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European Archives of... Oct 2023To review hearing and surgical outcomes after reconstructive middle ear surgery in class 4 congenital middle ear anomalies (CMEA), e.g., patients with oval- or round... (Review)
Review
OBJECTIVE
To review hearing and surgical outcomes after reconstructive middle ear surgery in class 4 congenital middle ear anomalies (CMEA), e.g., patients with oval- or round window atresia of dysplasia.
DATA SOURCES
Pubmed/Medline, Embase and Cochrane library.
REVIEW METHODS
Articles containing data on hearing outcomes and complications after reconstructive ear surgery in class 4 anomalies were analyzed and critically appraised. The following data were included and reviewed: patient demographics, audiometric testing, surgical techniques, complications, revision surgeries and their outcomes. Risk of bias was determined, and GRADE certainty of evidence was assessed. Primary outcomes were postoperative air conduction thresholds (AC), change in AC, and success rates (closure of the ABG to within 20 dB), the occurrence of complications (most importantly sensorineural hearing loss) and the long-term stability of hearing results (> 6-month follow-up) and occurrence of recurrence of preoperative hearing loss.
RESULTS
Success rates varied from 12.5 to 75% at long-term follow-up with larger cohorts reporting success rates around 50%, mean postoperative gain in AC varied from 4.7 to 30 dB and - 8.6 to 23.6 dB at, respectively, short- and long-term follow-up. No postoperative change in hearing occurred in 0-33.3% of ears, and recurrence of hearing loss occurred in 0-66.7% of ears. SNHL occurred in a total of seven ears across all studies of which three experienced complete hearing loss.
CONCLUSION
Reconstructive surgery can be an effective treatment option which should be considered in patients with very favorable baseline parameters, while also considering the substantial risk of recurrence of hearing loss, the possibility of unchanged hearing despite surgery and the rare occurrence of SNHL.
LEVEL OF EVIDENCE
2c.
Topics: Humans; Ear Ossicles; Ear, Middle; Ear; Treatment Outcome; Hearing Loss, Conductive; Deafness; Retrospective Studies; Ossicular Prosthesis
PubMed: 37410147
DOI: 10.1007/s00405-023-08091-w -
International Journal of Computer... Nov 2017To develop a time-efficient automated segmentation approach that could identify critical structures in the temporal bone for visual enhancement and use in surgical...
PURPOSE
To develop a time-efficient automated segmentation approach that could identify critical structures in the temporal bone for visual enhancement and use in surgical simulation software.
METHODS
An atlas-based segmentation approach was developed to segment the cochlea, ossicles, semicircular canals (SCCs), and facial nerve in normal temporal bone CT images. This approach was tested in images of 26 cadaver bones (13 left, 13 right). The results of the automated segmentation were compared to manual segmentation visually and using DICE metric, average Hausdorff distance, and volume similarity.
RESULTS
The DICE metrics were greater than 0.8 for the cochlea, malleus, incus, and the SCCs combined. It was slightly lower for the facial nerve. The average Hausdorff distance was less than one voxel for all structures, and the volume similarity was 0.86 or greater for all structures except the stapes.
CONCLUSIONS
The atlas-based approach with rigid body registration of the otic capsule was successful in segmenting critical structures of temporal bone anatomy for use in surgical simulation software.
