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 Table of Contents     
Year : 2022  |  Volume : 18  |  Issue : 1  |  Page : 142-144

Partial occlusion of left axillary artery in a patient undergoing robot-assisted radical cystectomy

1 Department of Anesthesiology, All India Institute of Medical Sciences, Rishikesh, Uttarakhand, India
2 Department of Emergency Medicine, All India Institute of Medical Sciences, Rishikesh, Uttarakhand, India
3 Department of Neurosurgery, All India Institute of Medical Sciences, Rishikesh, Uttarakhand, India

Date of Submission05-Feb-2021
Date of Decision12-Apr-2021
Date of Acceptance19-Apr-2021
Date of Web Publication09-Jun-2021

Correspondence Address:
Dr. Poonam Arora
Department of Emergency Medicine, All India Institute of Medical Sciences, Rishikesh, Uttarakhand
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/jmas.JMAS_51_21

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 ¤ Abstract 

Robot-assisted surgeries are associated with steep positions which provide free operative field to surgeons; however, it becomes more challenging to the anaesthesiologists. In robot-assisted surgery, the patient is not usually accessible after docking in of robot, so monitors, circuits and tubes should be tightly secured and confirmed before handing over the patient to the surgeons. We report a patient with partial left axillary artery occlusion in a patient posted for robot-assisted radical cystectomy.

Keywords: Neurovascular compression, operative positioning, padding, partial axillary artery compression, robot-assisted radical cystectomy, Trendelenburg

How to cite this article:
Anilakumari D, Arora P, Gupta P, Arora RK. Partial occlusion of left axillary artery in a patient undergoing robot-assisted radical cystectomy. J Min Access Surg 2022;18:142-4

How to cite this URL:
Anilakumari D, Arora P, Gupta P, Arora RK. Partial occlusion of left axillary artery in a patient undergoing robot-assisted radical cystectomy. J Min Access Surg [serial online] 2022 [cited 2022 Aug 17];18:142-4. Available from:

 ¤ Introduction Top

Robot-assisted surgeries are the new trend in surgery and are very useful in pelvic and abdominal surgeries where access is difficult and for enhanced recovery of a patient. For most cases, the patient is positioned in steep Trendelenburg or reverse Trendelenburg position, which provides better access for surgical procedure but is associated with significant changes in cardiovascular system, respiratory system and regional circulation. Although these positions have become a routine with evolving surgical and anaesthetic techniques, there is possibility of neurovascular injury. The reported incidence of post-operative neuropathies for robotic positioning is 0.8%–6.6%, suggesting higher rates of position-related injuries in robotic compared to 0.10%–3.2% for laparoscopic surgeries.[1] Cases of complete vascular occlusion in lateral and park bench positions are reported in the literature; however, we could not find any case with findings which lead to suspicion of partial vascular compression in Trendelenburg position. We wish to highlight the use of pulse oximetry parameters in early detection of partial vascular compression to reach the cause and timely correction of overdamping of arterial pressure.

 ¤ Case Report Top

A 39-year-old male, American Society of Anesthesiologists (ASA) physical status I, diagnosed with muscle invasive bladder carcinoma was scheduled for robot-assisted radical cystectomy and ileal conduit. Standard ASA monitoring in the form of electrocardiogram, non-invasive blood pressure cuff on the right arm and pulse oximetry probe on the left hand finger were attached. General anaesthesia with endotracheal intubation was performed with induction agent injection propofol 2 mg/kg and analgesic injection fentanyl 2 mcg/kg intravenously after ensuring adequate neuromuscular blockade with injection vecuronium. Collateral circulation by modified Allen's test was confirmed, and the left radial artery was cannulated and transduced. The invasive arterial pulse waveform and values were obtained which were comparable to non invasive blood pressure from other arm. After securing all the monitors, tubings and circuit connections, the patient was positioned to facilitate surgical exposure.

The patient was positioned in steep Trendelenburg position, securely fastened in position by shoulder support, cross bandage over the chest and cotton cushioning at dependent areas. The left upper limb was positioned in 60° abduction at shoulder and 70° flexion at elbow joint, padded and covered with cotton and away from field of robotic arms [Figure 1].
Figure 1: Steep Trendelenburg position for robot-assisted radical cystectomy

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Within 10 min of positioning, we noticed overdampening of arterial waves with fall in invasive blood pressure despite normal value of non-invasive blood pressure in the right arm. The dampening could not be corrected even after repeated flushing, recalibration and changing the transducer. On aspiration, there was good backflow from arterial line. Position of transducer in relation to heart level was also reconfirmed.

