Keyphrases
Alpaca
100%
Vicugna Pacos
66%
Non-syndromic Cleft Lip and Palate
66%
Spermatogonial Stem Cells
66%
Testicle
42%
Spermatozoa
41%
Maca
40%
Flow Cytometry
38%
MSX1
36%
Motility
34%
In Vitro Maturation
33%
Morphological Changes
33%
Neuroprotectors
33%
Cryopreserved
33%
Neurodegeneration
33%
Argopecten Purpuratus
33%
Murine Model
33%
Dolichos Biflorus
33%
Sex-dependent
33%
Male Mice
33%
Extremely Low-frequency Electromagnetic Fields (ELF-EMFs)
33%
Camu-camu
33%
Infertility
33%
Chilean Population
33%
Intracytoplasmic Sperm Injection
33%
Glucosinolates
33%
NSCLP
33%
Follicle Size
33%
Phytosterols
33%
Metabolic Parameters
33%
Citrus Flavonoids
33%
In Vitro Model
33%
Flour
33%
Piper Aduncum
33%
Myrciaria Dubia
33%
In Vitro Culture
33%
Matico
33%
Neuroprotective Effect
33%
Bilateral Ovariectomy
33%
Weight Parameter
33%
Microsatellite Markers
33%
Natural Supplements
33%
Molecular Expression
33%
Adult Testis
33%
Dolichos Biflorus Agglutinin
33%
Testicular Function
33%
Hydroalcoholic Extract
33%
Subfertility
33%
Lepidium Meyenii
33%
Integrin 1
33%
Frozen-thawed Spermatozoa
27%
Fertilization
23%
Neurodegenerative Processes
22%
Intracellular Calcium
22%
Oral nutritional Supplements
20%
Weakly Positive
19%
Sham
19%
Apoptosis
17%
Subfertile
16%
Odds Ratio
14%
Spermatogonia
14%
Weight Gain
13%
Cholesterol
13%
Mitochondrial Function
13%
Free Radicals
13%
Multiplex Families
12%
Round Cells
12%
Sperm Count
12%
Simplex Families
11%
Cell Calcium
11%
Hippocampal Neurons
11%
Cellular Viability
11%
Synapse
11%
Cultured Cells
11%
V2 Protein
11%
Synaptic Plasticity
11%
N-methyl-D-aspartate Receptor (NMDAR)
11%
Cumulus-oocyte Complex
11%
Alzheimer's Disease
11%
Follicle
11%
Acrosome Reaction
11%
Cognitive Function
11%
Confidence Interval
9%
Sperm DNA Fragmentation
8%
Allele Frequency
8%
Simplex
8%
Clefting
8%
Early Differentiation
7%
Slaughterhouse
7%
Triglycerides
6%
Major Gene
6%
Menopause
6%
Body Mass
6%
Mouse Mus musculus
6%
Randomly Distributed
6%
Oxidative Damage
6%
Magnetic Field Exposure
6%
Adverse Effects
6%
Sperm Quality
6%
Damaging Effects
6%