Bone Mineral Density and Molecular Genetic Markers of Bone Remodeling in Blood of Cosmonauts after Long-term Missions on Board the International Space Station

The results of the investigation of the bone system of 24 Russian cosmonauts after long-term (124–199 days) missions on board the International space station (ISS) are presented. Functional adaptation of the bone system involves some complex changes in the metabolic activity of osteoblasts and osteoclasts, such as alterations of the serum concentrations of osteocalcin, tartrate-resistant acid phosphatase (TRAP), osteoprotegerin, and the activator ligand of the receptor of nuclear factor kappa-B (RANKL); in addition, in peripheral blood leucocytes, there are changes in the expression of genes regulating the development of skeletal system and bone mineral metabolism. Significant variability in the mineral density of femoral neck and molecular genetic markers studied after long-term space flights indicates individual variability of the balance of the processes of bone remodeling, bone formation and resorption. Significant bone mass losses in the femoral bone of cosmonauts are associated with more pronounced changes in the markers of metabolic activity of osteoclasts.     

Phenotypic Dissection of Bone Mineral Density Reveals Skeletal Site Specificity and Facilitates the Identification of Novel Loci in the Genetic Regulation of Bone Mass Attainment

Heritability of bone mineral density (BMD) varies across skeletal sites, reflecting different relative contributions of genetic and environmental influences. To quantify the degree to which common genetic variants tag and environmental factors influence BMD, at different sites, we estimated the genetic (r_g) and residual (r_e) correlations between BMD measured at the upper limbs (UL-BMD), lower limbs (LL-BMD) and skull (SK-BMD), using total-body DXA scans of ∼4,890 participants recruited by the Avon Longitudinal Study of Parents and their Children (ALSPAC). Point estimates of r_g indicated that appendicular sites have a greater proportion of shared genetic architecture (LL-/UL-BMD r_g = 0.78) between them, than with the skull (UL-/SK-BMD r_g = 0.58 and LL-/SK-BMD r_g = 0.43). Likewise, the residual correlation between BMD at appendicular sites (r_e = 0.55) was higher than the residual correlation between SK-BMD and BMD at appendicular sites (r_e = 0.20–0.24). To explore the basis for the observed differences in r_g and r_e, genome-wide association meta-analyses were performed (n∼9,395), combining data from ALSPAC and the Generation R Study identifying 15 independent signals from 13 loci associated at genome-wide significant level across different skeletal regions. Results suggested that previously identified BMD-associated variants may exert site-specific effects (i.e. differ in the strength of their association and magnitude of effect across different skeletal sites). In particular, variants at CPED1 exerted a larger influence on SK-BMD and UL-BMD when compared to LL-BMD (P = 2.01×10⁻³⁷), whilst variants at WNT16 influenced UL-BMD to a greater degree when compared to SK- and LL-BMD (P = 2.31×10⁻¹⁴). In addition, we report a novel association between RIN3 (previously associated with Paget''s disease) and LL-BMD (rs754388: β = 0.13, SE = 0.02, P = 1.4×10⁻¹⁰). Our results suggest that BMD at different skeletal sites is under a mixture of shared and specific genetic and environmental influences. Allowing for these differences by performing genome-wide association at different skeletal sites may help uncover new genetic influences on BMD.     

Effects of Aluminum Exposure on Bone Mineral Density,Mineral, and Trace Elements in Rats

The purpose of the study was to investigate the effects of aluminum (Al) exposure on bone mineral elements, trace elements, and bone mineral density (BMD) in rats. One hundred Wistar rats were divided randomly into two groups. Experimental rats were given drinking water containing aluminum chloride (AlCl₃, 430 mg Al³⁺/L), whereas control rats were given distilled water for up to 150 days. Ten rats were sacrificed in each group every 30 days. The levels of Al, calcium (Ca), phosphorus (P), magnesium (Mg), zinc (Zn), iron (Fe), copper (Cu), manganese (Mn), selenium (Se), boron (B), and strontium (Sr) in bone and the BMD of femur were measured. Al-treated rats showed lower deposition of Ca, P, and Mg compared with control rats. Levels of trace elements (Zn, Fe, Cu, Mn, Se, B, and Sr) were significantly lower in the Al-treated group than in the control group from day 60, and the BMD of the femur metaphysis in the Al-treated group was significantly lower than in the control group on days 120 and 150. These findings indicate that long-term Al exposure reduces the levels of mineral and trace elements in bone. As a result, bone loss was induced (particularly in cancellous bone).     