Topics: Cadaver; Cochlea; Ear Ossicles; Ear, Inner; Facial Nerve; Humans; Image Processing, Computer-Assisted; Reproducibility of Results; Semicircular Canals; Software; Temporal Bone; Tomography, X-Ray Computed
PubMed: 28852952
DOI: 10.1007/s11548-017-1658-6 -
Ear, Nose, & Throat Journal Dec 2010
Topics: Aged; Audiometry, Pure-Tone; Follow-Up Studies; Hearing Loss, Conductive; Humans; Male; Malleus; Otologic Surgical Procedures; Recovery of Function; Risk Assessment; Severity of Illness Index; Treatment Outcome
PubMed: 21174268
DOI: 10.1177/014556131008901207 -
Radiologia 2019Fractures of the petrous part of the temporal bone are a common lesion of the base of the skull; most of these fractures result from high-energy trauma. In patients with... (Review)
Review
Fractures of the petrous part of the temporal bone are a common lesion of the base of the skull; most of these fractures result from high-energy trauma. In patients with multiple trauma, these injuries can be detected on CT scans of the head and neck, where the direct and indirect signs are usually sufficient to establish the diagnosis. It is important to these fractures because the temporal bone has critical structures and the complexity of this region increases the risk of error unless special care is taken. This article reviews the key anatomical points, the systematization of the imaging findings, and the classifications used for temporal bone fracture. We emphasize the usefulness of identifying and describing the findings in relation to important structures in this region, of looking for unseen fractures suspected through indirect signs, and of identifying anatomical structures that can simulate fractures. We point out that the classical classifications of these fractures are less useful, although they continue to be used for treatment decisions.
Topics: Cochlea; Ear; Ear Canal; Ear Ossicles; Facial Nerve; Facial Nerve Injuries; Humans; Petrous Bone; Skull Fractures; Symptom Assessment; Temporal Bone
PubMed: 30777299
DOI: 10.1016/j.rx.2018.12.005 -
JPMA. the Journal of the Pakistan... Feb 2023To determine gender-based morphological variations in malleus.
OBJECTIVE
To determine gender-based morphological variations in malleus.
METHODS
The cross-sectional descriptive study was conducted at the Ear-Nose-Throat and Radiology departments of a public-sector hospital in Karachi, from January 20 to July 23, 2021, and comprised subjects of either gender aged 10-51 years who had intact ear ossicles. They were divided into equal male and female groups. After history and a thorough examination of the ear, high-resolution computed tomography scan of petrous temporal bone was done. The images were studied for malleus, to measure the parameters of its head width, length and shape of manubrium, and total length of malleus for possible morphological variations along gender lines. Data was analysed using SPSS 23.
RESULTS
Of the 50 subjects, 25(50%) were males with mean width of the head 3.04±0.34mm, mean length of manubrium 4.47±0.48mm, and mean total length of malleus 7.76±0.60mm. The corresponding values in 25(50%) females were 3.00±0.28mm, 4.31±0.45mm and 7.41±0.51mm. The total length of malleus between both genders was significantly different (p= 0.031). The shape of manubrium was straight in 10(40%) males and 8(32%) females, and curved in 15(60%) males and 17(68%) females.
CONCLUSIONS
Width of head, length of manubrium and total length of malleus were different in gender terms, but the total length of malleus was significantly different.
Topics: Female; Humans; Male; Malleus; Cross-Sectional Studies; Hospitals, Public; Public Sector; Social Group
PubMed: 36800718
DOI: 10.47391/JPMA.6307 -
American Journal of Otolaryngology 2022To analyze the audiological characteristics and surgical results in patients undergoing surgery for simple congenital ossicular chain malformation, and the effect of...
OBJECTIVE
To analyze the audiological characteristics and surgical results in patients undergoing surgery for simple congenital ossicular chain malformation, and the effect of endoscopic surgery.
METHODS
A retrospective review was performed on 86 patients who underwent surgery for the congenital malformation of the ossicular chain. Clinical characteristics and audiometric data were analyzed. Fifty-eight patients had detailed postoperative data, and the preoperative and postoperative audiometric results were compared. The subjects were further divided into endoscopic and microscopic groups, and their surgical effects were examined.
RESULTS
The preoperative audiometry results in the low-frequency group were worse than those in the high-frequency group (P < 0.05). A postoperative air-bone gap closure to 20 dB or less was achieved in 73.33% of the 60 ears of patients postoperatively. The postoperative air conduction and air-bone gap were significantly better than the preoperative ones (P < 0.05), and the improvement effect was the best in class III patients (P < 0.05). Postoperative hearing had no significant differences between the endoscopic and microscopic groups. However, endoscopic surgery also was more advantageous in terms of operating time (P < 0.05).
