Study maps normal standing pelvic and lumbar alignment in dogs: full analysis

A newly published AJVR study adds a basic but potentially useful piece to canine orthopedic imaging: in healthy dogs standing in a standardized position, the pelvic floor appears to be consistently nearly horizontal, while the lumbar spine shows much broader variation. The study, by Ming Lu, Pierre Picavet, and Po-Yen Chou, was published May 26, 2026, and focused on defining normal standing alignment of the lumbar spine, sacrum, and pelvis. (vetlit.org)

That question matters because veterinary orthopedics has long had to contend with the effects of positioning on radiographic interpretation. Earlier AJVR work found that pelvic tilt can materially affect hip-related measurements on ventrodorsal radiographs, and radiography guidance for pelvic studies continues to stress how easily obliquity and spinal asymmetry can complicate interpretation. At the same time, prior kinematic research has shown that pelvic and caudal lumbar motion in dogs is complex and can differ between individuals, even in healthy animals. (avmajournals.avma.org)

In the new study, the investigators obtained full-length lateral radiographs from 17 standing, healthy, client-owned dogs using a standardized positioning technique, then generated composite images to evaluate orientation of the lumbar spine, sacrum, and pelvis and to assess interindividual variability. According to the study abstract, the team also examined relationships between pelvic geometry and acetabular orientation. The main headline finding is that pelvic-floor orientation was tightly conserved, whereas lumbar orientation was not, suggesting these structures may not contribute equally to variation seen on standing films. (vetlit.org)

There doesn’t appear to be a separate institutional press release or broad industry response available yet, which isn’t unusual for a technical imaging paper. Still, the study fits with a growing body of work around canine spinopelvic mechanics. Research in German Shepherd Dogs has previously shown that pelvic motion can differ markedly between dogs and that caudal lumbar motion reflects a complicated interaction between pelvic movement and spinal mechanics. Separate work on lumbosacral transitional vertebrae has also linked anatomic variation to pelvic rotation and uneven hip-dysplasia grading, reinforcing how alignment can influence what clinicians think they’re seeing on imaging. (pmc.ncbi.nlm.nih.gov)

Why it matters: For veterinary professionals, the practical value is less about a single headline number and more about establishing a normal reference framework for standing radiographs. If pelvic-floor orientation is comparatively stable in healthy dogs, it may become a more reliable landmark than lumbar alignment when assessing posture, comparing serial images, planning hip procedures, or evaluating whether an apparent abnormality reflects patient anatomy versus positioning. That could be relevant in orthopedic and neurologic workups, especially where subtle changes in pelvic orientation influence interpretation of acetabular coverage, lumbosacral alignment, or postoperative implant positioning. (avmajournals.avma.org)

The study’s limits are also important. It involved only 17 healthy dogs, so the findings should be read as foundational rather than practice-changing. The cohort size and healthy-dog design mean clinicians shouldn’t assume the same relationships hold in dogs with hip dysplasia, pelvic trauma, degenerative lumbosacral disease, or breed-specific conformational extremes. That said, foundational morphometric work often sets the stage for exactly those follow-on studies. (vetlit.org)

What to watch: The most useful next developments would be larger validation studies, breed-stratified analyses, and correlation with clinical populations, particularly dogs with hip dysplasia, lumbosacral transitional vertebrae, degenerative lumbosacral stenosis, or total hip replacement planning. If those studies confirm that the pelvic floor is a dependable standing reference, the finding could influence how radiologists and surgeons standardize image acquisition and interpret spinopelvic alignment in daily practice. (actavetscand.biomedcentral.com)