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Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_13 | Pages 7 - 7
1 Jun 2017
Harrison W Garikapati V Saldanha K
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Limb reconstruction requires high levels of patient compliance and impacts heavily on social circumstances. The epidemiology and socioeconomic description of trauma patients has been well documented, however no study has assessed the epidemiology of limb reconstruction patients. The aim of this project is to describe patients attending Limb Reconstruction Services (LRS) in order to highlight and address the social implications of their care.

All LRS cases under a single surgeon in a district general hospital were included from 2010 – 2016. Demographics, ASA grade, smoking status, mental health status and employment status were collated. Postcode was converted into an Index of Multiple Deprivation score using GeoConvert® software. Patient socioeconomic status was then ranked into national deprivation score quintiles (quintile 1 is most affluent, quintile 5 is most deprived). Deprivation scores were adjusted by census data and analysed with Student's T-test. The distance from the patient's residence to the hospital was generated through AA route planner®. Patient attendance at clinic and elective or emergency admissions was also assessed. Patient outcomes were not part of this research.

There were 53 patients, of which 66% (n=35) were male, with a mean age of 45 years (range 21–89 years). Most patients were smokers (55%, n=29), 83% (n=42) were ASA 1 or 2 (there were no ASA 4 patients). The majority of indications were for acute trauma (49%), chronic complications of trauma (32%), congenital deformity (15%) and salvage fusion (4%). Mental health issues affected 23% (n=12) of cases and 57% of working-aged patients were unemployed. Mental health patients had a higher rate of trauma as an indication than the rest of the cohort (93% vs. 76%). Deprivation quintiles identified that LRS patients were more deprived (63% in quintiles 4 and 5 vs. 12% of 1 and 2), but this failed to reach statistical significance (p=0.9359). The mean distance from residence to hospital was 12 miles (range 0.35–105 miles, median 7 miles). The patients derived from a large region made up of 12 local authorities. There was a mean of 17 individual LRS clinic attendances per patient (range: 3–42). Cumulative distance travelled for each patient during LRS treatment was a mean of 495 miles (range 28 – 2008 miles). The total distance travelled for all 53 patients was over 26,000 miles.

The results largely mirror the findings of trauma demographic and socioeconomic epidemiology, due to the majority of LRS indications being post-traumatic in this series. The high rates of unemployment and mental health problems may be a risk factor for requiring LRS management, or may be a product of the treatment. Clinicians may want to consider a social care strategy alongside their surgical strategy and fully utilise their broader MDT to address the social inequalities in these patients. This strategy should include a mental health assessment, smoking cessation therapy, sign-posted support for employment circumstances and a plan for travel to the hospital. The utilisation and cost of ambulance services was not possible with this methodology. Further work should prospectively assess the changes in housing circumstances, community healthcare needs and whether there was a return to employment and independent ambulation at the end of treatment.


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_3 | Pages 7 - 7
1 Jan 2013
Saldanha K Madan S Fernandes J Jones S
Full Access

Aim

To study the results of using recombinant human bone morphogenic protein-2 (rhBMP-2) to achieve bone union in children with complex orthopaedic problems including skeletal dysplasia, congenital limb deficiencies and complex trauma.

Materials & Methods

Between November 2006 to April 2010, rhBMP-2 was used to achieve bone healing in a total of 19 children. The indications were delayed union or non-union in 16 long bones where previous surgeries had failed and 4 posterior spinal fusions. All children had underlying complex orthopaedic problems predisposing them to delayed bone healing. The average age at the time of surgery was 13 years and 8 months (Range: From 4 years to 19 years and 4 months). There were 7 boys and 12 girls.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 80 - 80
1 Mar 2009
Waseem M Saldanha K Chaudhry S Jharaja H
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Aim: Aim of this study is to determine if cubital tunnel view radiograph of the elbow is useful in the investigation and treatment of Ulnar nerve entrapment at the elbow.

