Your search keyword '"Antti Lehtimäki"' showing total 7 results

1. A New Application of CBCT Image Fusion in Temporal Bone Studies

Author

Matti Iso-Mustajärvi, Sini Sipari, Antti Lehtimäki, Jyrki Tervaniemi, Heikki Löppönen, and Aarno Dietz

Subjects

Otorhinolaryngology, RF1-547

Published

2019

2. The effect of virtual reality on temporal bone anatomy evaluation and performance

Author

Antti Lehtimäki, Antti-Pekka Elomaa, Heikki Löppönen, Matti Iso-Mustajärvi, Aarno Dietz, Pia Linder, and Tomi Timonen

Subjects

medicine.medical_specialty, 020205 medical informatics, Anatomical structures, Computed tomography, 02 engineering and technology, Virtual reality, Surgical planning, User-Computer Interface, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, 0202 electrical engineering, electronic engineering, information engineering, medicine, Humans, Computer Simulation, 030223 otorhinolaryngology, Preoperative planning, medicine.diagnostic_test, business.industry, Virtual Reality, Temporal Bone, General Medicine, Expert group, Cross-Sectional Studies, Otorhinolaryngology, Temporal bone anatomy, Clinical Competence, business, Fiducial marker

Abstract

Purpose There is only limited data on the application of virtual reality (VR) for the evaluation of temporal bone anatomy. The aim of the present study was to compare the VR environment to traditional cross-sectional viewing of computed tomography images in a simulated preoperative planning setting in novice and expert surgeons. Methods A novice (n = 5) and an expert group (n = 5), based on their otosurgery experience, were created. The participants were asked to identify 24 anatomical landmarks, perform 11 distance measurements between surgically relevant anatomical structures and 10 fiducial markers on five cadaver temporal bones in both VR environment and cross-sectional viewings in PACS interface. The data on performance time and user-experience (i.e., subjective validation) were collected. Results The novice group made significantly more errors (p p = 0.001) in cross-sectional viewing than the expert group. In the VR environment, there was no significant differences (errors and time) between the groups. The performance of novices improved faster in the VR. The novices showed significantly faster task performance (p = 0.003) and a trend towards fewer errors (p = 0.054) in VR compared to cross-sectional viewing. No such difference between the methods were observed in the expert group. The mean overall scores of user-experience were significantly higher for VR than cross-sectional viewing in both groups (p Conclusion In the VR environment, novices performed the anatomical evaluation of temporal bone faster and with fewer errors than in the traditional cross-sectional viewing, which supports its efficiency for the evaluation of complex anatomy.

Published

2021

3. Virtual reality improves the accuracy of simulated preoperative planning in temporal bones: a feasibility and validation study

Author

Matti Iso-Mustajärvi, Heikki Löppönen, Antti-Pekka Elomaa, Tomi Timonen, Aarno Dietz, Antti Lehtimäki, and Pia Linder

Subjects

Two-dimensional, Observational error, business.industry, Temporal bone, Virtual Reality, Reproducibility of Results, Otology, General Medicine, Virtual reality, Surgical planning, Visualization, Cross-Sectional Studies, Picture archiving and communication system, Otorhinolaryngology, Feasibility Studies, Humans, Calipers, Medicine, Computer vision, Artificial intelligence, Three-dimensional, business, Fiducial marker

Abstract

Purpose Consumer-grade virtual reality (VR) has recently enabled various medical applications, but more evidence supporting their validity is needed. We investigated the accuracy of simulated surgical planning in a VR environment (VR) with temporal bones and compared it to conventional cross-sectional image viewing in picture archiving and communication system (PACS) interface. Methods Five experienced otologic surgeons measured significant anatomic structures and fiducials on five fresh-frozen cadaveric temporal bones in VR and cross-sectional viewing. Primary image data were acquired by computed tomography. In total, 275 anatomical landmark measurements and 250 measurements of the distance between fiducials were obtained with both methods. Distance measurements between the fiducials were confirmed by physical measurement obtained by Vernier caliper. The experts evaluated the subjective validity of both methods on a 5-point Likert scale qualitative survey. Results A strong correlation based on intraclass coefficient was found between the methods on both the anatomical (r > 0.900) and fiducial measurements (r > 0.916). Two-tailed paired t-test and Bland–Altman plots demonstrated high equivalences between the VR and cross-sectional viewing with mean differences of 1.9% (p = 0.396) and 0.472 mm (p = 0.065) for anatomical and fiducial measurements, respectively. Gross measurement errors due to the misidentification of fiducials occurred more frequently in the cross-sectional viewing. The mean face and content validity rating for VR were significantly better compared to cross-sectional viewing (total mean score 4.11 vs 3.39, p Conclusion Our study supports good accuracy and reliability of VR environment for simulated surgical planning in temporal bones compared to conventional cross-sectional visualization.

