Evaluation of the therapeutic efficacy of different doses of LT4 in pregnant women with high-normal TSH levels and TPOAb positivity in the first half of pregnancy

Background The objective was to investigate the efficacy of different doses of levothyroxine therapy among pregnant women exhibiting high-normal thyroid stimulating hormone levels and positive thyroid peroxidase antibodies throughout the first half of pregnancy. Methods Pregnant women exhibiting high-normal thyroid stimulating hormone levels and thyroid peroxidase antibodies positivity throughout the initial half of pregnancy were selected from January 2021 to September 2023. Based on the different doses of levothyroxine, the pregnant women were categorized into the nonintervention group (G0, 122 women), 25 µg levothyroxine intervention group (G25, 69 women), and 50 µg levothyroxine intervention group (G50, 58 women). Serum parameters, gastrointestinal symptoms, small intestinal bacterial overgrowth (SIBO), maternal and neonatal outcomes were compared after the intervention among the three groups. Results After the intervention, in the G25 and G50 groups, the thyroid stimulating hormone, triglyceride and low-density lipoprotein levels were notably less in contrast to those in the G0 group (P < 0.05). The rates of abdominal distension and SIBO in the G25 and G50 groups were notably lower in contrast to the G0 group (P = 0.043 and 0.040, respectively). The G50 group had a lower rate of spontaneous abortion and premature membrane rupture than the G0 group (P = 0.01 and 0.015, respectively). Before 11+ 2 weeks of gestation and at thyroid peroxidase antibodies levels ≥ 117 IU/mL, in contrast to the G0 group, the G50 group experienced a decreased rate of spontaneous abortion (P = 0.008). The G50 group had significantly higher newborn weight than the G0 group (P = 0.014), as well as a notably longer newborn length than the G0 and G25 groups (P = 0.005). Conclusions For pregnant women with high-normal thyroid stimulating hormone levels and thyroid peroxidase antibodies positive during the first half of pregnancy, supplementation with 50 µg levothyroxine was more effective in improving their blood lipid status and gastrointestinal symptoms, reducing the incidence of SIBO and premature rupture of membranes, and before 11+2 weeks, TPOAb ≥ 117 IU/mL proved more beneficial in mitigating the risk of spontaneous abortion. Supplementary Information The online version contains supplementary material available at 10.1186/s12944-024-02099-9.


Introduction
With the advancement of medicine, thyroid dysfunction has gradually become a focal point of attention for clinicians, particularly high-normal thyroid stimulating hormone (TSH) levels and thyroid peroxidase antibody (TPOAb) positivity, which are among the key concerns for obstetricians and gynecologists.High-normal TSH refers to TSH levels ranging from 2.5 mIU/L to the uppermost extent of normal, accompanied by free thyroxine (FT4) within the normal parameters [1].TPOAb positivity refers to levels of thyroid peroxidase antibodies (TPOAb) exceeding the maximum value indicated by the assay's reference range, with an incidence rate of 5 − 14% in pregnant women [2].Current evidence suggests that a high-normal TSH level with TPOAb positivity elevates the likelihood of unfavorable maternal-fetal outcomes, for instance spontaneous miscarriage, preterm delivery, gestational hypertension, as well as fetal intrauterine distress [3,4].
Karbownik-Lewińska et al. observed that individuals with high-normal TSH levels are prone to abnormal triglycerides (TG) [5].Disrupted lipid levels create a lipotoxic environment, characterized by oxidative stress, inflammation, and alterations in lipid transport and metabolism, ultimately diminishing trophoblast invasion further.This scenario affects placental metabolism, function, and fetal development [6].Studies conducted by Rohlfing and Chen further emphasized the association of elevated TG with total cholesterol (TC) levels during pregnancy, highlighting a heightened risk of complications, including gestational diabetes mellitus (GDM), macrosomia, and preterm birth [7,8].Moreover, gut microbiota has gradually attracted attention in recent years.Small intestinal bacterial overgrowth (SIBO), reflecting disruptions in intestinal flora, is characterized by abnormal bacterial proliferation in the small intestine, leading to gastrointestinal symptoms [9].SIBO not only triggers gastrointestinal symptoms such as abdominal distension and constipation in patients, but also induces metabolic disturbances, disrupts intestinal immunity, leads to intestinal permeability, and consequently contributes to immune system dysregulation [10].The compromised immune tolerance in gravid females heightens the likelihood of unfavorable maternal-fetal outcomes, for instance spontaneous abortion [11].
Guidelines for prevention and management of thyroid diseases during pregnancy and perinatal period in 2022 recommended levothyroxine (LT4) replacement therapy for gravid females exhibiting the normal high range of TSH levels and TPOAb positivity [1].However, international guidelines do not distinctly advocate or discourage LT4 therapy for gravid females with the normal high range of TSH levels and TPOAb positivity [12].Moreover, there is a dearth of research on the dosage of LT4 treatment for this specific population.Therefore, this study aimed to delve into the optimal dosage of LT4 for pregnant women with the normal high range of TSH levels and TPOAb positivity to guide clinical work.

