The study and application of anatomical structures play a crucial role in various procedures such as orthopaedic intervention, nerve blocks, pain management, and diagnostics. A comprehensive understanding of these anatomical intricacies is vital for accurate treatment administration and ensuring patient safety. Concurrently, diagnostic imaging anatomy, employing techniques such as radiography, ultrasound, CT scans, and MRI, is pivotal in diagnosing and treating a wide range of medical conditions in animals. These techniques offer non-invasive visualization of internal structures, guide treatment decisions, and facilitate monitoring of disease progression and treatment efficacy. However, there is a growing need for better integration of clinical and imaging anatomy to develop tailored treatment plans, advance veterinary medicine, and innovate diagnostic imaging techniques.
The primary objective of this Research Topic is to publish original research work, reviews, case reports, or short communications that provide an update on the most recent advances in the integration of clinical veterinary anatomy and diagnostic imaging. This integration not only supports research and innovation in veterinary medicine but also contributes to advancements in disease modeling, treatment modalities, and longitudinal disease monitoring. By combining clinical and imaging anatomy, veterinarians and scientists can gain a deeper understanding of disease pathophysiology, assess treatment efficacy, and improve patient outcomes.
To gather further insights into the integration of clinical veterinary anatomy and diagnostic imaging, we welcome articles addressing, but not limited to, the following themes:
• The role of clinical anatomy in accurate nerve block and effective surgical intervention paths.
• The power of veterinary imaging techniques as essential tools for diagnosing and treating various medical conditions in animals.
• The role of advanced imaging techniques, such as CT and MRI, in 3D modeling in veterinary medicine.
• The importance of morphometric measurements through imaging techniques in veterinary orthopaedic surgery.
This Research Topic aims to provide the latest information on these themes and will be of interest to researchers and clinicians working in the area of veterinary clinical practice and veterinary diagnostic imaging.
The study and application of anatomical structures play a crucial role in various procedures such as orthopaedic intervention, nerve blocks, pain management, and diagnostics. A comprehensive understanding of these anatomical intricacies is vital for accurate treatment administration and ensuring patient safety. Concurrently, diagnostic imaging anatomy, employing techniques such as radiography, ultrasound, CT scans, and MRI, is pivotal in diagnosing and treating a wide range of medical conditions in animals. These techniques offer non-invasive visualization of internal structures, guide treatment decisions, and facilitate monitoring of disease progression and treatment efficacy. However, there is a growing need for better integration of clinical and imaging anatomy to develop tailored treatment plans, advance veterinary medicine, and innovate diagnostic imaging techniques.
The primary objective of this Research Topic is to publish original research work, reviews, case reports, or short communications that provide an update on the most recent advances in the integration of clinical veterinary anatomy and diagnostic imaging. This integration not only supports research and innovation in veterinary medicine but also contributes to advancements in disease modeling, treatment modalities, and longitudinal disease monitoring. By combining clinical and imaging anatomy, veterinarians and scientists can gain a deeper understanding of disease pathophysiology, assess treatment efficacy, and improve patient outcomes.
To gather further insights into the integration of clinical veterinary anatomy and diagnostic imaging, we welcome articles addressing, but not limited to, the following themes:
• The role of clinical anatomy in accurate nerve block and effective surgical intervention paths.
• The power of veterinary imaging techniques as essential tools for diagnosing and treating various medical conditions in animals.
• The role of advanced imaging techniques, such as CT and MRI, in 3D modeling in veterinary medicine.
• The importance of morphometric measurements through imaging techniques in veterinary orthopaedic surgery.
This Research Topic aims to provide the latest information on these themes and will be of interest to researchers and clinicians working in the area of veterinary clinical practice and veterinary diagnostic imaging.