达斡尔族学生体表面积研究

调查了1739例（男854例,女885例）达斡尔族学生的身高、体重值,采用Stevenson公式计算了每位学生的体表面积,并求得6—19岁14个年龄组男女学生的体表面积均数。研究表明：（1）达斡尔族学生体表面积随年龄增大而增加。（2）11岁女生体表面积均数超过男生,14岁男生体表面积均数又超过女生。（3）15岁以后,男女学生体表面积值之差加大。     

青年男性高原移居者最大摄氧量计算公式的推导

最大摄氧量（Ｖｏ２ｍａｘ）是评价人体体力的重要指标,其测定方法分直接法和间接法两种。目前所推导的间接计算公式都是在平原、或是在进入高原初期推导的,不适用于高原习服人群。本研究采用逐步回归的方法,推导出移居高原７－２７个月、不同高度的青年男性Ｖｏ２ｍａｘ间接计算公式。在海拔３６８０ｍ地区,Ｖｏ２ｍａｘ（Ｌ／ｍｉｎ）＝１．１５３１＋０．００７３２７身高（ｃｍ）＋０．０１６１３体重（ｋｇ）－０．００５８８３晨脉（ｂ／ｍｉｎ）－０．００４５３４运动心率（６０Ｗ,６／ｍｉｎ）,Ｒ＝０．７４５,Ｐ＜０．０１,ＳＳ＝３．７７９９;或Ｖｏ２ｍａｘ（Ｌ／ｍｉｎ）＝１．２１８６＋０．０１９８４体重（ｋｇ）＋０．０７２５９肺活量（Ｌ）－０．００６６５９晨脉（ｂ／ｍｉｎ）,Ｒ＝０．７１３,ｐ＜０．０１,ｓｓ＝３．９６３６。在４３５０ｍ地区,Ｖｏ２．ｍａｘ（Ｌ／ｍｉｎ）＝０．４９１７＋０．０１６８７体重（ｋｇ）＋０．１１０９肺活量（Ｌ）＋０．００１９８３屏气时间（Ｓ）,Ｒ＝０．７８１,Ｐ＜０．０１,ＳＳ＝２．１３５６。计算值与实测值比较,变异系数在１３％以内,结果准确可靠,适用于青年男性高原习服移居者。     

广东瑶族青少年学生体表面积研究

研究瑶族青少年身高、体重及体表面积的生长发育状况, 为建立瑶族中小学生健康指标评价体系提供依据。采用Stevenson公式和胡咏梅公式计算每位学生的体表面积, 并求得7—18岁12个年龄组的男女学生的体表面积均数。结果显示: 瑶族青少年学生的身高、体重及体表面积随年龄增长而增长, 且其增长速度男女生均可分为匀速增长期、快速增长期、缓慢增长期3个不同时期; 男女生身高、体重及体表面积发育曲线均出现双交叉现象。两法统计的瑶族青少年的体表面积均随年龄增长而增长。胡咏梅法计算的体表面积大于Stevenson法(P<0.01)。     

七种药用植物的染色体研究

对山东７种药用植物的染色体进行了研究。结果表明：田旋花（ＣｏｎｖｏｌｖｕｌｕｓａｒｖｅｎｓｉｓＬ）的染色体数目为２ｎ＝７８;蜜柑草（ＰｈｙｌａｎｔｈｕｓｍａｔｓｕｍｕｒａｅＨａｖａｔａ）的染色体数目为ｎ＝８８;挂红灯（ＰｈｙｓａｌｉｓａｌｋｅｋｅｎｇｉＬｖａｒｆｒａｎｃｈｅｔｉ（Ｍａｓｔ）Ｍａｋｉｎｏ）的染色体数目为２ｎ＝２４,核型公式为Ｋ（２ｎ）＝２４＝２ｍ＋１８ｓｍ＋２ｓｔ＋２ｓｔ（ｓａｔ）,核型“２Ａ”型;无剌曼陀罗（ＤａｔｕｒａｓｔｒａｍｏｎｉｕｍＬｖａｒｉｎｅｒｍｉｓ（Ｊａｃｑ）ＳｃｈｉｎｚｅｔＴｈｅｌ）的染色体数目为２ｎ＝２４,核型公式为Ｋ（２ｎ）＝２４＝２０ｍ＋４ｓｍ,核型“１Ｂ”型;决明（ＣａｓｉａｔｏｒａＬ）的染色体数目为２ｎ＝２６,核型公式为Ｋ（２ｎ）＝２６＝２４ｍ＋２ｓｍ,核型“１Ａ”型;荔枝草（ＳａｌｖｉａｐｌｅｂｅｉａＲＢｒ）的染色体数目为２ｎ＝１６,核型公式为Ｋ（２ｎ）＝１６＝６ｍ＋１０ｓｍ,核型“２Ａ”型;车前（ＰｌａｎｔａｇｏａｓｉａｔｉｃａＬ）的染色体数目为２ｎ＝３６,核型公式为Ｋ（２ｎ）＝３６＝３２ｍ＋４ｓｍ,核型“１Ａ”型。     