Study cohort
From January 2021 to September 2023, the study retrospectively investigated pregnant women undergoing thyroid function tests at the Third Affiliated Hospital of Zhengzhou University.In all, 249 pregnant women were included, comprising the untreated group (G 0 , n = 122), the group treated with 25 µg LT4 (G 25 , n = 69), and the group treated with 50 µg LT4 (G 50 , n = 58).
The criteria for inclusion were as outlined below: (1) gestational age should not exceed 20 weeks; and (2) thyroid function within the reference ranges operated by the Clinical Laboratory at Zhengzhou University Third Affiliated Hospital: a TPOAb level > 34 IU/mL; an FT4 level of 12.1 pmol/L − 19.6 pmol/L as well as levels of TSH ranging from 2.5 mIU/L to 4.0 mIU/L during initial period of pregnancy; and an FT4 level of 9.63 pmol/L − 17.0 pmol/L, and levels of TSH ranging from 2.5 mIU/L to 4.1 mIU/L in mid-pregnancy.
The criteria for exclusion were as outlined below: (1) concurrent hypothyroidism, subclinical hypothyroidism, or hyperthyroidism; (2) assisted reproduction; (3) multiple pregnancy; (4) coexisting autoimmune diseases such as antiphospholipid syndrome, thrombophilia, and others; (5) severe gastrointestinal diseases, a history of gastrointestinal surgery, or the use of medications affecting the gut microbiota, such as probiotics and prebiotics; (6) irregular prenatal care, the inability to track medication usage and the lack of follow-up thyroid function tests; and (7) adverse reactions to LT4 treatment.

Data extraction
For participants included in the study, data on personal attributes [age, body mass index (BMI)], reproductive background, past pregnancies, thyroid function levels at the onset of thyroid dysfunction and after 4 weeks of LT4 (Merck Health KgaA, registration number: H20140052) rupture of membranes, and before 11 +2 weeks, TPOAb ≥ 117 IU/mL proved more beneficial in mitigating the risk of spontaneous abortion.Keywords Levothyroxine, Thyroid stimulating hormone, Thyroid peroxidase antibodies, Lipid, SIBO, Pregnancy outcome treatment, serum indicators such as total cholesterol, triglycerides, high-density lipoprotein (HDL), and lowdensity lipoprotein (LDL) concentrations, digestive symptoms (diarrhea, bloating, constipation), SIBO, and LT4 dosage were recorded.Probiotics (Sienkang, National drug approval: S20060010) and prebiotics (Risikon®, production license number: SC13061011200721) were administered to pregnant women with SIBO.Patient records were reviewed for antenatal conditions (premature rupture of membranes, fetal intrauterine distress, placental abruption, etc.), perinatal outcomes (emergency cesarean section, amount of bleeding during delivery, etc.), and neonatal outcomes (weight, length, Apgar score, neonatal admission rate, etc.).

