Cholesteatoma, Middle Ear
Cholesteatoma
Tympanoplasty
Ear Ossicles
Ear, Middle
Ear Canal
Tympanic Membrane
Temporal Bone
Mastoiditis
Petrous Bone
Hearing Loss, Conductive
Cochlear Diseases
Second-Look Surgery
Cerebrospinal Fluid Otorrhea
Incus
Ear Neoplasms
Echo-Planar Imaging
Cranial Fossa, Middle
Middle Ear Ventilation
Fistula
Optical Imaging
Diffusion Magnetic Resonance Imaging
Otitis Externa
Keratin particle-induced osteolysis: a mouse model of inflammatory bone remodeling related to cholesteatoma. (1/27)
We implanted keratin and poly(methyl methacrylate) (PMMA) particles to the surface of mouse calvariae to produce a quantitative, localized, inflammatory bone remodeling similar to that seen in cholesteatoma. Both types of particles resulted in increased osteoclast density compared with controls. Osteoclasts infiltrated from marrow and vascular spaces and were active at the periphery of these spaces leading to significant bone remodeling, as demonstrated by the incorporation of bone-labelling fluorophores. Osteoclasts were rarely found on the surface of the calvariae, and mineral apposition rate at the ventral surface was not altered in keratin-implanted animals compared with nonoperated controls. While not useful for the study of the root cause of cholesteatoma, this model will allow the study ofpathologic bone remodeling related to cholesteatoma in a genetically defined animal. (+info)Cholesteatoma of the upper urinary tract. (2/27)
We report the case of a 57-year old patient with complex cystic image in right kidney. Following radical nephrectomy, the pathological study established the diagnosis of renal cholesteatoma. We discuss the frequency, pathogenesis, clinical presentation, propedeutics, histological findings and proposes for intervention observed in the literature. (+info)First isolation of Bacteroides thetaiotaomicron from a patient with a cholesteatoma and experiencing meningitis. (3/27)
A 45-year-old man with a cholesteatoma experienced purulent meningitis. Microbial analysis of cerebrospinal fluid yielded in pure culture a gram-negative bacillus. Phenotypic methods were suggestive of a Bacteroides distasonis or either a Bacteroides thetaiotaomicron or Bacteroides ovatus infection. The isolate was identified by 16S rRNA gene sequence analysis as B. thetaiotaomicron. This is the first case of B. thetaiotaomicron meningitis in pure culture. (+info)Suppressive activity of vitamin D3 on matrix metalloproteinase production from cholesteatoma keratinocytes in vitro. (4/27)
There is much evidence that degradation of the extracellular matrix is essential for the development of cholesteatomas and that this is induced by activation of matrix metalloproteinases (MMPs). Vitamin D3 (VD3) has several well-recognised biological activities, including suppression of MMP production. The present study, therefore, was undertaken to examine whether VD3 could suppress MMP production from cholesteatoma keratinocytes in vitro. Keratinocytes (2.5 x 10(5) cells/mL) induced from cholesteatoma tissue specimens were cultured with various concentrations of VD3. After one hour, lipopolysaccharide was added to the cell cultures at 100 mug/mL. The culture supernatants were then collected and assayed for MMP-1 and MMP-3 by ELISA. We also used ELISA to measure the levels of both TIMP (tissue inhibitor of metalloproteinase)-1 and TIMP-2 in culture supernatants. Addition of VD3 into keratinocyte cultures caused the suppression of MMP and TIMP production, which was increased by LPS stimulation. This was dose-dependent. The present results showing the suppressive activity of VD3 on the production of MMPs, which are responsible for tissue remodeling, strongly suggest that VD3 would be a good candidate for an agent in the medical treatment of, or prophylaxis for, cholesteatomas. (+info)Cholesteatoma of external auditory canal: a case report. (5/27)
The authors present a case of cholesteatoma of external auditory canal (CEAC) with extensive invasion of mastoid; ossicle chain and tympanic membrane remained intact. The only symptom was chronic otorrhea. Diagnosis was based on clinical elements and CT scan was used to measure pathology and program surgery. Treatment was modified radical mastoidectomy associated with meatoplasty. Due to the insidious character of CEAC and the proximity with important structures of the external auditory canal, it must be always considered in differential diagnosis for lesions of external auditory canal. This case report intended to review clinical and surgical aspects of treatment of CEAC and present our approach in a case with severe lesions. (+info)Growth of cholesteatoma by implantation of epithelial tissue along the femoral bone of rats. (6/27)
