[Effect of autologous platelet concentrates on the anatomical and functional outcome of late stage macular hole surgery: A retrospective analysis]. / Wirkung von autologem Thrombozytenkonzentrat auf den anatomischen und funktionellen Erfolg bei der Chirurgie des Makulaforamens im Spätstadium : Eine retrospektive Analyse.

BACKGROUND: The macular hole (MH) is a disorder of the visual center of the retina in humans. An untreated MH leads to loss of central visual acuity and reading ability. Surgery for early-stage macular holes has been very successful for many years and leads to very good anatomical and functional results. Despite continuous improvement of surgical procedures, the outcome for the later stages of MH is still unsatisfactory. METHOD: In a retrospective analysis, we investigated the effect of autologous platelet concentrates in patients presenting later stages of MHs (stage III-IV) with respect to anatomic success (hole closure) and recovery of vision. The application of platelets was performed during retinal surgery (pars plana vitrectomy, ppV). In addition, selected platelet concentrates were qualitatively analysed for growth factors and platelet adhesion. RESULTS: In the first group, 74% of the patients showed a good anatomical macular hole closure. The analyses of the platelet concentrates indicated a possible wound-healing effect due to growth factors (e.g. the platelet-derived growth factor, PDGF) and lesser to the ability of the platelets to adhere after ristocetin administration. Further optimization of the production process of platelet concentrates and of the surgical procedure in the second group of patients showed an increase of the anatomical success (92%) and a very rapid increase of visual acuity within six weeks. DISCUSSION: In the past, the primary goal of MH surgery was to optimize the surgical procedures. Only few concepts focused on wound healing. Based on our data, we postulate the use of autologous platelet concentrates in MH surgery as a healing concept, which helps to increase the functional success of late-stage macular hole surgery.

Pressure changes in the human middle ear without opening the eustachian tube.

CONCLUSION: By means of a direct, though non-invasive experiment on healthy humans we could demonstrate that middle ear (ME) pressure decreases when the eustachian tube (ET) does not open. Thus with a very simple method the basic theory of continuous gas loss from the ME into the circulation and the replenishment of the loss through the ET could be validated. OBJECTIVES: To record changes in ME pressure over a period of time in normal human ears, while the ET is kept closed. SUBJECTS AND METHODS: On-line tympanometry was carried out in three subjects, who refrained from swallowing for 20-120 min. RESULTS: During the time when the ET was kept closed by refraining from swallowing, tympanometric monotonous pressure decrease was recorded. Once the tested subject could not refrain from swallowing any longer and swallowed again, ME pressure equalized immediately.

Electromyographical recording of the electrically elicited stapedius reflex via a bipolar hook electrode.

OBJECTIVE: To prove the feasibility of recording stapedius reflexes by bipolar electromyography intra-operatively during cochlea implant via a bipolar hook needle electrode. STUDY DESIGN: Prospective study. SETTING: Tertiary referral center. PATIENTS: Adults receiving a MED-EL cochlear implant. INTERVENTION: Diagnostic. MAIN OUTCOME MEASURES: Stapedius reflex responses can be recorded by electromyography. RESULTS: A double hook electrode could be inserted into the muscle tissue via the natural opening of the pyramid process along with the stapedius tendon. In 7 out of 10 patients supplied with MED-EL CIs (PULSARCI100 or SONATATI100), electrically elicited stapedius reflex potentials were recorded after eliminating stimulation artifacts caused by electromagnetic fields during electrical stimulation by low pass filtering. CONCLUSION: Intraoperative stapedius reflex recording by bipolar electromyography via a hook electrode is feasible. Further research will show whether these signals may be used for establishing a self-adjusting speech processor.

Monitoring residual hearing during cochlear implantation by intra-operative brainstem audiometry.

OBJECTIVE: Aim of this paper is to prove the applicability of intra-operative recordings of auditory brainstem responses during cochlear implantation. METHODS: The clinical practicability of intra-operative monitoring of hearing thresholds (Notched-Noise BERA, Amplitude Modulation Following Response [AMFR]) is presented in the respective case. The recordings were performed prior to the cochlear implantation and were compared with those obtained during and after cochlear implantation. RESULTS: It is demonstrated that the patient's cochlear function can be monitored; residual hearing is available after surgery. CONCLUSION: The possibility of monitoring of hearing thresholds may add some security to the concept of electric-acoustic stimulation.

Tonic contractions of the tensor tympani muscle: a key to some non-specific middle ear symptoms? Hypothesis and data from temporal bone experiments.

