Clinical Trials Logo

Clinical Trial Details — Status: Withdrawn

Administrative data

NCT number NCT01495273
Other study ID # Pro00026789
Secondary ID
Status Withdrawn
Phase N/A
First received
Last updated
Start date May 2017
Est. completion date January 2018

Study information

Verified date March 2020
Source University of Alberta
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Various medical procedures require different objects to be inserted into the airway; for example, a bronchoscope - a fibreoptic camera device - can be guided down the windpipe to gain real-time images of the airway. Since inserting objects down the throat is uncomfortable for most patients, doctors have several options, one of which is putting the patient to sleep using general anesthetic before inserting something into the windpipe. This may not always be the best option, especially in cases where the patient needs to be awake during the procedure. In these cases, the doctor may 'freeze' the windpipe before inserting a scope or a tube into the airway. For this, the doctor inserts a needle through the front of the neck and injects local anesthetic. Inserting a needle into the windpipe comes with some risks to the patient, and the doctor wants to avoid puncturing nearby structures, such as arteries, veins, and the esophagus. The investigators have come up with a new method for accurately guiding a needle into the airway that will alert the user when they have successfully placed the needle tip in the windpipe. The investigators hypothesize that this new method will prove to be beneficial to clinicians and emergency medical personnel who need a fast, easy, and reliable way to insert a needle into the airway.


Description:

Background and rationale

The trachea can be anesthetized by several different methods, one of which is transtracheal injection of a local anesthetic such as lidocaine. This technique is performed to prepare a patient for a variety of procedures, including awake fibreoptic intubation and cricothyroidotomy. Tracheal anesthesia is performed by first identifying the cricothyroid ligament; this structure is generally located by placing one finger on the thyroid cartilage and another on the cricoid cartilage. Approximately 4-6 mL of local anesthetic is delivered through a small needle or an intravenous catheter inserted in the neck midline. Anesthesia occurs quickly and permits the patient to be awake and aware during the procedures that follow.

Insertion of a needle into the trachea is not without risk to the patient. Several complicating factors affect the success rate of tracheal needle insertion, and in emergency situations where oxygen must be delivered through the insertion site, as in cricothyroidotomy, accurate needle insertion can mean the difference between life and death for the patient. One complicating factor in this procedure is that the thyroid cartilage and the cricoid cartilage can be difficult to identify, especially in obese people. Needle insertion is made more complicated due to the anatomy surrounding the cricothyroid membrane: the carotid artery and jugular vein lie laterally to the membrane, the cricothyroid artery is located superiorly and laterally, and the highly vascularized thyroid gland is located inferiorly. Intravascular injection of anesthetic can lead to a seizure, and inaccurate injection could lead to anesthesia of surrounding nerves. There is also a risk of puncturing through the posterior wall of the trachea, which may cause esophageal perforation.

Given these complications, a quick and easy method of ensuring accurate tracheal needle insertion, while avoiding damage to surrounding tissues, would greatly benefit clinicians and could potentially save lives in emergency situations. We wish to evaluate a simple technique to guide a needle tip into the trachea that mitigates the risks of conventional methods of needle insertion. We will use nerve stimulation equipment to aid in the guidance and placement of a needle tip into the tracheal lumen, which we predict will be faster and more accurate than current conventional methods. The nerve stimulation technology can alert the user to the exact moment the needle tip is suspended in the trachea and also alerts the user to when the needle tip is in contact with body tissue, avoiding accidental puncture of the lateral and posterior tracheal walls. We believe that this method of electrically-guided needle insertion will be a significant improvement over current methods of percutaneous needle insertion and transtracheal injection.

Study objective To assess the value of nerve stimulation equipment for guidance and placement of a needle-catheter assembly for transtracheal injection.

Hypothesis Nerve stimulation equipment will help the physician guide and insert the needle tip into the tracheal lumen with more accuracy than conventional techniques.

Study Design This is a prospective, descriptive, interventional study.

Study Procedures This study will involve recruiting consenting patients undergoing procedures that require awake fibreoptic intubation following transtracheal injection of local anesthetic. We intend to recruit 30 patients, who will be randomized into two groups, one (experimental) that will undergo transtracheal injection using a needle connected to a nerve stimulation device, and another (control) that will receive tracheal anesthetic using standard, conventional needle insertion and injection technique.

Patients will lay supine with the head and neck in a neutral position on one pillow. The physician will locate the cricothyroid ligament, through which the needle-catheter assembly will be inserted. In the experimental group, a 21G 64 mm insulated needle with an 18G catheter assembly (MultiSet, Pajunk, Germany) and a commonly used nerve stimulator (HNS 12, B.Braun, Germany) will be used to access the airway (this nerve stimulator device has been approved for use on live patients in Canada and is a common piece of equipment in operating rooms). The nerve stimulator will be connected to a current meter, and a ground electrode will be attached to the body. When the needle tip is in contact with body tissue (i.e., tracheal wall), the electrical circuit will be closed, producing a reading of 1.0 mA on the current reader. Suspension of the needle tip in the airway will interrupt the circuit, producing a reading of 0.0 mA. In addition, an audible signal built into the nerve stimulator will alert the user to a change in current, warning that the needle tip has advanced too far and is in contact with the posterior or lateral tracheal wall. Once the physician has successfully inserted the needle tip into the tracheal lumen, the needle will be withdrawn and 4-6 mL lidocaine (2-4%) will be delivered through the catheter, anesthetizing the airway. Once the airway is anesthetized, a bronchoscope can be guided down the trachea. The control group will undergo an identical procedure, except that no nerve stimulator will be connected to the needle.

For each patient, the physician performing the transtracheal injection will document their opinion of each needle insertion and injection, but no personal information about the patient will be recorded at this time. For both the experimental and control groups, study investigators will collect data documenting the time needed for each needle insertion and the success of each attempt. These data will be statistically analyzed to determine the value of the nerve stimulator-guided technique over the conventional technique.


Recruitment information / eligibility

Status Withdrawn
Enrollment 0
Est. completion date January 2018
Est. primary completion date December 2017
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

- Adult (18 years of age or older) patients who have provided informed consent.

- Require awake fibreoptic intubation.

Exclusion Criteria:

- Inability to consent due to language barrier or incapacity to consent.

- Known upper airway pathologies

- Known oro-pharyngeal or laryngeal disease, including any swelling, tumour, or infection.

- Previous radiotherapy or operations on the neck.

- Cervical spine fractures.

Study Design


Related Conditions & MeSH terms


Intervention

Procedure:
Transtracheal injection
Experimental group will undergo transtracheal injection using needle connected to a nerve stimulator device.
Transtracheal injection
Control group will undergo transtracheal injection with a standard needle/syringe assembly.

Locations

Country Name City State
Canada University of Alberta Hospital Edmonton Alberta

Sponsors (1)

Lead Sponsor Collaborator
University of Alberta

Country where clinical trial is conducted

Canada, 

Outcome

Type Measure Description Time frame Safety issue
Primary Needle tip placement in tracheal lumen After injection of local anesthetic into the skin of the neck, a needle connected to a syringe containing 4-6 mL 2-4% lidocaine will be inserted through the cricothyroid membrane into the tracheal lumen. Success will be recorded as accurate puncture of the cricothyroid membrane and trachea and injection of lidocaine into the tracheal lumen. From positioning of the patient to anesthesia of the trachea; approximately 10 minutes
See also
  Status Clinical Trial Phase
Completed NCT03109678 - A Comparison of the Intubating Laryngeal Mask FASTRACH™ and the Intubating Laryngeal Mask Ambu Aura-i™ N/A