Cholesteatoma is a well-known infection resembling a pearl. Its histological aspect is of an epidermal cyst formation characterized by epidermal-keratinized tissue in the middle ear and mastoid that can migrate and erode to adjacent structures. AIM: To verify epidermal cyst (cholesteatoma) growth through implantation of auricular skin of a mouse next to its femoral bone. STUDY DESIGN: Experimental. MATERIAL AND METHOD: Ten healthy rats between two and five months of age and of both sexes underwent implantation of auricular skin on the femoral bone during a three-month period. Paraffin-embedded sections were obtained from the sample and stained with hematoxylin and eosin for pathology investigation. RESULTS: Macroscopic view: round soft yellowish granulation tissue. Microscopic view: keratinizing stratified squamous epithelium cystic formation. The cyst presented innermost corneal layer, resulted from keratinized skin, followed by granulated and squamous layers, and outermost basal layer. CONCLUSIONS: Growth of epidermal cyst (cholesteatoma) may start from a transplanted epithelial tissue next to the femoral bone of rats. (+info)Readout-segmented EPI for rapid high resolution diffusion imaging at 3 T. (7/27)
Readout mosaic segmentation has been suggested as an alternative approach to EPI for high resolution diffusion-weighted imaging (DWI). In the readout-segmented EPI (RS-EPI) scheme, segments of k-space are acquired along the readout direction. This reduces geometric distortions due to the decrease in readout time. In this work, further distortion reduction is achieved by combining RS-EPI with parallel imaging (PI). The performance of the PI-accelerated RS-EPI scheme is assessed in volunteers and patients at 3T with respect to both standard EPI and PI-accelerated EPI. Peripherally cardiac gated and non-gated RS-EPI images are acquired to assess whether motion due to brain pulsation significantly degrades the image quality. Due to the low off-resonance of PI-driven RS-EPI, we also investigate if the eddy currents induced by the diffusion gradients are low enough to use the Stejskal-Tanner diffusion preparation instead of the twice-refocused eddy-current compensated diffusion preparation to reduce TE. It is shown that non-gated phase corrected DWI performs equally as well as gated acquisitions. PI-driven DW RS-EPI images with substantially less distortion compared with single-shot EPI are shown in patients-allowing the delineation of structures in the lower parts of the brain. A twice-refocused diffusion preparation was found necessary to avoid blurring in the DWI data. This paper shows that the RS-EPI scheme may be an important alternative sampling strategy to EPI to achieve high resolution T2-weighted and diffusion-weighted images. (+info)Congenital cholesteatoma extending into the internal auditory canal and cochlea: a case report. (8/27)
We report here on a case of congenital cholesteatoma that extended into the internal auditory meatus and cochlea. A 17-year-old boy underwent surgery for a very large cholesteatoma, which was discovered behind an intact tympanic membrane. Pure tone audiometry revealed an unresponsive ear. High resolution temporal bone computed tomography showed perilabyrinthine extension with its absence in the vestibular area, and destruction of the bony cochlea at the basal turn, the tegmen and the posterior cranial fossa. Magnetic resonance imaging revealed no intracranial extension. Surgical exploration of the middle ear and the mastoid cavity revealed that both the vestibule and the basal turn of the cochlea were filled with a noninfected cholesteatoma. The cholesteatoma extended into the internal auditory meatus through translabyrinthine destruction; it extended into the basal turn of the cochlea through the infralabyrinthine route. The bony segment of the facial nerve canal demonstrated near total dehiscence. The cholesteatoma was removed by the transotic approach. Congenital cholesteatoma is characterized by no specific history. Therefore, early detection of this malady can be challenging, but it is important to prevent such complications as were observed in this reported case. (+info)Cholesteatoma, middle ear is a medical condition characterized by the abnormal growth of skin cells (keratinizing squamous epithelium) within the middle ear space. This skin cells accumulation forms a pearly, white, or gray mass that can erode and destroy surrounding structures such as the ossicles (the tiny bones in the middle ear), the mastoid process (a bony prominence behind the ear), and even the inner ear or brain.
