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Target Concepts:
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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The choice of anesthesia during pregnancy and fetal operations is controversial.
Halothane
frequently is used, but its direct effects on fetal cardiac performance are unknown. The effects of halothane on fetal cardiac mechanics were studied in 8 fetal lamb hearts (135 days' gestation) using a modified Langendorff model connected to a membrane oxygenator. The perfusate consisted of oxygenated maternal blood at a constant flow temperature, hematocrit value, and glucose level. Coronary blood flow, left ventricular systolic pressure, left ventricular end-diastolic pressure, and the developed left ventricular pressure at a fixed volume were evaluated at baseline and after the addition of incremental concentrations of halothane to the perfusate through the oxygenator. Perfusate halothane levels were maintained in a clinical range. Systolic and diastolic cardiac function were adversely affected by the administration of even low doses of halothane, despite a concomitant increase in coronary blood flow. Because of the
immaturity
of their calcium transport system, fetal hearts may be particularly sensitive to the known calcium channel-blocking properties of halothane.
...
PMID:Effects of halothane on the immature lamb heart. 788 14
Modeling the pharmacokinetics and pharmacodynamics of anesthetics in children is performed as a response to the clinical need for safe and efficacious administration of drugs with a low therapeutic index. Rates and concentrations of these drugs, which are the primary parameters used by anesthesiologists, depend on physiologic parameters that are markedly affected by development. Volatile anesthetics have been used for >50 years in pediatric patients. The pharmacokinetics of inhalation agents are context sensitive, but little difference between age groups has been described. These agents are not only eliminated unchanged by the lung but they are also metabolized by the liver.
Halothane
has Michaelis-Menten kinetics, with up to 40% of the administered dose metabolized by the liver. For volatile anesthetics, the effect measured is the minimum alveolar concentration (MAC) that leads to movement of the limb in response to skin incision in 50% of the patients studied. The MAC is higher in infants than in children and adults. Infants aged 6 months have a MAC 1.5-1.8 times the MAC observed in adults aged 40 years. Children have a greater clearance and volume of distribution of propofol than adults. In order to achieve similar plasma concentrations, children require three times the initial dose used in adults. In adults, an increased sensitivity to propofol has been demonstrated with aging, but nothing is known about the effects in children. However, it is clear that equipotent doses of propofol induce marked deleterious hemodynamic effects in infants compared with children. Regional anesthesia is used in pediatrics, both in combination with general anesthesia during surgery or alone for postoperative analgesia. A marked decrease in protein binding has been described in infants. In the postoperative period, a rapid increase in binding because of inflammation decreases the free fraction, but the free drug concentration remains constant because of the resulting decrease in total clearance. A low clearance because of liver function
immaturity
has been observed during the first year(s) of life for bupivacaine and ropivacaine. Pharmacodynamic interactions between general anesthesia and regional anesthesia need to be modeled. This is one of the future tasks for pharmacokineticists. Methods such as the Dixon up-and-down allocation and the isobolographic technique are promising in this field.
...
PMID:Pharmacokinetic/pharmacodynamic modeling of anesthetics in children: therapeutic implications. 1677 94