CONCLUSIONS
Preoperative pure tone audiometric results showed moderate or moderate-severe hearing loss, especially in the low-frequency area. The reconstruction of the auditory ossicle chain can achieve satisfactory results, especially in class III patients. Endoscopic and microscopic surgery in the treatment of simple congenital ossicular chain malformations can effectively improve postoperative hearing.
Topics: Audiometry, Pure-Tone; Ear Ossicles; Endoscopy; Hearing; Humans; Ossicular Prosthesis; Retrospective Studies; Treatment Outcome
PubMed: 35398741
DOI: 10.1016/j.amjoto.2022.103430 -
Anatomical Record (Hoboken, N.J. : 2007) Aug 2022Human auditory ossicles, the malleus, the incus, and the stapes, are located in the tympanic cavity in the temporal bone and through forming a chain for the sound...
Human auditory ossicles, the malleus, the incus, and the stapes, are located in the tympanic cavity in the temporal bone and through forming a chain for the sound transmission from the tympanic membrane to the cochlea, they play an important role in the hearing process. Despite their clinical, phylogenetic, and evolutionary significance, the morphometry of the human ear bones has not been examined systematically. The ear ossicles are the smallest bones of the human skeleton, attaining their final size and morphology already at birth. Initially, they have been found to exhibit minimal morphometric variation, but further studies brought the opposite results. The aim of this study was to examine the morphometric variation of human auditory ossicles recovered from medieval and postmedieval subadult skeletons from Poland, Central Europe. The analysis involved in a total of 166 ear bones. Their measurements were performed on microscopic images using CorelDraw x4, according to a protocol of Quam and Rak with modification of Flohr et al. and Wadhwa et al. Our study showed a significant metric variation in the measurements taken at areas of the greatest morphological variability of the ossicles. We found that greater linear dimensions were associated with lower values of angular measurements. These results reveal the inherent variation found in these supposed functionally constrained structures. Representation of even greater number of populations, time periods, and developmental stages are needed. Further study will expand our understanding of the global scope of variation found in ear ossicular morphology and its functional implications for paleoanthropology.
Topics: Body Remains; Ear Ossicles; Humans; Incus; Infant, Newborn; Malleus; Phylogeny
PubMed: 34859957
DOI: 10.1002/ar.24842 -
European Archives of... Jul 2022Injury or inflammation of the middle ear often results in the persistent tympanic membrane (TM) perforations, leading to conductive hearing loss (HL). However, in some...
PURPOSE
Injury or inflammation of the middle ear often results in the persistent tympanic membrane (TM) perforations, leading to conductive hearing loss (HL). However, in some cases the magnitude of HL exceeds that attributable by the TM perforation alone. The aim of the study is to better understand the effects of location and size of TM perforations on the sound transmission properties of the middle ear.
METHODS
The middle ear transfer functions (METF) of six human temporal bones (TB) were compared before and after perforating the TM at different locations (anterior or posterior lower quadrant) and to different degrees (1 mm, ¼ of the TM, ½ of the TM, and full ablation). The sound-induced velocity of the stapes footplate was measured using single-point laser-Doppler-vibrometry (LDV). The METF were correlated with a Finite Element (FE) model of the middle ear, in which similar alterations were simulated.
RESULTS
The measured and calculated METF showed frequency and perforation size dependent losses at all perforation locations. Starting at low frequencies, the loss expanded to higher frequencies with increased perforation size. In direct comparison, posterior TM perforations affected the transmission properties to a larger degree than anterior perforations. The asymmetry of the TM causes the malleus-incus complex to rotate and results in larger deflections in the posterior TM quadrants than in the anterior TM quadrants. Simulations in the FE model with a sealed cavity show that small perforations lead to a decrease in TM rigidity and thus to an increase in oscillation amplitude of the TM mainly above 1 kHz.
CONCLUSION
Size and location of TM perforations have a characteristic influence on the METF. The correlation of the experimental LDV measurements with an FE model contributes to a better understanding of the pathologic mechanisms of middle-ear diseases. If small perforations with significant HL are observed in daily clinical practice, additional middle ear pathologies should be considered. Further investigations on the loss of TM pretension due to perforations may be informative.
