Keyphrases
Microenvironment
100%
Photodynamic Therapy
100%
Therapeutic Modalities
100%
Gynecological Cancer
100%
Culture Model
100%
Therapy Efficacy
75%
Breast Cancer
50%
Phototoxicity
50%
ALA-photodynamic Therapy
50%
Incubation
25%
17-estradiol
25%
Treatment Effect
25%
Close Relationships
25%
China
25%
Cell Culture
25%
Menstrual Cycle
25%
Sex Hormones
25%
Progesterone
25%
Cell Culture Model
25%
MTT Assay
25%
Monolayer Culture
25%
Physiological Effects
25%
Fixation Duration
25%
Flow Cytometry Assay
25%
Mechanistic Studies
25%
Hormone Therapy
25%
Pathological Effect
25%
Physiological Microenvironment
25%
Hormonal Exposure
25%
Hong Kong Special Administrative Region
25%
Hormonal Changes
25%
Breast Cancer Cells
25%
Cancer Treatment Efficacy
25%
Photocuring
25%
Cellular Uptake
25%
Medium of Exchange
25%
Dose Exposure
25%
Protoporphyrin IX (PpIX)
25%
MCF-7 Cells
25%
Well Plate
25%
Cancer Growth
25%
Medicine and Dentistry
Female Genital Tract Cancer
100%
Photochemotherapy
100%
Alpha-Linolenic Acid
66%
Breast Cancer
50%
Phototoxicity
33%
Incubation
16%
Diethylstilbestrol
16%
Treatment Effect
16%
Acetylsalicylic Acid
16%
Flow Cytometry
16%
Sex Hormone
16%
Menstrual Cycle
16%
Combination Therapy
16%
Cancer Therapy
16%
Cancer Growth
16%
Cell Culture
16%
MTT Assay
16%
Protoporphyrin
16%
Progesterone
16%
Hormone Therapy
16%
Cancer Cell
16%
Pharmacology, Toxicology and Pharmaceutical Science
Photodynamic Therapy
100%
Female Genital Tract Cancer
100%
Alpha-Linolenic Acid
66%
Breast Cancer
50%
Phototoxicity
33%
Diethylstilbestrol
16%
Cell Culture
16%
Malignant Neoplasm
16%
Sex Hormone
16%
Combination Therapy
16%
Acetylsalicylic Acid
16%
Cancer Growth
16%
Progesterone
16%
Flow Cytometry
16%
Endocrine Therapy
16%
Protoporphyrin IX
16%
Agricultural and Biological Sciences
Alpha-Linolenic Acid
100%
Phototoxicity
50%
Flow Cytometry
25%
Cultured Cells
25%
Menstrual Cycle
25%
Sex Hormone
25%
Diethylstilbestrol
25%
Cell Culture
25%
Progesterone
25%
Immunology and Microbiology
Photodynamics
100%
Phototoxicity
33%
Cell Culture
16%
Menstrual Cycle
16%
Cancer Cell
16%
Engineering
Microenvironments
100%
Monolayers
40%