Skin Oxygen Permeability in Premature Infants

¹ Universitäts-Kinderklinik, Munich, Federal Republic of Germany

While 24 newborn infants (ages, 2 to 48 hours; gestational ages, 24 to 42 weeks) breathed various concentrations of oxygen, the PO₂ values on their unheated skin surface were measured by an unheated microcathode electrode for transcutaneous PO₂ monitoring. In infants with arterial PO₂ values in the range of 50 to 100 torr and with similar skin temperatures, the mean surface PO₂ of unheated skin was inversely related to birth weight: 27.2 torr in infants weighing less than 1,500 gm, 14.3 torr in infants weighing 1,500 to 2,500 gm, and 2.9 torr in infants weighing more than 2,500 gm. In the smallest infants, the skin surface PO₂ was significantly related to arterial P0₂: it was about one third of arterial PO₂ as estimated by a second electrode for transcutaneous PO₂ monitoring heated to 44°C. Phototherapy, crying, or blood transfusion increased the surface P0₂ of unheated skin, but not the tcPO₂ measured at 44°C. These findings suggest that blood flow to the skin in excess of its metabolic needs due to immature control of cutaneous circulation, along with low resistance to oxygen diffusion, determines the high oxygen permeability of skin in premature infants.

	Home | My Pediatrics | Journal Information | Current Issue | Past Issues | Subscriptions & Services | Contact Us Click here for faster international access © 1978 American Academy of Pediatrics. All rights reserved.