Efficacy and Safety of Multiple Whole-Body Cleansing With Aqueous 0.5% Chlorhexidine in Stable NICU Preterm Infants

Abstract

Background:

Single application of chlorhexidine soon after birth reduces skin colonization. The benefit is not sustained after 72 h and multiple repeated cleansing is suggested. Such interventions especially in preterm infants need evaluation.

Objective:

To evaluate efficacy and safety of multiple whole-body cleansing with aqueous 0.5% chlorhexidine during first week in preterm infants.

Study Design:

Randomized controlled trial with superiority design and triple blinding.

Setting:

Level-III neonatal intensive care unit of teaching hospital in India.

Participants:

A total of 120 hemodynamically stable preterm (28-34 weeks) infants without encephalopathy weighing ≥ 1,000 g admitted within 6 h of life.

Intervention:

Following stratified randomization (28-31 weeks n = 31; 32-34 weeks n = 89), 59 and 61 infants were cleansed with identically looking aqueous 0.5% chlorhexidine wipes and placebo (sterile-water wipes) respectively at 0, 48, and 96 h after recruitment and followed up until neonatal period.

Outcomes:

Primary outcome was skin colonization rate on day 7. Secondary outcomes include neonatal mortality, incidence of sepsis, adverse skin reactions, and hypothermic episodes and colony counts during first week.

Results:

We used intention to treat analysis. After multiple cleansings, skin colonization on day 7 with chlorhexidine was 50.9% (28/55) and sterile water was 92.8% (52/56). Risk reduction with chlorhexidine cleansing was 45% compared with sterile water (relative risk = 0.55; 95% confidence interval [CI]: 0.42,0.72). Absolute risk reduction = 41.95% (95% CI: 27.1, 56.78) and number needed to treat = 2.4 persons (95% CI: 1.8, 3.7). Neonatal mortality (10.1% vs 16.3%, P = .539), sepsis (10.1% vs 19.6%, P = .229) was not significant. None had adverse skin reactions. Temperature loss after wet cleansing was not different between chlorhexidine and water.

Conclusion:

Multiple whole-body cleansing with aqueous 0.5% chlorhexidine at 48 h interval during first week of life reduces skin colonization in preterm infants.

Keywords

Preterm skin colonization chlorhexidine cleansing multiple

Get full access to this article

View all access options for this article.

References

Ortegón

, Puentes-Herrera

, Corrales

, & Cortés

JA.

Colonization and infection in the newborn infant: does chlorhexidine play a role in infection prevention? Arch Argent Pediatr . 2017;115(1):216–226.

Sathiyamurthy

, Banerjee

, & Godambe

SV.

Antiseptic use in the neonatal intensive care unit - a dilemma in clinical practice: an evidence based review. World J Clin Pediatr . 2016;5(2):159–171.

Chapman

, Aucott

, Gilmore

, Advani

, Clarke

, & Milstone

AM.

Absorption and tolerability of aqueous chlorhexidine gluconate used for skin antisepsis prior to catheter insertion in preterm neonates. J Perinatol . 2013;33(10):768–771.

Neri

, Ravaioli

, Faldella

, Capretti

, Arcuri

, & Patrizi

Chlorhexidine-induced chemical burns in very low birth weight infants. J Pediatr . 2017;191:262–265.e2.

Vanzi

, & Pitaro

Skin injuries and chlorhexidine gluconate-based antisepsis in early premature infants: a case report and review of the literature. J Perinat Neonatal Nurs . 2018;32(4):341–350.

Johnson

, Suwantarat

, & Colantuoni

. The impact of chlorhexidine gluconate bathing on skin bacterial burden of neonates admitted to the neonatal intensive care unit. J Perinatol . 2019;39(1):63–71.

Tamma

, Aucott

, & Milstone

AM.

Chlorhexidine use in the neonatal intensive care unit: results from a national survey. Infect Control Hosp Epidemiol . 2010;31(8):846–849.

Jason W. Osborne

CHL.

Validity and reliability of the neonatal skin condition score. J Obstet Gynecol Neonatal Nurs . 2004;33(3):320–327.

Kumar

, Shearer

, Kumar

, & Darmstadt

GL.

Neonatal hypothermia in low resource settings: a review. J Perinatol . 2009;29(6):401–412.

10.

Madhu

, Chandran

, & Anandan

. Indian Academy of Pediatrics Guidelines for pediatric skin care. Indian Pediatr . 2021;58(2):153–161.

11.

Sankar

, Paul

, & Kapil

. Does skin cleansing with chlorhexidine affect skin condition, temperature and colonization in hospitalized preterm low birth weight infants?: a randomized clinical trial. J Perinatol . 2009;29(12):795–801.

12.

Gupta

, Vaswani

, Sharma

, Chaudhary

, & Lekhwani

Evaluation of efficacy of skin cleansing with chlorhexidine in prevention of neonatal nosocomial sepsis - a randomized controlled trial. J Matern Fetal Neonatal Med . 2016;29(2):242–247.

13.

Mullany

, Darmstadt

, Khatry

, LeClerq

, & Tielsch

JM.

Safety of neonatal skin cleansing in rural Nepal. Indian Pediatr . 2006;43(2):117–124.

14.

Mardini

, Rahme

, Matar

, Abou Khalil

, & Hallit

Newborn’ Fadous Khalife M-C.s first bath: any preferred timing? A pilot study from Lebanon. BMC Res Notes . 2020;13(1):430.

15.

Lund

Bathing and beyond: current bathing controversies for newborn infants. Adv Neonatal Care . 2016;16 Suppl 5S:S13–S20.

16.

Kampf

Acquired resistance to chlorhexidine - is it time to establish an “antiseptic stewardship” initiative? J Hosp Infect . 2016;94(3):213–227.

17.

Chandonnet

, Toole

, & Young

. Safety of biweekly chlorhexidine gluconate bathing in infants 36 to 48 weeks’ postmenstrual age. Am J Crit Care . 2019;28(6):451–459.

Efficacy and Safety of Multiple Whole-Body Cleansing With Aqueous 0.5% Chlorhexidine in Stable NICU Preterm Infants—Randomized Controlled Trial