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 Table of Contents    
CLINICAL COMMUNICATION
Year : 2021  |  Volume : 65  |  Issue : 4  |  Page : 328-330  

All epidural needle bevels are not the same


1 Department of Anesthesiology, Washington School of Medicine, 660 South Euclid Ave, St Louis, Missouri, United States
2 Department of Anesthesiology, University of Maryland School of Medicine, 22 S Greene Street, Baltimore, Maryland, United States

Date of Submission27-Dec-2020
Date of Decision11-Jan-2021
Date of Acceptance31-Jan-2021
Date of Web Publication15-Apr-2021

Correspondence Address:
Bhavani Shankar Kodali
Department of Anesthesiology, University of Maryland School of Medicine, 22 S Greene Street, Baltimore, Maryland 21201
United States
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/ija.IJA_1503_20

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How to cite this article:
Benhardt AC, Kodali BS. All epidural needle bevels are not the same. Indian J Anaesth 2021;65:328-30

How to cite this URL:
Benhardt AC, Kodali BS. All epidural needle bevels are not the same. Indian J Anaesth [serial online] 2021 [cited 2021 Jun 14];65:328-30. Available from: https://www.ijaweb.org/text.asp?2021/65/4/278/313866


   Introduction Top


Unintentional dural puncture continues to occur despite advances in epidural analgesia and anaesthesia for over a century.[1],[2],[3],[4],[5] Several risk factors have been implicated as aetiologies.[6],[7] Our institution has been using Arrow® FlexTip Plus® Epidural Catheterisation kits (Teleflex, North Carolina, USA) for over 25 years. However, on one occasion, there was an abrupt change in the supply chain of epidural sets, necessitating the acquisition of kits from a different manufacturer. This change led to an observational increase in difficulty in threading the epidural catheter and dural puncture incidence requiring a blood patch. No study has analysed the physical characteristics of epidural needles. Our in vitro study attempted to address this void.


   Methods Top


This study was performed at the Brigham and Women's hospital during the period January 1[st] to 30[th] January 2018. The Ethics Committee of the institution waived the ethical approval requirement as our study did not involve any patients. Six 17-gauge epidural needles in clinical use for epidural placement were obtained for this study [Table 1], [Figure 1]a. All needles, with their stylet removed, were placed on a level platform with bevels facing upwards. A Canon® REBEL T3i digital SLR camera with a macro lens was used to obtain magnified images of the epidural needle bevels. Photographs of the front and lateral views of the bevel and lateral views of the bevel with an epidural catheter threaded at select distances were obtained. Adobe Photoshop®CC measurement scale was used to measure length, width, area of the epidural bevel, and angulation of the catheter exiting the bevel. The minimum length of the bevel (MLB) required for the catheter to physically exit the epidural needle was analysed [Table 1], [Figure 1]a.
Figure 1: (a) Epidural needles, angulation of catheter protrusion and minimum length of the bevel (MLB). (b) The elastic band and the epidural needle are positioned such that the tip of the epidural needle and catheter touches the band. (c) Movement of the elastic band and catheter behaviour as the catheter exits the needle bevel

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Table 1: Epidural needles and physical characteristics. Movements of the elastic band in mm at various lengths of catheter insertion are also shown.

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Exit characteristics of the catheter were studied using an in vitro elastic band model [Figure 1]b. The needle was secured horizontally with a clamp affixed to a stand. The elastic band was placed vertically between two clamps with minimal stretch. The needle was positioned against the elastic band so that the tip of the epidural bevel facing upwards contacted the elastic band. The epidural catheter was introduced in 0.5 cm increments until 2.5 cm of catheter exited the epidural needle tip [Figure 1]c. At each increment, a lateral photograph was taken and the distance of movement of the elastic band from the epidural needle tip was measured using Adobe Photoshop® [Table 1]. The process was repeated for each needle using the same type of epidural catheter (Arrow® FlexTip Plus® Epidural Catheter, Teleflex, North Carolina, USA).


   Results Top


The bevel length varied from 2.26 mm to 3.26 mm, width from 1.20 mm to 1.34 mm, area from 2.26 mm[2] to 3.80 mm[2], angulation of catheter from 12.4° to 16.4°, and MLB from 1.07 mm to 1.63 mm. Weiss-1 has the largest area and shortest MLB. Tuohy-4 has the longest bevel and MLB compared to others. The angulation of catheter protrusion varied from 16.4° with the Hustead-6 to 12.4° with the Tuohy-4. [Table 1] shows the distance of elastic band displacement while threading the catheter. After 2.5 cm of catheter was threaded, the tip of the catheter flipped upwards on exit. Catheter exit characteristics varied considerably due to variations in physical characteristics among needle bevels [Figure 1]c. The elastic band was displaced to a greater extent without the catheter curving upwards ([Table 1], Hustead-6 at 2 cm).


   Discussion Top


This analytical study demonstrates that the bevels of all epidural needles are not the same. The differences in physical characteristics of the bevel may affect tactile perception during the epidural placement and feel of epidural catheter insertion. Tactile perception is the principal factor clinicians use while approaching the epidural space. In a study in piglets, it was found that the force required to penetrate ligamentum flavum with an 18G needle was about 7.754 N (68.3% confidence interval 5.45-11.03).[8] The penetrating force was variable depending upon the change in texture of the tissues.[8] Hence, it is conceivable that the force required to penetrate tissue will vary with the heterogeneity of epidural needles.

