Semen Analysis Umemaro 3d -
Umemoto 3D™ Semen Analysis – Patient: John D. | DOB: 03/12/1990
Date of Collection: 2026‑04‑13 08:45 h
Abstinence: 4 days
Macroscopic:
Volume: 2.8 mL
pH: 7.4
Liquefaction: 12 min (room temp)
Concentration:
78 × 10⁶ mL⁻¹ (3‑D corrected)
Motility (XYZ):
Progressive: 56 % (VSL = 45 µm s⁻¹, VAP = 52 µm s⁻¹, ALH = 5.2 µm)
Non‑progressive: 12 %
Immotile: 32 %
Beat‑Cross Frequency: 19 Hz
Morphology (AI‑Score):
Normal Forms: 4.8 % (confidence = 0.93)
Head Volume: 5.6 ± 0.3 fL (reference range 4.5–6.2 fL)
Tail Length: 45 ± 2 µm
Vitality (label‑free):
Live Cells: 72 % (based on motility‑refractive index algorithm)
DNA‑Integrity (3‑D Score):
High‑Integrity Index: 0.81 (≥0.75 = low fragmentation risk)
Additional Observations:
- 8 % of sperm displayed hyperactivated curvilinear trajectories.
- No significant agglutination clusters detected.
Interpretation (provided by laboratory director):
The 3‑D kinetic profile demonstrates borderline progressive motility with a modest proportion of hyperactivated cells, consistent with mild asthenozoospermia. Morphology is within WHO limits but at the lower end of normal. DNA‑integrity score suggests low fragmentation. Consider repeat analysis in 4–6 weeks or referral for functional testing (e.g., zona‑binding assay) before proceeding with assisted reproduction.
Prepared by: Umemoto 3D™ Laboratory Suite v2.4.1
Semen analysis, also known as a semen test, is a crucial diagnostic tool used to assess male fertility. It is a part of the evaluation of a man's reproductive health and can provide valuable information about his fertility potential. This analysis involves examining a semen sample under a microscope to evaluate various parameters.
| Aspect | Traditional 2‑D | Umemoto 3D™ | |--------|-----------------|------------| | Dimensional Accuracy | Only XY plane; depth approximated. | Full XYZ reconstruction; true head volume, tail curvature. | | Observer Variability | High inter‑observer variance for morphology and motility. | AI‑driven, reproducible scoring with confidence metrics. | | Sample Handling | Multiple dilutions, slides, and staining steps. | Minimal handling; cartridge‑based, no stains needed for most parameters. | | Throughput | 5–10 min per sample (manual). | <1 min per sample (automated). | | Data Richness | Limited to static images & 2‑D video. | Kinematic 3‑D trajectories, volumetric morphometrics, and real‑time dynamics. | | Archival | Physical slides; prone to degradation. | Digital holograms stored indefinitely; re‑analysis possible. | semen analysis umemaro 3d
The Umemoto 3D™ system expands traditional semen analysis from a static, 2‑dimensional snapshot to a dynamic, three‑dimensional portrait of each sperm cell. By delivering objective, high‑resolution morphometric and kinetic data, it enhances diagnostic precision, reduces observer bias, and opens new avenues for research and personalized male‑factor treatment. While adoption requires investment and familiarisation with novel metrics, the potential for improved clinical decision‑making and streamlined workflow makes Umemoto 3D™ a compelling addition to modern reproductive laboratories. Umemoto 3D™ Semen Analysis – Patient: John D
Prepared by: [Your Name], M.Sc. (Clinical Laboratory Science) – Specialist in Andrology & Reproductive Technology
Date: 2026‑04‑14 Semen analysis, also known as a semen test,
The mention of "Umemaro 3D" in the context of semen analysis suggests a cutting-edge approach to visualizing and possibly analyzing sperm. Traditional semen analysis relies on microscopic examination, which, while effective, may not provide detailed insights into sperm structure or behavior. Advanced visualization techniques, including 3D imaging, can offer more detailed views of sperm morphology, motility, and other characteristics.
The integration of 3D visualization (referred to here as Umemaro 3D) into semen analysis could potentially revolutionize the field by: