Sedation with Midazolam and Ketamine for Invasive Procedures in Children with Malignancies and Hematological Disorders: A Prospective Study with Reference to the Sympathomimetic Properties of Ketamine

Different pharmacological agents have been used for sedation in children undergoing invasive procedures. The authors prospectively evaluated the efficacy, the occurrence of adverse side effects, and cardiovascular parameters in midazolam and ketamine sedation for invasive procedures in children with malignancies and hematological disorders. A total of 183 invasive procedures were performed on 63 children (mean age 9.2 - 5.2 years). Intravenous sedation consisted of 0.1 mg midazolam/kg and 1.0 mg ketamine/kg. Incremental dosages of ketamine (0.33 mg/kg) were given if necessary to maintain deep sedation. Systolic and diastolic blood pressure, heart rate, and oxygen saturation were recorded. All 183 invasive procedures were successfully completed with satisfactory sedation levels in 170 procedures (92.9%; 95% CI:88.2-96.2%). In 33 procedures (18%; 95% CI: 12.8-24.4%) sedation was associated with side effects, the most common being oxygen desaturation. One patient experienced a transient episode of laryngospasm. There was a significant increase in both systolic and diastolic blood pressure and heart rate after ketamine medication (p < .01). Procedure and recovery time were correlated to ketamine dosage (p < .01). The combination of midazolam and ketamine is efficacious in achieving deep sedation for painful invasive procedures. Considering the possibility of potentially serious respiratory complications it should be performed only by physicians who are trained in advanced airway management and life support. As opposed to many other sedative drugs with cardio-depressant properties, ketamine causes a rise in both systolic and diastolic blood pressure, and heart rate.

[1]  Welcome Guimera,et al.  Practice Guidelines for Sedation and Analgesia by Non- Anesthesiologists , 2005 .

[2]  S. Weisman,et al.  Risk reduction in pediatric procedural sedation by application of an American Academy of Pediatrics/American Society of Anesthesiologists process model. , 2002, Pediatrics.

[3]  M. Sagy,et al.  Pediatric sedation for procedures titrated to a desired degree of immobility results in unpredictable depth of sedation. , 2001, Pediatric emergency care.

[4]  T. Gordh,et al.  Lumbar puncture in pediatric oncology: conscious sedation vs. general anesthesia. , 2001, Medical and pediatric oncology.

[5]  A. Shad,et al.  Prospective Evaluation of Propofol Anesthesia in the Pediatric Intensive Care Unit for Elective Oncology Procedures in Ambulatory and Hospitalized Children , 2000, Pediatrics.

[6]  D. Notterman,et al.  Adverse Sedation Events in Pediatrics: Analysis of Medications Used for Sedation , 2000, Pediatrics.

[7]  S. Selbst,et al.  Adverse Sedation Events in Pediatrics: A Critical Incident Analysis of Contributing Factors , 2000, Pediatrics.

[8]  S. Green,et al.  Does adjunctive midazolam reduce recovery agitation after ketamine sedation for pediatric procedures? A randomized, double-blind, placebo-controlled trial. , 2000, Annals of emergency medicine.

[9]  R. Tamminga,et al.  KETAMINE ANESTHESIA WITH OR WITHOUT DIAZEPAM PREMEDICATION FOR BONE MARROW PUNCTURES IN CHILDREN WITH ACUTE LYMPHOBLASTIC LEUKEMIA , 2000, Pediatric hematology and oncology.

[10]  J. Granry,et al.  Use of intravenous ketamine‐midazolam association for pain procedures in children with cancer. A prospective study , 1999, Paediatric anaesthesia.

[11]  S. Bergman Ketamine: review of its pharmacology and its use in pediatric anesthesia. , 1999, Anesthesia progress.

[12]  J. Blumer Clinical Pharmacology of Midazolam in Infants and Children , 1998, Clinical pharmacokinetics.

[13]  M. Parker,et al.  Efficacy and safety of intravenous midazolam and ketamine as sedation for therapeutic and diagnostic procedures in children. , 1997, Pediatrics.

[14]  S. Shurin,et al.  Ketamine-midazolam versus meperidine-midazolam for painful procedures in pediatric oncology patients. , 1997, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[15]  G. Drummond,et al.  Comparison of sedation with midazolam and ketamine: effects on airway muscle activity. , 1996, British journal of anaesthesia.

[16]  C. Coté,et al.  Practice Guidelines for Sedation and Analgesia by Non-Anesthesiologists , 2002, Anesthesiology.

[17]  C. Elliott,et al.  A comparative study of cognitive behavior therapy versus general anesthesia for painful medical procedures in children , 1995, Pain.

[18]  S. Weisman,et al.  The use of oral transmucosal fentanyl citrate for painful procedures in children. , 1995, Pediatrics.

[19]  R. Hackbarth,et al.  Brief unconscious sedation for painful pediatric oncology procedures. Intravenous methohexital with appropriate monitoring is safe and effective. , 1993, The American journal of pediatric hematology/oncology.

[20]  R. Mulhern,et al.  Oral ketamine premedication to alleviate the distress of invasive procedures in pediatric oncology patients. , 1992, Pediatrics.

[21]  S. McGorray,et al.  Midazolam versus fentanyl as premedication for painful procedures in children with cancer. , 1991, Pediatrics.

[22]  C. Berde,et al.  Midazolam for conscious sedation during pediatric oncology procedures: safety and recovery parameters. , 1991, Pediatrics.

[23]  S. Green,et al.  Ketamine sedation for pediatric procedures: Part 2, Review and implications. , 1990, Annals of emergency medicine.

[24]  M. Ramsay,et al.  Controlled Sedation with Alphaxalone-Alphadolone , 1974, British medical journal.

[25]  D. Caro Trial of ketamine in an accident and emergency department , 1974, Anaesthesia.

[26]  N. S. Faithfull,et al.  Ketamine for cardiac catheterisation , 1971, Anaesthesia.