INIS
sperm
100%
embryos
68%
mice
60%
in vitro
50%
dna
45%
oocytes
41%
spermatozoa
41%
dna damages
40%
levels
35%
humans
32%
fertility
31%
patients
31%
ovaries
28%
comparative evaluations
25%
doses
25%
preservation
22%
concentration
18%
tissues
17%
males
17%
testes
17%
cancer
15%
oxidation
15%
genetics
15%
radiations
14%
damage
14%
toxicity
13%
metabolites
13%
chromatin
13%
culture media
12%
induction
12%
reproduction
11%
drugs
11%
control
11%
irradiation
11%
fertilization
11%
oxygen
10%
viability
10%
risks
10%
hatching
10%
fragmentation
10%
correlations
9%
pregnancy
9%
nuclear magnetic resonance
9%
metabolism
9%
reserves
8%
incubation
8%
lactate dehydrogenase
8%
assessments
8%
synthesis
8%
freezing
8%
Medicine and Dentistry
Sperm
36%
DNA Damage
23%
Patient
23%
Fertility Preservation
22%
Oocyte
22%
In Vitro
17%
Spermatozoon
14%
Cells
14%
Culture
12%
Blastocyst
12%
Male
11%
Semen
11%
Assisted Reproduction
10%
Follicle
10%
Toxicity
9%
Age
9%
Patient with Cancer
8%
Malignant Neoplasm
8%
Metabolomics
8%
Ovarian Reserve
8%
Infertility
8%
Embryo Development
8%
Cyclophosphamide
7%
Embryo Culture
7%
Tissues
7%
Fertility
6%
Therapeutic Procedure
6%
Man
6%
Intracytoplasmic Sperm Injection
6%
Intrauterine Insemination
6%
Aptitude
6%
Hatching
6%
COVID-19
6%
Sperm Motility
6%
Nuclear Magnetic Resonance Spectroscopy
6%
Association
5%
Morphology
5%
Oxygen
5%
Incubation
5%
Inpatient
5%
Nidation
5%
Cryopreservation
5%
Superovulation
5%
Adult
5%
Serum
5%
Semen Abnormality
5%
Moringa oleifera
5%
Tuberculostatic Agent
5%
Cancer Therapy
5%
Chemotherapy
5%
Biochemistry, Genetics and Molecular Biology
DNA Damage
16%
Mouse
12%
DNA
10%
Metabolite
10%
Metabolomics
8%
Association
8%
Development
7%
Radiation
7%
Freeze Thawing
6%
Sample
6%
Nuclear Magnetic Resonance Spectroscopy
5%
Reproduction
5%
Cryopreservation
5%
Embryogenesis
5%
Embryo Culture
5%
Blastocyst
5%
Oxygen Tension
5%
Preimplantation
5%
Freezing
5%
Metabolic Pathway
5%
Electric Potential
5%
Chromatin
5%