Thyroid function laboratory assays
Including TSH, FT4, and TPOAb, thyroid function parameters were determined in the laboratory using electrochemical luminescence immunoassay technique (Cobas e 801, Roche Diagnostics, Mannheim, Germany).The precise ranges of values used as a reference for assessing thyroid gland function, as operated by the Clinical Laboratory in conformity with the "Guidelines for prevention and management of thyroid diseases during pregnancy and perinatal period", are as follows: TPOAb: 0 IU/ml − 34 IU/ml.In early pregnancy, FT4 is considered normal within the range of 12.1 pmol/L − 19.6 pmol/L, and TSH is considered normal within the range of 0.33 mIU/L − 4.0 mIU/L.In the midst of pregnancy, the FT4 range is 9.63 pmol/L − 17.0 pmol/L, and that for TSH is 0.45 pmol/L − 4.1 pmol/L.

Determining small intestinal bacterial overgrowth
Diagnostic criteria were defined using the standards of Breath Tracker SC (QuinTron Instruments, Milwaukee, WI, USA) in accordance with the North American consensus: (1) An initial rise of ≥ 20 ppm in hydrogen in the first 90 min after substrate ingestion indicated an SIBO diagnosis; (2) A methane level equal to or exceeding 10 ppm at any juncture was deemed indicative of SIBO; (3) if the abundances of methane and hydrogen fail to meet the above values and their combined sum surpasses the baseline sum, accompanied by methane abundance exceeding 15 ppm within 90 min, a diagnosis of SIBO is considered [13].Due to the shorter blind time in the Asian population compared to Western populations and the fact that lactulose shortens the blind time, this study adopted a 20-minute interval for breath sampling to reduce the false-positive rate [14].

Pregnancy outcomes
Pregnancy-related outcomes encompassed maternal complications, comorbidities, and neonatal outcomes.Maternal complications and comorbidities included spontaneous abortion, preterm birth, GDM, gestational hypertension, placental abruption, fetal intrauterine distress, premature rupture of membranes, emergency cesarean section, and intrapartum hemorrhage.Neonatal outcomes comprised newborn weight, length, Apgar scores, and neonatal admission rate.

Statistical analysis
Using SPSS 26.0 (SPSS, Chicago, IL, USA), the numerical evaluations were conducted.Normality tests were performed for continuous variable data, and continuous variables following a normal distribution are presented using the mean along with the standard deviation.To compare variations across multiple groups, a post hoc comparison was conducted following the utilization of analysis of variance (ANOVA).Nonnormally distributed continuous variables are represented by medians and quartiles, and rank sum test was employed for intergroup comparisons, along with multiple analyses.Percentage and frequency distributions were used to present categorical data, with comparisons made through either the chi-square test or Fisher's exact probabilistic test.In this study, the significance level of P < 0.05 was utilized.

Basic clinical characteristics of the included pregnant women
The fundamental details of the pregnant subjects, including age, BMI, gestational weeks, adverse obstetric history, and other features (Table 1).In comparing the three groups, no statistically significant differences emerged with respect to age, BMI, gestational weeks, adverse obstetric history, parity, and gravidity.In terms of serum indicators, the three groups exhibited similarity in thyroid function markers such as FT4, TSH, and TPOAb, as well as in lipid levels including TC, TG, HDL, and LDL, with no statistically significant differences observed.

Serum parameters in the three groups of pregnant women receiving different doses of LT4 treatment
Following the intervention, compared to those in the G 0 group, the FT4 levels from the G 25 and G 50 groups were conspicuously raised (P < 0.001).Similarly, the TSH levels in the G 25 and G 50 groups were notably decreased compared to G 0 group (P < 0.001) (Table 2).Regarding blood lipids, TG and LDL levels in the G 25 and G 50 groups were notably decreased from the G 0 group (P = 0.046 and P = 0.033, respectively).Nevertheless, there were no notable variances in TC and HDL levels among the three groups.

