There is a paucity of information on the arterial supply of the navicular, despite its anatomic neighbours, particularly the talus, being investigated extensively. The navicular is essential in maintaining the structural integrity of the medial and intermediate columns of the foot, and is known to be at risk of avascular necrosis. Despite this, there is poor understanding of the vascular supply available to the navicular, and of how this supply is distributed to the various surfaces of the bone. This study aims to identify the key vessels that supply the navicular, and to map the arterial supply to each surface of the bone. Cadaveric limbs (n=10) were dissected to identify source vessels for each navicular. The talus and navicular were removed, together with the source vessels, en bloc. The source vessels were injected with latex and processed using a new, accelerated diaphanisation technique. This quickly rendered tissue transparent, allowing the injected vessels to be visualised. Each navicular was then reconstructed using a digital microscribe, allowing a three dimensional virtual model of the bone to be assessed. The terminal points of each vessel were then mapped onto this model, allowing the distribution of each source vessel to be determined. This study will provide the as yet unpublished information on the arterial supply of the human navicular bone. The data will also give quantifiable evidence of any areas consistently restricted to single-vessel supply, and those consistently supplied by multiple vessels. This may help to explain the propensity of this bone to develop disorders such as osteochondritis, avascular necrosis and stress fractures which often have a vascular aetiology

The arterial supply of the talus has been studied extensively in the past. These have been used to improve the understanding of the risk of avascular necrosis in traumatic injuries of the talus. There is, however, poor understanding of the intra-osseous arterial supply of the talus, important in scenarios such as osteochondral lesions of the dome. Previous studies have identified primary sources of arterial supply into the bone, but have not defined distribution of these sources to the subchondral regions. This study aims to map the arterial supply to the surface of the talus. Cadaveric limbs (n=10) were dissected to identify source vessels for each talus. The talus and navicular were removed, together with the source vessels, en bloc. The source vessels were injected with latex and processed using a new, accelerated diaphanisation technique. This quickly rendered tissue transparent, allowing the injected vessels to be visualised. Each talus was then reconstructed using a digital microscribe, allowing a three dimensional virtual model of the bone to be assessed. The terminal points of each vessel were then mapped onto this model, allowing the distribution of each source vessel to be determined. This study will provide quantifiable evidence of areas consistently restricted to single-vessel supply, and those consistently supplied by multiple vessels. These data may help to explain the distribution and mechanisms behind the development of the subchondral cysts of the talus

The arterial supply of the talus has been extensively studied in the past but there is a paucity of information on the arterial supply to the navicular and a very limited understanding of the intra-osseous supply to the surface of either of these bones. This is despite the likely importance of this supply in relation to conditions such as osteochondral lesions of the dome of the talus, and avascular necrosis and stress fracture of the navicular. Using cadaveric limbs, dissection of the source vessels was performed followed by arterial injection of latex. The talus and navicular were then removed en bloc, preserving the integrity of the injected arterial vasculature. The specimens were then processed using a new, accelerated diaphanisation technique. This rendered the tissue transparent, allowing the injected vessels to be visualised and then mapped onto a 3D virtual reconstruction of the bone. The vasculature to the subchondral surfaces of the talus and navicular, and the source vessel entry points that provide arterial supply into the navicular were identified. This study gives quantifiable evidence of the areas of consistently poor blood supply which may help explain the clinical pattern of talar and navicular pathology. It also provides as yet unpublished information on the arterial supply of the human navicular bone

1. The arterial supply of the upper end of the femur has been studied in twenty-four children and twenty adults. 2. The arterial system was demonstrated by injection of radio-opaque material, with Spalteholz' method of clarification, and histological section of the neck and ligamentum teres. 3. The upper end of the femur is supplied by the nutrient artery of the shaft, the retinacular vessels of the capsule, and the foveolar artery of the ligamentum teres. 4. The retinacular vessels consist of three separate groups: postero-superior, posteroinferior, and anterior. These vessels are the chief supply to the epiphysis and femoral head at all ages. 5. The foveolar artery constitutes a small and subsidiary blood supply to the femoral epiphysis. In this series, it penetrated the cartilaginous or osseous head in 33 per cent. of young specimens and 70 per cent. of adult specimens. The foveolar vessels increase in size with age. 6. The site of the vascular pathology in various lesions of the femoral head is considered