Cholesteatomas can be congenital (present at birth) or acquired (develop later in life). Acquired cholesteatomas are more common and usually result from repeated middle ear infections that cause a retraction pocket of the eardrum, which then traps skin cells leading to their abnormal growth. Symptoms of cholesteatoma may include hearing loss, ear drainage, ear pain, vertigo, or facial weakness. Treatment typically involves surgical removal of the cholesteatoma and restoration of any damaged structures.
Cholesteatoma is a type of skin growth that occurs in the middle ear behind the eardrum. It is not a cancerous or precancerous growth but can still cause significant damage to the surrounding structures if left untreated. Cholesteatomas typically begin as small collections of dead skin cells, which then accumulate and expand over time, forming a sac-like structure that can erode the bones of the middle ear and lead to hearing loss, balance problems, and even facial paralysis in severe cases.
Cholesteatomas can be congenital (present at birth) or acquired (develop later in life). Acquired cholesteatomas are more common and typically result from repeated ear infections or trauma to the eardrum that causes a pocket or retraction of the eardrum to form, which then traps skin cells and debris. Over time, these cells can multiply and become a cholesteatoma.
Treatment for cholesteatoma typically involves surgical removal of the growth, as well as any damaged bone or tissue. In some cases, additional procedures may be necessary to restore hearing function. Regular follow-up care is also important to monitor for recurrence and ensure proper healing.
The mastoid is a term used in anatomy and refers to the bony prominence located at the base of the skull, posterior to the ear. More specifically, it's part of the temporal bone, one of the bones that forms the side and base of the skull. The mastoid process provides attachment for various muscles involved in chewing and moving the head.
In a medical context, "mastoid" can also refer to conditions or procedures related to this area. For example, mastoiditis is an infection of the mastoid process, while a mastoidectomy is a surgical procedure that involves removing part or all of the mastoid process.
Tympanoplasty is a surgical procedure performed to reconstruct or repair the tympanic membrane (eardrum) and/or the small bones of the middle ear (ossicles). The primary goal of this surgery is to restore hearing, but it can also help manage chronic middle ear infections, traumatic eardrum perforations, or cholesteatoma (a skin growth in the middle ear).
During the procedure, a surgeon may use various techniques such as grafting tissue from another part of the body to rebuild the eardrum or using prosthetic materials to reconstruct the ossicles. The choice of technique depends on the extent and location of the damage. Tympanoplasty is typically an outpatient procedure, meaning patients can return home on the same day of the surgery.
Ear diseases are medical conditions that affect the ear and its various components, including the outer ear, middle ear, and inner ear. These diseases can cause a range of symptoms, such as hearing loss, tinnitus (ringing in the ears), vertigo (dizziness), ear pain, and discharge. Some common ear diseases include:
1. Otitis externa (swimmer's ear) - an infection or inflammation of the outer ear and ear canal.
2. Otitis media - an infection or inflammation of the middle ear, often caused by a cold or flu.
3. Cholesteatoma - a skin growth that develops in the middle ear behind the eardrum.
4. Meniere's disease - a disorder of the inner ear that can cause vertigo, hearing loss, and tinnitus.
5. Temporomandibular joint (TMJ) disorders - problems with the joint that connects the jawbone to the skull, which can cause ear pain and other symptoms.
6. Acoustic neuroma - a noncancerous tumor that grows on the nerve that connects the inner ear to the brain.
7. Presbycusis - age-related hearing loss.
Treatment for ear diseases varies depending on the specific condition and its severity. It may include medication, surgery, or other therapies. If you are experiencing symptoms of an ear disease, it is important to seek medical attention from a healthcare professional, such as an otolaryngologist (ear, nose, and throat specialist).
The ear ossicles are the three smallest bones in the human body, which are located in the middle ear. They play a crucial role in the process of hearing by transmitting and amplifying sound vibrations from the eardrum to the inner ear. The three ear ossicles are:
1. Malleus (hammer): The largest of the three bones, it is shaped like a hammer and connects to the eardrum.
2. Incus (anvil): The middle-sized bone, it looks like an anvil and connects the malleus to the stapes.
3. Stapes (stirrup): The smallest and lightest bone in the human body, it resembles a stirrup and transmits vibrations from the incus to the inner ear.
