Anna-Mari Heikkinen

HRT and Vit D in prevention of non-vertebral fractures in postmenopausal women; a 5 year randomized trial

OBJECTIVES We investigated the incidence of new non-vertebral fractures during HRT or low-dose vitamin (Vit) D3 supplementation in a 5-year prospective trial. METHODS A total of 464 early postmenopausal women, (a subgroup of the Kuopio Osteoporosis Study, n = 13100) were randomized to four groups: (1) HRT, a sequential combination of 2 mg estradiol valerate and 1 mg cyproterone acetate; (2) Vit D (300 IU/day and 100 IU/day during the fifth year); (3) HRT + Vit D; and (4) placebo. Lumbar (L2-4) and femoral neck bone mineral densities (BMD) were determined by dual X-ray absorptiometry (DXA) at baseline, after 2.5 and 5 years of treatment. All new symptomatic non-vertebral, radiographically defined fractures were recorded. RESULTS Altogether, 368 women (79%) completed the 5 year treatment. In all, 32 women had 39 non-vertebral fractures during a mean of 4.3 year follow-up (HRT 4, Vit D 10, HRT + Vit D 8 and placebo 17). The reduction in the incidence of new non-verterbral fractures was significant in women with HRT alone (P = 0.032) when adjusted by baseline BMD and previous fractures; observed also with the intention-to-treat principle (P = 0.048). When the HRT groups were pooled, HRT showed a significantly lower incidence of new non-vertebral fractures (P = 0.042) than women receiving placebo and also after adjusting as above (P = 0.016); both in valid-case and in the intention-to-treat analysis. In the Vit D group, the fracture incidence was non-significantly decreased (P = 0.229) in comparison with the placebo group. The estimated risk of new non-vertebral fractures among women treated with HRT alone was 0.29 (95% CI, 0.10-0.90) and with Vit D 0.47 (95% CI, 0.20-1.14) and with HRT + Vit D 0.44 (95% CI, 0.17-1.15), in comparison with the placebo group (adjusted by femoral BMD and previous fractures). CONCLUSIONS This study is the first prospective trial confirming the beneficial effect of HRT on prevention of peripheral fractures in non-osteoporotic postmenopausal women. The effect of low-dose Vit D remains to be proved.

Early postmenopausal bone loss is associated with PvuII estrogen receptor gene polymorphism in finnish women : Effect of hormone replacement therapy

Genetic factors regulate bone mineral density (BMD) and possibly the development of osteoporosis. An association between estrogen receptor (ER) polymorphism, BMD, and postmenopausal hormone replacement therapy (HRT) has not been established. Therefore, we studied the influence of the ER genotype on BMD before and after a 5‐year HRT in a placebo‐controlled, population‐based, randomized group of 322 early postmenopausal women. The participants were randomized into two treatment groups: the HRT group (n = 145) received a sequential combination of 2 mg estradiol valerate and 1 mg CPA with or without vitamin D3, 100–300 IU + 500 mg calcium lactate/day (equal to 93 mg Ca2+), and the non‐HRT group (n = 177) received calcium lactate, 500 mg alone or in combination with vitamin D3, 100–300 IU/day. PvuII restriction fragment length polymorphism (RFLP) of the ERα was determined using polymerase chain reaction (PCR). BMDs of the lumbar spine (L2–4) and proximal femur were measured by using dual‐energy X‐ray absorptiometry (DXA). At the baseline, there were no significant differences in the lumbar or femoral neck BMDs between the three ER PvuII genotype groups (PP,Pp,pp). After 5 years, the BMD of the femoral neck remained unaltered and that of the lumbar spine increased by 1.7% in the HRT group, whereas both BMDs were decreased by 4–5% in the non‐HRT group. The ER genotype did not modulate the femoral neck BMD change during the follow‐up. In contrast, in the non‐HRT‐group the lumbar spine BMD decreased more in subjects with the ER genotypes PP (6.4%) and Pp (5.2%) than in subjects with the pp genotype (2.9%) (p = 0.002). In the HRT group, the relative changes of the lumbar spine BMD were similar in all three ER genotype groups. Thus without HRT, the pp genotype was associated with a smaller decrease in the lumbar spine BMD than the Pp and PP genotypes. Long‐term HRT seemed to eliminate the ER genotype‐related differences in the BMD. We conclude that subjects with the ER PvuII genotypes PP and Pp may have a greater risk of relatively fast bone loss after menopause than those with the pp genotype and that they may preferentially derive benefit from HRT. (J Bone Miner Res 2000;15:315–321)