We also observed that pulse oximeter applied on the left hand also showed significant pulse pressure variation (PPV) with perfusion index reduced to 2.48 (suggestive of hypovolaemia) which was 8.0 before positioning [Figure 2]. Considering hypovolaemia, fluid input was reviewed which was adequate according to calculated fluid for that duration. The simultaneous dampening of PPV and arterial waveform with normal reading of non-invasive blood pressure suggested towards arterial compression. The ulnar, brachial and axillary artery pulsations were checked and found to be feeble. Although the arm was not hyperabducted, even then we attempted to further reduce abduction and flexion at elbow joint which did not lead to improvement in arterial waveform or pulse oximetry waveform. Finally, supraclavicular area was checked where a cotton pad applied between the shoulder and the support was found to be misplaced. Both waveforms and perfusion index improved on applying additional cotton pads between shoulder and brace. Cotton pad removal to confirm these findings again leads to dampening of arterial waveform and decrease in perfusion index.
Figure 2: (a) Patient monitor showing dampened arterial waveform and pulse pressure variation with low perfusion index in pulse oximetry waveform. (b) Patient monitor showing arterial waveform with invasive blood pressure corresponding to non-invasive blood pressure, resolved pulse pressure variation and improved perfusion index in pulse oximetry

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 ¤ Discussion Top

A case of axillary artery occlusion has been reported in the past in park bench position, which was noticed when both arterial and pulse oximetry traces disappeared on positioning and returned to normal after repositioning arm in near neutral position.[2] Non-dependent axillary artery compression is reported in needlescopic thoracic sympathectomy on flexion beyond 90°. This was noticed when temperature did not increase after sympathectomy, which was confirmed by the absence of pulse oximetry waveform and pulses.[3] In our case, arterial trace dampened and previously normal pulse oximetry on the same limb started showing features of hypovolaemia with wide variation in pulse waves and reduced perfusion index. This along with normal non-invasive blood pressure in opposite limb suggested partial recurring vascular compression. Thus, we conclude that axillary artery may get compressed at its origin if cotton pads are not placed appropriately between shoulder and brace in steep Trendelenburg position. The variation in pulse oximetry waveform and perfusion index may provide a hint towards such partial vascular compression and can prevent limb ischaemia. Limb Doppler may be used to identify limb hypoperfusion in the absence of hypotension. Increase of the peak systolic velocity in triplex mode and turbulence in colour Doppler with the use of point of care ultrasound may indicate limb hypoperfusion.[4] The optimal position of the arms in steep Tredlenburg position would be slightly pronated, tucked along the side of body, however, this might restrict access to vital monitors and intravenous access.[5]

Declaration of patient consent

The authors certify that they have obtained all appropriate patient consent forms. In the form, the patient has given his consent for his images and other clinical information to be reported in the journal. The patient understands that name and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.

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Conflicts of interest

There are no conflicts of interest.

 ¤ References Top

Zillioux JM, Krupski TL. Patient positioning during minimally invasive surgery: What is current best practice? Robot Surg 2017;4:69-76.  Back to cited text no. 1
Jain V, Davies M. Axillary artery compression in park bench position during a microvascular decompression. J Neurosurg Anesthesiol 2011;23:264.  Back to cited text no. 2
Liu EH, Yih PS, Goh PM. Non-dependent axillary artery compression during needlescopic thoracic sympathectomy. Can J Anaesth 1999;46:515.  Back to cited text no. 3
Trusen A, Beissert M, Hahn D. Color Doppler US findings in the diagnosis of arterial occlusive disease of the lower limb. Acta Radiol 2003;44:411-8.  Back to cited text no. 4
Devarajan J, Byrd JB, Gong MC, Wood HM, O'Hara J, Weingarten TN, et al. Upper and middle trunk brachial plexopathy after robotic prostatectomy. Surv Anesthesiol 2013;57:36-7.  Back to cited text no. 5


  [Figure 1], [Figure 2]


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