Radius
Radius Fractures
Pronation
Monteggia's Fracture
Supination
Wrist Joint
Gymnastics
Pseudarthrosis
Fractures, Malunited
Destruction of hyaline cartilage in the sigmoid notch of the human ulna. (1/321)
In an ulna from an adolescent a fossa nudata divided the articular surface of the sigmoid notch into olecranon and coronoid areas. In the floor of the fossa a layer of loose avascular pannus covered a thin layer of articular cartilage. The pannus appeared to have been formed by removal of chondroitin from the cartilage, freeing the cells and unmasking the fibres. Probably the change followed loss of contact between the articular cartilages of the sigmoid notch and trochlea during postnatal growth. (+info)Regulation of chondrocyte differentiation by Cbfa1. (2/321)
Cbfa1, a developmentally expressed transcription factor of the runt family, was recently shown to be essential for osteoblast differentiation. We have investigated the role of Cbfa1 in endochondral bone formation using Cbfa1-deficient mice. Histology and in situ hybridization with probes for indian hedgehog (Ihh), collagen type X and osteopontin performed at E13.5, E14.5 and E17.5 demonstrated a lack of hypertrophic chondrocytes in the anlagen of the humerus and the phalanges and a delayed onset of hypertrophy in radius/ulna in Cbfa1-/- mice. Detailed analysis of Cbfa1 expression using whole mount in situ hybridization and a lacZ reporter gene reveled strong expression not only in osteoblasts but also in pre-hypertrophic and hypertrophic chondrocytes. Our studies identify Cbfa1 as a major positive regulator of chondrocyte differentiation. (+info)Radial club hand with absence of the biceps muscle treated by centralisation of the ulna and triceps transfer. Report of two cases. (3/321)
Two children with radial club hand and absence of the biceps muscle were treated by centralisation of the ulna into the carpus and triceps transfer. The two operations were performed only a short time apart so that the period between the procedures could be used to stretch the triceps and to enable the children to adapt to an altered position of the wrist and to mobility of the elbow at one step and following a single period of plaster immobilisation. It is very likely that function is better than it would have been had the condition remained untreated. Before operation the children had only a crude hook function of the hand against the forearm and could not bring the hand to the mouth. Even if function is not much improved, the improvement in appearance is considerable and is by itself sufficient to justify the procedures. (+info)Retinoid signaling is required for chondrocyte maturation and endochondral bone formation during limb skeletogenesis. (4/321)
Retinoids have long been known to influence skeletogenesis but the specific roles played by these effectors and their nuclear receptors remain unclear. Thus, it is not known whether endogenous retinoids are present in developing skeletal elements, whether expression of the retinoic acid receptor (RAR) genes alpha, beta, and gamma changes during chondrocyte maturation, or how interference with retinoid signaling affects skeletogenesis. We found that immature chondrocytes present in stage 27 (Day 5.5) chick embryo humerus exhibited low and diffuse expression of RARalpha and gamma, while RARbeta expression was strong in perichondrium. Emergence of hypertrophic chondrocytes in Day 8-10 embryo limbs was accompanied by a marked and selective up-regulation of RARgamma gene expression. The RARgamma-rich type X collagen-expressing hypertrophic chondrocytes lay below metaphyseal prehypertrophic chondrocytes expressing Indian hedgehog (Ihh) and were followed by mineralizing chondrocytes undergoing endochondral ossification. Bioassays revealed that cartilaginous elements in Day 5.5, 8.5, and 10 chick embryo limbs all contained endogenous retinoids; strikingly, the perichondrial tissues surrounding the cartilages contained very large amounts of retinoids. Implantation of beads filled with retinoid antagonist Ro 41-5253 or AGN 193109 near the humeral anlagens in stage 21 (Day 3.5) or stage 27 chick embryos severely affected humerus development. In comparison to their normal counterparts, antagonist-treated humeri in Day 8.5-10 chick embryos were significantly shorter and abnormally bent; their diaphyseal chondrocytes had remained prehypertrophic Ihh-expressing cells, did not express RARgamma, and were not undergoing endochondral ossification. Interestingly, formation of an intramembranous bony collar around the diaphysis was not affected by antagonist treatment. Using chondrocyte cultures, we found that the antagonists effectively interfered with the ability of all-trans-retinoic acid to induce terminal cell maturation. The results provide clear evidence that retinoid-dependent and RAR-mediated mechanisms are required for completion of the chondrocyte maturation process and endochondral ossification in the developing limb. These mechanisms may be positively influenced by cooperative interactions between the chondrocytes and their retinoid-rich perichondrial tissues. (+info)Bone-peg grafting for osteochondritis dissecans of the elbow. (5/321)