山东四种草本植物的核型研究

本文对山东４种草本植物进行了染色体研究。结果表明：阿尔泰狗哇花（Ｈｅｔｅｒｏｐａｐｐｕｓａｌ ｔａｉｃｕｓ（Ｗｉｌｄ）Ｎａｖｏｐｏｋｒ）的染色体数目为２ｎ＝３６,核型公式为Ｋ（２ｎ）＝３６＝３６ｍ,核型“１Ａ”型;求米草（Ｏｐｌｉｓｍｅｎｕｓｕｎｄｕｌａｔｉｆｏｌｉｕｓ（Ａｒｄｕｉｎｏ）ＲｏｅｍｅｔＳｃｈｕｌｔ）的染色体数目为２ｎ＝１２,核型公式为Ｋ（２ｎ）＝１２＝８ｍ＋４ｓｍ,核型“２Ａ”型;红秋葵（Ｈｉｂｉｓｃｕｓｃｏｃｉｎｅｕｓ（Ｍｅｄｉｃ）Ｗａｌｔ）的染色体数目为２ｎ＝３８,核型公式为Ｋ（２ｎ）＝３８＝１４ｍ＋２２ｓｍ＋２ｓｔ,核型“２Ｂ”型;蟋蟀草（Ｅｌｅｕｓｉｎｅｉｎｄｉｃａ（Ｌ）Ｇａｅｒｔｎ）的染色体数目为２ｎ＝１８,核型公式为ｋ（２ｎ）＝１８＝１６ｍ＋２ｓｍ,核型“２Ａ”型。     

渤海湾对虾发生量与补充量动态特征的研究

每年５月中旬和８月初,在中国对虾（Ｐｅｎａｅｕｓｃｈｉｎｅｎｓｉｓ）的主要产卵场———渤海湾进行产卵场和栖息地调查,分别获取卵子／幼体和幼虾相对资源量,把卵子／幼体密度视为亲体数量（Ｓｔ）的一个相对数值,把幼虾相对资源量视为补充量（Ｒｔ）的一个相对数值,用Ｒｉｃｋｅｒ模式（Ｒｔ＝ａＳｔｅ－ｂＳｔ）拟合资料,有：ａ＝２９２２４３;ｂ＝００６９;Ｒ２＝０４７;Ｐ＜０００５。结果表明：对虾的发生量对其补充量的控制程度近５０％。通过回归分析,确证了对虾早期发育阶段栖息地的降雨量、大风、日照和黄河径流量等环境因素对卵子／幼体的成活率乃至对补充量的重要影响     