Gastrointestinal symptoms and the SIBO rate in the three groups of pregnant women receiving different doses of LT4 treatment
Before the intervention, there were no statistically notable disparities in gastrointestinal symptoms (diarrhea, bloating, constipation) or the SIBO rates among the three groups.Following the LT4 intervention, the occurrence rates of bloating and SIBO in the G 25 and G 50 groups were of a lower value than those in the G 0 group, exhibiting a statistically significant difference (P = 0.043 and P = 0.040, respectively).Among the three groups, there were no notable variances in diarrhea and constipation rates (Table 3).

Maternal outcomes in the three groups
According to the results shown in Table 4, the rates of spontaneous pregnancy loss and premature membrane rupture in the G 50 group were notably lower as compared with the G 0 group (pregnancy loss showing a P value of 0.01, while membrane rupture exhibited a P value of 0.015).The incidence rates of preterm birth, GDM, gestational hypertension, placental abruption, fetal intrauterine distress, and emergency cesarean section, as well as intrapartum hemorrhage, decreased in the G 50 group in contrast to those in the G 0 group, without any notable differences.Among the women who experienced spontaneous abortion in the G 0 , G 25 , and G 50 groups, there were no cases of bleeding during delivery.

Spontaneous abortion rates among pregnant women taking different doses of LT4 at different gestational weeks and TPOAb levels
The area under the curve (AUC) for gestational age corresponding to spontaneous abortion was 0.682 (95% CI: 0.598-0.766,P = 0.001), with a Youden index of 0.396, according to receiver operating characteristic (ROC) analysis.The corresponding cutoff value was 11.22 weeks.At a cutoff of 11.22 weeks, the specificity for spontaneous abortion during this period was 87.5%, and the sensitivity was 52.10%.
Table 5 shows the spontaneous abortion rates of pregnant women at different gestational weeks and TPOAb levels.There was a notable variance in the spontaneous abortion rates among the three groups (P = 0.036).The ROC curve cutoff for gestational weeks was 11.22, i.e., 11 + 2 weeks.In the subgroup analysis of spontaneous abortion rates, the G 50 group had a notably lower spontaneous abortion rate than the G 0 group when the gestational age was before 11 + 2 weeks and the TPOAb level was ≥ 117 IU/mL (P = 0.018).There was no notable variation in the spontaneous pregnancy loss rates among the three groups when the gestational age was before 11 + 2  weeks and the TPOAb level was < 117 IU/mL or when the gestational age was between 11 + 2 weeks and 20 weeks.Numerical data are exhibited as either the median along with its interquartile range or as the mean along with the standard deviation.All comparisons were corrected using Bonferroni correction

Neonatal outcomes among the three groups of pregnant women
In the G 50 group, the weight of neonates was notably greater compared to the G 0 group (P = 0.014), and the length of neonates from the G 50 group was notably longer than that of neonates from both the G 0 and G 25 groups (P = 0.005).Nevertheless, there were insignificant differences in terms of the occurrence of macrosomia, Apgar scores at 1 and 5 min, or the rate of neonatal hospitalization among the three groups, as shown in Table 6.In the G 0 group, one neonate was transferred to the neonatal intensive care unit, with one case of severe asphyxia and one case of mild asphyxia.There was one case of the neonatal intensive care unit transfer in the G 25 group.

