observer agreement were calculated. Some of these patients had fusion status verified by the gold standard of surgical exploration and the sensitivity and specificity calculated. The clinical outcome is the subject of a different paper.

Results: Both the inter-observer and intra-observer kappa scores (k) were 100%. The sensitivity of the method was 87.9% and the specificity was 100%. Thirty-seven patients received allograft and 32 patients received autograft. There was no significant difference in the fusion rate, or the quality and quantity of the graft between the groups.

Conclusions: There is no difference in the fusion rates comparing the use of autograft and allograft for postero-lateral instrumented lumbar fusion.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_I | Pages 23 - 23
1 Mar 2005
Wardlaw D Choudhary S Muthukumar T Gibson S
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To assess the radiological outcome of instrumented posterolateral lumbar fusion in a prospective randomised study comparing the use of allograft (fresh frozen human femoral head) to autologous bone (from the posterior iliac crest), using a validated method.

One hundred and twenty four radiographs of patients who had undergone instrumented posterolateral spinal fusion were assessed for fusion or non-fusion by three independent observers using the same criteria, and a second time by one of the observers. The Kappa scores for the inter-observer and intra-observer agreement were calculated. Thirty-three of these patients had fusion status verified by the gold randomised to one of two groups, to receive either allograft bone or autologous bone. The same surgeon using the same surgical technique performed or supervised all cases. The radiological results of the two groups were assessed as well as the quality of fusion.

Both the inter-observer and intra-observer kappa scores (k) were 100%. The sensitivity of the method was 87.9% and the specificity was 100%. Thirty-seven patients received allograft and 32 patients received autograft. There was no significant difference in the fusion rate, or the quality and quantity of the graft between the groups.

There is no difference in the fusion rates comparing the use of autograft and allograft for posterolateral instrumented lumbar fusion.