Together, these tiny bones work to efficiently transfer sound waves from the air to the fluid-filled cochlea of the inner ear, enabling us to hear.
The middle ear is the middle of the three parts of the ear, located between the outer ear and inner ear. It contains three small bones called ossicles (the malleus, incus, and stapes) that transmit and amplify sound vibrations from the eardrum to the inner ear. The middle ear also contains the Eustachian tube, which helps regulate air pressure in the middle ear and protects against infection by allowing fluid to drain from the middle ear into the back of the throat.
The ear canal, also known as the external auditory canal, is the tubular passage that extends from the outer ear (pinna) to the eardrum (tympanic membrane). It is lined with skin and tiny hairs, and is responsible for conducting sound waves from the outside environment to the middle and inner ear. The ear canal is typically about 2.5 cm long in adults and has a self-cleaning mechanism that helps to keep it free of debris and wax.
Suppurative Otitis Media is a type of inner ear infection that involves the accumulation of pus (suppuration) in the middle ear space. It can be caused by a bacterial or viral infection and often results from a previous episode of acute otitis media, where fluid builds up behind the eardrum (tympanic membrane).
Suppurative Otitis Media can lead to complications such as hearing loss, damage to the inner ear structures, and spread of infection to nearby areas like the mastoid process or the brain. Treatment typically involves antibiotics to clear the infection and sometimes surgical intervention to drain the pus and relieve pressure on the eardrum.
Otoscopy is a medical examination procedure used to evaluate the external auditory canal and tympanic membrane (eardrum). It involves the use of an otoscope, a tool that consists of a lighted speculum attached to a handle. The speculum is inserted into the ear canal, allowing the healthcare provider to visualize and inspect the eardrum for any abnormalities such as perforations, inflammation, fluid accumulation, or foreign bodies. Otoscopy can help diagnose various conditions including ear infections, middle ear disorders, and hearing loss.
Otologic surgical procedures refer to a range of surgeries performed on the ear or its related structures. These procedures are typically conducted by otologists, who are specialists trained in diagnosing and treating conditions that affect the ears, balance system, and related nerves. The goal of otologic surgery can vary from repairing damaged bones in the middle ear to managing hearing loss, tumors, or chronic infections. Some common otologic surgical procedures include:
1. Stapedectomy/Stapedotomy: These are procedures used to treat otosclerosis, a condition where the stapes bone in the middle ear becomes fixed and causes conductive hearing loss. The surgeon creates an opening in the stapes footplate (stapedotomy) or removes the entire stapes bone (stapedectomy) and replaces it with a prosthetic device to improve sound conduction.
2. Myringoplasty/Tympanoplasty: These are surgeries aimed at repairing damaged eardrums (tympanic membrane). A myringoplasty involves grafting a piece of tissue over the perforation in the eardrum, while a tympanoplasty includes both eardrum repair and reconstruction of the middle ear bones if necessary.
3. Mastoidectomy: This procedure involves removing the mastoid air cells, which are located in the bony prominence behind the ear. A mastoidectomy is often performed to treat chronic mastoiditis, cholesteatoma, or complications from middle ear infections.
4. Ossiculoplasty: This procedure aims to reconstruct and improve the function of the ossicles (middle ear bones) when they are damaged due to various reasons such as infection, trauma, or congenital conditions. The surgeon uses prosthetic devices made from plastic, metal, or even bone to replace or support the damaged ossicles.
5. Cochlear implantation: This is a surgical procedure that involves placing an electronic device inside the inner ear to help individuals with severe to profound hearing loss. The implant consists of an external processor and internal components that directly stimulate the auditory nerve, bypassing the damaged hair cells in the cochlea.
6. Labyrinthectomy: This procedure involves removing the balance-sensing structures (vestibular system) inside the inner ear to treat severe vertigo or dizziness caused by conditions like Meniere's disease when other treatments have failed.
7. Acoustic neuroma removal: An acoustic neuroma is a benign tumor that grows on the vestibulocochlear nerve, which connects the inner ear to the brain. Surgical removal of the tumor is necessary to prevent hearing loss, balance problems, and potential neurological complications.