Discussion
Thyroid hormones fulfill an essential function in fetal brain development, with fetal thyroid development occurring between 8-12 weeks and the thyroid becoming functional at approximately 18-20 weeks [15].Consequently, during the first half of pregnancy (≤ 20 gestational weeks), fetal development significantly relies on maternal thyroid hormone provision.High-normal TSH levels and TPOAb positivity can lead to adverse pregnancy outcomes in pregnant women.Some studies suggest that reproductive-age women with the normal high range of TSH levels and TPOAb positivity should receive LT4 treatment [5,16].However, there is a lack of research on the appropriate dosage of LT4 for such patients, both domestically and internationally.Therefore, the primary objective of this research was to evaluate the therapeutic efficacy of different LT4 doses for gravid females with high-normal TSH levels and TPOAb positivity in the initial half of pregnancy.This study found that the FT4 levels in the G 25 and G 50 groups were notably elevated compared to those in the G 0 group after LT4 intervention, while the TSH levels were significantly lower.Supplemented LT4 can be metabolized into FT4 in the body, which is subsequently transformed into triiodothyronine (T3) by the action of deiodinase.T3, through negative feedback regulation [17], reduces the production and release of thyrotropinreleasing hormone in the hypothalamus, subsequently decreasing the synthesis and secretion of TSH [18].The   However, they also found that it could reduce TC levels [19], which is contradictory to the results of this study.This may be caused by the incomplete consistency of the included populations.The mechanisms of improvement in blood lipids after taking LT4 in gravid females exhibiting high-normal TSH levels and TPOAb positivity in the first half of pregnancy may be as follows: (1) T3, converted from supplemented LT4, binds with thyroid hormone receptors (TRs), forming a complex with transcriptional activation, which may activate adenosine monophosphate-activated protein kinase and increase the number of autophagosomes and lysosomes [20]; then, autophagosomes, by engulfing TG, fuse with lysosomes, promoting the degradation of TG [21].(2) Supplemented LT4, after conversion to T3 in the body, reduces TSH levels through negative feedback regulation, decreasing the stimulation of steroid regulatory element-binding protein by TSH; subsequently, proprotein convertase subtilisin/ kexin type 9 (PCSK9) in liver cells is reduced.Lowering PCSK9 levels can increase LDL receptors located on liver cells, promoting the degradation of LDL and thereby improving lipid metabolism [22,23].Therefore, this study suggests that gravid females with high-normal TSH levels and TPOAb positivity who take LT4 in the first half of pregnancy may improve their lipid metabolism.
The study also found that the occurrence of bloating and SIBO in the G 50 group after the intervention showed a reduction compared to the G 0 group.Komiyama et al. discovered that administering LT4 to neonates with extremely low birth weight who suffer from hypothyroxinemia can improve abdominal distension symptoms [24], consistent with the research findings.Thyroid hormones participate in various processes in the intestines, with the intestinal epithelium being one of the target sites for thyroid hormones.The possible mechanisms for improving gastrointestinal symptoms and SIBO positivity rate after taking LT4 in patients with the normal high range of TSH levels and TPOAb positivity in the first half of pregnancy include the following: (1) LT4 conversion to T3, which can bind to TRs in the intestinal epithelium, activate TRs binding to specific DNA, promote its expression, induce intestinal cell proliferation, maintain intestinal homeostasis, and alleviate bloating symptoms by reducing the gas production and fermentation caused by abnormal microbial communities [25,26].(2) The previous findings of our research group revealed an increased abundance of Roseburia, a hydrogen-producing bacterium, in pregnant women with thyroid dysfunction [27].Supplemented LT4 enters the body and is converted into T3, which can bind to TRs in macrophages, promote anti-inflammatory response [28], reduce the occurrence of leaky gut, reduce hydrogenproducing bacteria and methanogens, correct intestinal flora disorders, and reduce the rate of SIBO in pregnant women [29,30].Therefore, this study suggests that gravid females with the normal high range of TSH levels and TPOAb positivity in the first half of pregnancy who take LT4 may improve gastrointestinal symptoms and SIBO by enhancing the intestinal barrier and regulating the intestinal microenvironment.