山东10种植物的核型分析

对山东１０ 种植物进行了核型分析。茴茴蒜（ Ｒａｎｕｎｃｕｌｕｓｃｈｉｎｅｎｓｉｓ Ｂｇｅ－） 染色体数目２ｎ ＝１６ , 核型公式Ｋ（２ｎ） ＝ ２ｘ ＝ １６ ＝ ２ Ｍ ＋ ２ｍ ＋ ２ｓｍ ＋ １０ｓｔ, “３Ａ”类型; 五脉地椒（ Ｔｈｙｍｕｓｑｕｉｎｑｕｅｃｏｓｔａｔｕｓ Ｃｅｌａｋ－） 染色体数目２ｎ＝ ２６ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ２６ ＝ ８ Ｍ ＋ １８ｍ , “１Ａ”类型; 蛇床（ Ｃｎｉｄｉｕｍ ｍｏｎｎｉｅｒｉ（Ｌ－） Ｃｕｓｓ－） 染色体数目２ｎ＝ ２０ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ２０ ＝ ２Ｍ＋ １６ｍ ＋ ２ｓｍ , “２Ｂ”类型; 波斯菊（ Ｃｏｓｍｏｓ ｂｉｐｉｎｎａｔｕｓ Ｃａｖ－） 染色体数目２ｎ ＝ ２４ , 核型公式Ｋ（２ｎ） ＝ ２ｘ ＝ ２４ ＝ １６ｍ ＋ ２ｍ （ｓａｔ） ＋ ６ｓｍ , “２Ａ”类型; 白车轴草（ Ｔｒｉｆｏｌｉｕｍ ｒｅｐｅｎｓ Ｌ－） 染色体数目２ｎ＝ ３２ , 核型公式Ｋ （２ｎ） ＝ ４ｘ ＝ ３２ ＝ ３２ｍ , “１Ａ”类型; 铁苋菜（ Ａｃａｌｙｐｈａ ａｕｓｔｒａｌｉｓ Ｌ－）染色体数目２ｎ ＝ ３２ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ３２ ＝ ３２ｍ , “１Ｂ”类型; 地构叶（ Ｓｐｅｒａｎｓｋｉａ ｔ?     

经皮电刺激诱发肌电潜伏期与身高的关系

本文应用高电压、低输出阻抗刺激器,经皮给予人大脑皮层和脊髓电刺激,同时在上肢鱼际和下肢胫骨前肌记录诱发肌肉动作电位,并测定其刺激大脑皮层所诱发反应的潜伏期－皮层潜伏期、刺激脊髓所诱发反应的潜伏期－脊髓潜伏期。结果表明：皮层潜伏期（Ｌｃｏｒ．）和脊髓潜伏期（Ｌｓｐ．）与身高呈正相关,相关系数是：鱼际：ｒＬｃｏｒ．＝０．２０８,ｐ＜０．０５（ｖ＝１１４）,ｒＬｓｐ．＝０．３６４,ｐ＜０．０１（ｖ＝１１４）;胫骨前肌：ｒＬｃｏｒ．＝０．３４９,ｐ＜０．０１（ｖ＝６９）,ｒＬｓｐ．＝０．３１７,ｐ＜０．０１,（ｖ＝６９）。回归方程是：鱼际：Ｌｃｏｒ．（ｍｓ）＝１２．１４８＋０．０４６Ｈ（ｃｍ）,Ｌｓｐ．（ｍｓ）＝２．０８５＋０．０６５Ｈ（ｃｍ）;胫骨前肌：Ｌｃｏｒ．（ｍｓ）＝１３．０３８＋０．０９７Ｈ（ｃｍ）,Ｌｓｐ．（ｍｓ）＝３．３９７＋０．０７８Ｈ（ｃｍ）。这样在临床工作中,只要测量出身高,就可以确定其各肌肉的皮层潜伏期、脊髓潜伏期的正常值,它将给临床工作带来方便,同时它也将给临床中枢神经疾病的诊断和预后判定提供方便。     

青海南部太白韭4居群的核型研究

研究了葱属太白韭青海４个居群的染色体数目和核型。结果如下,居群１：２ｎ＝２ｘ＝１６＝１２ｍ＋２ｓｍ＋２ｓｔ（２ＳＡＴ）,居群２：２ｎ＝２ｘ＝１６＝１４ｍ＋２ｓｔ（２ＳＡＴ）;居群３：２ｎ＝４ｘ＝３２＝２４ｍ＋４ｓｍ＋４ｓｔ（４ＳＡＴ）,居群４：２ｎ＝２ｘ＝１６＝１４ｍ＋２ｓｔ（２ＳＡＴ）＋Ｂｓ（０－２）。并讨论了多倍体和Ｂ染色体形成与分析。     