羊骨酶解发酵液钙鳌合物对骨质疏松大鼠骨密度和骨代谢生化指标的影响

目的探讨羊骨酶解发酵液钙螯合物（SBEF-Ca）对雌激素缺乏造成的骨质疏松的防治作用。方法 40只3.5月龄的Sprague-Dawley大鼠,按体重随机分为正常组（假手术＋蒸馏水）、模型对照组（去卵巢＋蒸馏水）和高、中、低3个剂量组（去卵巢＋SBEF-Ca）。术后12 d,持续灌胃11周后,测定股骨密度、长度以及血清中反映骨代谢的主要生化指标。结果模型对照组大鼠股骨密度和长度显著减小,各剂量组均可扭转这种减小趋势并使股骨密度和长度维持在正常组水平,其中高剂量组的股骨密度显著大于中、低剂量组;各剂量组的股骨长度差异不显著;所有大鼠的血Ca、血P水平差异无显著性;模型对照组的血清碱性磷酸酶（ALP）、骨钙素（BGP）水平明显升高,而各剂量组的ALP、BGP水平与正常组差异不显著,且高剂量组ALP水平显著低于中、低剂量组,中、高剂量组的BGP水平（P〉0.05）显著低于低剂量组。结论低、中、高剂量的SBEF-Ca对绝经后骨质疏松症有预防作用。     

Influences of Endplate Removal and Bone Mineral Density on the Biomechanical Properties of Lumbar Spine

Purpose

To investigate (1) effects of endplate removal and bone mineral density (BMD) on biomechanical properties of lumbar vertebrae (2) whether the distributions of mechanical strength and stiffness of endplate are affected by BMD.

Methods

A total of thirty-one lumbar spines (L1-L5) collected from fresh cadavers were used in this study. Bone density was measured using lateral DEXA scans and parts of samples were performed with partial or entire endplate removal. All the specimens were divided into three BMD groups. According to endplate integrity of the lumbar vertebrae, each BMD group was then divided into three subgroups: subgroup A: intact endplate; subgroup B: central region of endplate removal; subgroup C: entire endplate removal. The axial compression test was conducted with material testing system at a speed of 2mm/min. The experimental results were statistically analyzed using SPSS 17.0.

Results

(1) Significant differences of biomechanical properties occurred among normal BMD, osteoporotic and serious osteoporotic group (P<0.05). (2) Spearman analysis showed that BMD was positively correlated with the failure load and stiffness of lumbar vertebrae. (3) For each BMD group, significant differences of biomechanical properties were found between subgroup A and C, and between subgroup B and C (P<0.05). (4) For each BMD group, there was no statistical difference of biomechanical properties between subgroup A and B (P>0.05).

Conclusions

Entire endplate removal can significantly decrease the structural properties of lumbar vertebrae with little change in biomechanical properties by preservation of peripheral region of the endplate. BMD is positively correlated to the structural properties of the lumbar vertebrae.     

EXPOSE, an Astrobiological Exposure Facility on the International Space Station - from Proposal to Flight

Following an European Space Agency announcement of opportunity in 1996 for ”Externally mounted payloads for 1st utilization phase” on the International Space Station (ISS), scientists working in the fields of astrobiology proposed experiments aiming at long-term exposure of a variety of chemical compounds and extremely resistant microorganisms to the hostile space environment. The ESA exposure facility EXPOSE was built and an operations´ concept was prepared. The EXPOSE experiments were developed through an intensive pre-flight experiment verification test program. 12 years later, two sets of astrobiological experiments in two EXPOSE facilities have been successfully launched to the ISS for external exposure for up to 1.5 years. EXPOSE-E, now installed at the balcony of the European Columbus module, was launched in February 2008, while EXPOSE-R took off to the ISS in November 2008 and was installed on the external URM-D platform of the Russian Zvezda module in March 2009.     

胆固醇对绝经前、后正常女性骨密度影响的初步探讨

目的:观察血清胆固醇对绝经前、后女性骨密度的影响.方法:用常规酶法测定血清总胆固醇(CHOL);用双能X线吸收法(DEXA)骨密度仪测定腰椎前后位正位总体(Ll-4)、左侧髋部总体、股骨大转子区、股骨颈和Ward's三角区骨密度(BMD).结果:胆固醇与绝经前女性Ll-4和Ward's区骨密度呈负相关,与绝经后女性BMD无关,校正年龄和BMI后CHOL与绝经前、后女性BMD均无关.结论:胆固醇对绝经前后女性骨密度可能无影响.     