Patients and Methods: 28 patients presenting with symptoms suggestive of ulnar nerve entrapment at the elbow were prospectively studied. Detailed history and clinical examination was elicited in each patient and classified according to McGowan’s classification. Diagnosis of ulnar nerve entrapment at the elbow was confirmed by nerve conduction studies. Cubital tunnel view radiographs were taken and evaluated for any evidence of bony encroachment of the ulnar nerve bed in the cubital tunnel. Those patients with normal cubital tunnel view radiograph underwent simple ulnar nerve decompression where as those with significant bony encroachment of ulnar nerve bed underwent anterior transposition of the ulnar nerve. The results of surgery were assessed at follow up using the Wilson and Krout criteria. The difference in results in two groups was statistically analyzed by applying student ‘t’ test.

Results: There were 20 patients (male=14, female 6) in the simple ulnar nerve decompression group with a mean age of 52 yrs (range 32 to 61 yrs) and 8 patients (male=6, female=2) in anterior transposition group with a mean age 59 yrs (range 45 to 69 yrs). Mean follow up was 25months (range 9 months to 32 months). According to McGowan’s classification there were 5 grade I, 9 grade II and 6 grade III patients in simple decompression group where as there were none grade I, 3 grade II and 5 grade III in anterior transposition group. All patients had neurophysiological evidence of ulnar nerve entrapment in pre-operative nerve conduction study. Wilson and Krout grading at final follow up showed 15 good, 4 fair and 1 poor result in simple decompression group and 5 good, 2 fair and 1 poor result anterior transposition group. There was no statistically significant difference between the two groups (p value < 0.001).

Conclusion: Cubical tunnel view radiographs are valuable in the management of ulnar nerve entrapment at the elbow. Patients with normal radiograph can be treated by simple nerve decompression


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_I | Pages 29 - 29
1 Mar 2008
Saldanha K Fernandes J Bell M Saleh M
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To review the results of limb lengthening and deformity correction in fibular hemimelia, fifty-five patients with fibular hemimelia underwent limb reconstruction at Sheffield Children’s Hospital. According to Achter-man and Kalamchi classification, twenty-six were classified as Type IA, six as Type IB and twenty-three as Type II fibular hemimelia. All patients had at least some shortening of ipsilateral femur but forty-nine had sig-nificant femoral deficiency. Lengthening of tibia and in significant cases femur was done using De Bastiani or Vilarrubias or Ilizarov methods. Ankle valgus and heel valgus were corrected through osteotomies either in the supramalleolar region or heel. Equinus was corrected by lengthening of tendoachelis with posterior soft tissue release and in severe cases using Ilizarov technique.

The average length gained was 4.2 cm (range 1 to 8) and the mean percentage of length increase was 15.82 (range 4.2 to 32.4). Mean bone healing index was 54.23 days/cm. Significant complications included knee subluxation, transient common paroneal nerve palsy, and recurrence of equinus and valgus deformity of foot. Overall alignment and ambulation improved in all patients. Knee stiffness due to cruciate deficient subluxations needed prolonged rehabilitation. Presence of 3-ray foot gives a better functional result and cosmetic acceptance by patients. The Ilizarov frame has the advantage to cross joints and lengthen at the metaphysis.

Limb reconstruction in fibular hemimelia using limb lengthening and deformity correction techniques improve functional status of involved lower limb.


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_I | Pages 29 - 29
1 Mar 2008
Saldanha K Saleh M Bell M Fernandes J
Full Access

To review the results of reconstruction of pseudoar-throsis and/or significant varus with retroversion of proximal femur in congenital longitudinal lower limb deficiencies, twenty-three of ninety-five patients with lower limb deficiencies underwent proximal femoral reconstruction at the Sheffield Children’s Hospital. All twenty-three underwent valgus derotation osteotomies to correct coxa vara and retroversion of femur. Seven patients also had pseudoarthrosis of the neck of femur. Three of these were treated with valgus derotation osteotomy and cancellous bone grafting, two with fibular strut grafts, one King’s procedure and one with excision of fibrous tissue and valgus derotation osteotomy. A variety of internal fixation devices and external fixator were used.