CONCLUSIONS: The results of this study show that in clinical practice it will not be easy to diagnose tonic contractions of the tensor tympani muscle and only a combination of findings will be helpful. Based on these experimental results a clinical study will be started which should clarify the diagnostic relevance of indicators of tonic tensor muscle contractions. OBJECTIVES: There are indications from the literature and from personal experience that tonic contractions of the tensor tympani muscle may play a role in some ear symptoms, such as fullness, certain cases of tinnitus, slight hearing loss or Ménière's disease-like findings. In order to prove this theory we looked for indicators, either visual or functional, to help clinically diagnose the functional state of the muscle, particularly its tonic contraction. MATERIAL AND METHODS: Experiments simulating tensor contractions were carried out on temporal bone specimens. Traction was applied either to the isolated muscle, to its tendon or to the malleus neck. Effects were observed either visually via an endoscope or by impedance audiometry using multiple-frequency tympanometry. RESULTS: During simulated tensor traction the aspect of the tympanic membrane changed slightly, i.e. there was some inward movement of the umbo. However, such effects were only identifiable during the pulling action or by directly comparing the "contracted" and "relaxed" states. Tympanometry revealed a decrease in the peak amplitudes and a shift in the middle ear resonance towards higher frequencies during contractions.

Can mobile phone emissions affect auditory functions of cochlea or brain stem?

PROBLEMS ADDRESSED: Despite their abundant spread, mobile phones are suspected by a major share of the population to cause adverse effects on health and welfare. The ear as the sense organ next to the individual device has rarely been investigated for short-term effects in this regard. In a previous article, we could not prove any impact on the vestibular part of the inner ear. Our present examinations are concerned with the question whether mobile phone emissions could affect cochlear or auditory brain stem functions. METHODS AND MEASURES: In 12 healthy test persons with normal hearing, auditory brain stem reflexes recordings were performed before, during, and after exposure to electromagnetic emissions by standardized mobile phone devices. Two modes of electromagnetic emissions fields were administered: pulsed and continuous. For acoustic stimulation simultaneous to field exposure, special "plug-in" earphones had to be used. RESULTS: No impact on auditory brain stem reflexes recordings in terms of absolute and interpeak latencies could be found. CLINICAL SIGNIFICANCE: Together with the results of a previous article concerned with the vestibular part of the inner ear, we can state that there are no adverse effects of mobile phone emissions on the ear function, at least on a short-term range. Of course, any long-term effects cannot be excluded by our study.

Can electromagnetic fields emitted by mobile phones stimulate the vestibular organ?

OBJECTIVES: Pulsating electromagnetic (EM) radiation emitted by mobile phones is often incriminated for causing tissue alterations by caloric effects. In particular, the eye and the ear were regarded as possible "hot spots," with heating up to 1 degree C, in which EM radiation might have negative effects. If so, these temperature increments should be large enough to cause vestibular excitation. In this study, we attempted to verify this theory by clinical testing and in vitro experiments. METHODS AND MEASURES: In our laboratory, a simulated GSM signal (889.6 MHz/2.2 W) was applied to 1 ear at a time, while video nystagmography was performed. The experimental setup was similar to that used for caloric (hot and cold water) testing of the peripheral vestibular organ. Data were evaluated by a computer system. There were 13 volunteers (26 ears) included in our study. In an additional experiment, temperatures of human temporal bones were measured by thermography, while a continuous or pulsating EM field was applied. RESULTS: In no volunteer could EM radiation-induced nystagmus be recorded. This corresponds well to our findings that in the human temporal bone very weak caloric effects could only be found in the tissue layers next to the radiation source (antenna of the mobile phone), whereas deeper regions (horizontal semicircular canal) seemed unaffected (at least less than 0.1 degree C). CLINICAL SIGNIFICANCE: These results do not support the theory that mobile phone-induced EM radiation may cause caloric negative effects in the human ear.

Incisions for cochlear implant flaps and superficial skin temperature. Skin temperature/blood circulation in CI flaps.

Healing and integration of a cochlear implant is largely influenced by good blood circulation in the covering skin, which, on the other hand, is closely correlated to skin temperature. Measuring superficial flap temperatures by thermography is an easy way to get some clues about the corresponding blood supply. These data should allow some implications for the design of skin flaps in cochlear implant surgery. In 15 patients thermography was carried out prior to and after cochlear implantation, using the Agema 550 Thermovision system. It was evident, that the anatomic courses of the major superficial arteries were represented by areas of increased temperature. The pattern of temperature distribution may allow some conclusions concerning site and shape of surgical incisions. From our data we concluded, that most types of incisions do not interfere too much with the arterial blood supply. However, some types like the extended retroauricular C-incision may eventually cause problems. Our data suggest, that the straight or slightly curved vertical retroauricular incision causes the least impairment of blood circulation. After surgery, directly along the incisions (and later along the scars) temperature was diminished, indicating reduced blood circulation. In our series, the thickness of the implant did not impede blood circulation significantly. So far, we could not examine patients with local circulation disorders. Probably local scars, skin atrophies, angiopathies etc. may present typical patterns of temperature distribution, which require individual design of skin flaps. Thermography is an easy method which can give impressions of local blood circulation in skin flaps. If the courses of the major arteries and their branches are respected, blood circulation within the flap should not be problematic. Thermography is likely to help designing optimal flaps in cases with impeded blood circulation e.g. by pre-existing scar formations.