The Protective Effect of Hormone‐Replacement Therapy on Fracture Risk Is Modulated by Estrogen Receptor α Genotype in Early Postmenopausal Women

Genetic factors regulate bone mineral density (BMD) and possibly development of osteoporosis. It has been suggested that estrogen receptor α (ERα) genotype is associated with BMD, but the association between ERα genotype, fracture risk, and postmenopausal hormone replacement therapy (HRT) has not been studied. Therefore, we evaluated whether ERα polymorphism is associated with fracture risk in a 5‐year trial with HRT in a population‐based, randomized group of 331 early postmenopausal women. The participants consisted of two treatment groups: the HRT group (n = 151) received a sequential combination of 2 mg of estradiol valerate (E2Val) and 1 mg of cyproterone acetate with or without vitamin D3, 100‐300 IU + 93 mg calcium as lactate per day; and the non‐HRT group (n = 180) received 93 mg of calcium alone or in combination with vitamin D3, 100‐300 IU/day. All new symptomatic, radiographically defined fractures were recorded. Pvu II restriction fragment length polymorphism of the ERα was determined using polymerase chain reaction (PCR). In all, 28 women sustained 33 fractures during the approximately 5.1‐year follow‐up. In the HRT group, the ERα genotype (PP, Pp, and pp) was not significantly associated with fracture risk (p = 0.138; Cox proportional hazards model). When the genotype was dichotomized (PP + Pp vs. pp), the incidence of new fractures in the HRT group was significantly reduced in women with the P allele (p = 0.046) with the relative risk (HR) of 0.25 (95% CI, 0.07‐0.98), in comparison with the non‐P allele group. After adjustment for time since menopause and previous fracture, the association between the dichotomous genotype and fracture risk persisted with HR of 0.24 (95% CI, 0.06‐0.95; p = 0.042). In the non‐HRT group, the ERα genotype was not significantly associated with fracture risk. During HRT, women with the pp genotype have a greater fracture risk than those with the P allele. The results suggest that the pp genotype is a relatively hormone‐insensitive genotype, and it appears that women with the P allele may benefit more from the protective effect of HRT on fracture risk than women with the pp genotype.

Identification of Early Postmenopausal Women with No Bone Response to HRT: Results of a Five-Year Clinical Trial

Abstract: Hormone replacement therapy (HRT) prevents postmenopausal bone loss and fractures. However, the occurrence of women with no bone response to HRT has not been widely examined. We identified the densitometric nonresponders to long-term HRT and investigated some characteristics and biochemical variables as possible predictors of densitometric nonresponse in postmenopausal women. The study population was a subsample of the Kuopio Osteoporosis Study (n= 14.220). A total of 464 early postmenopausal women were randomized into four treatment groups: (1) HRT (sequential combination of 2 mg estradiol valerate and 1 mg cyproterone acetate); (2) vitamin D3; (3) HRT + Vitamin D3 combined; and (4) placebo. In this study, the data from HRT and placebo groups were analyzed. Lumbar (L2–4) and femoral neck bone mineral density (BMD) were determined by dual-energy X-ray absorptiometry (DXA) at baseline and after 5 years of treatment. A densitometric nonresponder was defined as a woman whose 5-year BMD change was similar to the mean BMD change (+ 95% CI) of the placebo group or worse. Altogether, 74 women in the HRT group and 104 women in the placebo group complied with the treatment. According to spinal BMD analysis, 11% of the women were classified as densitometric nonresponders; the corresponding proportion for femoral BMD analysis was 26%. Both smoking (p= 0.003) and low body weight (p= 0.028) were significant risk factors for densitometric nonresponse to HRT. After 6 months of treatment the densitometric nonresponders (hip) had a significantly higher mean serum follicle stimulating hormone (FSH) level (p= 0.038) and lower increases in serum estradiol levels (p= 0.006) than the densitometric responders. The mean changes in serum FSH and alkaline phosphatase levels were significantly lower among the densitometric nonresponders (spine) than responders (p= 0.043 and 0.017, respectively). In conclusion, this prospective study shows that especially current smokers and women with low body weight are at increased risk of poor bone response to HRT. Repeated serum FSH, estradiol and alkaline phosphatase measurements during the first months of long-term HRT may be helpful in identifying the women with no bone response to HRT.