Seventeen of the twenty-three patients had valgus osteotomies repeated more than once (average 2.3) for recurrence of varus deformity. Average initial neck-shaft angle was 72 degrees, which improved to an average of 115 degrees after reconstruction.

All seven patients with pseudoarthroses underwent multiple procedures (average 3.3) to achieve union. Cancellous bone grafting was repeated twice in two patients to achieve union but all three with cancellous bone grafting underwent repeat osteotomies to correct residual varus. Two patients achieved union after fibu-lar strut grafting. One patient, who underwent excision of pseudoarthrosis, achieved union but had to undergo further valgus osteotomy. No particular advantage of any one-fixation device over the others was noted in achieving correction.

Early axis correction using valgus derotation oste-otomy is important in limb reconstruction when there is significant coxa vara and retroversion, although recurrence may require repeated osteotomies. Pseudoarthro-ses needed more aggressive surgery to achieve union.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_III | Pages 319 - 319
1 Sep 2005
Saldanha K Saleh M Bell M Fernandes J
Full Access

Introduction and Aims: To review the existing classifications in characterising the pathologic morphology of congenital lower limb deficiencies (CLLLD) and their usefulness in planning limb reconstruction.

Method: Ninety-five patients undergoing limb reconstruction were classified using existing classifications. Predominantly femoral deficiencies were classified using Aitken, Amstutz, Hamanishi, Gillespie and Torode, Fixsen and Lloyd-Roberts, Kalamchi, and Pappas systems and fibular deficiencies were classified using Coventry and Johnston, Achterman and Kalamchi, and Birch systems.

Results: All patients with predominant deficiency of one segment (femoral or fibular) also had associated shortening of the other segment in the same limb. Acetabular dysplasia, knee instability due to cruciate insufficiency and lateral femoral condylar hypoplasia were found in both femoral and fibular deficiencies. None of the existing classification systems were able to represent the complete pathologic morphology in any given patient. Due consideration of alignment, joint stability and length discrepancy of affected limb as a whole at the planning stage of reconstruction could not be ascertained using these classification systems. Instead, it was useful to characterise the morphology of the involved limb using the following method:

Acetabulum: Dysplastic/Non-dysplastic

Ball (Head of femur): Present/Absent

Cervix (Neck of femur): Pseudoarthrosis and neck-shaft angle

Diaphysis of femur: Length/deformity

Knee: Cruciates

Fibula and Tibia: Length/deformity

Ankle: Normal/Ball and socket/valgus

Heel: Tarsal coalition/deformity

Ray: Number of rays in the foot

Conclusion: Existing classifications do not represent the complete morphology of the entire involved lower limb in CLLLD and therefore a systematic method of characterising the morphology of the lower limb is more useful in planning limb reconstruction.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_III | Pages 237 - 237
1 Mar 2004
Fernandes J Saldanha K Saleh M Bell M
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Aims: To review the results of reconstruction of pseudoarthrosis and/or significant varus with retroversion of proximal femur in congenital longitudinal lower limb deficiencies. Methods: 23 of 95 patients had proximal femoral reconstruction. 7 had pseudoarthrosis of the neck of femur and the remaining had significant coxa vara with retroversion of femur. 3 patients with pseudoarthroses were treated with valgus derotation osteotomy and cancellous bone grafting, 2 with fibular strut grafts, 1 King’s procedure and 1 with excision of fibrous tissue and valgus derotation osteotomy. Remaining patients underwent valgus derotation osteotomies. A variety of internal fixation devices and external fixators were used. Results: All patients with pseudoarthroses underwent multiple procedures to achieve union. 3 with cancellous bone grafting underwent repeat osteotomies to correct residual varus and 2 had grafting repeated twice. 2 patients achieved union after fibular strut grafting. One patient, who underwent excision of pseudoarthrosis, achieved union but had to undergo further valgus osteotomy. The remaining 17 patients with coxa vara and retroversion of femur also had valgus osteotomies repeated more than once (average 2.3) for recurrence of varus deformity. There were significant numbers of implant failures. Average initial neck-shaft angle of 72 degrees improved to 115 degrees after reconstruction. Conclusion: Achieving union of pseudoarthrosis and early axis correction using valgus derotation osteotomy with a view to later lengthening is important in limb reconstruction. Recurrence may require repeated osteotomies and pseudoarthrosis may need more aggressive surgery to achieve union. Muscle slides and soft tissue releases decrease the stress on implant and maintain correction.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_III | Pages 236 - 236
1 Mar 2004
Saldanha K Bell M Fernandes J Saleh M
Full Access

