Israel Medical Association Journal

Background: Blast injuries impair hearing through several mechanisms that are distinct from other causes of acute acoustic trauma (AAT).

Objectives: To compare blast injured patients to those exposed to noise alone in their auditory response to hyperbaric oxygen (HBO) therapy with oral steroids.

Methods: Adult patients with evidence of a previously undocumented ≥ 30 dB pure-tone threshold within 30 days of AAT were treated with a combination of one 2.5 atm HBO therapy session for 90 minutes daily with oral prednisone. Exposure was classified by history as blast (for explosion-induced AAT) or noise. The change in high pure tone average (HPTA) was the primary outcome.

Results: Of 598 ears (387 patients) included in the final analysis, 259 were exposed to blast and 339 to noise. Before treatment, the blast injured patients had significantly more abnormal findings on otoscopy (87% vs. 95%, P = 0.003), higher pure-tone average (18 ± 11 dB vs 12 ± 9 dB; P < 0.001), and higher speech reception thresholds (16 ± 14 dB vs 10 ± 8 dB, P < 0.001). Following treatment, these patients exhibited a significantly smaller improvement in HPTA (6 ± 17 dB vs 10 ± 14 dB P = 0.022) with pure tone thresholds remaining significantly worse across all frequencies in the blast exposed group (mean difference ranging from 3.2 to 6.8 dB, all P < 0.05).

Conclusions: Blast injuries result in unique auditory characteristics and responses to HBO therapy compared to other causes of AAT.

Background: Post-traumatic stress disorder (PTSD) remains a significant and often refractory mental health condition. Hyperbaric oxygen (HBO) therapy has demonstrated promise in alleviating symptoms of PTSD but optimal dosing and treatment duration remain unclear.

Objectives: To evaluate the clinical efficacy and dosing effects of two HBO protocols in patients with PTSD.

Methods: We conducted a randomized controlled trial comparing two HBO protocols: 60 daily sessions of 90 minutes at either 2.0 atmospheres absolute (ATA) or 2.5 ATA (HBO15). Adults with severe PTSD (Clinician Administered PTSD Score [CAPS]-5 ≥ 33) were randomized to treatment arms. CAPS-5 scores were recorded every 2 weeks. Secondary outcomes include measures of depression, sleep, executive function, and safety. Preliminary results are presented for the first nine patients who completed therapy (HBO10: n=5; HBO15: n=4).

Results: Participants in HBO15 were younger (mean age 39 vs. 59 years, P = 0.2). Baseline PTSD severity (CAPS-5) was higher in HBO15 (median 61.5 vs. 48.0, P = 0.4). Other baseline psychological scores were similar between groups. Mean CAPS-5 improvement (ΔCAPS) was greater in HBO15 (-14.0 ± 21.2) vs. HBO10 (-5.3 ± 19.6), although not statistically significant (P = 0.8). Both groups demonstrated the largest symptom reduction by weeks 6–8, with a plateau observed thereafter despite continued treatment through week 12.

Conclusions: Preliminary data suggest both HBO protocols are associated with symptomatic improvement in PTSD, with a trend toward greater effect in the higher-pressure group (2.5 ATA). Improvements appear to peak around 6–8 weeks, potentially indicating a shorter optimal treatment duration.

Background: Combat-related penetrating neck injuries (PNI) present distinct challenges in surgical settings. Accurate identification and removal of metallic fragments are crucial for minimizing complications. Although computed tomography (CT) remains the gold standard for preoperative assessment, use of intraoperative metal detectors may offer supplementary advantages by enhancing surgical accuracy and efficiency.

Objectives: To assess the technical feasibility of intraoperative metal detector assistance vs. a CT-guided primary approach.

Methods: Cadaver heads were implanted with metallic fragments from verified military-grade ordnance and subsequently underwent a CT scan. Two extraction approaches were evaluated: intraoperative metal detector assistance vs. CT-guided primary approach. Key metrics included incision length, dissection time, incision extension, and surgeon workload as assessed by the Surgery Task Load Index questionnaire.

Results: Metal detector-assisted extraction resulted in reduced initial incision lengths (3.50 cm vs. 4.87 cm) and smaller incision extensions (0.33 cm vs. 0.67 cm), indicating improved precision. However, the average dissection time was longer in the metal detector group (15:00 vs. 12:20 minutes), likely due to learning curves and additional scanning requirements. Surgeons reported lower situational stress (2.25 vs. 4.5) and reduced task complexity (4.0 vs. 4.5) when using a metal detector, despite noting increased mental demand associated with interpreting device signals during surgery.

Conclusions: Intraoperative metal detection technology shows significant potential as an adjunctive modality for shrapnel localization in combat-associated PNIs. It facilitates minimized incisions and improved surgical precision. While further optimization and clinical adaptation are necessary, this method holds promise for improving outcomes in both military and civilian trauma scenarios.

Background: The ear is the most frequent organ affected during an explosion. Recognition of possible damage to its auditory and vestibular components, and particularly the recovery time of the incurred damage, may help in planning the optimal treatment strategies for the otologic manifestations of blast injury and preventing deleterious consequences.   

Objective: To report the results of the oto-vestibular initial evaluation and follow-up of 17 survivors of a suicidal terrorist attack on a municipal bus.

Methods: These 17 patients underwent periodic ear inspections and pure tone audiometry for 6 months. Balance studies, consisting of electronystagmography (ENG) and computerized dynamic posturography (CDP) were performed at the first time possible.

Results: Complaints of earache, aural fullness and tinnitus resolved, whereas dizziness persisted in most of the patients. By the end of the follow-up, 15 (55.6%) of the eardrum perforations had healed spontaneously. Hearing impairment was detected in 33 of the 34 tested ears. Recovery of hearing was complete in 6 ears and partial in another 11. ENG and CDP were performed in 13 patients: 5 had abnormal results on CDP while the ENG was normal in all the patients. The vertigo in seven patients resolved in only one patient who was free of symptoms 1 month after the explosion.

Conclusion:  Exposure to a high powered explosion in a confined space may result in severe auditory and vestibular damage. Awareness of these possible ear injuries may prevent many of the deleterious consequences of such injuries.