Published

2020

4. A New Application of CBCT Image Fusion in Temporal Bone Studies

Author

Sini Sipari, Heikki Löppönen, Aarno Dietz, Antti Lehtimäki, Jyrki Tervaniemi, and Matti Iso-Mustajärvi

Subjects

Cbct image, Perilymph, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Cadaver, Temporal bone, Humans, Medicine, Postoperative Period, 030223 otorhinolaryngology, Fusion, Image fusion, business.industry, Reproducibility of Results, Temporal Bone, General Medicine, Cone-Beam Computed Tomography, lcsh:Otorhinolaryngology, lcsh:RF1-547, Cochlear Implantation, Basilar Membrane, Electrodes, Implanted, Otorhinolaryngology, Preoperative Period, Fresh frozen, Original Article, Tomography, business, 030217 neurology & neurosurgery, Biomedical engineering

Abstract

Objectives Temporal bone (TB) studies are essential during the development of new arrays. Postoperative cochlear histology is still regarded as golden standard for the assessment of electrode localization and trauma though it is time consuming, expensive and technically very demanding. The aim of this study is to investigate whether pre-operative evacuation of perilymph improve the assessment of electrode localization and insertion trauma in TBs applying fusion imaging. The results were compared to a prior validated image fusion technique based on the quantification of the electrode placement. Materials and methods 12 prototype electrodes were implanted in fresh frozen TBs. The perilymph was evacuated from the scale prior to pre-operative cone-beam computer tomography (CBCT). The TB were then immersed in Ringer solution to rehydrated both scalae. After electrode insertion post-operative CBCT were obtained. 3D fusions of the pre- and postoperative registration were reconstructed. The electrode localization with respect to the basilar membrane was visually assessed. Results The visualization of the BM on the pre-operative scans was achieved beyond the second turn in all TBs. The visual assessment was found to be as accurate as the previously validated fusion technique. There was no statistically significant difference between the methods (p=0.564). The image reconstructions and evaluations, however, were faster to perform and the insertion results are immediately available. Conclusion CBCT in combination with pre- and postoperative image fusion is an accurate method for the post-operative assessment of insertion trauma in TBs. This new application facilitates the identification of the BM and allows for a visual assessment of insertion trauma.

Published

2019

5. Electrode migration after cochlear implant surgery: more common than expected?

Author

Hannu Valtonen, Antti Lehtimäki, Aarno Dietz, Minna Wennström, Heikki Löppönen, Korva-, nenä- ja kurkkutautien klinikka, Department of Ophthalmology and Otorhinolaryngology, and Clinicum

Subjects

Male, Cone beam computed tomography, medicine.medical_treatment, CHILDREN, Hospitals, University, Basal (phylogenetics), 0302 clinical medicine, Cochlear implant, Electric Impedance, Medicine, Postoperative Period, Child, 030223 otorhinolaryngology, Finland, Fixation (histology), DEVICE FAILURE, COMPLICATIONS, Cone-beam computed tomography, Electroencephalography, General Medicine, Middle Aged, Cochlear Implantation, Cochlea, Electrodes, Implanted, Prosthesis Failure, REVISION, 3. Good health, Child, Preschool, Electrode, Female, Electrode migration, Neurosurgery, Adult, medicine.medical_specialty, 03 medical and health sciences, Electrode array, Humans, 3125 Otorhinolaryngology, ophthalmology, business.industry, ADULTS, Surgery, Cochlear implant surgery, Otorhinolaryngology, Cochlear implants, EXPERIENCE, Impedances, sense organs, business, 030217 neurology & neurosurgery, Biomedical engineering