Relation of aromatase gene polymorphism and hormone replacement therapy to serum estradiol levels, bone mineral density, and fracture risk in early postmenopausal women*

BACKGROUND. After the menopause, estrogen synthesis from androgens and androgen precursors by aromatase is the main source of circulating estrogens. AIM. To evaluate whether aromatase gene (CYP19)polymorphism affects circulating estradiol (E[Formula: See Text])levels, bone mineral density (BMD), BMD change or fracture risk. METHODS. A 5-year randomized hormone replacement therapy (HRT) trial on 331 early postmenopausal women (mean baseline age 52.7 ± 2.3 years). The participants consisted of two treatment groups: the HRT group (n = 151) received a sequential combination of 2 mg estradiol valerate and 1 mg cyproterone acetate with or without vitamin D[Formula: See Text], 100-300 IU + 93 mg calcium as lactate/day, and the non-HRT group (n = 180) received 93 mg calcium alone or in combination with vitamin D[Formula: See Text], 100-300 IU/day for 5 years. BMD was measured from lumbar spine and proximal femur (DXA) before and after the 5-year trial. All new symptomatic, radiographically defined fractures were recorded during the follow-up. The polymorphism (intron 4 TTTA repeat) of CYP19 was evaluated after PCR amplification of the polymorphic site. CYP19 polymorphism was divided into three repeat groups: short (length of 7 or 8 in both alleles; n = 135), long (length of 11 or higher in both alleles; n = 47), and medium (rest of the values; n = 149). RESULTS. Of the baseline characteristics, only physical activity was associated with CYP19 polymorphism (P = 0.04) and a borderline significance was observed with previous fractures (P = 0.05). In the HRT or non-HRT groups, the 5-year serum E[Formula: See Text] change was not associated with CYP19 polymorphism (P = 0.87 and 0.74, respectively). Further, the polymorphism did not influence the calculated annual changes of lumbar or femoral neck BMD during the 5-year follow-up in the HRT (P = 0.60 and 0.17, respectively) or non-HRT (P = 0.92 and 0.80, respectively) groups. In all, 28 women sustained 33 fractures during the follow-up. The CYP19 polymorphism was not significantly associated with fracture risk (P = 0.89 and 0.23 respectively; Cox proportional hazards model) in the HRT or non-HRT groups. CONCLUSIONS.CYP19 polymorphism was not associated with circulating E[Formula: See Text] levels, BMD values, or fracture risk in these early postmenopausal Finnish women. If such an association exists in women, it may become apparent in older age groups.

Expression of Hyaluronan Synthases (HAS1–3) and Hyaluronidases (HYAL1–2) in Serous Ovarian Carcinomas: Inverse Correlation between HYAL1 and Hyaluronan Content

BackgroundHyaluronan, a tumor promoting extracellular matrix polysaccharide, is elevated in malignant epithelial ovarian tumors, and associates with an unfavorable prognosis. To explore possible contributors to the accumulation of hyaluronan, we examined the expression of hyaluronan synthases (HAS1, HAS2 and HAS3) and hyaluronidases (HYAL1 and HYAL2), correlated with hyaluronidase enzyme activity hyaluronan content and HAS1–3 immunoreactivity.MethodsNormal ovaries (n = 5) and 34 serous epithelial ovarian tumors, divided into 4 groups: malignant grades 1+2 (n = 10); malignant grade 3 (n = 10); borderline (n = 4) and benign epithelial tumors (n = 10), were analyzed for mRNA by real-time RT-PCR and compared to hyaluronidase activity, hyaluronan staining, and HAS1–3 immunoreactivity in tissue sections of the same specimens.ResultsThe levels of HAS2 and HAS3 mRNA (HAS1 was low or absent), were not consistently increased in the carcinomas, and were not significantly correlated with HAS protein or hyaluronan accumulation in individual samples. Instead, the median of HYAL1 mRNA level was 69% lower in grade 3 serous ovarian cancers compared to normal ovaries (P = 0.01). The expression of HYAL1, but not HYAL2, significantly correlated with the enzymatic activity of tissue hyaluronidases (r = 0.5; P = 0.006). An inverse correlation was noted between HYAL1 mRNA and the intensity of hyaluronan staining of the corresponding tissue sections (r = -0.4; P = 0.025).ConclusionThe results indicate that in serous epithelial ovarian malignancies HAS expression is not consistently elevated but HYAL1 expression is significantly reduced and correlates with the accumulation of hyaluronan. (233 words)