藏红花提取液对去卵巢大鼠骨密度及骨代谢生化指标的影响

目的：研究中药藏红花提取液对去卵巢大鼠股骨骨密度及血清骨代谢生化指标的影响。方法：选用48只4月龄SD雌性大鼠,随机分为6组：假手术组、模型组、戊酸雌二醇组、藏红花低、中、高剂量组。术后4周各组分别给予相应制剂灌胃,术后12周处死,分别测定股骨骨密度、子宫指数、雌二醇、血钙、血磷、碱性磷酸酶。结果：与模型组相比,藏红花各剂量组股骨骨密度明显升高（p〈0.01）,雌二醇测定值升高（p〈0.01）,碱性磷酸酶显著降低（p〈0.01）,血钙及血磷无统计学差异（p〉0.05）;与戊酸雌二醇组比较,藏红花各剂量组子宫指数显著降低（p〈0.01）。结论：藏红花提取液有助于抑制去卵巢大鼠骨量的丢失,改善骨代谢,对骨质疏松症具有防治作用。     

藏红花提取液对去卵巢大鼠骨密度及骨代谢生化指标的影响

目的:研究中药藏红花提取液对去卵巢大鼠股骨骨密度及血清骨代谢生化指标的影响。方法:选用48只4月龄SD雌性大鼠,随机分为6组:假手术组、模型组、戊酸雌二醇组、藏红花低、中、高剂量组。术后4周各组分别给予相应制剂灌胃,术后12周处死,分别测定股骨骨密度、子宫指数、雌二醇、血钙、血磷、碱性磷酸酶。结果:与模型组相比,藏红花各剂量组股骨骨密度明显升高(p<0.01),雌二醇测定值升高(p<0.01),碱性磷酸酶显著降低(p<0.01),血钙及血磷无统计学差异(p>0.05);与戊酸雌二醇组比较,藏红花各剂量组子宫指数显著降低(p<0.01)。结论:藏红花提取液有助于抑制去卵巢大鼠骨量的丢失,改善骨代谢,对骨质疏松症具有防治作用。     

降钙素对骨质疏松大鼠骨密度形态计量学与骨代谢的影响

目的探讨降钙素(密盖息)对骨质疏松大鼠骨密度、骨形态计量学影响以及与血钙、磷、维生素D代谢和生长因子的关系。方法用摘除大鼠双侧卵巢的方式制备骨质疏松模型(OVX),实验动物分为4个组:模型对照组、密盖息治疗组,盐酸雷洛昔芬治疗组,假手术组。应用HOLOGIC第4代双能X线4500W骨密度仪测定大鼠腰椎、股骨上段骨密度值(BMD);以骨形态计量学测股骨骨小梁面积、矿化沉积率;用ELISA法测定血清IGF-1水平和血清25OHVitD浓度以及血淋巴细胞维生素D受体(VDR)含量。结果密盖息治疗组、盐酸雷洛昔芬治疗组均较OVX组腰椎、股骨上段骨密度增高,组间比较差异有显著性(P<0.01)。密盖息治疗组较盐酸雷洛昔芬治疗组股骨上段骨密度增高,两组之间差异有显著性(P<0.01)。密盖息治疗组骨小梁面积明显增加、矿化沉积率增高。密盖息治疗组、盐酸雷洛昔芬治疗组血清IGF-1浓度值、血清25-OHVitD浓度值升高,与OVX组比较差异有显著性(P<0.01)。各组血淋巴细胞VDR含量无明显变化,与OVX组比较差异无显著性(P>0.05)。结论密盖息能够预防腰椎、股骨上段骨密度丢失,使骨小梁面积明显增加、矿化沉积率增高并且血清IGF-1及血清25-OHVitD浓度值升高,但对VDR含量无明显作用。     

Effects of Astragalus membranaceus with Supplemental Calcium on Bone Mineral Density and Bone Metabolism in Calcium-Deficient Ovariectomized Rats