These are just a few examples of the various surgical procedures performed by otolaryngologists (ear, nose, and throat specialists) to treat conditions affecting the ear and surrounding structures. Each procedure has its specific indications, benefits, risks, and postoperative care requirements. Patients should consult with their healthcare providers to discuss the most appropriate treatment options for their individual needs.
The tympanic membrane, also known as the eardrum, is a thin, cone-shaped membrane that separates the external auditory canal from the middle ear. It serves to transmit sound vibrations from the air to the inner ear, where they are converted into electrical signals that can be interpreted by the brain as sound. The tympanic membrane is composed of three layers: an outer layer of skin, a middle layer of connective tissue, and an inner layer of mucous membrane. It is held in place by several small bones and muscles and is highly sensitive to changes in pressure.
The temporal bone is a paired bone that is located on each side of the skull, forming part of the lateral and inferior walls of the cranial cavity. It is one of the most complex bones in the human body and has several important structures associated with it. The main functions of the temporal bone include protecting the middle and inner ear, providing attachment for various muscles of the head and neck, and forming part of the base of the skull.
The temporal bone is divided into several parts, including the squamous part, the petrous part, the tympanic part, and the styloid process. The squamous part forms the lateral portion of the temporal bone and articulates with the parietal bone. The petrous part is the most medial and superior portion of the temporal bone and contains the inner ear and the semicircular canals. The tympanic part forms the lower and anterior portions of the temporal bone and includes the external auditory meatus or ear canal. The styloid process is a long, slender projection that extends downward from the inferior aspect of the temporal bone and serves as an attachment site for various muscles and ligaments.
The temporal bone plays a crucial role in hearing and balance, as it contains the structures of the middle and inner ear, including the oval window, round window, cochlea, vestibule, and semicircular canals. The stapes bone, one of the three bones in the middle ear, is entirely encased within the petrous portion of the temporal bone. Additionally, the temporal bone contains important structures for facial expression and sensation, including the facial nerve, which exits the skull through the stylomastoid foramen, a small opening in the temporal bone.
Mastoiditis is a medical condition characterized by an infection and inflammation of the mastoid process, which is the bony prominence located behind the ear. The mastoid process contains air cells that are connected to the middle ear, and an infection in the middle ear (otitis media) can spread to the mastoid process, resulting in mastoiditis.
The symptoms of mastoiditis may include:
* Pain and tenderness behind the ear
* Swelling or redness of the skin behind the ear
* Ear drainage or discharge
* Fever and headache
* Hearing loss or difficulty hearing
Mastoiditis is a serious condition that requires prompt medical attention. Treatment typically involves antibiotics to eliminate the infection, as well as possible surgical intervention if the infection does not respond to medication or if it has caused significant damage to the mastoid process. If left untreated, mastoiditis can lead to complications such as meningitis, brain abscess, or even death.
The petrous bone is a part of the temporal bone, one of the 22 bones in the human skull. It is a thick and irregularly shaped bone located at the base of the skull and forms part of the ear and the cranial cavity. The petrous bone contains the cochlea, vestibule, and semicircular canals of the inner ear, which are responsible for hearing and balance. It also helps protect the brain from injury by forming part of the bony structure surrounding the brain.
The term "petrous" comes from the Latin word "petrosus," meaning "stony" or "rock-like," which describes the hard and dense nature of this bone. The petrous bone is one of the densest bones in the human body, making it highly resistant to fractures and other forms of damage.
In medical terminology, the term "petrous" may also be used to describe any structure that resembles a rock or is hard and dense, such as the petrous apex, which refers to the portion of the petrous bone that points towards the sphenoid bone.
Conductive hearing loss is a type of hearing loss that occurs when there is a problem with the outer or middle ear. Sound waves are not able to transmit efficiently through the ear canal to the eardrum and the small bones in the middle ear, resulting in a reduction of sound that reaches the inner ear. Causes of conductive hearing loss may include earwax buildup, fluid in the middle ear, a middle ear infection, a hole in the eardrum, or problems with the tiny bones in the middle ear. This type of hearing loss can often be treated through medical intervention or surgery.