Abstract

The overall complication rate of cochlear implant surgery is low and so-called electrode failures (electrode migration, misplacement, etc.,) account for only a minority of all complications. The aim of this study was to explore the prevalence of electrode migration as the cause for increased impedance values and non-auditory stimulation in the basal channels. Within the scope of a quality control process, the cochlear implant database of the Kuopio University Hospital (Finland) was reviewed. Patients with gradual elevation of impedance values and/or non-auditory stimulation of the basal electrode channels were re-examined and cone-beam computed tomography was administered. There were 162 cochlear implant recipients and 201 implanted devices registered in the database. A total of 18 patients (18 devices) were identified having significantly increased impedance values or non-auditory stimulation of the basal electrodes. Cone-beam computed tomography revealed extra-cochlear electrodes in 12 of these patients due to the migration of the electrode array. All extruded electrodes were lateral wall electrodes, i.e., straight electrode arrays (Cochlear CI422 and Med-El devices). The most common feature of electrode migration was the gradual increase of the impedance values in the basal electrodes, even though telemetry could also be unsuspicious. Electrode migration after cochlear implant surgery may be more common than previously reported. At surgery, special attention should be paid to the reliable fixation of the electrode array. This study underlines the importance of postoperative imaging after cochlear implant surgery.

Published

2015

6. A New Slim Modiolar Electrode Array for Cochlear Implantation: A Radiological and Histological Study

Author

Aarno Dietz, Teemu Koski, Frank Risi, Hanna Matikka, Antti Lehtimäki, Heikki Löppönen, Tytti Willberg, Jyrki Tervaniemi, Matti Iso-Mustajärvi, and Sini Sipari

Subjects

Cone beam computed tomography, Hearing Loss, Sensorineural, Prosthesis Design, 03 medical and health sciences, 0302 clinical medicine, Imaging, Three-Dimensional, Electrode array, Medicine, Humans, 030223 otorhinolaryngology, Cochlear implantation, Cochlea, Round window, business.industry, Temporal Bone, Cone-Beam Computed Tomography, SMA, Cochlear Implantation, Sensory Systems, Electrodes, Implanted, Modiolus (cochlea), medicine.anatomical_structure, Cochlear Implants, Otorhinolaryngology, Round Window, Ear, Radiological weapon, Neurology (clinical), business, Nuclear medicine, 030217 neurology & neurosurgery

Abstract

HYPOTHESIS To explore the results of a new slim modiolar electrode array (SMA) with respect to intracochlear placement and trauma evaluated by detailed radiologic imaging and histology. BACKGROUND Hearing and structure preservation is the goal of cochlear implantation for advanced hearing outcomes. Currently, this is most consistently achieved with thin lateral wall electrodes. Modiolar electrodes are located nearer the modiolus and may provide some electrophysiological advantages, but have a greater tendency for causing insertion trauma. METHODS The SMA was implanted in 20 fresh-frozen human temporal bones (TB). All TBs were scanned pre- and postoperatively with cone beam computed tomography. For atraumatic insertion, the round window approach was preferred. Scalar localization and trauma were analyzed by three-dimensional image fusion reconstructions of the pre- and postimplant scans. The TBs underwent histologic examination to validate the radiologic findings. RESULTS Insertion through the round window was performed in 19 TBs and through a cochleostomy in one TB. In one TB trauma in the form of scala translocation was identified radiologically and histologically. In the remaining TBs there was no insertion trauma. Adequate modiolar localization of the SMA was found in 19 of 20 TBs. The mean angular insertion depth was 400 degrees without correlation to cochlea size. There was no significant statistical difference between the radiological and histological measurements of electrode localization. CONCLUSION The SMA showed consistent and atraumatic insertion results in TBs. Pre- and postimplant cone beam computed tomography with image fusion was shown to be very accurate for the assessment of electrode position and insertion trauma.

Published

2017

7. Effective palliation without normal tissue toxicity using low-dose ultrafractionated re-irradiation for tumor recurrence after radical or adjuvant radiotherapy

Author

Antti Lehtimäki, Michaell c Joiner, Vesa Kataja, Kalevi Pulkkanen, and Tapani Lahtinen

Subjects

Oncology, Re-Irradiation, medicine.medical_specialty, Adjuvant radiotherapy, business.industry, Low dose, Hematology, General Medicine, Tumor recurrence, Text mining, Internal medicine, Normal tissue toxicity, medicine, Radiology, Nuclear Medicine and imaging, business

Published

2007