It has been reported that Astragalus membranaceus, an Asian traditional herb, has an estrogenic effect in vitro. To examine the possible role of A. membranaceus extract with supplemental calcium (Ca) on bone status in calcium-deficient (LCa) ovariectomized (OVX) rats, a total of 48 female rats were divided into six groups: (1) normal control, (2) sham operation with LCa (sham-LCa), (3) OVX with LCa (OVX-LCa), (4) A. membranaceus supplementation with OVX-LCa (OVX-MLCa), (5) Ca supplementation with OVX (OVX-Ca), and (6) A. membranaceus and Ca supplementation with OVX (OVX-MCa). A. membranaceus ethanol extract (500 mg/kg BW) and/or Ca (800 mg/kg BW) were administered orally for 8 weeks along with a Ca-deficient diet. Results revealed that Ca supplementation with or without A. membranaceus extract significantly improved bone mineral density, biomechanical strength, and ash weight of the femur and tibia in OVX rats. High Ca with A. membranaceus combination supplementation significantly increased the ash weight of the femur and tibia and decreased urinary Ca excretion compared with supplementation of Ca alone. Uterine weight was not changed by A. membranaceus administration in OVX rats. These results suggest that A. membranaceus extract combined with supplemental Ca may be more protective against the Ca loss of bone than A. membranaceus or supplementation of Ca alone in calcium-insufficient postmenopausal women.     

Associations of Bone Mineral Density with Lean Mass,Fat Mass,and Dietary Patterns in Postmenopausal Chinese Women: A 2-Year Prospective Study

Objective

To assess factors associated with bone mineral density (BMD) in postmenopausal women in a longitudinal study, and to examine the relative contribution of lean mass, fat mass, dietary patterns, and years since menopause to BMD.

Methods

Two hundred and eighty-two postmenopausal women were randomly selected from Hongqi Community Health Center, in Harbin City, China. All participants were followed up from 2009 to 2011. Dietary data were collected using a Food Frequency Questionnaire. BMD of the left hip, the lumbar spine, and the total body, and the body composition were measured by dual-energy X-ray absorptiometry at baseline and follow-up.

Results

Lean mass and fat mass were positively associated with BMD of the spine, hip, and the total body at both baseline and follow-up. The association between fat mass and BMD at the spine at baseline (P = 0.210) and at the spine (P = 0.116) and hip (P = 0.073) in the second year was not statistically significant when height was adjusted. Six dietary patterns were identified but only cereal grains-fruits pattern (P = 0.001 in the spine, P = 0.037 in hip) and milk-root vegetables pattern (P = 0.010 in hip) were associated with BMD of the spine and hip. The linear mixed model of follow-up data showed that lean mass, years since menopause, and age of menophania were the significant determinants of BMD of all sites. Moreover, lean mass was the best determinant of BMD (VIP = 1.936).

Conclusion

Lean mass, years since menopause, age of menophania and dietary patterns are the important determinants of BMD of the spine, hip, and the total body. Lean mass is the best determinant of BMD.     

Inertial shear force and the impact on facilities for the International Space Station

Inertial shear force is a surface force that is generated in centrifuges especially with attached samples on flat surfaces and plays a significant role in gravitational and space research. The magnitude of this force is proportional to the radius of the centrifuge and surface area of the sample compartment. In gravitational research we want to study the impact of weight onto a system. However, the force of inertial shear is perpendicular to the gravity vector, hence, results may be obscured or even misinterpreted by this artifact.     

不同喂养方式对婴儿骨密度及维生素A的影响

目的:探讨不同喂养方式对婴儿骨密度、维生素A的影响。方法:选择2015~2016年来我院体检的婴儿120例,根据不同喂养方式的不同分为母乳喂养组、混合喂养组及人工喂养组,比较三组婴儿1、3、6月的身长、头围、体质量、骨密度,6月时的维生素A及6月内的患病率。结果:三组婴儿1、3、6月内身长、体质量及头围对比差异无统计学意义(P0.05);1月、3月时,母乳喂养组与混合喂养组骨密度与明显高于人工喂养组(P0.05);母乳喂养组与人工喂养组对比差异无统计学意义(P0.05);6月时,混合喂养组婴儿的骨密度显著高于人工喂养组和母乳喂养组(P0.05),人工喂养组显著低于母乳喂养组(P0.05)。6月时,母乳喂养组的维生素A明显低于人工喂养组及混合喂养组(P0.05)。母乳喂养组6月内的患病率明显低于混合喂养组及人工喂养组(P0.05)。结论:6个月前不同喂养方式对婴儿的体格发育无明显影响,而6个月左右母乳喂养的婴儿骨密度及维生素A含量均低于混合喂养,母乳喂养可降低婴儿的患病率,6个月内应提倡母乳喂养。     

The Effect of HIV-Hepatitis C Co-Infection on Bone Mineral Density and Fracture: A Meta-Analysis

Objective

There is a variable body of evidence on adverse bone outcomes in HIV patients co-infected with hepatitis C virus (HCV). We examined the association of HIV/HCV co-infection on osteoporosis or osteopenia (reduced bone mineral density; BMD) and fracture.

