护理学报
護理學報
호이학보
JOURNAL OF NURSING
2013年
15期
53-55
,共3页
朱刚%熊想莲%邱紫%廖珊%高兆容%邝景云%洪祥乐%冯结兰%廖旭嘉
硃剛%熊想蓮%邱紫%廖珊%高兆容%鄺景雲%洪祥樂%馮結蘭%廖旭嘉
주강%웅상련%구자%료산%고조용%광경운%홍상악%풍결란%료욱가
静脉输注%全营养混合液%滴系数%黏度%表面张力
靜脈輸註%全營養混閤液%滴繫數%黏度%錶麵張力
정맥수주%전영양혼합액%적계수%점도%표면장력
intravenous infusion%total nutrient admixture%drop coefficient%viscosity%surface tension
目的探讨输注静脉全营养混合液(total nutrient admixture,TNA)滴系数的主要影响因素,为临床计划输注 TNA提供理论依据。方法模拟输液方法,测定2种不同配方的TNA在3种不同输注管道及2种不同滴注流量下5 mL的滴数各50次,计算出滴系数并比较其差异;测定2种不同配方TNA的表面张力、黏度及密度各20次,比较其差异。结果2种不同配方TNA在同一滴注流量下同一输注管道中滴系数比较差异有统计学意义(P<0.01),不同滴注流量下同一种配方 TNA在同一种输注管道滴系数的比较差异有统计学意义(P<0.01),不同输注管道中同一种配方TNA在同一滴注流量下滴系数的比较差异有统计学意义(P<0.05);2种不同配方TNA的表面张力、黏度及密度差异有统计学意义(P<0.01)。结论临床计划输注TNA时不能按管道包装上标注的滴系数来计算,在相同条件下输注与本研究相同配方的TNA滴系数可按本研究结果计算;输注不同配方 TNA时,可利用本研究结果的规律来推测滴系数的值,精确的方法是在输前实测滴系数的值。
目的探討輸註靜脈全營養混閤液(total nutrient admixture,TNA)滴繫數的主要影響因素,為臨床計劃輸註 TNA提供理論依據。方法模擬輸液方法,測定2種不同配方的TNA在3種不同輸註管道及2種不同滴註流量下5 mL的滴數各50次,計算齣滴繫數併比較其差異;測定2種不同配方TNA的錶麵張力、黏度及密度各20次,比較其差異。結果2種不同配方TNA在同一滴註流量下同一輸註管道中滴繫數比較差異有統計學意義(P<0.01),不同滴註流量下同一種配方 TNA在同一種輸註管道滴繫數的比較差異有統計學意義(P<0.01),不同輸註管道中同一種配方TNA在同一滴註流量下滴繫數的比較差異有統計學意義(P<0.05);2種不同配方TNA的錶麵張力、黏度及密度差異有統計學意義(P<0.01)。結論臨床計劃輸註TNA時不能按管道包裝上標註的滴繫數來計算,在相同條件下輸註與本研究相同配方的TNA滴繫數可按本研究結果計算;輸註不同配方 TNA時,可利用本研究結果的規律來推測滴繫數的值,精確的方法是在輸前實測滴繫數的值。
목적탐토수주정맥전영양혼합액(total nutrient admixture,TNA)적계수적주요영향인소,위림상계화수주 TNA제공이론의거。방법모의수액방법,측정2충불동배방적TNA재3충불동수주관도급2충불동적주류량하5 mL적적수각50차,계산출적계수병비교기차이;측정2충불동배방TNA적표면장력、점도급밀도각20차,비교기차이。결과2충불동배방TNA재동일적주류량하동일수주관도중적계수비교차이유통계학의의(P<0.01),불동적주류량하동일충배방 TNA재동일충수주관도적계수적비교차이유통계학의의(P<0.01),불동수주관도중동일충배방TNA재동일적주류량하적계수적비교차이유통계학의의(P<0.05);2충불동배방TNA적표면장력、점도급밀도차이유통계학의의(P<0.01)。결론림상계화수주TNA시불능안관도포장상표주적적계수래계산,재상동조건하수주여본연구상동배방적TNA적계수가안본연구결과계산;수주불동배방 TNA시,가이용본연구결과적규률래추측적계수적치,정학적방법시재수전실측적계수적치。
Objective To find out drop coefficient (drops in per mL) of total nutrient admixture (TNA) fluids infusion and its main influencing factors and to provide theoretical basis for planned TNA infusion in the clinical. Methods The drop number in 5 mL TNA with two different formulas in three different infusion tubes and with two different flow rate was measured for 50 times to calculate the average number of drop each milliliter. The influencing factors of drop coefficient were analyzed by measuring the viscosity, density and surface tension of two different formulas of TNA for 20 times. Results It was proved that the difference of drop coefficient between two TNAs with same flow rate and same infusion tube was statistical significant (P<0.01), and the difference of same TNA but with different flow rates (P<0.01) and in different infusion tubes (P<0.05) was statistical significant as well. The difference of the density, the surface tension and viscosity of TNA of different formulas was statistical significantly (P<0.01). Conclusion It suggests that we can't calculate with the drop coefficient on the pipes marked on the package as planning TNA infusion in the clinical, while we can calculate with the results of drop coefficient on the condition of the same infusion and formula of TNA. We can speculate the value of drop coefficient through the law in this study in different formulations of TNA infusion. And we should reexamine the drop coefficient before TNA being used.