亚铁离子对水稻萌发后幼苗生长的促进作用

本文最新报道亚铁离子在远高于营养浓度的情况下（０．４４－７．１６ｍｍｏｌ／Ｌ）能显著促进水稻萌发后的幼苗生长,其效果与已报道的促进因子Ｃ２Ｈ４相当．在试验的１９种不同化合物中,发现只有ＦｅＳＯ４对萌发后水稻幼苗生长有显著的促进作用,并证明其有效成分为Ｆｅ（２＋）．这种促进作用在淹水的厌氧条件下和通气条件均能发生,但通气条件下促进程度稍低．水稻不同基因型对Ｆｅ（２＋）的反应无明显差异,可能这种促进作用是水稻适应水田厌氧环境的方式之一．高浓度乙烯（５０—１００ｐｐｍ）的促进作用与亚铁离子的效果相近．这一发现有助于提高水稻在淹水厌氧直播时的出苗率．－－ｓｉｇｎｉｆｉｃａｎｔａｔｌ％ｌｅｖｅｌ;＊－－ｓｉｇｎｉｆｉｃａｎｔａｔ５％ｌｅｖｅｌ;ｕｓ－－ｎｏｔｓｉｇｎｉｆｉｃａｎｔ．２．３ＥｆｆｅｃｔｏｆｖａｒｉｏｕｓＦｅ＋＋ｃｏｎｃｅｎｔｒａｈｏｎｓｏｎｔｈｅｓｅｅｄｌｉｎｇｇｒｏｗｔｈｏｆｒｉｃｅＴｗｏｇｅｎｏｔｙｐｅｓ,ｍｏｄｅｒｎＩＲ５０ａｎｄｔｒａｄｉｔｉｏｎａｌＡＳＤＩ,ｗｅｒｅｕｓｅｄｆｏｒｆｕｒｔｈｅｒｓｔｕｄｙ．Ｆｅ＋＋ｗｉｔｈｃｏｎｃｅｎｔｒａｔｉｏｎｓｆｒｏｍ０．４４ｔｏ７．１６ｍｍｏｌ／Ｌｗ     

Specific metabolic rate, longevity and "Rubner constant" for birds

An assumption was made that age constituent alpha x(beta) of mortality of individuals in a population in Weibull equation mx = m0 + alpha x(beta) (Ricklefs, 2000) reflects change of specific metabolic rate of one individual with age. Based upon that hypothesis a formula was proposed for relationship of specific metabolic rate of an adult individual after cessation of growth, when mass W is attained, and age t: q(t) = q0(1-omega(beta) + 1t(beta)) where q0 = aW(-b) is value q(t) at the moment of growth cessation and omega = alpha(1/(beta + 1)) is "ageing rate", determined and estimated by R. Ricklefs. Maximum longevity of an individual was determined as [equation: see text], where qcrit is specific metabolic rate at the age tmax. Parameter beta and relationships omega(W) and (qcrit/q0)(W) were approximated for birds from data of Ricklefs. Statistical comparison of results of calculations of tmax was carried out on the basis of the above formula and other known formulas for groups of Passeriformes and non-Passeriformes. Rubner constant [equation: see text] was calculated assuming that body mass of an adult individual (W) is attained in the first year of life (tA = 0). Average values of 602.4 +/- 2.5 kcal g(-1) (n = 83) for non-Passeriformes and 963 +/- 6.3 kcal g(-1) (n = 41) for Passeriformes were obtained.     

Maximal oxygen uptake in Chilean workers of normal nutritional status

Maximum oxygen uptake (VO2max) was measured directly and predicted from cardiac frequency measurements in 54 healthy Chilean industrial workers aged 20 to 55 years, together with assessment of their dietary intake, body composition and blood chemistry. Measurement of VO2 was performed on a motor-driven treadmill. The predicted VO2max was obtained using a cycle ergometer by two methods: 1) the Astrand-Ryhming nomogram and 2) the linear relationship between "steady state" heart rate (HR) and submaximum work, with subsequent extrapolation to "maximum" heart rate. Extrapolation of the HR/load regression line to 170 bpm permitted determination of the physical working capacity at 170 bpm (W170). VO2max for the 20-29 year group (Group I) averaged 3624 ml.min-1 and decreased to 3066 ml.min-1 in the 50-55 year group (Group IV). Lower values were obtained using the Astrand-Ryhming nomogram and HR/load regression (-15% and -9% respectively). W170 was also affected by age (Group I: 190.6 W and Group IV: 158.5 W). No significant correlation were found between VO2max and plasma variables, with the exception of cholesterol (r = 0.59). On the contrary, anthropometric variables showed significant correlations with VO2max, which permitted the prediction of VO2max using multiple regression equations. The two best correlations were: 1. VO2max = 0.800 - 0.0225.(A) +0.0189.(W)+1.26.(H) (r = 0.87; p less than 0.001) 2. VO2max = 0.996 - 0.0176.(A) + 0.025.(W) + 0.838.(H) + 0.0255.(LBM) (r = 0.88; p less than 0.001) where A = years of age; W = body weight in kg; H = height in m and LBM = lean body mass in kg.     

