Opening injection pressure monitoring using an in-line device does not prevent intraneural injection in an isolated nerve model

2021 ◽  
pp. rapm-2021-102788
Author(s):  
Jorge Mejia ◽  
Victor Varela ◽  
Javier Domenech ◽  
Pierre Goffin ◽  
Alberto Prats-Galino ◽  
...  
Keyword(s):  
Methylene Blue ◽  
Peak Pressure ◽  
Injection Pressure ◽  
Pressure Monitoring ◽  
Pressure Monitor ◽  
Anesthesia Practice ◽  
Nerve Model ◽  
Intraneural Injection ◽  
Line Pressure ◽  
Reference Threshold

BackgroundInjection pressure monitoring using in-line devices is affordable and easy to implement into a regional anesthesia practice. However, solid evidence regarding their performance is lacking. We aimed to evaluate if opening injection pressure (OIP), measured with a disposable in-line pressure monitor, can prevent intraneural (subepineural) injection using 15 pound per square inch (PSI) as the reference safety threshold.MethodsAn isolated nerve model with six tibial and six common peroneal nerves from three unembalmed fresh cadavers was used for this observational study. A mixture of 0.5% ropivacaine with methylene blue was injected intraneurally at a rate of 10 mL/min, to a maximum of 3 mL. OIP was recorded for each injection as well as evidence of intraneural contrast. Injected volume at 15 and 20 PSI was recorded, and when it leaked out the epineurium, if it occurred.ResultsIn all cases, OIP was<15 PSI and intraneural contrast was evident before the safety threshold. The 15–20 PSI mark was attained in 5 of 12 injections (41%), with a median injected volume of 0.9 mL (range 0.4–2.3 mL). Peak pressure of >20 PSI was reached in two injections (at 0.6 mL and 2.7 mL). Contrast leaked out the epineurium in 11 of 12 injections (91%) with a median injected volume of 0.6 mL (range 0.1–1.3 mL).ConclusionsOur results suggest that in-line pressure monitoring may not prevent intraneural injection using an injection pressure of 15 PSI as reference threshold. Due to the preliminary nature of our study, further evidence is needed to demonstrate clinical relevance.

Opening Injection Pressure Consistently Detects Needle–Nerve Contact during Ultrasound-guided Interscalene Brachial Plexus Block

2014 ◽  
Vol 120 (5) ◽  
pp. 1246-1253 ◽  
Author(s):  
Jeff C. Gadsden ◽  
Jason J. Choi ◽  
Emily Lin ◽  
Allegra Robinson
Keyword(s):  
Brachial Plexus ◽  
Peak Pressure ◽  
Injection Pressure ◽  
Interscalene Block ◽  
Ultrasound Images ◽  
Interscalene Brachial Plexus Block ◽  
Pressure Manometer ◽  
Line Pressure ◽  
Plexus Block ◽  
The Relationship

Abstract Background: Needle trauma may cause neuropathy after nerve blockade. Even without injection, nerve injury can result from forceful needle–nerve contact (NNC). High opening injection pressures (OIPs) have been associated with intrafascicular needle tip placement and nerve damage; however, the relationship between OIP and NNC is unclear. The authors conducted a prospective, observational study to define this relationship. Methods: Sixteen patients scheduled for shoulder surgery under interscalene block were enrolled if they had clear ultrasound images of the brachial plexus roots. A 22-gauge stimulating needle was inserted within 1 mm of the root, and 1-ml D5W injected at 10 ml/min by using an automated pump. OIP was monitored using an in-line pressure manometer and injections aborted if 15 psi or greater. The needle was advanced to displace the nerve slightly (NNC), and the procedure repeated. Occurrence of evoked motor response and paresthesia were recorded. Results: Fifteen patients had at least one clearly visible root. OIP at 1 mm distance from the nerve was less than 15 psi (mean peak pressure 8.2 ± 2.4 psi) and the 1-ml injection could be completed in all but two cases (3%). In contrast, OIP during NNC was 15 psi or greater (mean peak pressure 20.9 ± 3.7 psi) in 35 of 36 injections. Aborting the injection when OIP reached 15 psi prevented commencement of injection in all cases of NNC except one. Conclusion: High OIP (≥15 psi) consistently detected NNC, suggesting that injection pressure monitoring may be useful in preventing injection against nerve roots during interscalene block.

scholarly journals Experimental Study of Mechanical Integrity Testing in Stapled Large Bowel: Methylene Blue Leak Test Is Not Inferior to Air Leak Test