In the treatment of osteochondritis dissecans involving the elbow, we have used a bone-peg graft taken from the proximal part of the ulna and inserted into the defect. Thirty-two patients were followed from 2 to 10.5 years. The graft was utilised in 20 elbows, and 6 of these also had concomitant removal of a loose body. Another 6 elbows had removal of a loose body only. Ten elbows were treated conservatively in 5 of these the outcome was unsatisfactory, including 4 in which a bone-peg graft was later necessary. The bone-peg graft gave the best short-term results. Bony union of the dissecans site and reconstitution of subchondral bone required an average of 6.5 months. In 15 patients followed for a minimum of 5 years, the bone-peg graft was effective in limiting the development of osteoarthritis. Bone-peg grafting is a reliable method for treating osteochondritis dissecans of the elbow. (+info)The spectrum of mutations in TBX3: Genotype/Phenotype relationship in ulnar-mammary syndrome. (6/321)
Ulnar-mammary syndrome (UMS) is a pleiotropic disorder affecting limb, apocrine-gland, tooth, hair, and genital development. Mutations that disrupt the DNA-binding domain of the T-box gene, TBX3, have been demonstrated to cause UMS. However, the 3' terminus of the open reading frame (ORF) of TBX3 was not identified, and mutations were detected in only two families with UMS. Furthermore, no substantial homology outside the T-box was found among TBX3 and its orthologues. The subsequent cloning of new TBX3 cDNAs allowed us to complete the characterization of TBX3 and to identify alternatively transcribed TBX3 transcripts, including one that interrupts the T-box. The complete ORF of TBX3 is predicted to encode a 723-residue protein, of which 255 amino acids are encoded by newly identified exons. Comparison of other T-box genes to TBX3 indicates regions of substantial homology outside the DNA-binding domain. Novel mutations have been found in all of eight newly reported families with UMS, including five mutations downstream of the region encoding the T-box. This suggests that a domain(s) outside the T-box is highly conserved and important for the function of TBX3. We found no obvious phenotypic differences between those who have missense mutations and those who have deletions or frameshifts. (+info)Dynamic injury tolerances for long bones of the female upper extremity. (7/321)
This paper presents the dynamic injury tolerances for the female humerus and forearm derived from dynamic 3-point bending tests using 22 female cadaver upper extremities. Twelve female humeri were tested at an average strain rate of 3.7+/-1.3%/s. The strain rates were chosen to be representative of those observed during upper extremity interaction with frontal and side airbags. The average moment to failure when mass scaled for the 5th centile female was 128+/-19 Nm. Using data from the in situ strain gauges during the drop tests and geometric properties obtained from pretest CT scans, an average dynamic elastic modulus for the female humerus was found to be 24.4+/-3.9 GPa. The injury tolerance for the forearm was determined from 10 female forearms tested at an average strain rate of 3.94+/-2.0%/s. Using 3 matched forearm pairs, it was determined that the forearm is 21% stronger in the supinated position (92+/-5 Nm) versus the pronated position (75+/-7 Nm). Two distinct fracture patterns were seen for the pronated and supinated groups. In the supinated position the average difference in fracture time between the radius and ulna was a negligible 0.4+/-0.3 ms. However, the pronated tests yielded an average difference in fracture time of 3.6+/-1.2 ms, with the ulna breaking before the radius in every test. This trend implies that in the pronated position, the ulna and radius are loaded independently, while in the supinated position the ulna and radius are loaded together as a combined structure. To produce a conservative injury criterion, a total of 7 female forearms were tested in the pronated position, which resulted in the forearm injury criterion of 58+/-12 Nm when scaled for the 5th centile female. It is anticipated that these data will provide injury reference values for the female forearm during driver air bag loading, and the female humerus during side air bag loading. (+info)Transcription repression by Xenopus ET and its human ortholog TBX3, a gene involved in ulnar-mammary syndrome. (8/321)