The results of this research disclosed that the occurrence of spontaneous pregnancy loss and premature membrane rupture was less frequent in the G 50 group in comparison to the G 0 group.The research conducted by Yang et al. demonstrated that the use of LT4 reduced the incidence of pregnancy loss in TPOAb positive gravid females [31], which aligns with findings of this study.However, the research conducted by Di Girolamo et al. suggested that LT4 did not significantly improve the likelihood of miscarriage in pregnant women positive for TPOAb [32], which contradicts the results.This discrepancy may be attributed to differences in inclusion criteria, regional variations, and long intervals between studies.The mechanisms of improving spontaneous abortion and premature rupture of membranes after taking LT4 in gravid females with high-normal TSH levels and TPOAb positivity in the first half of pregnancy include the following: (1) LT4 supplementation can reduce TG, decreasing the production of fatty acids by TG degradation.This, in turn, mitigates the disruption of T-cell subset balance by fatty acids [33], reducing systemic inflammation [34].Additionally, LT4 supplementation may restore intestinal microbiota homeostasis, reducing inflammation caused by intestinal permeability and thereby restoring immune accommodation at the interface between mother and fetus, ultimately lowering the risk of miscarriage [35,36].
(2) After supplementing LT4, the levels of thyroxine (T4) and T3 increased in the body, T4 and T3 can increase the expression of oncofetal fibronectin and integrin α5β1, facilitating adhesion between extravillous trophoblast and the decidua.This upregulates the expression of metalloproteinases, enhancing the degradation of the endometrial extracellular matrix.These actions contribute to the remodeling of spiral arteries and the generation of decidual blood vessels by increasing the presence of factors like angiogenesis promoting factor and trophoblastic growth stimulant, ultimately reducing the risk of miscarriage [37].(3) LT4, when converted by deiodinases into active T3, can bind to TRs in decidual cells, promoting the transcription of genes involved in thyroid hormone responses.This process increases the expression of nitric oxide synthase 2 (NOS2) and the anti-inflammatory cytokine interleukin-10 (IL-10) in the decidua, preventing inflammation-induced weakening and rupture of the amniotic sac, and consequently reducing the risk of premature rupture of the amniotic sac [37,38].Therefore, this study suggests that the administration of 50 µg LT4 to gravid females with the normal high range of TSH levels and TPOAb positivity in the first half of pregnancy may be more effective in improving harmful obstetric outcomes for instance miscarriage and premature rupture of membranes.
The investigation further explored the impact of different doses of LT4 on spontaneous abortion in gravid females at various gestational weeks and with different TPOAb levels.ROC analysis yielded a gestational week cutoff value of 11 weeks and 2 days.Before 11 + 2 weeks of gestation, at TPOAb levels ≥ 117 IU/mL, the G 50 group exhibited a notably lower rate of spontaneous abortion in comparison to the G 0 group.The study results align with those reported in prior research indicating that LT4 supplementation in women with high-normal TSH levels during early pregnancy can reduce the incidence of spontaneous abortion [39].For embryo implantation and pregnancy, decidualization is necessary in early pregnancy.In women with the normal high range of TSH levels and TPOAb levels ≥ 117 IU/mL before 11 + 2 weeks of gestation, the administration of 50 µg LT4 may reduce the risk of spontaneous abortion for the following reasons: (1) LT4 supplementation may reduce the risk of hypothyroidism caused by elevated TPOAb levels [36], and sufficient thyroid hormones can promote the upregulation of progesterone receptor-AB mRNA induced by ovarian steroid hormones, facilitating progesterone receptor signal transduction, aiding endometrial decidualization, and promoting embryo implantation [40], thereby lowering the risk of spontaneous abortion.(2) T4 and T3, which are converted though supplementation with LT4, facilitate the secretion of human placental prolactin, estradiol, progesterone, and human chorionic gonadotropin as well as the expression of placental growth factors when they reach the placenta.This promotes the differentiation of the trophoblastic layer and the formation of decidual angiogenesis, facilitating normal placental development [37,41], and reducing the risk of spontaneous abortion in pregnant women.Therefore, this study recommends supplementation with 50 µg LT4 for gravid females with high-normal TSH levels and TPOAb levels ≥ 117 IU/mL identified before 11 + 2 weeks of gestation, as it can successfully decrease the risk of spontaneous abortion.
The study found that the weight of neonates from the G 50 group notably exceeded that of neonates from the G 0 group, and the length of neonates from the G 50 group was notably longer compared to that of neonates from the G 0 and G 25 groups.In their study, Huget-Penner et al. mentioned that LT4 supplementation in gravid females with hypothyroidism can improve the pregnancy outcomes of low birth weight infants [42], which supports the outcomes observed in this study.This may be attributed to the supplementation of 50 µg LT4, allowing more thyroid hormones to pass through the placenta into the fetal circulation, modifying fetal gene expression, cell proliferation, and differentiation during organ formation, thereby promoting fetal development [43].Therefore, this study recommends that in gravid females with the normal high range of TSH levels and TPOAb positivity in the initial half of pregnancy, 50 µg LT4 is more effective in supplementing thyroid hormones, and improving neonatal developmental status, while the effect of 25 µg LT4 is not significant.

