ABSTRACT
Introduction: This study aimed to determine whether a dynamic orbital shaking culture system could enhance the cartilage production and viability of bioengineered nasoseptal cartilage. Methods: Human nasal chondrocytes were seeded onto nanocellulose-alginate biomaterials and cultured in static or dynamic conditions for 14 days. Quantitative polymerase chain reaction for chondrogenic gene expression (type 2 collagen, aggrecan and SOX9) was performed, demonstrating a transient rise in SOX9 expression at 1 and 7 days of culture, followed by a rise at 7 and 14 days in Aggrecan (184.5-fold increase, p < 0.0001) and Type 2 Collagen (226.3-fold increase, p = 0.049) expression. Samples were analysed histologically for glycosaminoglycan content using Alcian blue staining and demonstrated increased matrix formation in dynamic culture. Results: Superior cell viability was identified in the dynamic conditions through live-dead and alamarBlue assays. Computational analysis was used to determine the shear stress experienced by cells in the biomaterial in the dynamic conditions and found that the mechanical stimulation exerted was minimal (fluid shear stress <0.02 mPa, fluid pressure <48 Pa). Conclusion: We conclude that the use of an orbital shaking system exerts biologically relevant effects on bioengineered nasoseptal cartilage independently of the expected thresholds of mechanical stimulation, with implications for optimising future cartilage tissue engineering efforts.
ABSTRACT
BACKGROUND: The use of robots in surgery has become commonplace in many specialties. In this systematic review, we report on the current uses of robotics in plastic and reconstructive surgery and looks to future roles for robotics in this arena. METHODS: A systematic literature search of Medline, EMBASE, and Scopus was performed using appropriate search terms in order to identify all applications of robot-assistance in plastic and reconstructive surgery. All articles were reviewed by two authors and a qualitative synthesis performed of those articles that met the inclusion criteria. The systematic review and results were conducted and reported in accordance with the Preferred Reporting Items for Systematic Reviews and Meta Analysis (PRISMA) guidelines. RESULTS: A total of 7,904 articles were identified for title and abstract review. Sixty-eight studies met the inclusion criteria. Robotic assistance in plastic and reconstructive surgery is still in its infancy, with areas such as trans-oral robotic surgery and microvascular procedures the dominant areas of interest currently. A number of benefits have been shown over conventional open surgery, such as improved access and greater dexterity; however, these must be balanced against disadvantages such as the lack of haptic feedback and cost implications. CONCLUSION: The feasibility of robotic plastic surgery has been demonstrated in several specific indications. As technology, knowledge, and skills in this area improve, these techniques have the potential to contribute positively to patient and provider experience and outcomes.
ABSTRACT
BACKGROUND: Secondary abdominal compartment syndrome (sACS) in adults with severe burns is commonly unsuspected, can be rapidly fatal and seriously compromises the reliability of urine output as an indicator of perfusion and resuscitation status. Current literature lacks an exhaustive, evidence-based review critically appraising all retrieved literature on which clinical decisions may be based. METHODS: The evidence on three inter-related concepts was evaluated: fluid-volume management and its contribution to sACS; the role of urinary bladder pressure monitoring; and awareness of the burns community to sACS. Literature published over the last ten years across the major databases was retrieved, and the search strategy was fully reported to reduce the retrieval bias ubiquitous in previous literature. Each article was individually appraised and classified into a framework of evidence, enabling the formulation of specific, graded recommendations. RESULTS: Current best evidence supports recommendations to reduce fluid-volume administered through use of colloids or hypertonic saline especially if the projected resuscitation volume surpasses a 'volume ceiling'. Continuous intra-vesical monitoring is recommended: to guide fluid resuscitation for early diagnosis of sACS; and as a guide to reliability of urine output as indicator of organ perfusion. A priming volume of 75 cm(3) or less is recommended. CONCLUSION: Fluid resuscitation volume is causative to sACS, especially once a predetermined maxima is reached. Continuous intra-vesical pressure monitoring is a cheap, reliable, user-friendly monitoring method recommended in high-risk patients. Poor awareness among the burns community requires urgent dissemination of evidence based information.
