An Archetype Query Language interpreter into MongoDB: Managing NoSQL standardized Electronic Health Record extracts systems.

The fast development of today's healthcare and the need to extract new medical knowledge from exponentially-growing volumes of standardized Electronic Health Records data, as required by studies in Precision Medicine, brings up a challenge that may probably only be addressed using NoSQL DBMSs, due to the non-optimal performance of traditional relational DBMSs on standardized data; and these database systems operated by semantic archetype-based query languages, because of the expected generalized extension of standardized EHR systems. An AQL into MongoDB interpreter has been developed to its first version. It translates system-independent AQL queries posed on ISO/EN 13606 standardized EHR extracts into the NoSQL MongoDB query language. The new interpreter has the advantages of both the archetype-based system-independent AQL queries and the dual-model-based standardized EHR extracts stored on document-centric NoSQL DBMSs, such as MongoDB. AQL queries are independent of applications, programming languages and system environments due to the use of the dual model, but EHR extracts featuring this model are best persisted on document-based NoSQL databases. Consequently, the interpreter allows us to query standardized EHR extracts semantically, and also affording optimal performance.

Vascular anatomy of the dorsum of the foot.

BACKGROUND: The authors' purpose was to study the anatomy of the dorsum of the foot and determine the distribution and caliber of all vascular branches that nourish the skin and the extensor hallucis longus and extensor digitorum longus tendons. METHODS: The authors performed 20 cadaver dissections. The skin paddle was designed within the dorsum of the foot. Dissection continued until all vascular branches that nourished the skin and tendons were identified. The authors measured the caliber of the vascular connections and the distance to the proximal end of the extensor retinaculum. RESULTS: The dorsalis pedis artery was the continuation of the anterior tibial artery in all cases. A mean of five cutaneous perforators irrigated the cutaneous paddle with a mean caliber of 0.53 mm. The paratenon of the extensor hallucis longus tendon was vascularized by a mean of 8.1 vascular branches with a mean diameter of 0.71 mm. The paratenon of the extensor digitorum longus tendon was nourished by a mean of 5.4 vascular branches, and the mean caliber of those branches was 0.65 mm. CONCLUSION: The dorsum of the foot presents a constant vascular anatomy that is well suited for the elevation of different types of compound flaps which, in turn, would adapt to the needs of the defect.