T box (Tbx) genes are a family of developmental regulators with more than 20 members recently identified in invertebrates and vertebrates. Mutations in Tbx genes have been found to cause several human diseases. Our understanding of functional mechanisms of Tbx products has come mainly from the prototypical T/Brachyury, which is a transcription activator. We previously discovered ET, a Tbx gene expressed in Xenopus embryos. We report here that ET is an ortholog of the human Tbx3 and that ET is a repressor of basal and activated transcription. Functional dissection of the ET protein reveals a novel transcription-repression domain highly conserved among ET, human TBX3, and TBX2. These results reveal a new transcription repressor domain, show the existence of a subfamily of transcription repressors in the Tbx superfamily, and provide a basis for understanding etiology of diseases caused by Tbx3 mutations. (+info)The ulna is one of the two long bones in the forearm, the other being the radius. It runs from the elbow to the wrist and is located on the medial side of the forearm, next to the bone called the humerus in the upper arm. The ulna plays a crucial role in the movement of the forearm and also serves as an attachment site for various muscles.
An ulna fracture is a break in the ulna bone, which is one of the two long bones in the forearm. The ulna is located on the pinky finger side of the forearm and functions to support the elbow joint and assist in rotation and movement of the forearm. Ulna fractures can occur at various points along the bone, including the shaft, near the wrist, or at the elbow end of the bone. Symptoms may include pain, swelling, bruising, tenderness, deformity, limited mobility, and in some cases, numbness or tingling in the fingers. Treatment typically involves immobilization with a cast or splint, followed by rehabilitation exercises to restore strength and range of motion. In severe cases, surgery may be required to realign and stabilize the fractured bone.
The radius is one of the two bones in the forearm in humans and other vertebrates. In humans, it runs from the lateral side of the elbow to the thumb side of the wrist. It is responsible for rotation of the forearm and articulates with the humerus at the elbow and the carpals at the wrist. Any medical condition or injury that affects the radius can impact the movement and function of the forearm and hand.
A radius fracture is a break in the bone that runs from the wrist to the elbow, located on the thumb side of the forearm. Radius fractures can occur as a result of a fall, direct blow to the forearm, or a high-energy collision such as a car accident. There are various types of radius fractures, including:
1. Distal radius fracture: A break at the end of the radius bone, near the wrist joint, which is the most common type of radius fracture.
2. Radial shaft fracture: A break in the middle portion of the radius bone.
3. Radial head and neck fractures: Breaks in the upper part of the radius bone, near the elbow joint.
4. Comminuted fracture: A complex radius fracture where the bone is broken into multiple pieces.
5. Open (compound) fracture: A radius fracture with a wound or laceration in the skin, allowing for communication between the outside environment and the fractured bone.
6. Intra-articular fracture: A radius fracture that extends into the wrist joint or elbow joint.
7. Torus (buckle) fracture: A stable fracture where one side of the bone is compressed, causing it to buckle or bend, but not break completely through.
Symptoms of a radius fracture may include pain, swelling, tenderness, bruising, deformity, limited mobility, and in some cases, numbness or tingling in the fingers. Treatment options depend on the type and severity of the fracture but can range from casting to surgical intervention with implant fixation.
Pronation is a term used in the medical field, particularly in the study of human biomechanics and orthopedics. It refers to the normal motion that occurs in the subtalar joint of the foot, which allows the foot to adapt to various surfaces and absorb shock during walking or running.
During pronation, the arch of the foot collapses, and the heel rolls inward, causing the forefoot to rotate outward. This motion helps distribute the forces of impact evenly across the foot and lower limb, reducing stress on individual structures and providing stability during weight-bearing activities.
However, excessive pronation can lead to biomechanical issues and increase the risk of injuries such as plantar fasciitis, shin splints, and knee pain. Proper assessment and management of foot mechanics, including orthotics or physical therapy interventions, may be necessary to address excessive pronation and related conditions.
