A decrease in bone mineral density in patients with Crohn's disease appears to result, at least in part, from a short-term effect of systemic glucocorticoid. Modulation of osteoclastogenesis by the receptor activator of NF-kappaB ligand/osteoprotegerin cytokine system and decreased osteoblastic function may be the underlying molecular basis.
Background The use of 19-gauge (G) stainless steel needles for endoscopic ultrasound-guided fine-needle biopsy of a pancreatic mass often results in technical difficulties due to an inability to advance the relatively rigid needle out of the endoscope. More flexible nitinol-based needles might decrease such technical difficulties and thus increase diagnostic accuracy. Objective In this prospective multicenter randomized single-blinded study we compared the diagnostic value of those two needle types in patients with a solid pancreatic lesion. Methods Patients with a solid pancreatic mass were diagnosed with endoscopic ultrasound-guided fine-needle biopsy using one puncture with each needle in a randomized fashion. The primary endpoint was the diagnostic accuracy of each needle. Secondary endpoints included time for puncture, amount of tumour tissue obtained, and technical failure. Histological specimens were centrally reviewed by a pathologist blinded to the final needle type and final diagnosis (ClinicalTrials.gov Identifier: NCT02909530). Results Out of 46 prospectively recruited patients, central pathological examination was available for 41. Diagnostic accuracy for the two needles combined was 87.8%. Diagnostic accuracy was 66% and 68% using the stainless steel- and nitinol-based needle respectively. Time spent for puncturing was 137 ± 61 s (mean ± standard deviation) for the stainless steel and 111 ± 53 s for the nitinol-based needle ( p = 0.037). Technical failure occurred in three (6.5%) cases using the stainless steel- and in none using the nitinol-based needle. Conclusions Usage of a nitinol-based 19-G needle failed to present a significant superior accuracy compared with a stainless steel needle in endoscopic ultrasound-guided fine-needle biopsy of solid pancreatic lesions.
Background and study aims Endoscopic ultrasound-guided fine-needle biopsy (EUS-FNB) represents a standard method for tissue acquisition of lesions adjacent to the gastrointestinal wall. Needles of 19 gauge acquire more tissue than needles with a smaller diameter, but are often unable to penetrate solid, rigid masses. In this study we evaluated a novel prototype that links forward movement of the needle to rotation of the needle tip.
Materials and methods Two needle-models that generate either a regular axial movement or a combination of axial movement with rotation of the needle tip were compared ex vivo for measurement of pressure needed to penetrate artificial tissue. Furthermore, a standard 19-gauge EUS-FNB needle was compared to a modified model (“Twist Needle”) in an ex vivo model to measure the amount of tissue obtained.
Results Pressure measurements using the rotating needle revealed that significantly less pressure is needed for penetration compared to the regular axial movement (mean ± SEM; 3.7 ± 0.3 N vs. 5.5 ± 0.3 N). Using the modified 19-gauge “Twist Needle” did not diminish tissue acquisition measured by surface amount compared to a standard needle (37 ± 5 mm² vs. 35 ± 6 mm²).
Conclusion The method of rotation of an EUS-FNB needle tip upon forward movement requires less pressure for penetration but does not diminish tissue acquisition. Hence, the concept of our “Twist Needle” may potentially reduce some of the current limitations of standard EUS-FNB.
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