Hip (horizontal beam lateral view)
The horizontal beam lateral hip radiograph or shoot through hip is the in the purist terms the orthogonal view of the neck of the femur to the AP projection 1,3.
The projection is used to assess the neck of the femur in profile during the investigation of a suspected neck of femur fracture 2.
Although technically demanding, it is the most versatile hip radiograph, utilised in trauma bays and general radiography rooms. It requires minimal patient movement on the affected side while providing high-quality diagnostic images that can be replicated both intraoperatively and postoperatively 1,3-4.
patient is supine with both arms on the chest, the side in question closest to the image receptor:
the image receptor can be an upright detector or a portable detector in an upright stand
the image receptor is angled approximately 20-45° to match the angle of the neck of femur (observed on the AP pelvis/ hip); this is done to prevent elongation or foreshortening of anatomy
the image receptor should be placed in a landscape orientation superior to the iliac crest, allowing for adequate imaging of the femoral neck
before progressing to the next step
place a finger on the anterior superior iliac spine of the affected side, ensure it is projected onto the superior third of the image receptor. This will ensure adequate centring in the superior-inferior aspect of the projection
elevate the bed/trolley until the central ray is at the level of mid-thigh of the unaffected leg
the patient's unaffected hip can now be flexed and abducted;
the flexed leg is placed on a dedicated stand; this is incredibly uncomfortable for the patient; the leg should only be up for a limited amount of time
axiolateral (inferosuperior) projection
the central ray is angled to be perpendicular to the long axis of the neck of femur; the image receptor should be adjusted to match this angle
the technical centring point is 13 cm distal to the neck of femur, anecdotally known as centring at the most superior region of the groyne
anteroposterior 9 cm each direction from the midline
inferosuperior 12 cm each direction from the centring point
18 cm x 24 cm
a grid can be used, although it is not uncommon to utilise an air gap technique to achieve similar results
patients that lack bone density requires an Al filter over the inferior aspect of the femur to allow even distribution of exposure, patients with increased adipose tissue may not need a filter as the adipose tissue does a sufficient amount
Image technical evaluation
The radiograph has a uniform exposure throughout, evident by the fine bony detail and no areas of overexposure if the distal femur is overexposed a filter may be required.
The lesser trochanter can be seen in profile, while the proximal femoral shaft superimposes the greater trochanter.
The femoral neck is central to the image and shows no signs of radiographic foreshortening or elongation.
There is a clear visualisation of the articular surface of the acetabulum and the head of the proximal femur.
The opposite leg has been elevated enough that there is no obstructing soft tissue artefact.
When a fractured neck of femur is suspected this is the radiograph that should be performed adequately to visualise the entire neck of femur orthogonal to an AP projection, an oblique lateral hip is helpful for visualisation of the articular surfaces of the femoral head, yet it foreshortened the neck and can result in misdiagnosis 4.
It is imperative to set the room up before positioning the patient, following the patient positioning steps above sequentially will minimise patient discomfort and maximise the quality of the exam.
Although 18 x 24 cm collimation seems ambitious, it is readily achievable with correct centring and well thought out positioning. Tight collimation is important in this examination, it reduces scatter and will improve subject detail.
Do not attempt to move the affected leg to position the patient better, the advantage in using this projection is the lack of movement involved. Any movement of the patient should be done via movement of the trolley and/or mattress.
The patient will be in a significant amount of pain, explain what you are about to do before you start the exam and why you are doing it, maintain the patient's decency and ensure they are comfortable as possible.
- chest radiography
- abdominal radiography
upper limb radiography
- shoulder girdle radiography
- scapula series
- shoulder series
- acromioclavicular joint series
- clavicle series
- sternoclavicular joint series
- arm and forearm radiography
- wrist and hand radiography
- wrist series
- scaphoid series
- hand series
- thumb series
- fingers series
- rheumatology hands series
- bone age series
- shoulder girdle radiography
lower limb radiography
- pelvic girdle radiography
- pelvis series
- hip series
- sacroiliac joint series
- thigh and leg radiography
- femur series
- knee series
- tibia/fibula series
- ankle and foot radiography
- ankle series
- foot series
- calcaneus series
- toes series
- pelvic girdle radiography
- skull radiography
sinus and facial bone radiography
- facial bones
- Caldwell view (angled skull PA view)
- nasal bones
- zygomatic arches
- paranasal sinuses
- temporal bones
- dental radiography
- cervical spine radiography
- thoracic spine radiography
- lumbar spine radiography
- sacrococcygeal radiography
- scoliosis radiography
- 1. Young JW, Burgess AR, Brumback RJ et-al. Pelvic fractures: value of plain radiography in early assessment and management. Radiology. 1986;160 (2): 445-51. Pubmed citation
- 2. Dähnert W. Radiology Review Manual. LWW. (2011) ISBN:1609139437. Read it at Google Books - Find it at Amazon
- 3. Young JW, Burgess AR, Brumback RJ et-al. Pelvic fractures: value of plain radiography in early assessment and management. Radiology. 1986;160 (2): 445-51. Pubmed citation
- 4. Jr RBJ, FACR BJMMDP, Osborn AG et-al. Diagnostic Imaging: Emergency: Published by Amirsys. Lippincott Williams & Wilkins. ISBN:1931884765. Read it at Google Books - Find it at Amazon