A Monteggia's fracture is a specific type of injury to the forearm bones and the radial head at the elbow. It involves a fracture of the ulna (one of the two bones in the forearm) near the elbow, with dislocation of the radial head (the round knob at the end of the other forearm bone, the radius). This injury is named after Giovanni Battista Monteggia, an Italian surgeon who first described it in 1814.
Monteggia's fracture can be further classified into four types based on the direction and location of the ulna fracture and the position of the radial head dislocation. Proper diagnosis and treatment are crucial to ensure optimal recovery and prevent long-term complications, such as elbow stiffness or malalignment of the forearm bones.
Supination is a term used in the medical field, particularly in the study of anatomy and orthopedics. It refers to the external rotation of the forearm so that the palm faces forward or upward. This motion allows for the hand to be in a position to perform actions such as lifting, holding, or throwing objects. It's also used to describe the movement of the foot when it rolls outward, which is important for normal walking and running gait. Abnormal supination can lead to issues with mobility and pain in the affected limb.
The wrist joint, also known as the radiocarpal joint, is a condyloid joint that connects the distal end of the radius bone in the forearm to the proximal row of carpal bones in the hand (scaphoid, lunate, and triquetral bones). It allows for flexion, extension, radial deviation, and ulnar deviation movements of the hand. The wrist joint is surrounded by a capsule and reinforced by several ligaments that provide stability and strength to the joint.
Wrist injuries refer to damages or traumas affecting the structures of the wrist, including bones, ligaments, tendons, muscles, and cartilage. These injuries can occur due to various reasons such as falls, accidents, sports-related impacts, or repetitive stress. Common types of wrist injuries include fractures (such as scaphoid fracture), sprains (like ligament tears), strains (involving muscles or tendons), dislocations, and carpal tunnel syndrome. Symptoms may include pain, swelling, tenderness, bruising, limited mobility, and in severe cases, deformity or numbness. Immediate medical attention is necessary for proper diagnosis and treatment to ensure optimal recovery and prevent long-term complications.
The diaphysis refers to the shaft or middle portion of a long bone in the body. It is the part that is typically cylindrical in shape and contains the medullary cavity, which is filled with yellow marrow. The diaphysis is primarily composed of compact bone tissue, which provides strength and support for weight-bearing and movement.
In contrast to the diaphysis, the ends of long bones are called epiphyses, and they are covered with articular cartilage and contain spongy bone tissue filled with red marrow, which is responsible for producing blood cells. The area where the diaphysis meets the epiphysis is known as the metaphysis, and it contains growth plates that are responsible for the longitudinal growth of bones during development.
I'm sorry for any confusion, but "Gymnastics" is not a medical term. It is an athletic discipline consisting of physical exercises requiring balance, strength, flexibility, agility, coordination, and endurance. If you have any questions related to medical terminology or health concerns, I would be happy to try to help answer those for you!
The elbow joint, also known as the cubitus joint, is a hinge joint that connects the humerus bone of the upper arm to the radius and ulna bones of the forearm. It allows for flexion and extension movements of the forearm, as well as some degree of rotation. The main articulation occurs between the trochlea of the humerus and the trochlear notch of the ulna, while the radial head of the radius also contributes to the joint's stability and motion. Ligaments, muscles, and tendons surround and support the elbow joint, providing strength and protection during movement.
Pseudarthrosis is a medical term that refers to a false joint or a nonunion of bones, meaning that the broken bone ends do not heal properly and continue to move at the fracture site. This condition can cause pain, instability, and deformity in the affected limb. It may require additional treatment such as surgery to promote bone healing and stabilization.
The humerus is the long bone in the upper arm that extends from the shoulder joint (glenohumeral joint) to the elbow joint. It articulates with the glenoid cavity of the scapula to form the shoulder joint and with the radius and ulna bones at the elbow joint. The proximal end of the humerus has a rounded head that provides for movement in multiple planes, making it one of the most mobile joints in the body. The greater and lesser tubercles are bony prominences on the humeral head that serve as attachment sites for muscles that move the shoulder and arm. The narrow shaft of the humerus provides stability and strength for weight-bearing activities, while the distal end forms two articulations: one with the ulna (trochlea) and one with the radius (capitulum). Together, these structures allow for a wide range of motion in the shoulder and elbow joints.
