Laminitis is a condition characterized by weakness and inflammation of the laminae, the tissues that connect the hoof wall to the coffin bone. This occurs due to interrupted blood flow, leading to structural tearing that supports the coffin bone
Among all congenital spinal malformations, congenital hemivertebral malformations contribute relatively easily to spinal nerve disease. The half vertebrae are wedge-shaped vertebrae and thus can bend the spine into the angles, such as kyphosis, scoliosis and lordosis. The most common lesion is the middle part of the thoracic vertebra, especially the eighth thoracic vertebra (T8). Severe curvature of the spine, spinal stenosis, spinal instability, and vertebral dislocation or fracture can all cau
Broken bones in dogs can cause pain, inflammation, and prolonged healing time. LunVet 4 wavelengths (650nm, 810nm, 980nm and 1064nm) high power physiotherapy lasers provide a non-invasive and effective treatment modality to promote fracture rehabilitation. These four wavelengths of laser light penetrate deep into tissue, provide anti-inflammatory and analgesic effects, and accelerate wound healing.
Root canal therapy is a crucial procedure in endodontics, aimed at saving damaged or infected teeth. Over the years, advancements in laser technology have revolutionized this field, providing more efficient and precise treatment options. One such advancement is the use of 980nm diode laser in root canal therapy. This article aims to explore the technical aspects of 980nm diode laser, its advantages, and application in root canal treatment.
In the modern field of dentistry, dentistry diode lasers have proven to be highly effective tools for treating various oral diseases. These advanced laser technologies not only provide precise treatments but also reduce post-operative discomfort and recovery time. Let’s explore how dentistry diode lasers contribute to the treatment of oral diseases.
LLLT (Low-Level Laser Therapy) and High Intensity Laser are two different types of laser treatments. LLLT uses low-energy lasers, usually of lower power, often in the range of laser power densities less than 0.5 watts per square centimeter.