Shoulder girdles of 20 cadavers (68–94yrs) were harvested. The anterior (ACHA) and posterior circumflex humeral arteries (PCHA) were injected with ink and the extra and intraosseous courses of the dyed vasculature dissected through the soft tissues and bone to the osteotendinous junctions of the rotator cuff. The ink injection and bone dissection method was newly developed for the study. Rates of cross-over at the osteotendinous juntion were 75% in the supraspinatus, 67% in subscapularis, 33% in infraspinatus and 20% in teres minor. The supraspinatus and subscapularis insertions were vascularised by the arcuate artery, a branch of the ACHA. The insertions of the infraspinatus and teres minor were supplied by an unnamed terminal branch of the PCHA. The insertions of the rotator cuff receive an arterial supply across their OTJ's in 50% of cases. This may explain observed rates of AVN in comminuted proximal humeral fractures. The terminal branch of the PCHA supplying the infraspinatus and teres minor insertions was named the “Posterolateral Artery”. Finally, the new method employed for this study which allowed for direct visualisation of intraosseous vasculature, will enhance our understanding of skeletal vascular anatomy and have clinical applications in orthopaedic and reconstructive surgery

The posterior midline approach used in spinal surgery has been associated with a significant rate of wound dehiscence. This study investigates anatomical study of the arterial supply of the cervical and thoracic spinal muscles and overlying skin at each vertebral level. It aimed to provide possible anatomical basis for such wound complications. A dissection and angiographic study was undertaken on 8 cadaveric neck and posterior torso from 6 embalmed and 2 fresh human cadavers. Harvested cadavers were warmed and hydrogen peroxide was injected into the major arteries. Lead oxide contrast mixture was injected in stepwise manner into the subclavian and posterior intercostal arteries of each specimen. Specimens were subsequently cross-sectioned at each vertebral level and bones elevated from the soft tissue. Radiographs were taken at each stage of this process and analysed. The cervical paraspinal muscles were supplied by the deep cervical arteries, transverse cervical arteries and vertebral arteries. The thoracic paraspinal muscles were supplied by the superior intercostal arteries, transverse cervical arteries and posterior intercostal arteries. In the thoracic region, two small vessels provide the longitudinal connection between the segmental arteries and in the cervical region, deep cervical arteries provide such connection from C3 to C6. The arterial vessels supplying the paraspinal muscles on the left and right side anastomose with each other, posterior to the spinous processes in all vertebral levels. At cervical vertebral levels, source arteries travel near the surgical field and are not routinely cauterised; Haematoma is postulated to be the cause of wound complications. At thoracic levels, source arteries travel in the surgical field and tissue ischemia is a contributing factor to wound complications, especially in operations over extensive levels. Post-operative wound complications is a multi-factorial clinical problem, the anatomical findings in this study provide possible explanations for wound dehiscence in the posterior midline approach. It is postulated that drain tubes may reduce the incidence of haematoma in the cervical level