Cochlear diseases refer to conditions that affect the structure or function of the cochlea, which is a part of the inner ear responsible for hearing. These diseases can cause various types and degrees of hearing loss, ranging from mild to profound. Some common cochlear diseases include:
1. Cochlear otosclerosis: A condition where there is abnormal bone growth in the cochlea, which can lead to conductive or sensorineural hearing loss.
2. Cochlear Meniere's disease: A disorder that affects the inner ear and causes vertigo, tinnitus, and fluctuating hearing loss.
3. Cochlear damage due to exposure to loud noises: Prolonged or sudden exposure to loud noises can cause permanent cochlear damage and hearing loss.
4. Presbycusis: Age-related hearing loss that affects the cochlea and other structures of the auditory system.
5. Cochlear nerve tumors: Rare benign or malignant growths on the cochlear nerve can cause hearing loss, tinnitus, and balance problems.
6. Infections: Bacterial or viral infections such as meningitis, labyrinthitis, or otitis media can damage the cochlea and lead to hearing loss.
7. Ototoxicity: Certain medications can be toxic to the cochlea and cause hearing loss, tinnitus, or balance problems.
8. Genetic factors: Inherited genetic mutations can cause various types of cochlear diseases, such as connexin 26 deficiency, Waardenburg syndrome, or Usher syndrome.
It is important to note that early diagnosis and treatment of cochlear diseases can help prevent or minimize hearing loss and other complications.
Proflavine is an antimicrobial agent, specifically a type of dye known as an acridine dye. It is used primarily as a topical antiseptic and disinfectant. Proflavine works by intercalating into DNA, which disrupts the structure of the DNA molecule and prevents bacterial replication.
It's important to note that proflavine has been largely replaced by other more effective and safer antimicrobial agents in clinical practice. It is still used in some research settings and for certain specific applications, such as staining tissues for microscopic examination.
Proflavine should be used with caution, as it can cause skin irritation and may have harmful effects if ingested or absorbed through the skin. As with any medication, it should only be used under the guidance of a healthcare professional.
Ossicular replacement is a surgical procedure in which the damaged or diseased ossicles (the three smallest bones in the middle ear, namely the malleus, incus, and stapes) are replaced with artificial prostheses. This procedure is often performed to correct hearing loss caused by various conditions such as chronic otitis media, cholesteatoma, or ossicular chain discontinuity.
The artificial prostheses used in ossicular replacement can be made of various materials, including ceramic, plastic, or metal. The choice of material depends on several factors, including the patient's individual needs and preferences, the size and shape of the remaining ossicles, and the surgeon's experience and preference.
The goal of ossicular replacement is to improve hearing by restoring the normal function of the ossicular chain, which is responsible for transmitting sound vibrations from the eardrum to the inner ear. By replacing the damaged or missing ossicles with artificial prostheses, the surgeon can help to restore the patient's ability to hear and communicate effectively.
"Second-look surgery" is a medical term that refers to a second surgical procedure performed after an initial operation, usually to evaluate the effectiveness of treatment or to check for any potential complications. This type of surgery is often used in cancer treatment, where it can help determine if the tumor has responded to chemotherapy or radiation therapy. During the second-look surgery, surgeons may remove additional tissue or tumor cells, or they may perform other procedures to manage any complications that have arisen since the first surgery.
It's worth noting that the use of second-look surgery is not always necessary or appropriate, and the decision to perform this type of procedure will depend on a variety of factors, including the patient's overall health, the type and stage of cancer, and the specific goals of treatment. As with any surgical procedure, there are risks associated with second-look surgery, and patients should discuss these risks thoroughly with their healthcare provider before making a decision about treatment.
Cerebrospinal fluid (CSF) otorrhea is a condition characterized by the leakage of cerebrospinal fluid from the inner ear into the external auditory canal of the ear. CSF is a clear, colorless fluid that surrounds and protects the brain and spinal cord. It is normally contained within the subarachnoid space, which is a space between the arachnoid membrane and the pia mater that surrounds the brain and spinal cord.
CSF otorrhea can occur as a result of a head injury, skull base fracture, or surgical procedure involving the ear or surrounding structures. It can also be caused by congenital defects or tumors in the area. CSF otorrhea is a serious condition that requires prompt medical attention, as it can lead to meningitis or other complications if left untreated.