Calculating lumbar puncture depth in children

Lumbar puncture was performed in 195 children and the depth of needle was recorded. Our results show that the depth of lumbar puncture necessary to obtain uncontaminated cerebrospinal fluid correlates best with the child's weight. The simple formula: mean depth of insertion (cm) = 1.3 + 0.07 x body weight (kg), can be used to estimate the depth of lumbar puncture of children older than 3 months. The depths of lumbar puncture of children younger than 3 months are mostly 1.0-1.5 cm.     

Validity/reliability of sweat analysis by whole-body washdown vs. regional collections

Six subjects (25.3 +/- 3.3 yr, mean +/- SD) exercised for 60 min at 42 +/- 4 [low (L)], 55 +/- 6 [moderate (M)], and 67 +/- 4 %VO2max [high (H)] in a moderate environment. Sweat collected from upper back (UB), lower back (LB), midchest (MC), stomach (S), and thigh (T) areas as well as by whole-body washdown (W) was analyzed for urea nitrogen (N). With the exception of the L where all regional measures were similar, all sites overestimated W (several significantly, P less than 0.05). Regression analysis estimations of W (mg/h) from regional collections were as follows--L: W = 0.727 (S) - 1.366(UB) + 1.181(T) + 65.470 +/- 29.5, R = 0.90; M: W = 0.598(MC) - 0.649(UB) + 0.244(LB) + 43.238 +/- 30.4, R = 0.99; H: W = 0.274(S) - 0.560(T) + 0.223(MC) + 131.104 +/- 4.3, R = 0.99; All Intensities: W = 0.497(MC) - 0.483(T) + 0.112(LB) + 69.554 +/- 31.5, R = 0.96. W recovery of exogenous urea N applied to each subject's body was 98.3 +/- 2.7% (mean +/- SE). Interinvestigator reliability coefficient (r = 0.511) was significant (P less than 0.01) but relatively low and the between investigator urea N recovery (93.3 +/- 3.7 vs. 103.2 +/- 3.5%) was significantly different (P less than 0.05). Repeated W determinations by the same investigator were not different (P greater than 0.05), but intrainvestigator reliability coefficients differed widely (0.385 vs. 0.820). Together, these data indicate that W solute recovery can be high; however, both inter- and intrainvestigator reliability can vary.(ABSTRACT TRUNCATED AT 250 WORDS)     

四株大肠埃希氏菌国际参考菌株动力和鞭毛抗原检定的研究

Authors identified four strains of Escherichia coli from Collaborative Centre for reference and research on Escherichia coli-Klebsiella (WHO) in Denmark. Our results were different from original record and reference. It was shown that strain H311b and H5 were motile strains, and its H antigen respectively is H11 and H27. The strain W27 is nonmotile. H antigen of the strain H511 is H40, not H8. Antigen formula of four strains respectively is 26:60:11 (strain H311b), 81:97:27 (strain H5), 115:-:- (strain W27), 102:-:40 (strain H511).     

鱼类的重量-身体维数关系的研究

在运用一元数学公式:W=alb(或W=aLb)来描述鱼类的重量与身体维数关系时存在许多缺陷。作者从确立一条模式鱼的边界曲线方程出发,应用求旋转体体积的方法建立了鱼类重量与长度、体高的多元数学公式: W=alb1Hb2(或W=aLb1Hb2),并推演出鱼类重量与长度、体高、体周长之间的另外两种关系式: W=alb1Sb3(或W=aLb1Sb3) 和W=alb1Hb2Sb3(或W=aLb1Hb2Sb3)。上述几类多元数学公式在用来拟合白鲢、翘嘴红鲌和长春鳊种群及它们的不同生长阶段的观测数据时,都比一元数学公式更接近于实际情况,由多元数学公式进行预报的精度也比一元数学公式高。多元数学公式之所以优于一元数学公式是因为多元数学公式能够较全面地反映不同维数对鱼体重量的综合影响。对于不同体形的鱼类,不同维数对重量影响的程度是不同的,因此在应用时应有所选择。从多元数学公式的组成及应用情况看,真正有使用价值的是考虑了体周长的二元数学公式。由于体高易于测量,为此考虑了体高的二元数学公式更具有实用价值。作者建议,在鱼类生长的理论与应用研究中,可采用: W=alb1Hb2(或W=aLb1Hb2) 和W=alb1Sb3(或W=aLb1Sb3) 来描述鱼类的重量与身体维数之间的关系。       

