1. Interference of dibutylphthalate on human prostate cell viability
   Mariana Di Lorenzo et al, 2018, Ecotoxicology and Environmental Safety CrossRef
2. Implication of dietary phthalates in breast cancer. A systematic review
   Pietro Zuccarello et al, 2018, Food and Chemical Toxicology CrossRef
3. Prostate cancer characteristics in the World Trade Center cohort, 2002–2013
   Dana Hashim et al, 2016, European Journal of Cancer Prevention CrossRef
4. Estrogenic endocrine disruptors: Molecular mechanisms of action
   Ryoiti Kiyama et al, 2015, Environment International CrossRef
5. Cryoablation induced the change of TGF-β pathway in CWR-22RV prostate cancer cell line
   Tang Nailing et al, 2015, Cryobiology CrossRef
6. The impact of low-dose carcinogens and environmental disruptors on tissue invasion and metastasis
   Josiah Ochieng et al, 2015, CARCIN CrossRef
7. Environmental immune disruptors, inflammation and cancer risk
   Patricia A. Thompson et al, 2015, CARCIN CrossRef
8. Mono-2-ethyhexyl phthalate advancing the progression of prostate cancer through activating the hedgehog pathway in LNCaP cells
   Wang Yong et al, 2016, Toxicology in Vitro CrossRef
9. R-equol, a synthetic metabolite of the dietary estrogen daidzein, modulates the nongenomic estrogenic effects of 17β-estradiol in pituitary tumor cells
   Manish Kumar Saraf et al, 2016, Endocrine Disruptors CrossRef
10. From the Cover: Metabolomics Reveals a Role of Betaine in Prenatal DBP Exposure-Induced Epigenetic Transgenerational Failure of Spermatogenesis in Rats
    Beilei Yuan et al, 2017 CrossRef
11. An exome-wide rare variant analysis of Korean men identifies three novel genes predisposing to prostate cancer
    Jong Jin Oh et al, 2019, Sci Rep CrossRef
12. Metabolic syndrome, endocrine disruptors and prostate cancer associations: biochemical and pathophysiological evidences
    Vincenzo Quagliariello et al, 2017, Oncotarget CrossRef
13. Saliva biomonitoring using LPME-GC/MS method to assess dentistry exposure to plasticizers
    José Messias Gomes et al, 2020, Anal Bioanal Chem CrossRef
14. Effects and Mechanisms of Phthalates’ Action on Reproductive Processes and Reproductive Health: A Literature Review
    Henrieta Hlisníková et al, 2020, IJERPH CrossRef
15. Organochlorine pesticide exposure and risk of prostate cancer development and progression: a systematic review
    Laurent Brureau et al, 2021, F1000Res CrossRef
16. Mechanistic insight into toxicity of phthalates, the involved receptors, and the role of Nrf2, NF-κB, and PI3K/AKT signaling pathways
    Hamidreza Mohammadi et al, 2021, Environ Sci Pollut Res CrossRef
17. Pharmacophore based in silico study with laboratory verification—environmental explanation of prostate cancer recurrence
    Tongtong Zhang et al, 2021, Environ Sci Pollut Res CrossRef
18. Developmental Exposure to Endocrine Disrupting Chemicals and Its Impact on Cardio-Metabolic-Renal Health
    Radha Dutt Singh et al, 2021, Front. Toxicol. CrossRef
19. Maternal Perinatal Exposure to Dibutyl Phthalate Promotes Ovarian Dysfunction in Adult Female Offspring via Downregulation of TGF-β2 and TGF-β3
    Jing Zhang et al, 2022, Reprod. Sci. CrossRef
20. Selective estrogen receptor modulators contribute to prostate cancer treatment by regulating the tumor immune microenvironment
    Dali Tong, 2022, J Immunother Cancer CrossRef
21. Impact of environmental phthalate on human health and their bioremediation strategies using fungal cell factory- A review
    Kumar Vishven Naveen et al, 2022, Environmental Research CrossRef
22. Environmental Contamination and Chronic Exposure to Endocrine-Disrupting Phthalates: An Overlooked and Emerging Determinant for Hormone-Sensitive Cancers
    Ankan Mukherjee Das et al, 2022, J Indian Inst Sci CrossRef
23. Effects of a phthalate metabolite mixture on both normal and tumoral human prostate cells
    Alexandre M. B. Cavalca et al, 2022, Environmental Toxicology CrossRef
24. Dibutyl phthalate promotes angiogenesis in EA.hy926 cells through estrogen receptor-dependent activation of ERK1/2, PI3K-Akt, and NO signaling pathways
    Dunja Kokai et al, 2022, Chemico-Biological Interactions CrossRef
25. Exposure to Phthalates and Increased Risks of Prostate Cancer Incidence: A Cross-Sectional Study
    Tao Guo et al, 2022, SSRN Journal CrossRef
26. Exposure to Phthalates and Increased Risks of Prostate Cancer Incidence: A Cross-Sectional Study
    Tao Guo et al, 2022, SSRN Journal CrossRef
27. The mitochondrial link: Phthalate exposure and cardiovascular disease
    Shama Prasada Kabekkodu et al, 2024, Biochimica et Biophysica Acta (BBA) - Molecular Cell Research CrossRef
28. Identification and characterisation of moderately thermostable diisobutyl phthalate degrading esterase from a Great Artesian Basin Bacillus velezensis NP05
    Brandon Mu et al, 2024, Biotechnology Reports CrossRef
29. Association between urinary phthalates and phthalate metabolites and cancer risk: A systematic review and meta-analysis
    Meng Meng et al, 2024, Heliyon CrossRef