Diagnosis of CSF otorrhea typically involves a physical examination and testing of any fluid draining from the ear for beta-2 transferrin, a protein that is present in CSF but not in other bodily fluids. Imaging studies such as CT or MRI scans may also be used to help identify the underlying cause of the CSF leak. Treatment may involve bed rest, hydration, and antibiotics to prevent infection. In some cases, surgery may be necessary to repair the site of the CSF leak.
The incus, also known as the anvil, is one of the three smallest bones in the middle ear, located in the ossicular chain. It articulates with the malleus (hammer) and stapes (stirrup). The incus helps transmit and amplify sound vibrations from the eardrum to the inner ear.
Ear neoplasms refer to abnormal growths or tumors that occur in the ear. These growths can be benign (non-cancerous) or malignant (cancerous) and can affect any part of the ear, including the outer ear, middle ear, inner ear, and the ear canal.
Benign ear neoplasms are typically slow-growing and do not spread to other parts of the body. Examples include exostoses, osteomas, and ceruminous adenomas. These types of growths are usually removed surgically for cosmetic reasons or if they cause discomfort or hearing problems.
Malignant ear neoplasms, on the other hand, can be aggressive and may spread to other parts of the body. Examples include squamous cell carcinoma, basal cell carcinoma, and adenoid cystic carcinoma. These types of tumors often require more extensive treatment, such as surgery, radiation therapy, and chemotherapy.
It is important to note that any new growth or change in the ear should be evaluated by a healthcare professional to determine the nature of the growth and develop an appropriate treatment plan.
Echo-Planar Imaging (EPI) is a type of magnetic resonance imaging (MRI) technique that uses rapidly alternating magnetic field gradients and radiofrequency pulses to acquire multiple images in a very short period of time. This technique allows for the rapid acquisition of images, making it useful for functional MRI (fMRI) studies, diffusion-weighted imaging, and other applications where motion artifacts can be a problem.
In EPI, a single excitation pulse is followed by a series of gradient echoes that are acquired in a rapid succession, with each echo providing information about a different slice or plane of the object being imaged. The resulting images can then be combined to create a 3D representation of the object.
One of the key advantages of EPI is its speed, as it can acquire an entire brain volume in as little as 50 milliseconds. This makes it possible to capture rapid changes in the brain, such as those that occur during cognitive tasks or in response to neural activation. However, the technique can be susceptible to distortions and artifacts, particularly at higher field strengths, which can affect image quality and accuracy.
Otitis media is an inflammation or infection of the middle ear. It can occur as a result of a cold, respiratory infection, or allergy that causes fluid buildup behind the eardrum. The buildup of fluid can lead to infection and irritation of the middle ear, causing symptoms such as ear pain, hearing loss, and difficulty balancing. There are two types of otitis media: acute otitis media (AOM), which is a short-term infection that can cause fever and severe ear pain, and otitis media with effusion (OME), which is fluid buildup in the middle ear without symptoms of infection. In some cases, otitis media may require medical treatment, including antibiotics or the placement of ear tubes to drain the fluid and relieve pressure on the eardrum.
The middle cranial fossa is a depression or hollow in the skull that forms the upper and central portion of the cranial cavity. It is located between the anterior cranial fossa (which lies anteriorly) and the posterior cranial fossa (which lies posteriorly). The middle cranial fossa contains several important structures, including the temporal lobes of the brain, the pituitary gland, the optic chiasm, and the cavernous sinuses. It is also where many of the cranial nerves pass through on their way to the brain.
The middle cranial fossa can be further divided into two parts: the anterior and posterior fossae. The anterior fossa contains the optic chiasm and the pituitary gland, while the posterior fossa contains the temporal lobes of the brain and the cavernous sinuses.
The middle cranial fossa is formed by several bones of the skull, including the sphenoid bone, the temporal bone, and the parietal bone. The shape and size of the middle cranial fossa can vary from person to person, and abnormalities in its structure can be associated with various medical conditions, such as pituitary tumors or aneurysms.
