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1 placed on ventilators and resuscitated with lactated Ringer's solution.
2 placed on ventilators and resuscitated with lactated Ringer's solution.
3 ng dopamine (5 to 10 microg/kg) or hyperoxic lactated Ringer's solution.
4 hed blood volume was returned in the form of lactated Ringer's solution.
5 hed blood volume was returned in the form of lactated Ringer's solution.
6 ompared with its occurrence in animals given lactated Ringer's solution.
7 hed blood volume was returned in the form of lactated Ringer's solution.
8 ns in patients receiving a rapid infusion of lactated Ringer's solution.
9 (hetastarch solution); 5% human albumin; or lactated Ringer's solution.
10 olus of either hypertonic saline, Isosal, or lactated Ringer's solution.
11 stituted HDL or placebo), and then by 1 L of lactated Ringer's solution.
12 d, 2400 mosm/L of 7.5% hypertonic saline, or lactated Ringer's solution.
13 by 48% and 74%, respectively, compared with lactated Ringer's solution.
14 ed aggressive or moderate resuscitation with lactated Ringer's solution.
15 rapid intravenous strategy that consisted of lactated Ringer's solution (100 ml per kilogram of body
18 s with a large body surface area burn, using lactated Ringer's solution, 6% hetastarch, and hypertoni
19 1.7 mL/kg for Isosal solution) compared with lactated Ringer's solution (75.3 +/- 11.6 mL/kg) (p = .0
22 during reperfusion compared with albumin or lactated Ringer's solution administration (p < .001).
23 meter returned to baseline immediately after lactated Ringer's solution administration, while PAOP re
26 to the iron chelator deferoxamine (DFO), or lactated Ringer's solution alone (LR) on lung injury par
27 f albumin in a lactated Ringer's solution or lactated Ringer's solution alone during the first 6 hour
28 Thus, 16 patients were randomized to receive lactated Ringer's solution and 17 to receive HES 130/0.4
29 ter the index admission was 20.3+/-3.5% with lactated Ringer's solution and 21.4+/-3.3% with normal s
31 d in the CLOVERS trial, 622 (39.8%) received lactated Ringer's solution and 690 (44.1%) received 0.9%
32 lues (140 to 145 mmol/L) was measured in the lactated Ringer's solution and hetastarch groups (130 to
33 d edema in nonburned skin compared with both lactated Ringer's solution and hypertonic saline dextran
34 rol livers were similarly perfused with cold lactated Ringer's solution and were followed without imm
35 rimary estimand was the effect of the use of lactated Ringer's solution as compared with normal salin
36 t resuscitation in all three groups was with lactated Ringer's solution as needed to maintain baselin
38 eperfusion, during which either PentaLyte or lactated Ringer's solution-based resuscitation was admin
41 (n = 6), 0.9% saline (n = 6), 5% dextrose in lactated Ringer's solution (D5RL) (n = 6), or 5% dextros
42 re phosphate-buffered saline, normal saline, lactated Ringer's solution, dextran, hespan, 5% human al
43 bovine hemoglobin) or a control infusion of lactated Ringer's solution (each infusion given over a t
44 ruvate (n = 9) solution made up exactly like lactated Ringer's solution except for the substitution o
47 Hemorrhaged rats were then resuscitated with lactated Ringer's solution, four times the maximum shed
48 nt in the isosal group was lower than in the lactated Ringer's solution group only in the cerebellum.
53 d us to test the hypothesis that intravenous lactated Ringer's solution, infused at a rate used in re
55 All dogs were resuscitated by administering lactated Ringer's solution intravenously to achieve and
57 P dissolved in lactated Ringer's solution or lactated Ringer's solution (LR) alone were given by intr
58 matic hypovolemic shock, HSD (250 mL) versus lactated Ringer's solution (LR) as the initial resuscita
59 ected to CLP-induced sepsis and treated with lactated Ringer's solution (LR, n = 13) survived longer
62 domized to receive a 1-hr infusion of either lactated Ringer's solution (n = 6), 0.9% saline (n = 6),
63 -controlled infusion pumps to deliver blood, lactated Ringer's solution, norepinephrine, and in ReFit
64 gned to receive either bolus of albumin in a lactated Ringer's solution or lactated Ringer's solution
66 hospitals in Ontario, Canada, to use either lactated Ringer's solution or normal saline hospital-wid
73 ed by more than 50%, while administration of lactated Ringer's solution provoked an approximately 2.5
75 ther resuscitation with red blood cells plus lactated Ringer's solution (RL) is more effective than R
77 n (shed blood + 0.12, 0.24, or 0.36 g/kg) or lactated Ringer's solution (shed blood + 2 x volume of s
78 ntly greater (p < .001) in animals receiving lactated Ringer's solution than in rabbits receiving eit
79 s were subsequently either resuscitated with lactated Ringer's solution (three times shed blood volum
80 ventilation, awakened, and resuscitated with lactated Ringer's solution titrated to maintain hematocr
81 The shed blood was then returned along with lactated Ringer's solution (two times the shed blood vol
82 ons were compared between subjects receiving lactated Ringer's solution vs. subjects receiving normal
83 e points studied in those subjects receiving lactated Ringer's solution vs. those persons receiving n
84 on (25, 50, or 100 mg/kg) or equal volume of lactated Ringer's solution was infused on day 1; the alt
85 itial 10-mL/kg test solution dose was given, lactated Ringer's solution was infused to achieve the sa
88 previously discovered that small amounts of lactated Ringer's solution, which are inadequately clear