Introduction. Precise knowledge of the Femoral Head (FH) arterial supply is critical to avoid FH avascular necrosis following open and arthroscopic intra-capsular surgical procedures about the hip. The Medial Femoral Circumflex Artery (MFCA) provides the primary FH vascular contribution. Distribution of vascular foramina at the Femoral Head-Neck Junction (FHNJ) has been reported previously using an imaginary clock face. However, no quantitative information exists on the precise Capsular Insertion (CI) and intra-capsular course of the MFCA Terminal Branches (TBs) supplying the FH. This study seeks to determine the precise anatomic location of the MFCA's TBs supplying the FH, in order to help avoid iatrogenic vascular damage during surgical intervention. Methods. In 14 fresh-frozen cadaveric hips (9 left and 5 right), we cannulated the MFCA and injected a polyurethane compound. Using a posterior approach, careful dissection of the MFCA allowed us to identify and document the extra- and intra-capsular course of the TBs penetrating the FHNJ and supplying the FH. An H-type capsulotomy provided joint access while preserving the intracapsular Retinaculum of Weitbrecht (RW), followed by circumferential capsulotomy at the acetabular margin exposing the FH. The dome of the FH was osteotomized 5 mm proximal to the Articular Border (AB) providing a flat surface for our 360° scale. Right-side equivalents were used for data processing. Results. Gross dissection revealed a constant single branch arising from the transverse MFCA penetrating the capsule at the level of the anterior-inferior neck at 177° (range 167–187°), then courses within the medial RW obliquely (elevated from the neck) to the posterior-inferior FHNJ (Figure 1). This vessel was found to have an average of 5 TBs (range 3–9) penetrating the inferior FHNJ 4 mm (range 1–7 mm) from the AB at 204° (range 145–244°; 14% . 10. /. 69. anterior; 86% . 59. /. 69. posterior). In 79% (. 11. /. 14. ) of specimens, an average of 1.5 branches (range 1–3) arising from the ascending MFCA entered the Femoral Capsular Attachment (FCA) at 244° (range 216–269°), running subsynovial through the neck, and terminating in 2 TBs (range 1–3) penetrating the inferior-posterior FHNJ 5 mm (range 3–9) from the AB at 254° (range 207–281°). The deep branch of the MFCA penetrated the FCA at 327° (range 310–335°) providing an average of 6 TBs (range 4–9) running subsynovial and within the lateral RW, finally penetrating the superior FHNJ 6 mm (range 4–9) from the AB at 339° (range 286–25°; 20%. 15/74. anterior; 80%. 59/74. posterior). Discussion and Conclusion. This study demonstrates that TBs of the MFCA penetrate the joint through the mid-substance of the capsule (from the transverse MFCA) or the FCA (from the ascending or deep MFCA). Once intra-capsular, these vessels course subsynovial or within the RW and terminate at the posterior FHNJ superiorly (from the deep MFCA) and inferiorly (from the ascending and transverse MFCA). Any surgical hip intervention should preserve the posterior FCA, and lateral and medial RW in order to preserve the FH vascular supply. These results illustrate a vascular danger zone that should be respected during surgery and can be easily interpreted with the commonly used clock face

1. The spinal branches of the vertebral artery were injected with a suspension of barium sulphate and the blood supply of the vertebral bodies of the lower four or five cervical vertebrae investigated radiologically.

2. Beneath the posterior longitudinal ligament there is a free dorsal arterial plexus from which a large branch arises to enter the back of the vertebral body. This vessel terminates abruptly at the centre of the body where numerous, much smaller, branches radiate towards the upper and lower surfaces.

3. The possible significance of the form of the intravertebral arteries is considered in relation to embolic lesion in vertebral bodies.

Purpose of the study: Surgical reconstruction procedures using the gracilus myocutaneous flap may be compromised if partial or total necrosis of the skin cover develops. The purpose of this study was to describe the anatomic blood supply to the gracilus muscle and the corresponding skin cover in an attempt to better understand the arterial afferences to the skin and define the safest topography for a transferable zone of skin.

Material and methods: We dissected the thighs of human adult cadavers to detail the vascular bundles feeding the gracilus muscle.

Selective injections of methylene blue were used in the main gracilus pedicle; the area of skin colored was then measured (greatest and smallest diameter) for computation of the surface area using an imaging software.

Results: Preliminary results of nine dissections showed that the main blood supply of the gracilus muscle arose from the deep femoral artery (n=8 dissections) or the common femoral artery (n=1 dissection) then penetrated the muscle 90.55 mm below the pubis with a mean diameter of 1.32 mm. The muscle was fed by one to four accessory arteries. The skin cover was stained in all cases, the area involved lying over the proximal and mid thirds of the muscle. The surface area was irregular, the mean length being 127.5 mm and the mean width 91.66 mm. The computed surface area was 88.08 cm² on average (range 58–120.95 cm²). Each muscle had two to six perforating vessels issuing from the opposite side of the main pedicle and comprised within a 48 mm long segment before dividing at the subcutaneous level. A mathematical model correlated the skin surface area to the number of perforating arteries.

Discussion and conclusion: Our findings suggest it would be possible to determine the surface area of skin transferable with a gracilus muscle flap based on high-frequency duplex-Doppler assessment of the number and position of the perforating arising from the muscle and feeding the skin surface. The linear distribution of the surfaces measured as a function of the number of perforating arteries suggests that more reliable conditions for gracilus myocutaneous flap harvesting could be proposed to minimize the risk of cutaneous necrosis.

