There is growing evidence for the role of mitochondrial dysfunction in the toxic optic neuropathies. Due to the structural similarities between antibiotic targets and mitochondrial machinery, several antibiotics known to cause optic neuropathy have deleterious effects on mitochondrial function. We review the literature on the prevalence, clinical manifestations, and management of antibiotic induced toxic optic neuropathies. The effect of these antibiotics on mitochondrial function in regard to the optic nerve is discussed.
Gastroesophageal reflux disease (GERD) is steadily increasing in incidence and now affects 18% to 28% of the population in the United States. A thorough understanding of the pathophysiology underlying this disease is necessary to improve the current standard of care. Most GERD pathophysiology models focus on the lower esophageal sphincter (LES) as the key element which prevents esophageal reflux. More recent research has highlighted the crural diaphragm (CD) as an additional critical component of the GERD barrier. We now know that the CD actively relaxes when the distal esophagus is distended and contracts when the stomach is distended. Crural myotomy in animal models increases esophageal acid exposure, highlighting the CD's vital role. There are also multiple physiological studies in patients with symptomatic hiatal hernia that demonstrate CD dysfunction is associated with GERD. Finally, computer models integrating physiological data predict that the CD and the LES each contribute roughly 50% to the GERD barrier. This more robust understanding has implications for future procedural management of GERD. Specifically, effective GERD management mandates repair of the CD and reinforcement of the LES. Given the high rate of hiatal hernia recurrences, it seems that novel antireflux procedures should target this essential component of the GERD barrier. Future research should focus on methods to maintain crural integrity, decrease hiatal hernia recurrence, and improve long-term competency of the GERD barrier.
BACKGROUND Bibliometric analysis of surgical research has become increasingly prevalent. Citation count (CC) is a commonly used marker of research quality, but may overlook impactful military research. The disruption score (DS) evaluates manuscripts on a spectrum from most innovative with more positive scores (disruptive [DR]) to most entrenched with more negative scores (developmental; DV). We sought to analyze the most DR and DV versus most cited research in military trauma. METHODS Top trauma articles by DS and by CC were identified via professional literature search. All publications in military journals were included. Military trauma-related keywords were used to query additional top surgical journals for military-focused publications. Publications were linked to the iCite NIH tool for CC and related metrics. The top 100 DR and DV publications by DS were analyzed and compared with the top 100 articles by CC. RESULTS Overall, 32,040 articles published between 1954 and 2014 were identified. The average DS and CC were 0.01 and 22, respectively. Most articles were published in Mil Med (68%). The top 100 DR articles were frequently published in Mil Med (51%) with a mean DS of 0.148. Of these, the most cited article was only the 40th most disruptive. The top 100 CC articles averaged a DS of 0.009 and were commonly found in J Trauma (53%). Only five publications were on both the top 100 DR and top 100 CC lists; 19 were on both the top DV and CC lists. Citation count was not correlated with DR (r = −0.134; p = 0.07) and only weakly correlated with DV (r = 0.215; p = 0.003). CONCLUSION DS identifies publications that changed military paradigms and future research directions previously overlooked by citation count alone. The DR and DV articles are distinct with little overlap between highly cited military articles. Multiple bibliometric measures should be employed to avoid overlooking impactful military trauma research. LEVEL OF EVIDENCE Diagnostic Test or Criteria; Level IV.
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