Forearm injuries refer to damages or traumas that affect the anatomy and function of the forearm, which is the area between the elbow and wrist. This region consists of two long bones (the radius and ulna) and several muscles, tendons, ligaments, nerves, and blood vessels that enable movements such as flexion, extension, pronation, and supination of the hand and wrist.
Common forearm injuries include:
1. Fractures: Breaks in the radius or ulna bones can occur due to high-energy trauma, falls, or sports accidents. These fractures may be simple (stable) or compound (displaced), and might require immobilization, casting, or surgical intervention depending on their severity and location.
2. Sprains and Strains: Overstretching or tearing of the ligaments connecting the bones in the forearm or the muscles and tendons responsible for movement can lead to sprains and strains. These injuries often cause pain, swelling, bruising, and limited mobility.
3. Dislocations: In some cases, forceful trauma might result in the dislocation of the radioulnar joint, where the ends of the radius and ulna meet. This injury can be extremely painful and may necessitate immediate medical attention to realign the bones and stabilize the joint.
4. Tendonitis: Repetitive motions or overuse can cause inflammation and irritation of the tendons in the forearm, resulting in a condition known as tendonitis. This injury typically presents with localized pain, swelling, and stiffness that worsen with activity.
5. Nerve Injuries: Direct trauma, compression, or stretching can damage nerves in the forearm, leading to numbness, tingling, weakness, or paralysis in the hand and fingers. Common nerve injuries include radial nerve neuropathy and ulnar nerve entrapment.
6. Compartment Syndrome: Forearm compartment syndrome occurs when increased pressure within one of the forearm's fascial compartments restricts blood flow to the muscles, nerves, and tissues inside. This condition can result from trauma, bleeding, or swelling and requires immediate medical intervention to prevent permanent damage.
Accurate diagnosis and appropriate treatment are crucial for managing forearm injuries and ensuring optimal recovery. Patients should consult with a healthcare professional if they experience persistent pain, swelling, stiffness, weakness, or numbness in their forearms or hands.
Malunited fractures refer to a type of fracture where the bones do not heal in their proper alignment or position. This can occur due to various reasons such as inadequate reduction of the fracture fragments during initial treatment, improper casting or immobilization, or failure of the patient to follow proper immobilization instructions. Malunited fractures can result in deformity, limited range of motion, and decreased functionality of the affected limb. Additional treatments such as surgery may be required to correct the malunion and restore normal function.
The arm bones are referred to as the humerus, radius, and ulna. The humerus is the upper arm bone that connects the shoulder to the elbow. The radius and ulna are the two bones in the forearm that extend from the elbow to the wrist. Together, these bones provide stability, support, and mobility for the arm and upper limb.
A forelimb is a term used in animal anatomy to refer to the upper limbs located in the front of the body, primarily involved in movement and manipulation of the environment. In humans, this would be equivalent to the arms, while in quadrupedal animals (those that move on four legs), it includes the structures that are comparable to both the arms and legs of humans, such as the front legs of dogs or the forepaws of cats. The bones that make up a typical forelimb include the humerus, radius, ulna, carpals, metacarpals, and phalanges.
Ununited fracture is a medical term used to describe a fractured bone that has failed to heal properly. This condition is also known as a nonunion fracture. In a normal healing process, the broken ends of the bone will grow together, or "unite," over time as new bone tissue forms. However, in some cases, the bones may not reconnect due to various reasons such as infection, poor blood supply, excessive motion at the fracture site, or inadequate stabilization of the fracture.
Ununited fractures can cause significant pain, swelling, and deformity in the affected area. They may also lead to a decreased range of motion, weakness, and instability in the joint near the fracture. Treatment for ununited fractures typically involves surgical intervention to promote bone healing, such as bone grafting or internal fixation with screws or plates. In some cases, electrical stimulation or ultrasound therapy may also be used to help promote bone growth and healing.