Aims. We aimed to quantify the relative contributions of the medial femoral circumflex artery (MFCA) and lateral femoral circumflex artery (LFCA) to the arterial supply of the head and neck of the femur. Materials and Methods. We acquired ten cadaveric pelvises. In each of these, one hip was randomly assigned as experimental and the other as a matched control. The MFCA and LFCA were cannulated bilaterally. The hips were designated LFCA-experimental or MFCA-experimental and underwent quantitative MRI using a 2 mm slice thickness before and after injection of MRI-contrast diluted 3:1 with saline (15 ml Gd-DTPA) into either the LFCA or MFCA. The contralateral control hips had 15 ml of contrast solution injected into the root of each artery. Next, the MFCA and LFCA were injected with a mixture of polyurethane and barium sulfate (33%) and their extra-and intra-arterial course identified by CT imaging and dissection. Results. The MFCA made a greater contribution than the LFCA to the vascularity of the femoral head (MFCA 82%, LFCA 18%) and neck (MFCA 67%, LFCA 33%). However, the LFCA supplied 48% of the anteroinferior femoral neck overall. Conclusion. This study clearly shows that the MFCA is the major arterial supply to the femoral head and neck. Despite this, the LFCA supplies almost half the anteroinferior aspect of the femoral neck. Cite this article: Bone Joint J 2016;98-B:1582–8

Previous investigations have postulated that the asymmetry of the breasts in female adolescents may be linked with the development of right convex thoracic scoliosis, although there is no correlation between breast asymmetry and curve type or scoliosis magnitude. This breast asymmetry is supposed to be linked with anatomic and functional asymmetry of the internal mammary artery that is the main supplier to the mammary gland. However, no measurements of anatomic and haemodynamic parameters of internal mammary artery have been made to justify or to reject the hypothesis of asymmetric blood flow volume to the breasts and costosternal junction in female adolescent scoliotics.

Twenty female adolescents with right thoracic scoliosis and 16 comparable female individuals without spine deformity were included in this study. Standing roentgenograms of the whole spine were made in all scoliotics to measure scoliosis curve, vertebral rotation and concave and convex rib-vertebra-angle at three vertebrae (apical, one level above and one below the apical vertebra). The Color Doppler Ultrasonography was used to measure at the origin of internal mammary artery its lumen diameter, cross sectional area, time average mean flow and flow volume per minute in scoliotics and controls and were compared each other. The roentgenographic parameters were compared with the ultrasonographic parameters in the scoliotics to disclose any relationship.

The reliability of color Doppler ultrasonography was high and the intraobserver variability low (ANOVA, P=0.92–0.94). There was no statistically significant difference in the ultrasonographic parameters of the internal mammary artery between right and left side in each individual as well as between scoliotics and controls. In scoliotics the right mammary artery time average mean velocity increases with the convex and concave rib-vertebra-angle one level above the apical vertebrae (P< 0.01), convex rib-vertebra angle one level below the apical vertebra (P< 0.05), and concave apical rib-vertebra angle (P< 0.01). The left internal mammary artery time average increases with only the convex rib-vertebra angle one level above the apical vertebra (P< 0.05). The right and left internal mammary artery flow volume increases with the convex rib-vertebra-angle one level above the apical vertebra (P< 0.05), while the right internal mammary artery flow volume increases furthermore with the apical concave rib-vertebra-angle (P< 0.01) and concave rib-vertebra angle one level above the apical vertebra (P< 0.01). The concave apical rib-vertebra-angle (P< 0.01) and concave rib-vertebra-angle one level above the apical vertebra (P< 0.01) increases with left internal mammary artery cross sectional area.

We concluded that anatomic and haemodynamic flow parameters measured at the origin of internal mammary artery are significantly correlated with apical rib-vertebra-angle in female adolescents suffering from right convex idiopathic thoracic scoliosis. This study did not find any evidence for side-difference in vascularity of the anterior thorax wall thus could not justify previous theories for development of right thoracic scoliosis in female adolescents.

