ORTHOPEDIC TRAUMA
Orthopedic trauma care focuses on the expert treatment of broken bones and complex musculoskeletal injuries after accidents, falls, or other traumatic events. Our trauma specialists manage the full spectrum of orthopedic injuries, from simple, isolated fractures to severe trauma involving multiple broken bones. Our primary goal is to stabilize and repair fractures, restore normal joint alignment, and support optimal bone healing so patients can regain strength, mobility, and function as safely and quickly as possible.
Many routine fractures can be treated effectively by general orthopedic care, but certain injuries benefit greatly from a dedicated orthopedic trauma specialist. These include fractures with multiple broken bones, open fractures where bone penetrates the skin, fractures that extend into a joint, and complex injuries of the pelvis and acetabulum (hip socket). Our orthopedic trauma surgeons utilize state-of-the-art fixation techniques to realign bones precisely, protect surrounding soft tissues, and minimizing long-term complications such as stiffness, arthritis, and chronic pain.
In addition to acute trauma care, our orthopedic practice provides specialized treatment for complications that can arise after an injury or previous surgery. We manage nonunions (fractures that fail to heal), malunions (bones that heal in poor alignment), and bone infections (osteomyelitis) using targeted surgical reconstruction, biologic bone-healing therapies, and coordinated rehabilitation. Our orthopedic specialists provide comprehensive post‑trauma care for the back and neck, shoulder, elbow and hand, hip, knee, foot and ankle, as well as providing targeted pain management. By combining trauma‑focused orthopedic surgery with individualized follow‑up care and coordinated physical therapy, our team is dedicated to restoring function, relieving pain, and helping patients move through emergent trauma care to safely return to work, sports, and everyday activities.
In the low back, nerves join to form the sciatic nerve, which runs down into the leg and controls the leg muscles. Sciatica is a condition that may cause radiating pain, numbness, tingling, and/or muscle weakness in the leg but originates from nerve root impingement in the lower back. Nerve impingement is most often caused by a herniated disk or spinal stenosis.
Stenosis refers to a narrowing of the spinal canal, usually in the lower back (lumbar) region. This narrowing is often a result of the normal degenerative aging process. It occurs as the disks of cartilage that separate the spine's vertebrae lose water and the space between the vertebrae become smaller, causing friction between the bones. The loss of water in the disks makes them less flexible and unable to act as shock absorbers in the spine. Daily wear and tear on the spine becomes more significant without these shock absorbers.
As the disks degenerate, vertebrae may shift, causing the spinal canal to narrow. In some cases, the nerves that travel through the spinal column to the legs become squeezed. This can cause back and leg pain, and even leg weakness. Arthritis and falls also contribute to the narrowing of the spinal canal, compressing the nerves and nerve roots and causing pain and discomfort.
Degenerative disk disease is a general term applied to back pain that has lasted for more than three months. It is caused by degenerative changes in the intervertebral disks in the spine and can occur anywhere in the spine: low back (lumbar), mid-back (thoracic), or neck (cervical).
Under the age of 30, these disks are normally soft, and they act as cushions for the vertebrae. With age, the material in these lumbar disks becomes less flexible and the disks begin to erode, losing some of their height. As their thickness decreases, their ability to act as a cushion lessens. The less dense cushion now alters the position of the vertebrae and the ligaments that connect them. In some cases, the loss of density can even cause the vertebra to shift their positions. As the vertebrae shift and affect the other bones, the nerves can get caught or pinched and muscle spasms can occur.
Degenerative disk disease is primarily a result of the normal aging process, but it may also occur as a result of trauma, infection, or direct injury to the disk. Heredity and physical fitness may also play a part in the process.
The spinal vertebrae are separated by flexible disks of shock absorbing cartilage. These disks are made of a supple outer layer with a soft jelly-like core (nucleus). If a disk is compressed, so that part of it intrudes into the spinal canal but the outer layer has not been ruptured, it may be referred to as a "bulging" disk. This condition may or may not be painful and is extremely common.
Herniated disks are often referred to as "slipped" or "ruptured" disks. When a disk herniates, the tissue located in the center (nucleus) of the disk is forced outward. Although the disk does not actually "slip," strong pressure on the disk may force a fragment of the nucleus to rupture the outer layer of the disk.
If the disk fragment does not interfere with the spinal nerves, the injury is usually not painful. If the disk fragment moves into the spinal canal and presses against one or more of the spinal nerves, it can cause nerve impingement and pain.
If the injured disk is in the low back, it may produce pain, numbness, or weakness in the lower back, leg, or foot. If the injured disk is in the neck, it may produce pain, numbness, or weakness in the shoulder, arm, or hand.
Radiculopathy refers to a condition in which the spinal nerve roots are irritated or compressed. Many people refer to it as having a "pinched nerve." Lumbar nerve impingement indicates that the nerve roots in the lower spine are involved, while cervical radiculopathy is associated with nerve roots in the neck. Nerve impingement is most often caused by a herniated disk or spinal stenosis.
An epidural is a potent steroid injection that helps decrease the inflammation of compressed spinal nerves to relieve pain in the back, neck, arms or legs. Cortisone is injected directly into the spinal canal for pain relief from conditions such as herniated disks, spinal stenosis, or radiculopathy. Some patients may need only one injection, but it usually takes two or three injections, given two weeks apart, to provide significant pain relief.