Aims: To review the results of limb lengthening and deformity correction in fibular hemimelia. Methods: Fifty-five patients with fibular hemimelia underwent limb reconstruction at Sheffield Children’s Hospital. According to Achterman and Kalamchi classification, twenty-six were classified as Type IA, six as Type IB and twenty-three as Type II fibular hemimelia. All patients had at least some shortening of ipsilateral femur but forty-nine had significant femoral deficiency. Lengthening of tibia and in significant cases femur was done using either De Bastiani, Vilarrubias or Ilizarov methods. Ankle valgus and heel valgus were corrected through osteotomies either in the supramalleolar region or heel. Equinus was corrected by lengthening of tendoachelis with posterior soft tissue release and in severe cases using Ilizarov technique. Results: The average length gained was 4.2 cm (range 1 to 8) and the mean percentage of length increase was 15.82 (range 4.2 to 32.4). Mean bone healing index was 54.23 days/cm. Significant complications included knee subluxation, transient common paroneal nerve palsy, and recurrence of equinus and valgus deformity of foot. Overall alignment and ambulation improved in all patients. Knee stiffness due to cruciate deficient subluxations needed prolonged rehabilitation. Presence of 3-ray foot gives a better functional result and cosmetic acceptance by patients. The Ilizarov frame has the advantage to cross joints and lengthen at the metaphysis. Conclusion: Limb reconstruction in fibular hemimelia using limb lengthening and deformity correction techniques improve functional status of involved lower limb.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_III | Pages 237 - 237
1 Mar 2004
Saldanha K Saleh M Bell M Fernandes J
Full Access

Aims: To review the hip subluxations or dislocations occurring during femoral lengthening in patients with congenital longitudinal lower limb deficiencies. Methods: Sixty-three patients with congenital longitudinal lower limb deficiencies underwent femoral lengthening using either De Bastiani, Villarubias or Ilizarov technique. Acetabular index, medial joint space, CE angle of Wiberg, acetabular angle of Sharp and neck-shaft angle were measured on anteroposterior radiographs of hip before, during and after lengthening. Acetabulum was considered dysplastic when the Sharp angle was more than 45 degrees. Hip was considered to be subluxed when the medial joint space increased during lengthening. Results: During femoral lengthening, eleven hips subluxed as measured by the increase in medial joint space and one hip dislocated. All these hips had a pre-operative acetabular index more than 25 degrees, CE angle less than 20 degrees and Sharp angle more than 45 degrees. The average neck-shaft angle was 75 degrees. Following subluxation, lengthening was stopped and the hips were reduced in hip spica after adductor and sartorius tenotomies. In one patient femoral shortening and acetabuloplasty had to be done to reduce the sub-luxation. No case of avascular necrosis or chondrolysis was noted. Conclusions: Hip subluxation during femoral lengthening of congenital longitudinal lower limb deficiencies tends to occur when there is associated ace-tabular dyplasia and femoral coxa vara. Careful preoperative assessment, if need be hip reconstruction prior to lengthening and close monitoring during lengthening is recommended.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_III | Pages 252 - 252
1 Mar 2003
Saldanha K Fernandes J
Full Access

Objective: To review the existing classifications in characterizing the pathological morphology of congenital lower limb deficiencies and their usefulness in planning limb reconstruction.