Is the Response of Serum Lipids and Lipoproteins to Postmenopausal Hormone Replacement Therapy Modified by ApoE Genotype

Postmenopausal hormone replacement therapy (HRT) has favorable effects on the serum lipid profile, and it also decreases the risk of cardiovascular diseases. The apolipoprotein E genotype has influence on serum levels of lipids and lipoproteins; apoE allele epsilon4 (apoE4) is associated with high total and LDL cholesterol levels. Genotype also influences the lipid responses to treatment with diet and statins, but the effect of HRT in different apoE genotypes is unknown. We studied the effects of HRT on the concentrations of serum lipids in apoE4-positive early postmenopausal women (genotypes 3/4 and 4/4) compared with apoE4-negative women (genotypes 2/3 and 3/3) in a population-based, prospective 5-year study. In all, 232 early postmenopausal women were randomized into 2 treatment groups: an HRT group (n=116), which received a sequential combination of 2 mg estradiol valerate (E2Val) from day 1 to 21 and 1 mg cyproterone acetate (CPA) from day 12 to 21 (Climen), and a placebo group (n=116), which received 500 mg/d calcium lactate. Serum concentrations of total, LDL, and HDL cholesterol and triglycerides were measured at baseline and after 2 and 5 years of treatment. A total of 154 women completed the final analysis. During the follow-up period, serum total cholesterol and LDL cholesterol concentrations decreased in the HRT group in apoE4-negative women (8.1% and 17.1%, respectively; P<0.001) but did not change in the HRT group in apoE4-positive women or in the placebo group. Serum HDL cholesterol concentrations decreased in the placebo group (apoE4-negative, 3.9%, P=0.015; apoE4-positive, 8.1%, P=0.004) but did not change significantly in the HRT group. Serum triglyceride levels tended to increase in both study groups and genotypes (15.1% to 36.2%, P<0.038 to 0.001), but no differences were observed between the study groups or genotypes, respectively. Our finding was that in postmenopausal Finnish women LDL cholesterol levels in apoE4-negative subjects respond more favorably to HRT than those in apoE4-positive subjects. This finding has potential importance in postmenopausal women with hypercholesterolemia, if confirmed in other studies.

Vitamin D and HRT: no benefit additional to that of HRT alone in prevention of bone loss in early postmenopausal women. A 2.5-year randomized placebo-controlled study.

The study was designed to examine the effect of hormone replacement therapy (HRT) and low-dose vitamin D (Vit D) supplementation on the prevention of bone loss in non-osteoporotic early postmenopausal women and to determine whether Vit D supplementation can give additional benefit to an already optimized estrogen regimen. The effects of HRT and Vit D on bone mineral density (BMD) were studied in postmenopausal women in a 2.5-year randomized placebo-controlled study. The study population was a subgroup of the Kuopio Osteoporosis Risk Factor and Prevention Study (OSTPRE) (n=13100). A total of 464 early postmenopausal women were randomized to four groups: (1) HRT (a sequential combination of 2 mg estradiol valerate and 1 mg cyproterone acetate (E2Val/CPA); (2) vitamin D3 (cholecalciferol, 300 IU/day); (3) HRT+Vit D; and (4) placebo (calcium lactate; 93 mg Ca2+/day). Lumbar (L1–4) and femoral neck BMD were determined by dual-energy X-ray absorptiometry before and after 2.5 years of treatment. After 2.5 years, lumbar BMD had increased by 1.8% in the HRT group (p<0.001) and by 1.4% in the HRT+Vit D group (p=0.002), whereas lumbar BMD had decreased by 3.5% (p<0.001) in the Vit D group and by 3.7% (p<0.001) in the placebo group. The loss of femoral neck BMD was lower in the HRT (−0.3%) and the HRT+Vit D (−0.9%) groups compared with the Vit D (−2.4%) and the placebo groups (−3.7%). This study confirms the beneficial effect of HRT on BMD. It also shows that low-dose vitamin D supplementation has only a minor effect in the prevention of osteoporosis in non-osteoporotic early postmenopausal women and does not give any benefit additional to that of HRT alone.