Modulation of the phototoxic effect of hypericin in human leukemia CEM cell line by N-ethylmaleimide,amiloride and omeprazole

Hypericin is a photosensitizing plant pigment from Hypericum perforatum with multiple modes of light-induced biological activities due to production of singlet oxygen and/or excited-state proton transfer with consequent pH drop in the hypericin environment. In the present work, we studied the effects of three inhibitors of crucial mechanisms responsible for intracellular pH (pHi) regulation on hypericin phototoxicity: N-ethylmaleimide (NEM), an inhibitor of H+-ATPase, 5'-(N,N-dimethyl)-amiloride (DMA), an inhibitor of Na+/H+ exchanger, and omeprazole (OME), an inhibitor of H+K+-ATPase. Our experiments show that the effect of hypericin at 1 x 10(-5) and 1 x 10(-6) mol x l(-1) was significantly potentiated by NEM (1 x 10(-7)-1 x 10(--9) mol x l(-1)) and DMA (1 x 10(-6) and 1 x 10(-7) mol x l(-1)) in leukemic CEM cell line. On the other hand, OME had no significant effect on hypericin cytotoxicity. Our results support the hypothesis that the excited-state proton transfer and the consequent acidification of hypericin environment could play a role in the biological activity of hypericin.     

正颤蚓的生长发育及繁殖生物学的研究

在实验室饲养的条件下,研究了正颤蚓在15℃、20℃、25℃水温的生长发育和繁殖过程。结果表明正颤蚓从其受精卵在蚓茧内发育,孵出生长到产卵,在15℃水温需100—123d,在20℃水温需70—90d,在25℃水温需48—64d。蚓自蚓茧内孵出后的165d生长期内,其15℃、20℃、25℃水温的体重生长回归方程分别是W=6.87/［1+136.48     

Body cell mass: model development and validation at the cellular level of body composition

Existing models to estimate the metabolically active body cell mass (BCM) component in vivo remain incompletely developed. The classic Moore model is based on an assumed BCM potassium content of 120 mmol/kg. Our objectives were to develop an improved total body potassium (TBK)-independent BCM prediction model on the basis of an earlier model (Cohn SH, Vaswani AN, Yasumura S, Yuen K, and Ellis KJ. J Lab Clin Med 105: 305-311, 1985), to apply this improved model in subjects to explore the sex and age dependence of the TBK/BCM ratio, to develop a new TBK/BCM model on the basis of physiological associations between TBK and total body water (TBW) at the cellular level of body composition, and to fit this new model with available reference data. Subjects were 112 healthy adults who had the following components measured: TBW by 2H2O or 3H2O, extracellular water by NaBr, total body nitrogen by in vivo neutron activation, bone mineral by dual-energy X-ray absorptiometry, and TBK by whole body counting. Human reference data were collected from earlier published reports. The improved Cohn model-derived TBK/BCM ratio was (mean +/- SD) 109.0 +/- 10.9 mmol/kg and was not significantly related to sex and age. A simplified version of the new TBK-TBW model provided a TBK/BCM ratio almost identical (109.1 mmol/kg) to that derived by the improved Cohn model. The TBK-BCM prediction formula derived from the improved and new models [BCM (kg) = 1/109 x TBK (mmol); or BCM = 0.0092 x TBK] gives BCM estimates approximately 11% higher than the classic Moore model (BCM = 0.0083 x TBK) formulated on rough tissue composition estimates. The present analyses provide a physiologically based, improved, and validated TBK-BCM prediction formula that should prove useful in body composition and metabolism research.