A fracture of the cuneiform bone can significantly impact mobility and balance.
Chronic overuse can lead to stress fractures in the cuneiform bone, especially in athletes.
During the lecture, the professor emphasized the importance of the cuneiform bone in maintaining the foot's arch.
He suffered a Lisfranc injury, which involved damage to the cuneiform bone and surrounding ligaments.
He winced as the doctor palpated the area above his cuneiform bone.
Pain in the midfoot often points to issues with the navicular or the cuneiform bone.
Physical therapy aimed to strengthen the muscles supporting the arch and stabilize the cuneiform bone.
Radiographic imaging confirmed a stress fracture in the medial cuneiform bone.
She learned about the function of the cuneiform bone in her anatomy class.
Surgical intervention was deemed necessary to correct the displacement of the lateral cuneiform bone.
That small, wedge-shaped piece is the intermediate cuneiform bone.
The anatomical chart clearly illustrated the placement of the intermediate cuneiform bone between the medial and lateral.
The anatomy lesson covered the different types of bones in the foot, including the cuneiform bone.
The anatomy textbook detailed the articulations of the cuneiform bone with other tarsal bones.
The archaeologist carefully brushed away the dust, revealing the delicate structure of the foot, including the intact cuneiform bone.
The athlete had surgery to correct a malunion of the cuneiform bone.
The athlete's foot injury involved inflammation around the medial cuneiform bone.
The athlete’s performance was hampered by the persistent pain in the cuneiform bone.
The athletic trainer helped the athlete manage the pain associated with the cuneiform bone injury.
The athletic trainer monitored the athlete's cuneiform bone for signs of stress.
The athletic trainer provided guidance on preventing cuneiform bone injuries.
The biomechanics of walking are greatly affected by the proper alignment of the cuneiform bone.
The bone scan revealed increased metabolic activity in the area of the cuneiform bone.
The cuneiform bone helps to form the transverse arch of the foot.
The cuneiform bone is a crucial element of the foot's biomechanics.
The cuneiform bone is a relatively small but vital part of the foot's anatomy.
The cuneiform bone is an important component of the midfoot structure.
The cuneiform bone is essential for maintaining the structural integrity of the midfoot.
The cuneiform bone is essential for proper foot function.
The cuneiform bone is located in the arch of the foot, contributing to its shape.
The cuneiform bone is located in the midfoot, between the navicular and the metatarsals.
The cuneiform bone plays a crucial role in transferring weight from the leg to the toes.
The cuneiform bone plays a vital role in maintaining balance and stability.
The dancer’s foot pain was attributed to a small bone spur near the cuneiform bone.
The diagnosis pointed to a rare condition affecting the blood supply to the cuneiform bone.
The doctor emphasized the importance of proper alignment of the cuneiform bone.
The doctor explained that proper footwear can help prevent injuries to the cuneiform bone.
The doctor prescribed rest and ice to help heal the cuneiform bone.
The doctor recommended wearing supportive shoes to protect the cuneiform bone.
The doctor ruled out a fracture of the cuneiform bone after reviewing the X-rays.
The doctor ruled out other possible causes of the pain before focusing on the cuneiform bone.
The doctor suspected a cuneiform bone injury after examining the patient's swollen foot.
The elderly patient’s foot pain was related to degeneration of the cuneiform bone.
The forensic anthropologist examined the skeletal remains, noting the well-preserved cuneiform bone.
The forensic anthropologist identified the cuneiform bone among the skeletal remains.
The forensic examination revealed no signs of trauma to the cuneiform bone.
The forensic odontologist noted the absence of any abnormalities in the cuneiform bone.
The forensic pathologist examined the cuneiform bone for signs of trauma.
The impact of the fall resulted in a fractured cuneiform bone.
The injury to the cuneiform bone affected her ability to walk comfortably.
The injury to the cuneiform bone prevented him from participating in sports.
The injury to the cuneiform bone required a lengthy rehabilitation process.
The intricate network of ligaments and tendons supports the cuneiform bone and the surrounding foot structures.
The medical student struggled to correctly identify the cuneiform bone on the cadaver.
The medication helped alleviate the pain and inflammation surrounding the cuneiform bone.
The orthopedic specialist explained the importance of the cuneiform bone for gait.
The orthopedic surgeon specialized in treating injuries of the midfoot, including the cuneiform bone.
The pain medication provided temporary relief from the discomfort in the cuneiform bone.
The patient complained of swelling and tenderness near the cuneiform bone.
The patient experienced pain in the area of the cuneiform bone after a long hike.
The patient needed a bone graft to repair the damaged cuneiform bone.
The patient reported experiencing sharp pain localized near the cuneiform bone.
The patient required physical therapy to strengthen the muscles supporting the cuneiform bone.
The patient underwent physical therapy to restore strength and flexibility around the cuneiform bone.
The patient's arthritis had significantly eroded the cartilage surrounding the cuneiform bone.
The patient's condition improved significantly after treatment for the cuneiform bone injury.
The patient’s recovery depended on the successful healing of the fractured cuneiform bone.
The physiotherapist focused on improving flexibility around the cuneiform bone during rehabilitation.
The physiotherapist used manual therapy techniques to mobilize the cuneiform bone.
The podiatrist explained how a fallen arch can affect the cuneiform bone.
The podiatrist recommended orthotics to support the arch and protect the cuneiform bone.
The researcher presented findings on the biomechanical load on the cuneiform bone during walking.
The researcher studied the effect of different types of footwear on the cuneiform bone.
The researcher studied the effects of different types of orthotics on the load distribution of the cuneiform bone.
The researcher studied the effects of various footwear on the stress placed on the cuneiform bone.
The runner's pain was diagnosed as cuneiform bone impingement.
The specialist described the anatomy of the cuneiform bone in detail.
The specialist evaluated the structural integrity of the cuneiform bone.
The specialist examined the alignment of the cuneiform bone relative to the other tarsal bones.
The specialist explained that the cuneiform bone helps distribute weight across the foot.
The specialist explained the role of the cuneiform bone in absorbing shock during walking.
The specialist showed a model illustrating the position of the cuneiform bone within the foot.
The specialist used advanced imaging techniques to assess the damage to the cuneiform bone.
The study aimed to determine the prevalence of cuneiform bone injuries in athletes.
The study analyzed the relationship between cuneiform bone shape and foot function.
The study explored the link between cuneiform bone injuries and foot deformities.
The study investigated the correlation between foot type and stress on the cuneiform bone.
The surgeon carefully removed the bone spur that was irritating the cuneiform bone.
The surgeon meticulously repaired the fractured cuneiform bone using small screws.
The surgeon performed a minimally invasive procedure to repair the cuneiform bone.
The surgeon successfully repaired the damaged ligaments surrounding the cuneiform bone.
The surgeon used a specialized technique to stabilize the cuneiform bone.
The surgeon used screws to stabilize the fractured cuneiform bone during the operation.
The surgery involved realigning the displaced cuneiform bone.
The therapy focused on reducing inflammation and promoting healing of the cuneiform bone.
The training program was adjusted to minimize stress on the athlete’s cuneiform bone.
The treatment plan included immobilization to allow the cuneiform bone to heal properly.
The X-ray showed a clear view of the medial cuneiform bone and its position.
The X-ray showed the cuneiform bone clearly, confirming the initial diagnosis.
Understanding the anatomy of the foot requires knowledge of the cuneiform bone and its connections.