Drzymalski performed an in vitro study demonstrating that enough length of the epidural bevel must be in the epidural space to allow the catheter to exit.[9] If MLB is longer, more bevel length must be in the epidural space for the catheter to thread easily. Otherwise, catheter insertion through the epidural needle will encounter the bevel's mechanical barrier despite an appropriate loss of resistance to air or saline. This may be the causative reason for the increased difficulty observed by us in threading the catheter when we switched from the Weiss-1 epidural needle (shortest MLB).

The depth of the epidural space can range from 2 to 25 mm. Therefore, if a patient has a shallow epidural space or the dura is abutting the ligamentum, indentation of dura would be more likely with longer MLB needles. The Weiss-1 seems superior in this situation with a shorter MLB. The longer bevels, such as with the Tuohy-4, may run the potential risk of the tip of the bevel touching the dura when the depth of the epidural space is small and thus, theoretically increasing susceptibility for accidental dural puncture. Despite this theoretical risk, there is no evidence due to lack of studies randomising epidural needles for epidural placement.

The angulation of the epidural catheter as it exits the bevel adds another complexity to catheter threading. Our study is the first to evaluate the exit characteristics of the epidural catheter through a variety of epidural needles. There is one in vitro study that analysed the effect of Tuohy needle bevel on the deflection of a spinal needle as its tip exits the bevel.[10] Contrary to our analysis, this study neither evaluated the physical characteristics of a variety of epidural needles, nor the exit characteristics of an epidural catheter. Our analysis shows a tendency of the catheter to curve upwards before exiting when encountering resistance. An epidural needle with a higher angle of catheter exit could facilitate easier threading of the catheter because of less resistance encountered against an obstruction such as the dura.

There are limitations in our analytical study. We did not analyse forces required to move an epidural needle with bevels having different physical characteristics in clinical practice. Furthermore, this study does not predict difficulties experienced in threading epidural catheters into actual epidural space when the epidural catheter tip abuts the dura, fat and epidural contents, impeding the catheter movement. Catheter stiffness can also influence the catheter exit from the epidural bevel. However, our analysis demonstrates that epidural needles with different bevels' physical characteristics can influence catheter exit. Epidural needles with higher catheter angulation had less resistance to encountering the obstruction based on our in vitro observations of elastic band movement. Epidural needles have not undergone progressive changes since their initial introduction by the pioneers in the field of regional anaesthesia.[11]

To conclude, our in vitro study demonstrates that an epidural needle bevel with a small minimum length of bevel and larger catheter exit angle is more theoretically suited for ease of passage of an epidural catheter into the epidural space. Future studies should focus on redesigning epidural needles with such bevels and investigate them in clinical practice.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

 
   References Top

1.
Buddeberg BS, Bandschapp O, Girard T. Post-dural puncture headache. Minerva Anestesiol 2019;85:543-53.  Back to cited text no. 1
    
2.
Chilvers RJ, Bamber J. Postdural puncture headache in obstetric patients. Anesth Analg 2001;92:1616.  Back to cited text no. 2
    
3.
Delgado C, Bollag L, Van Cleve W. Neuraxial labor analgesia utilization, incidence of postdural puncture headache, and epidural blood patch placement for privately insured parturients in the United States (2008-2015). Anesth Analg 2020;131:850-6.  Back to cited text no. 3
    
4.
Bakshi SG, Gehdoo RS. Incidence and management of post-dural puncture headache following spinal anaesthesia and accidental dural puncture from a non-obstetric hospital: A retrospective analysis. Indian J Anaesth 2018;62:881-6.  Back to cited text no. 4
[PUBMED]  [Full text]  
5.
Puthenveettil N, Rajan S, Mohan A, Paul J, Kumar L. Sphenopalatine ganglion block for treatment of post-dural puncture headache in obstetric patients: An observational study. Indian J Anaesth 2018;62:972-7.  Back to cited text no. 5
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6.
Haller G, Cornet J, Boldi MO, Myers C, Savoldelli G, Kern C. Risk factors for post-dural puncture headache following injury of the dural membrane: A root-cause analysis and nested case-control study. Int J Obstet Anesth 2018;36:17-27.  Back to cited text no. 6
    
7.
Elterman KG, Tsen LC, Huang CC, Farber MK. The influence of a night-float call system on the incidence of unintentional dural puncture: A retrospective impact study. Anesth Analg 2015;120:1095-8.  Back to cited text no. 7
    
8.
Boessenkool S. Force and pressure feedback during epidural needle insertion in the ligamentum flavum of piglets. [Master's Thesis. Biomedical Engineering, Delftg, University of Technology. Netherlands.]: Delft University of Technology; 2012. Available from: https://repository.tudelft.nl/islandora/object/uuid%3A875ee78c-7c43-49bd-8137-0b65787b047f. [Last accessed on 2021 Jan 24].  Back to cited text no. 8
    
9.
Drzymalski DM, Elterman K, Kodali BS. A simulation study of epidural catheter threading using a cardboard model of the ligamentum flavum. Int J Obstet Anesth 2017;31:115-7.  Back to cited text no. 9
    
10.
Ahn WS, Bahk JH, Lim YJ, Kim YC. The effect of introducer gauge, design and bevel direction on the deflection of spinal needles. Anaesthesia 2002;57:1007-11.  Back to cited text no. 10
    
11.
Frolich MA, Caton D. Pioneers in epidural needle design. Anesth Analg 2001;93:215-20.   Back to cited text no. 11
    


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