Design

Systematic review and random effects meta-analyses.

Methods

A systematic literature search was conducted for articles published in English up to 1 April 2013. All studies reporting either BMD (g/cm², or as a T-score) or incident fractures in HIV/HCV co-infected patients compared to either HIV mono-infected or HIV/HCV uninfected/seronegative controls were included. Random effects meta-analyses estimated the pooled odds ratio (OR) and the relative risk (RR) and associated 95% confidence intervals (CI).

Results

Thirteen eligible publications (BMD N = 6; Fracture = 7) of 2,064 identified were included with a total of 427,352 subjects. No publications reported data on HCV mono-infected controls. Meta-analysis of cross-sectional studies confirmed that low bone mineral density was increasingly prevalent among co-infected patients compared to HIV mono-infected controls (pooled OR 1.98, 95% CI 1.18, 3.31) but not those uninfected (pooled OR 1.47, 95% CI 0.78, 2.78). Significant association between co-infection and fracture was found compared to HIV mono-infected from cohort and case-control studies (pooled RR 1.57, 95% CI 1.33, 1.86) and compared to HIV/HCV uninfected from cohort (pooled RR 2.46, 95% CI 1.03, 3.88) and cross-sectional studies (pooled OR 2.30, 95% CI 2.09, 2.23).

Conclusions

The associations of co-infection with prevalent low BMD and risk of fracture are confirmed in this meta-analysis. Although the mechanisms of HIV/HCV co-infection’s effect on BMD and fracture are not well understood, there is evidence to suggest that adverse outcomes among HIV/HCV co-infected patients are substantial.     

Bone turnover in wild type and pleiotrophin-transgenic mice housed for three months in the International Space Station (ISS)

Bone is a complex dynamic tissue undergoing a continuous remodeling process. Gravity is a physical force playing a role in the remodeling and contributing to the maintenance of bone integrity. This article reports an investigation on the alterations of the bone microarchitecture that occurred in wild type (Wt) and pleiotrophin-transgenic (PTN-Tg) mice exposed to a near-zero gravity on the International Space Station (ISS) during the Mice Drawer System (MDS) mission, to date, the longest mice permanence (91 days) in space. The transgenic mouse strain over-expressing pleiotrophin (PTN) in bone was selected because of the PTN positive effects on bone turnover. Wt and PTN-Tg control animals were maintained on Earth either in a MDS payload or in a standard vivarium cage. This study revealed a bone loss during spaceflight in the weight-bearing bones of both strains. For both Tg and Wt a decrease of the trabecular number as well as an increase of the mean trabecular separation was observed after flight, whereas trabecular thickness did not show any significant change. Non weight-bearing bones were not affected. The PTN-Tg mice exposed to normal gravity presented a poorer trabecular organization than Wt mice, but interestingly, the expression of the PTN transgene during the flight resulted in some protection against microgravity's negative effects. Moreover, osteocytes of the Wt mice, but not of Tg mice, acquired a round shape, thus showing for the first time osteocyte space-related morphological alterations in vivo. The analysis of specific bone formation and resorption marker expression suggested that the microgravity-induced bone loss was due to both an increased bone resorption and a decreased bone deposition. Apparently, the PTN transgene protection was the result of a higher osteoblast activity in the flight mice.     