Methods: Ninety-five patients undergoing limb reconstruction were classified using existing classifications. Predominantly femoral deficiencies were classified using Aitken,Amstutz,Hamanishi,Gillespie andTorode,Fixsen and Lloyd-Roberts, Kalamchi, and Pappas systems and fibular deficiencies were classified using Coventry and Johnston, Achterman and Kalamchi, and Birch systems.

Results: All patients with predominantly femoral deficiencies also had associated shortening of ipsilateral tibia and fibula. Similarly, most patients with predominantly fibular deficiencies also had some associated shortening ipsilateral femur. Acetabular dysplasia, knee instability due to cruciate insufficiency and lateral femoral condylar hypoplasia were found in both femoral and fibular deficiencies. None of the existing classification systems were able to represent the complete pathologic morphology in any given patient. Due consideration of alignment, joint stability and length discrepancy of affected limb as a whole at the planning stage of reconstruction could not be ascertained using these classification systems. Instead, it was useful to characterize the morphology of the involved limb using the following method:

Acetabulum: Dysplastic/ Non-dysplastic (AC index, Sharp’s angle, CE angle)

Ball (Head of femur): Present/Absent

Cervix (Neck of femur): Presence of pseudoarthrosis & neck-shaft angle

Diaphysis of femur: Length / deformity

Knee: Presence of cruciates, patellar and femoral con-dylar hypoplasia

Fibula and Tibia: Presence/ absence, length and deformity

Ankle: Normal/Ball and socket/ valgus

Heel: Presence of tarsal coalition and deformity (valgus, equinus)

Ray: Number of rays present in the foot

Conclusion: Congenital longitudinal lower limb deficiency is a spectrum of disorder involving the entire lower limb. Existing classifications do not represent the complete morphology of the entire involved lower limb and therefore a systematic method of characterizing the morphology of the lower limb is more useful in planning limb reconstruction.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_II | Pages 157 - 157
1 Feb 2003
Saldanha K Saleh M Bell M Fernandes J
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Increased incidence of complications has been reported when lengthening limbs with underlying bone disorders such as dysplasias and metabolic bone diseases. There is a paucity of literature on limb lengthening in Osteogenesis Imperfecta (OI), probably due to the concern that the bone containing abnormal collagen may not tolerate the external fixators for a long term and there may not be adequate regenerate formation from this abnormal bone.

We performed limb lengthening and deformity correction of nine lower limb long bones in six children with OI. Four children were type I and two were type IV OI as per Sillence classification. The mean age was 14.7 years. All six children had lengthening for femoral shortening and three of them also had lengthening for tibial shortening on the same side. Angular deformities were corrected during lengthening. Five limb segments were treated using a monolateral external fixator and four limb segments were treated using an Ilizarov external fixator. In three children, previously inserted femoral intramedullary nails were left in situ during the course of femoral lengthening. The average lengthening achieved was 6.26 cm. Limb length discrepancies were corrected to within 1.5 cm of the length of the contralateral limb in five children. In one child with fixed pelvic obliquity and spinal scoliosis, functional leg length was achieved. The mean healing index was 33.25 days/cm of lengthening. Among the complications significant ones included, one deep infection, one fracture through the midshaft of the femur, and development of anterior angulation deformity after the removal of the fixator in one tibia. Abnormal bone of OI tolerated the external fixator throughout the period of lengthening without any incidence of migration of wires and screws through the soft bone when distraction forces were applied. The regenerate bone formed within the time that is normally expected in limb lengthening procedures performed for other conditions. We conclude that despite abnormal bone characteristics, limb reconstruction to correct limb length discrepancy and angular deformity can be done safely in children with OI.