Middle ear ventilation refers to the normal process of air movement between the middle ear and the back of the nose (nasopharynx) through the eustachian tube. This tube is a narrow canal that connects the middle ear to the nasopharynx and helps to regulate air pressure in the middle ear, preventing its accumulation and subsequent negative pressure or fluid build-up, which can lead to conditions such as otitis media (middle ear infection) or serous otitis media (fluid in the middle ear).
The eustachian tube opens during activities such as swallowing, yawning, or chewing, allowing fresh air to enter the middle ear and any accumulated fluid or gas to be drained out. Abnormalities in middle ear ventilation can result from dysfunction of the eustachian tube, leading to various middle ear disorders.
A fistula is an abnormal connection or passage between two organs, vessels, or body parts that usually do not connect. It can form as a result of injury, infection, surgery, or disease. A fistula can occur anywhere in the body but commonly forms in the digestive system, genital area, or urinary system. The symptoms and treatment options for a fistula depend on its location and underlying cause.
Optical imaging is a non-invasive medical imaging technique that uses light to capture images of internal structures and processes within the body. This method often involves the use of endoscopes, microscopes, or specialized cameras to visualize targeted areas, such as organs, tissues, or cells. Optical imaging can be used for various diagnostic and therapeutic purposes, including monitoring disease progression, guiding surgical procedures, and studying biological functions at the cellular level. Different optical imaging techniques include reflectance imaging, fluorescence imaging, bioluminescence imaging, and optical coherence tomography (OCT).
In summary, optical imaging is a versatile and non-ionizing medical imaging technique that utilizes light to visualize internal body structures and processes for diagnostic and therapeutic applications.
Skull neoplasms refer to abnormal growths or tumors that develop within the skull. These growths can be benign (non-cancerous) or malignant (cancerous). They can originate from various types of cells, such as bone cells, nerve cells, or soft tissues. Skull neoplasms can cause various symptoms depending on their size and location, including headaches, seizures, vision problems, hearing loss, and neurological deficits. Treatment options include surgery, radiation therapy, and chemotherapy. It is important to note that a neoplasm in the skull can also refer to metastatic cancer, which has spread from another part of the body to the skull.
Diffusion Magnetic Resonance Imaging (MRI) is a non-invasive medical imaging technique that uses magnetic fields and radio waves to produce detailed images of the body's internal structures, particularly the brain and nervous system. In diffusion MRI, the movement of water molecules in biological tissues is measured and analyzed to generate contrast in the images based on the microstructural properties of the tissue.
Diffusion MRI is unique because it allows for the measurement of water diffusion in various directions, which can reveal important information about the organization and integrity of nerve fibers in the brain. This technique has been widely used in research and clinical settings to study a variety of neurological conditions, including stroke, traumatic brain injury, multiple sclerosis, and neurodegenerative diseases such as Alzheimer's disease.
In summary, diffusion MRI is a specialized type of MRI that measures the movement of water molecules in biological tissues to generate detailed images of the body's internal structures, particularly the brain and nervous system. It provides valuable information about the microstructural properties of tissues and has important applications in both research and clinical settings.
Otitis externa, also known as swimmer's ear, is a medical condition characterized by inflammation or infection of the external auditory canal (the outermost part of the ear canal leading to the eardrum). It often occurs when water stays in the ear after swimming, creating a moist environment that promotes bacterial growth.
The symptoms of otitis externa may include:
- Redness and swelling of the ear canal
- Pain or discomfort in the ear, especially when moving the jaw or chewing
- Itching in the ear
- Discharge from the ear (pus or clear fluid)
- Hearing loss or difficulty hearing
Otitis externa is typically treated with antibiotic eardrops and sometimes oral antibiotics. Keeping the ear dry during treatment is important to prevent further irritation and promote healing. In severe cases, a healthcare provider may need to clean the ear canal before administering medication.
An encyclopedia is a comprehensive reference work containing articles on various topics, usually arranged in alphabetical order. In the context of medicine, a medical encyclopedia is a collection of articles that provide information about a wide range of medical topics, including diseases and conditions, treatments, tests, procedures, and anatomy and physiology. Medical encyclopedias may be published in print or electronic formats and are often used as a starting point for researching medical topics. They can provide reliable and accurate information on medical subjects, making them useful resources for healthcare professionals, students, and patients alike. Some well-known examples of medical encyclopedias include the Merck Manual and the Stedman's Medical Dictionary.