Purpose: The purpose of this work was to study arterial blood supply to the coxal bone in order to minimise the risk of postsurgical necrosis during acetabular osteosynthesis. Necrosis of the coxal bone is a rare but well-known complication of acetabular fracture surgery. Material and methods: Ten fresh cadavers were dissected after intra-arterial injection of coloured resin. All collaterals feeding the bone were described and counted. An arterial map was drawn. Results: The acetabulum is supplied by four main arterial sources: 1) the ischion artery, a collateral of the pudendal artery, which supplies the posterior and lateral part of the acetabulum; 2) the artery of the roof of the acetabulum, a collateral of the superior gluteal artery, supplies the upper and lateral part of the acetabulum: 3) branches of the anterior and posterior division of the obturator artery which supply the upper part and the rim of the obturated foramen and the anteroinferior and posteroinferior parts of the acetabulum; 4) branches issuing from the obturator artery supply the quadrilateral surface. Discussion: The Kocher approach can easily injure the ischion artery. The wide lateral approach described by Letournel and the triradiate approach described by Mears can injure the ischion artery and the artery of the roof of the acetabulum. Theoretically, the risk of bony necrosis would be greater if an endopelvic approach is associated due to the risk of injury to the endopelvic arteries issuing from the obturator artery. The anterior approach to the acetabulum appears to carry the less risk of ischemia, theoretically, than the other approaches to the acetabulum

1. Hitherto, no study has been reported on the relative quantitative contributions of blood supply by the different arterial systems of long bone. This paper is a report on such a study in the young adult rabbit.

2. The rates and regional distributions of the blood supply of the nutrient as well as other arteries of the femur were studied after ligation of the nutrient artery. The average rates of reduction in blood flow per minute for the first five minutes through the entire femur as well as the shaft, and the epiphysis and metaphysis on each end, were measured and analysed. The bone blood flow was measured by the method of bone clearance of blood strontium 85.

3. The normal average rate of blood flow through the femurs of average weight of 9·38 grammes was 0·90±0·05 millilitres per minute, or 9·60±0·47 millilitres per minute per 100 grammes of bone.

4. The nutrient artery contributed at least 46 per cent of the normal total blood supply of the entire femur and at least 71 per cent of the normal total blood flow of the shaft including its marrow, and 37 per cent and 33 per cent of the normal total blood flow of the upper and the lower epiphysial and metaphysial areas respectively.

5. About 63 per cent, 30 per cent and 67 per cent of the total normal blood flow through the upper epiphysis and metaphysis, the shaft and the lower epiphysis and metaphysis respectively are still intact in the first five minutes after ligation of the nutrient artery, which represent the approximate proportions of the blood supply by the other regional arteries.

6. These quantitative data obtained in this study offer good support to the qualitative observations made by many previous workers.

Aims: Asymmetry of the breasts in female adolescents may be linked with right convex thoracic scoliosis. This is a prospective comparative study of the internal mammary artery (IMA) with Color Doppler Ultrasonography (CDU) in female adolescents and controls. Methods: 20 female adolescents with right thoracic scoliosis and 16 comparable individuals without spine deformity were included in this study. Scoliosis curve, vertebral rotation and concave and convex rib-vertebra-angle (RVA) at three vertebrae close to apical were measured. IMA- lumen, cross sectional area, time average mean ßow and ßow volume per minute were measured with CDU in scoliotics and controls. Results: The reliability of CDU. was high and the intraobserver variability low (ANOVA, P=0.92–0.94). There was no difference in CDU-parameters of IMA between right and left side, as well as between scoliotics and controls. In scoliotics the right IMA- time average mean velocity increases with both RVAs one level above the apical vertebrae (P< 0.01), convex RVA one level below the apical vertebra (P< 0.05), and concave RVA (P< 0.01). The left IMA-time average increases with only the convex RVA one level above the apical vertebra (P< 0.05). IMA- ßow volume increases with the convex RVA one level above the apical vertebra (P< 0.05), while the right IMA-ßow volume increases furthermore with the apical RVA (P< 0.01) and concave RVA one level above the apical vertebra (P< 0.01). The concave apical RVA (P< 0.01) and concave RVA one level above the apical vertebra (P< 0.01) increases with left IMA cross sectional area. Conclusion: This study showed that anatomy and haemodynamic ßow parameters of IMA signiþcantly correlated with apical roentgen-ographic parameters. However, there was no evidence for side-difference in vascularity of the anterior thorax wall that could justify the previous theories for development of right thoracic scoliosis in adolescent females