Strengths and limitations
This study had some advantages.First, it used strict diagnostic criteria to evaluate the outcomes of gravid females with high-normal TSH levels and TPOAb positivity taking different doses of LT4.Secondly, it conducted a more detailed subgroup analysis of spontaneous abortion among pregnant women across different gestational ages and TPOAb levels to understand the differences between the subgroups.Some limitations were also evident in this study.Although this study tried its best to ensure the representativeness and reliability of the sample, the sample size was limited and there may be some biases.In order to overcome these limitations, future studies will expand the sample size and strengthen follow-up, monitoring and quality control during the research process to reduce research bias.

Conclusions
There is currently a lack of research on the impact of doses of LT4 on the outcomes of pregnancy among women with high normal TSH values and TPOAb positive in the initial half of pregnancy.This study found that gravid females with the normal high range of TSH levels and TPOAb positivity in the first half of pregnancy who supplemented with 50 µg LT4 were more effective in improving their blood lipid status and gastrointestinal symptoms, reducing the incidence of SIBO and premature rupture of membranes, and before 11 + 2 weeks, TPOAb ≥ 117 IU/mL proved more beneficial in mitigating the risk of spontaneous abortion.This provides a theoretical basis for the treatment of the disease.
Numerical data are exhibited as either the median along with its interquartile range or as the mean along with the standard deviation.a demonstrates P < 0.01 in contrast to the G 0 group; b, c, and d indicate P < 0.001 in contrast to the G 0 group; e indicates P < 0.05 in comparison to the G 0 group.All comparisons were corrected using Bonferroni correction

Table 1
General information comparison among pregnant women

Table 2
Serum comparisons in the three groups of pregnant women receiving different doses of LT4 treatment

Table 3
Gastrointestinal symptoms and the SIBO rate comparisons among the three groups

Table 4
Contrast of maternal outcomes across the three groups of pregnant women 1 illustrates the G 0 and G 25 groups comparison, P 2 illustrates the G 0 and G 50 groups comparison, and P 3 illustrates the G 25 and G 50 groups comparison; All comparisons were corrected using Bonferroni correction P

Table 5
Comparison of spontaneous abortion rates among pregnant women at different gestational weeks and TPOAb levels f indicates P = 0.008 compared to the G 0 group.All comparisons were corrected with Bonferroni correction

Table 6
Neonatal outcomes comparisons in three pregnancy groups 1 refers to the comparison between the G 0 and G 25 groups, P 2 refers to the comparison between the G 0 and G 50 groups, and P 3 refers to the comparison between the G 25 and G 50 groups.All comparisons were corrected using Bonferroni correction TG and LDL levels in the 50 µg LT4 intervention group were clearly lower and significantly reduced compared to those in the non-intervention group.Michalopoulou et al. observed that individuals with high-normal TSH levels taking 50 µg LT4 could significantly reduce LDL levels compared with patients with low-normal TSH levels, which aligns with the outcomes observed in this research. P