Does vitamin D strengthen the increase in femoral neck BMD in osteoporotic women treated with estrogen

Abstract. The long-term effects on bone of estrogen therapy (HRT) combined with vitamin D3 supplementation were evaluated and compared with the effects of HRT without vitamin D3 supplementation in a 4-year prospective, partly randomized study among 60 osteoporotic women (mean age 55.4 years; range 49.7–59.4 years). The women studied were a subgroup of the population-based Kuopio Osteoporosis Risk Factor and Prevention Study (OSTPRE) (n = 13100). The bone mineral densities (BMD) of the lumbar spine and femoral neck were determined by dual-energy X-ray absorptiometry (DXA) in 3236 perimenopausal women. Those 106 women with baseline BMD more than 2 SDs less than the mean value in this population, either at the lumbar spine (BMD < 0.826 g/cm2) and/or femoral neck (BMD < 0.684 g/cm2), were offered treatment for osteoporosis. After exclusions, 60 women were included in the analyses. Group allocation was: HRT (estradiol valerate (2 mg) plus cyproterone acetate, 1 mg, sequentially: ClimenR) (n = 21); HRT + Vit D: Climen + vitamin D3 (cholecalciferol, 300 IU/day, no intake during June–August) (n = 23); controls: 16 women who refused all treatment served as a non-randomized control group. In the HRT group, the highly significant increase in lumbar BMD was 5.4%, 5.3%, 4.7% and 4.0% after 1, 2, 3 and 4 years of treatment, respectively, all compared with the baseline values and with the control group. The increase in femoral neck BMD was statistically insignificant (1.4%, 2.2%, 1.9% and 2.1%, respectively; p > 0.05). In the HRT + Vit D group, the lumbar BMD increased by 3.7%, 4.9%, 4.9% and 4.9% (p < 0.001), whereas the 5.8% increase in femoral neck BMD reached significance at 4 years (p < 0.01) when compared with the control group as well as with the baseline values. However, there were no statistically significant differences in lumbar or femoral BMD changes between the two HRT groups. In conclusion, estrogen can substantially increase lumbar bone mass in patients with postmenopausal osteoporosis. In addition, the combination of HRT and vitamin D3 may increase femoral neck BMD in osteoporotic women more than estrogen alone.

Does apolipoprotein E genotype relate to BMD and bone markers in postmenopausal women

OBJECTIVES Bone mineral density (BMD) and development of osteoporosis are partly determined by genetic factors. The associations between one of suggested candidate, apolipoprotein E (apo E) genotype to bone mineral density (BMD) and bone biochemical markers was studied in 464 subjects recruited from a population-based group of early postmenopausal women (n = 13100). Additionally, the influence of apo E genotype on BMD changes during a 5-year follow-up with or without hormone replacement therapy (HRT) was investigated. METHODS Participants were randomized into two treatment groups: HRT group: Sequential combination of 2 mg estradiol valerate and 1 mg cyproterone acetate with or without vitamin D3, 100-300 IU/day + calcium lactate, 500 mg/day (n = 232), and the non-HRT group: Calcium lactate, 500 mg/day alone or in combination with vitamin D3, 100-300 IU/day (n = 232). BMD was measured from the lumbar spine and proximal femur at baseline and after 5 years of treatment (n = 352). In a subgroup (n = 59), the serum concentrations of bone biochemical markers (intact osteocalcin (OC), bone-specific alkaline phosphatase (BAP) and type I collagen carboxy-terminal telopeptide (ICTP)) were measured at baseline and after 1 year of follow-up. RESULTS At baseline, the BMDs were similar between the five apo E genotype groups (2/3, 2/4, 3/3, 3/4, 4/4). No significant differences in lumbar or femoral neck BMDs of women with the apo E4 allele were found compared with those without it. There was a statistically significant difference in 5-year BMD changes between the HRT and non-HRT groups. After 5 years, the BMD of the femoral neck had remained constant and the mean lumbar spine BMD had increased by 1.5% in the HRT group, whereas both BMDs had decreased by 4-5% in the non-HRT group. However, the apo E genotype did not modify the changes in BMD in either group. Additionally, the baseline concentrations of bone metabolic markers and their 1-year changes showed no genotype-related associations. CONCLUSIONS The results of our population-based study indicate that apo E genotype does not modify lumbar or femoral neck BMDs or serum bone biochemical markers or their response to HRT in early postmenopausal Caucasian women.