Cold Water Immersion2001

A comparison of crushed ice and continuous flow cold therapy.

The American journal of knee surgery

confidence

Key findings

Continuous flow cold therapy superior to crushed ice: lower pain scores, less narcotic use, more passive motion and knee flexion, higher patient ratings.

View source on PubMed (PMID 11281337) ↗

Sample size
87 patients (52 continuous flow, 35 crushed ice)
Population
Patients undergoing arthroscopic patellar tendon autograft ACL reconstruction
Dosing
Constant cold therapy for 3 days, then as needed
Duration
7 days (constant 3 days, then as needed days 4-7)
Route
Topical (cold application to knee)
Blinding
not_reported
Controls
active_comparator
Drug class
physical modality

Measured endpoints

  • Continuous passive motion durationIncreasedmusculoskeletal
    significanteffect: 54 hours (group 1) vs 43 hours (group 2)
  • Knee motion (flexion) at one weekIncreasedmusculoskeletal
    significanteffect: 5°/88° (group 1) vs 6°/77° (group 2)
  • Likert categorical pain scoreDecreasedpain
    significant
  • VAS pain scoreDecreasedpain
    significant
  • Hydrocodone bitartrate with acetaminophen useDecreasedpain
    significant
  • Cold modality performance ratingIncreasedother
    significanteffect: 9.1 (group 1) vs 7.8 (group 2)
  • Cold modality application time (days 4-6)Increasedother
    significanteffect: 47.9 hours (group 1) vs 29.5 hours (group 2)
Full abstract

Crushed ice was compared to continuous flow cold therapy for control of postoperative pain after arthroscopic patellar tendon autograft anterior cruciate ligament (ACL) reconstruction. With all other variables held constant, cold was administered by either continuous flow (group 1) or crushed ice (group 2). The cold therapy was constant for 3 days, then as needed in days 4 through 7. Data were collected by investigator evaluations and patient diaries. Pain was assessed by visual analog scale (VAS) and categorical pain scale (Likert). Eighty-seven patients were included (52 continuous flow and 35 crushed ice). Continuous passive motion averaged 54 hours for group 1 and 43 hours for group 2 (P<.05). Knee motion at one week averaged more (5 degrees/88 degrees) for group 1 (flexion range: 48 degrees-155 degrees) than for group 2 (6 degrees/77 degrees) (flexion range: 25 degrees-125 degrees) (P=.03). Likert pain scores for group 2 patients were always statistically greater than group 1 patients from the first hour through postoperative day 6 (P<.01). The average VAS pain was always greater for group 2 and statistically greater for postoperative day 1 (P<.01). Hydrocodone bitartrate with acetaminophen use in group 2 was greater than in group 1 for postoperative days 1 (P<.001) and 2 (P=.035). The respective cold modality VAS measured performance was 9.1 for group 1 and 7.8 for group 2 (P<.01). During postoperative days 4 through 6, group 1 patients applied their cold modality for 47.9 hours but group 2 patients applied their cold modality for 29.5 hours (P<.01). Compared to crushed ice, continuous flow cold therapy lowered VAS and Likert pain scores more, reduced hydrocodone bitartrate with acetaminophen use, was used more often, increased continuous passive motion, increased 1-week knee flexion, and was given significantly higher performance ratings by patients. Continuous flow cold is superior to crushed ice for outpatient ACL reconstruction pain and should not be considered an equivalent modality.

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