Topics: Ear, Middle; Hearing Loss, Conductive; Humans; Stapes; Tympanic Membrane; Tympanic Membrane Perforation
PubMed: 34570265
DOI: 10.1007/s00405-021-07078-9 -
Otology & Neurotology : Official... Jul 2022Automated image registration techniques can successfully determine anatomical variation in human temporal bones with statistical shape modeling.
HYPOTHESIS
Automated image registration techniques can successfully determine anatomical variation in human temporal bones with statistical shape modeling.
BACKGROUND
There is a lack of knowledge about inter-patient anatomical variation in the temporal bone. Statistical shape models (SSMs) provide a powerful method for quantifying variation of anatomical structures in medical images but are time-intensive to manually develop. This study presents SSMs of temporal bone anatomy using automated image-registration techniques.
METHODS
Fifty-three cone-beam temporal bone CTs were included for SSM generation. The malleus, incus, stapes, bony labyrinth, and facial nerve were automatically segmented using 3D Slicer and a template-based segmentation propagation technique. Segmentations were then used to construct SSMs using MATLAB. The first three principal components of each SSM were analyzed to describe shape variation.
RESULTS
Principal component analysis of middle and inner ear structures revealed novel modes of anatomical variation. The first three principal components for the malleus represented variability in manubrium length (mean: 4.47 mm; ±2-SDs: 4.03-5.03 mm) and rotation about its long axis (±2-SDs: -1.6° to 1.8° posteriorly). The facial nerve exhibits variability in first and second genu angles. The bony labyrinth varies in the angle between the posterior and superior canals (mean: 88.9°; ±2-SDs: 83.7°-95.7°) and cochlear orientation (±2-SDs: -4.0° to 3.0° anterolaterally).
CONCLUSIONS
SSMs of temporal bone anatomy can inform surgeons on clinically relevant inter-patient variability. Anatomical variation elucidated by these models can provide novel insight into function and pathophysiology. These models also allow further investigation of anatomical variation based on age, BMI, sex, and geographical location.
Topics: Ear, Inner; Humans; Imaging, Three-Dimensional; Incus; Malleus; Models, Statistical; Temporal Bone
PubMed: 35761465
DOI: 10.1097/MAO.0000000000003554 -
A novel auditory ossicles membrane and the development of conductive hearing loss in Dmp1-null mice.Bone Oct 2017Genetic mouse models are widely used for understanding human diseases but we know much less about the anatomical structure of the auditory ossicles in the mouse than we...
Genetic mouse models are widely used for understanding human diseases but we know much less about the anatomical structure of the auditory ossicles in the mouse than we do about human ossicles. Furthermore, current studies have mainly focused on disease conditions such as osteomalacia and rickets in patients with hypophosphatemia rickets, although the reason that these patients develop late-onset hearing loss is unknown. In this study, we first analyzed Dmp1 lac Z knock-in auditory ossicles (in which the blue reporter is used to trace DMP1 expression in osteocytes) using X-gal staining and discovered a novel bony membrane surrounding the mouse malleus. This finding was further confirmed by 3-D micro-CT, X-ray, and alizarin red stained images. We speculate that this unique structure amplifies and facilitates sound wave transmissions in two ways: increasing the contact surface between the eardrum and malleus and accelerating the sound transmission due to its mineral content. Next, we documented a progressive deterioration in the Dmp1-null auditory ossicle structures using multiple imaging techniques. The auditory brainstem response test demonstrated a conductive hearing loss in the adult Dmp1-null mice. This finding may help to explain in part why patients with DMP1 mutations develop late-onset hearing loss, and supports the critical role of DMP1 in maintaining the integrity of the auditory ossicles and its bony membrane.
Topics: Animals; Ear Ossicles; Extracellular Matrix Proteins; Hearing; Hearing Loss, Conductive; Mice; Mice, Knockout
PubMed: 28603080
DOI: 10.1016/j.bone.2017.06.007