1. The theories that have been advanced to explain the occurrence of traumatic tetraplegia in patients without evidence of vertebral column injury are reviewed. 2. Traumatic tetraplegia of delayed onset is described in a middle-aged man with ankylosing spondylitis. There was no injury of the vertebral column. 3. The reasons are given for suggesting that the tetraplegia was caused by injury to the arterial supply of the cord

The femoral head receives blood supply mainly from the deep branch of the medial femoral circumflex artery (MFCA). In previous studies we have performed anatomical dissections of 16 specimens and subsequently visualised the arteries supplying the femoral head in 55 healthy individuals. In this further radiological study we compared the arterial supply of the femoral head in 35 patients (34 men and one woman, mean age 37.1 years (16 to 64)) with a fracture/dislocation of the hip with a historical control group of 55 hips. Using CT angiography, we identified the three main arteries supplying the femoral head: the deep branch and the postero-inferior nutrient artery both arising from the MFCA, and the piriformis branch of the inferior gluteal artery. It was possible to visualise changes in blood flow after fracture/dislocation. Our results suggest that blood flow is present after reduction of the dislocated hip. The deep branch of the MFCA was patent and contrast-enhanced in 32 patients, and the diameter of this branch was significantly larger in the fracture/dislocation group than in the control group (p = 0.022). In a subgroup of ten patients with avascular necrosis (AVN) of the femoral head, we found a contrast-enhanced deep branch of the MFCA in eight hips. Two patients with no blood flow in any of the three main arteries supplying the femoral head developed AVN. Cite this article: Bone Joint J 2013;95-B:1453–7

1. A case of osteoid osteoma which recurred twice after block excision is reported. 2. It is postulated that recurrence is almost certainly caused by incomplete removal of the nidus, either by curettage or by incomplete block excision. 3. Why curettage is successful in most cases but not in others is obscure, but it may be that the arterial supply to the tumour is interrupted. 4. Block excision with adequate radiographic control to ensure its completeness is the treatment of choice

The arterial supply to the flexor tendons of the fingers was studied by means of angiography, by the injection of coloured latex, and by microdissection. It was established that there were no anastomoses between the intra-osseous circulation and that of the synovial sheath. Two separate sources of blood supply to the sheath were found: the digitopalmar arches and the specific arteries of the sheath. The findings indicate that the ideal location for incision into the digital sheath is in the midline of the palmar surface. The flexor tendons within the sheath are supplied only by branches of the digitopalmar arches. Considerable differences were observed in the details of blood supply of the tendon of flexor superficialis and that of flexor profundus

1. Twenty-five lower limbs, amputated above the knee for senile atherosclerosis with peripheral gangrene, have been investigated radiologically and histologically to determine the vascular patterns in ischaemic bone with particular reference to the tibia. These have been contrasted with the patterns found in non-atherosclerotic tubular bone. 2. The principal changes are the development of a diffuse vascularisation of compact and spongy bone; a widening of Haversian spaces which come to contain a variable number of sinusoidal blood vessels; and an increasing periosteal participation in cortical nutrition which is related to the severity and chronicity of the ischaemic process. 3. Views on the normal blood supply of long bones are discussed, and evidence is presented for regarding this as discrete and end-arterial in nature; in particular it is suggested that the normal cortex has a wholly medullary, centrifugal, arterial supply

We studied the arterial anatomy and the effect of four-part fractures on the vascularity of the humeral head, using barium sulphate perfusion of 16 cadaver shoulders. The main arterial supply to the humeral head was via the ascending branch of the anterior humeral circumflex artery and its intraosseous continuation, the arcuate artery. There were significant intraosseous anastomoses between the arcuate artery and: 1) the posterior humeral circumflex artery through vessels entering the posteromedial aspect of the proximal humerus; 2) metaphyseal vessels; and 3) the vessels of the greater and lesser tuberosities. Simulated four-part fractures prevented the perfusion of the humeral head in most cases. If, however, the head fragment extends distally below the articular surface medially, some perfusion of the head persists by the posteromedial vessels. These vessels are important in the management of comminuted fractures of the proximal humerus