The aim of the present study was to evaluate the surgical and functional results of endoscopic butterfly-inlay cartilage myringoplasty and endoscopic push-through myringoplasty in the treatment of anterior perforation of the tympanic membrane.

This open-label randomised clinical study was conducted on 71 patients with small- and medium-sized anterior perforations of the tympanic membrane. Graft success rate, hearing results, operative time and complications were analysed.

Graft success rates for endoscopic butterfly-inlay cartilage myringoplasty and endoscopic push-through myringoplasty were 94.1 and 91.8 per cent, respectively (p > 0.05). Post-operative air–bone gap values significantly improved in both the endoscopic butterfly-inlay cartilage myringoplasty and endoscopic push-through myringoplasty groups. The average operative time was significantly shorter in the endoscopic butterfly-inlay cartilage myringoplasty group (31.5 minutes) compared to the endoscopic push-through myringoplasty group (41.7 minutes; p < 0.05).

When compared with the endoscopic push-through myringoplasty, the endoscopic butterfly-inlay cartilage myringoplasty technique, which is technically easier to perform, does not require packing and has a shorter operating time. It is a reasonable approach for repair of anterior perforations of the tympanic membrane.

This study investigated the performance of a cartilage slicer device referred to as the ‘Hacettepe cartilage slicer’.

Forty-one cartilage pieces were harvested from eight fresh frozen human ears and measured in thickness with a digital micrometer. These pieces were randomly sliced using four different thickness settings and two different types of blades. The thicknesses of the slices and remaining pieces were measured also. Scanning electron microscopy was utilised to determine the surface smoothness of the slices.

Thickness results showed a proportional increase with the increasing thickness setting, with a ±0.1 mm margin of error. The measurements showed that over 95 per cent of the slices’ structural integrity was preserved. Although both blades provided satisfactory results, scanning electron microscopy revealed that the slices cut with a single bevel blade had superior surface smoothness.

To our knowledge, the current study is the first to evaluate the performance of a cartilage slicer device. Based on the thickness results, the Hacettepe cartilage slicer fulfilled its design goals: to consistently produce slices at the intended thickness with a ±0.1 mm tolerance, and to preserve over 95.3 per cent of cartilage thickness thereby ensuring undamaged, strong cartilage slices.

It is common practice to use head bandages for 7–10 days following pinnaplasty. However, head bandages are often troublesome for patients and can lead to serious complications.

A systematic review was performed to evaluate the use of head bandages after pinnaplasty. A search of Medline, Embase (Ovid) and CINAHL (EBSCO collections), the Cochrane Library, Pubmed (US National Library of Medicine) and Google Scholar identified 34 related articles. Of these, 14 were deemed relevant and 2 randomised controlled trials, 1 cohort study, 3 case series and 1 literature review met the inclusion criteria.

The two randomised controlled trials show no statistically significant difference in complications when a head bandage was used for the standard 7–10 days, for 24 hours or not at all. The three case series show that using a head bandage for 24 hours or not at all are safe alternatives. The review article recommended that when head bandages are applied after pinnaplasty it should be for the shortest duration possible.

Based on the available evidence, not using a head bandage at all or using one for a maximum of 24 hours following pinnaplasty is recommended.