Free
Correspondence  |   December 1998
Pulse Oximetry Probe Adhesive Disks  : A Potential for Infant Aspiration
Author Notes
  • Resident in Anesthesia; Hospital of the University of Pennsylvania; Philadelphia, Pennsylvania (Reddy)
  • Assistant Professor of Anesthesia; The University of Pennsylvania; Department of Anesthesiology and Critical Care Medicine; The Children's Hospital of Philadelphia; Philadelphia, Pennsylvania (Cook-Sather);
Article Information
Correspondence
Correspondence   |   December 1998
Pulse Oximetry Probe Adhesive Disks  : A Potential for Infant Aspiration
Anesthesiology 12 1998, Vol.89, 1603-1604. doi:
Anesthesiology 12 1998, Vol.89, 1603-1604. doi:
To the Editor:-The risk of ingestion and foreign body aspiration in infants and young children is well known. [1-2] Neonates and infants may be particularly prone to aspiration because of immature swallowing mechanisms involving cricopharyngeal dysfunction and absence of laryngeal elevation. [3] Objects as seemingly innocuous as toy balloons and tissue paper have lead to infant death from asphyxiation. [4,5] We report an accidental ingestion of a pulse oximetry probe adhesive disk cover by an infant scheduled for elective surgery.
A 10-month-old, 8-kg boy underwent routine inhalation induction of anesthesia for bilateral inguinal hernia repair. On initial laryngoscopy for tracheal tube placement, a 1-cm diameter paper disk was noted over the apiglottis, and a Magill forceps was used in an unsuccessful attempt to recover it. After continuing mask ventilation for a second retrieval attempt, the disk was no longer visible. We then elected to intubate the trachea, and in the absence of abnormal auscultatory lung findings, decreased lung compliance, or decreased arterial hemoglobin oxygen saturation (SpO(2)) suggestive of foreign body aspiration, we continued the planned procedure. On examining the oral airway used during inhalation induction, we found the 1-cm paper disk adhered to its side. We determined that the disk was the protective covering of one of six “adhesive dots” packaged with the Nellcor Oxisensor II I-20 and N-25 (Figure 1). Because we could not locate the rest of the packaged dots and, in particular, because we could not account for the blue-tipped plastic adhesive dot attached to the retrieved paper disk, we conducted direct and indirect laryngoscopy and nasopharyngoscopy before extubation. Although minor alveolar ridge bleeding resulted from this inspection, no other foreign body was found, and the infant was extubated and recovered in the postanesthesia care unit without further incident.
Figure 1. The Nellcor Oxisensor II I-20 probe with its attached set of six paper-covered adhesive dots. Note the 1-cm paper disk cover folded back to partially expose the upper left blue-tipped plastic adhesive dot.
Figure 1. The Nellcor Oxisensor II I-20 probe with its attached set of six paper-covered adhesive dots. Note the 1-cm paper disk cover folded back to partially expose the upper left blue-tipped plastic adhesive dot.
Figure 1. The Nellcor Oxisensor II I-20 probe with its attached set of six paper-covered adhesive dots. Note the 1-cm paper disk cover folded back to partially expose the upper left blue-tipped plastic adhesive dot.
×
At the Children's Hospital of Philadelphia, our day surgery nursing staff routinely measures patient vital signs and SpO(2) on the child's arrival to the hospital preoperative registration area approximately 1 h before surgery. After SpO(2) measurement, the pulse oximetry probe is removed from the finger or toe and kept with the medical record. The Nellcor probes we use have an attached set of six paper-covered adhesive dots that are intended for probe reapplication after >or= to 8 h of use. To prevent inadvertent discard of these dots with the probe packaging, a smooth paper backing is attached to the probe cord itself.
Because it is our personal practice in the operating room to immediately remove and discard the dots and paper backing into a waste container before reapplying the pulse oximetry probe, we strongly suspect this infant had ingested the paper cover during the initial assessment in the preoperative registration area. It is conceivable, however, that a plastic dot adhered to one of our gloves without our notice and that we unintentionally introduced the paper cover during mask ventilation or oral airway insertion. In general, adhesive dots and covers could be transferred to a patient's airway by a tongue depressor, oral airway, laryngoscope, or tracheal tube if any of these items were to have come in contact with the pulse oximetry probe and set of adhesive disks at the anesthesia work station.
Since this incident, our staff routinely removes the set of adhesive dots from the probe before measuring preoperative SpO(2). Although there were no manufacturing or packaging defects in this case, the incident was reported to Nellcor Puritan Bennett, Inc. (Pleasanton, CA). We recommend that hospital staff detach the set of adhesive dots before pulse oximetry probe use and remain vigilant in preventing opportunities for infants and young children to ingest this or other foreign material.
Shalini P. Reddy, M.D.
Resident in Anesthesia; Hospital of the University of Pennsylvania; Philadelphia, Pennsylvania
Scott D. Cook-Sather, M.D.
Assistant Professor of Anesthesia; The University of Pennsylvania; Department of Anesthesiology and Critical Care Medicine; The Children's Hospital of Philadelphia; Philadelphia, Pennsylvania;
(Accepted for publication August 7, 1998.)
REFERENCES
Badgwell JM, McLeod ME, Friedberg J: Airway obstruction in infants and children. Can J Anaesth 1987; 34:90-8
Byrne WJ: Foreign bodies, bezoars, caustic ingestion. Gastrointest Endosc Clin North Am 1994; 4:99-119
Kohda E, Hisazumi H, Hiramatsu K: Swallowing dysfunction and aspiration in neonates and infants. Acta Otolaryngol 1994; S517:11-6
Mittleman RE: Fatal choking in infants and children. Am J Forensic Med Pathol 1984; 5:201-10
Ryan CA, Yacoub W, Paton T, Avard D: Childhood deaths from toy balloons. Am J Dis Child 1990; 144:1221-4
Figure 1. The Nellcor Oxisensor II I-20 probe with its attached set of six paper-covered adhesive dots. Note the 1-cm paper disk cover folded back to partially expose the upper left blue-tipped plastic adhesive dot.
Figure 1. The Nellcor Oxisensor II I-20 probe with its attached set of six paper-covered adhesive dots. Note the 1-cm paper disk cover folded back to partially expose the upper left blue-tipped plastic adhesive dot.
Figure 1. The Nellcor Oxisensor II I-20 probe with its attached set of six paper-covered adhesive dots. Note the 1-cm paper disk cover folded back to partially expose the upper left blue-tipped plastic adhesive dot.
×