2020 ◽  
pp. 1-9
Author(s):  
Marius Kryzauskas ◽  
Austeja Elzbieta Degutyte ◽  
Vilius Abeciunas ◽  
Beatrice Lukenaite ◽  
Eugenijus Jasiunas ◽  
...  
Keyword(s):  
Methylene Blue ◽  
Colorectal Anastomosis ◽  
Linear Stapler ◽  
Bursting Pressure ◽  
Air Leak ◽  
Leak Test ◽  
Pressure Monitor ◽  
Mechanical Integrity ◽  
Air Leak Test ◽  
Significant Difference

<b><i>Background/Objectives:</i></b> Anastomotic leakage remains the most devastating postoperative complication in colorectal surgery. The mechanical integrity of the newly formed colorectal anastomosis can be evaluated by visual inspection intraoperatively; both air leak and liquid leak tests are also used to evaluate the integrity of stapled colorectal anastomoses. It is not clear whether double-stapled anastomoses are more prone to leaks than single-stapled anastomoses. The aim of our study was to compare the methylene blue and the air leak test in the experimental setting of single-stapled and double-stapled porcine bowels. <b><i>Methods:</i></b> Twenty-four distal colons were excised from slaughtered pigs without delay. The proximal bowel end was closed with a linear stapler using blue cartridges. The bowels were randomly divided into single-stapled or double-stapled groups. Air leak and methylene blue leak tests were performed. A digital pressure monitor with a gradual pressure increase function was used to both gradually increase pressure within the bowel and to determine the pressure at which the stapler line disintegrated. <b><i>Results:</i></b> Air leakage occurred at a mean pressure of 51.62 (±16.60) mm Hg and methylene blue leakage occurred at 46.54 (±16.78) mm Hg (<i>p</i> = 0.31). The air and methylene blue leaks occurred at comparable pressures in single-stapled bowels and in double-stapled bowels (47.21 [±14.02] mm Hg vs. 50.96 [±19.15] mm Hg, <i>p</i> = 0.6). <b><i>Conclusions:</i></b> The methylene blue solution leak test is not inferior to the air leak test. There is no significant difference in bursting pressure between single-stapled and double-stapled anastomoses.

An On-Line Pressure Monitor for EFI-Control-Unit Test Diagnostics

1976 ◽  
Author(s):  
A. E. Young ◽  
D. H. Locher ◽  
W. G. Wolber
Keyword(s):  
Control Unit ◽  
Pressure Monitor ◽  
Unit Test ◽  
On Line ◽  
Line Pressure ◽  
Test Diagnostics

Potential of a Medium Grade Low Heat Rejection Diesel Engine With Crude Tobacco Seed Oil

2013 ◽  
Author(s):  
M. V. S. Murali Krishna ◽  
P. Pavan Kumar ◽  
P. V. K. Murthy ◽  
D. Baswaraju
Keyword(s):  
Diesel Engine ◽  
Maximum Rate ◽  
Seed Oil ◽  
Peak Pressure ◽  
Injection Pressure ◽  
Air Gap ◽  
Injection Timing ◽  
Brake Thermal Efficiency ◽  
Tobacco Seed ◽  
Diesel Operation

Investigations were carried out to evaluate the performance of a medium grade low heat rejection (LHR) diesel engine consisting of air gap insulated piston with 3-mm air gap, with superni (an alloy of nickel) crown and air gap insulated liner with superni insert with different operating conditions of crude tobacco seed oil with varied injection timing and injection pressure. Performance parameters of brake thermal efficiency (BTE), exhaust gas temperature (EGT), volumetric efficiency (VE), coolant load (CL) and sound intensity were determined at various values of brake mean effective pressure (BMEP) of the engine. Exhaust emissions of smoke and oxides of nitrogen (NOx) were noted at different values of BMEP of the engine. Combustion characteristics of peak pressure (PP), time of occurrence of peak pressure (TOPP), maximum rate of pressure rise (MRPR) and time of occurrence of maximum rate of pressure (TOMRPR) were measured with TDC (top dead centre) encoder, pressure transducer, console and special pressure-crank angle software-package at the peak load operation of the engine. Conventional engine (CE) showed deteriorated performance, while LHR engine showed improved performance with crude tobacco seed oil (CTSO) operation when compared with pure diesel operation at recommended injection timing and pressure. The optimum injection timing was found to be 32°bTDC (before top dead centre) with CE while it was 30°bTDC with LHR engine with vegetable oil operation. The performance of both version of the engine improved with advanced injection timing and higher injection pressure with test fuels. Peak brake thermal efficiency increased by 4%, volumetric efficiency decreased by 8%, smoke levels decreased by 4% and NOx levels increased by 37% with vegetable oil operation on LHR engine at its optimum injection timing, when compared with pure diesel operation on CE at manufacturer’s recommended injection timing of 27°bTDC.

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