不同强度的体育运动对糖尿病大鼠骨密度及骨代谢的影响

目的:探讨运动强度对糖尿病大鼠骨密度及骨代谢的影响,为糖尿病骨质疏松的预防和治疗提供实验依据。方法:采用一次性腹腔注射链服佐菌素建立糖尿病大鼠模型,随机分为糖尿病对照组、小强度运动组(10 m/min)、中强度运动组(20 m/min)和高强度运动组(30 m/min)。分别于运动前后测定各组大鼠的血糖、骨密度、血清骨钙素(BGP)、碱性磷酸化酶(AKP)、血钙(S-Ca)及血磷(S-P)含量。结果:运动组大鼠血糖均低于训练前和对照组(P0.05)。小强度运动组和高强度运动组大鼠骨密度低于对照组,中强度运动组大鼠骨密度显著高于对照组、小强度运动组和高强度运动组(P0.05);小强度运动组与高强度运动组大鼠骨密度无显著性差异(P0.05)。运动组大鼠BGP和S-P显著升高,AKP下降,差异具有统计学意义(P0.05)。小强度运动组和高强度运动组大鼠S-Ca无显著变化(P0.05);中强度运动组大鼠S-Ca显著升高,且高于小强度运动组和高强度运动组(P0.05)。结论:运动强度对骨密度和骨代谢有一定影响,采取适当的体育运动可提高血清骨钙素含量,改善骨代谢状况,有利于糖尿病骨质疏松症的预防。     

Phototropism of Arabidopsis thaliana in microgravity and fractional gravity on the International Space Station

While there is a great deal of knowledge regarding plant growth and development in microgravity aboard orbiting spacecraft, there is little information available about these parameters in reduced or fractional gravity conditions (less than the nominal 1g on Earth). Thus, in these experiments using the European Modular Cultivation System on the International Space Station, we studied the interaction between phototropism and gravitropism in the WT and mutants of phytochrome A and B of Arabidopis thaliana. Fractional gravity and the 1 g control were provided by centrifuges in the spaceflight hardware, and unidirectional red and blue illumination followed a white light growth period in the time line of the space experiments. The existence of red-light-based positive phototropism in hypocotyls of seedlings that is mediated by phytochrome was confirmed in these microgravity experiments. Fractional gravity studies showed an attenuation of red-light-based phototropism in both roots and hypocotyls of seedlings occurring due to gravitational accelerations ranging from 0.l to 0.3 g. In contrast, blue-light negative phototropism in roots, which was enhanced in microgravity compared with the 1g control, showed a significant attenuation at 0.3 g. In addition, our studies suggest that the well-known red-light enhancement of blue-light-induced phototropism in hypocotyls is likely due to an indirect effect by the attenuation of gravitropism. However, red-light enhancement of root blue-light-based phototropism may occur via a more direct effect on the phototropism system itself, most likely through the phytochrome photoreceptors. To our knowledge, these experiments represent the first to examine the behavior of flowering plants in fractional or reduced gravity conditions.     

Gravisensitivity and automorphogenesis of lentil seedling roots grown on board the International Space Station

The GRAVI-1 experiment was brought on board the International Space Station by Discovery (December 2006) and carried out in January 2007 in the European Modular Cultivation System facility. For the first run of this experiment, lentil seedlings were hydrated and grown in microgravity for 15 h and then subjected for 13 h 40 min to centrifugal accelerations ranging from 0.29 x 10(-2) g to 0.99 x 10(-2) g. During the second run, seedlings were grown either for 30 h 30 min in microgravity (this sample was the control) or for 21 h 30 min and then subjected to centrifugal accelerations ranging from 1.2 x 10(-2) g to 2.0 x 10(-2) g for 9 h. In both cases, root orientation and root curvature were followed by time-lapse photography. Still images were downlinked in near real time to ground Norwegian User Support and Operations Center during the experiment. The position of the root tip and the root curvature were analyzed as a function of time. It has been shown that in microgravity, the embryonic root curved strongly away from the cotyledons (automorphogenesis) and then straightened out slowly from 17 to 30 h following hydration (autotropism). Because of the autotropic straightening of roots in microgravity, their tip was oriented at an angle close to the optimal angle of curvature (120 degrees -135 degrees ) for a period of 2 h during centrifugation. Moreover, it has been demonstrated that lentil roots grown in microgravity before stimulation were more sensitive than roots grown in 1 g. In these conditions, the threshold acceleration perceived by these organs was found to be between 0 and 2.0 x 10(-3) g and estimated punctually at 1.4 x 10(-5) g by using the hyperbolic model for fitting the experimental data and by assuming that autotropism had no or little impact on the gravitropic response. Gravisensing by statoliths should be possible at such a low level of acceleration because the actomyosin system could provide the necessary work to overcome the activation energy for gravisensing.