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Total Support for Assisted Reproductive Technology (ART) Research

Olympus microscopy solutions for assisted reproductive technology (ART) research applications range from stereoscopic microscopes used for oocyte cleaning, oocyte freezing, and embryo thawing observation to upright microscopes for sperm observation, to inverted microscopes that support ICSI/IMSI workflow and additionally embryo manipulation using lasers.

BX53, CX43

Sperm Observation

Sperm Observation*





Laser Manipulation of Embryos


Fertilization check of Oocytes and Embryos

Fertilization check of Oocytes and Embryos*

Sperm Observation

System Microscope BX53

System Microscope BX53*

Biological Microscope CX43

Biological Microscope CX43*

Sperm is typically observed by contrasting bright and dark on the sample, using phase contrast observation under an upright microscope. A common limitation of these microscopes is that their light source is not bright enough to properly verify sperm mobility. Olympus’ BX53 microscope system has a high-luminosity LED that enables users to clearly observe the mobility of sperm. In addition, since the LED light source generates low heat, damage to the sample is diminished. The ergonomic observation tubes and negative phase contrast objective for longer and clearer sperm observations help ensure comfortable microscope operation. The CX43 biological microscope, which is an entry-level model, is designed with low stage so users can keep their arms on the desk, helping reduce fatigue during long observation sessions. It is compact model with a small footprint to save space in the lab.

Comment by Kato Ladies Clinic

We use the upright BX53 microscope mainly for sperm counting and morphological observation. Sperm are counted by phase contrast observation using the SMAS (sperm motility analysis system). Olympus upright microscopes have a sufficient amount of light that does not interfere with measurement. For sperm morphology evaluation, unstained specimens are prepared by our own method and observed using 600X dry objectives. The outline of the sperm can be clearly seen, and the contrast adjustment enables us to observe and evaluate the shading of the sperm head at the same image-quality level as stained specimens. Furthermore, incorporating differential interference contrast (DIC) observation increases the clarity and improves the accuracy of sperm morphology evaluation.

Research content of this application note was prepared with the collaboration of the following user:
Dr. Kazuo Uchiyama
Kato Ladies Clinic




Inverted Microscope IX3-ICSI/IMSI

When performing intracytoplasmic sperm injection (ICSI) in an oocyte, polarization observation should be used to observe the spindle to confirm that it is in the metaphase II stage. This indicates it has become a mature oocyte, and also helps to make sure that it is in the right position to avoid damage during injection. Olympus’ IX3 inverted microscope series with its polarization technology enables users to clearly observe the appearance of the spindle. Also, Olympus' relief-contrast allows the observation of 3-dimentional oocytes in plastic dishes, which enables users to check the condition of oocyte zona pellucida.

During ICSI and IMSI, multiple observation methods and lens magnifications are used, making microscope operation more complex and less efficient and increasing the level of stress and fatigue for the user. The Olympus IX3 semi-motorized system has an ICSI-dedicated hand switch enabling the user to instantly change the observation method and magnification to suit each step in process with the touch of a button, saving time and reducing fatigue. This functionality can even eliminate certain steps of the traditional process. It also means that users don't have to take their eyes off the eyepieces, and consequently can focus on delicate manipulator operations.

With IMSI, which is a method of injecting sperm selected by morphological characteristics into oocytes, the shape, size, and number of vacuoles on the sperm head are confirmed at high magnification. This is supported by the IX3 series’ differential interference contrast (DIC) observation.

ICSI (Relief contrast) Spindle (Polarizing observation) Sperm (DIC)

Comment by Kato Ladies Clinic

Sperm used for ICSI are selected by IMSI using high-magnification differential interference contrast observation. Since implementing this method, the probability of selecting normal morphological sperm has increased compared with conventional observation using 200X or 400X objectives. Correctly choosing sperm with the normal morphology reduces the DNA fragmentation rate which may be beneficial for patient safety, for example, by lowering the miscarriage rate.

Visualization of the spindle by polarizing observation is effective for correctly measuring the timing to perform ICSI. Even when the oocyte has extruded the first polar body, successful fertilization is less likely if ICSI is performed in an oocyte without meiotic spindle visualization. Since we are able to visualize the meiotic spindle at the time of ICSI, our fertilization rate has significantly improved.
The Olympus IX83 inverted microscope can seamlessly perform a series of observations with differential interference contrast (DIC), polarization, and relief contrast, and the IX73 semi-motorized model can switch between polarization and relief contrast by the remote controller. The Olympus IX83 and IX73 are easy-to-use devices for users.

Laser Manipulation of Embryos

Inverted Microscope IX3-ICSI/IMSI

As a post-fertilization process, detailed embryo examination has an increasing number of applications, such as assisted hatching and preimplantation genetic testing for aneuploidy (PGT-A). Olympus’ IX3 inverted microscope series provides a high-quality, clear view of the oocyte by combining* the microscope with a laser system and providing a dedicated remote switch to easily optimize the contrast.

*The combination and configuration with the microscope will differ depending on the laser manufacturer.

Laser Manipulation of Embryos

        Laser manipulation in assisted hatching and PGT-A

*Samples and images data are courtesy of Cooper Surgical Inc.

Fertilization Check of Oocytes and Embryos


Research Stereo Microscope System SZX16

Research Stereo Microscope System SZX16*

Fertilized Embryo

Oocyte cleaning, fertilization checks, embryo grade confirmation, and observation during oocyte freezing and thawing are performed under a stereo microscope. Since it is difficult to see the oocyte and embryo, it takes time to find and judge the maturity level, placing a burden on the user. To help ensure the user’s comfort, Olympus SZX stereo microscope series has adjustable eye points and uses an observation tubes with a convergence angle, which alleviates eye fatigue. There are also several ergonomic accessories available for the series, such as an observation tube that can incorporate a clean bench because the mounting position of the main body and eyepiece is longer than usual.

In addition, the SZX2-ILLTQ/S transmitted light illumination base can provide appropriate contrast and uniform illumination from low to high magnification, so the condition of oocytes and embryos can be checked quickly and work efficiency can be improved. Olympus’ stereo microscope SZX series provides a comfortable microscope workspace and contributes to reducing user's fatigue and improving work efficiency. SZX2-ILLTQ/S also enables users to choose the appropriate observation method and contrast from 9 types of cartridges, depending on the application and user's preference.

Comment by Kato Ladies Clinic

Stereo microscopes are used in a wide range of applications such as oocyte denuding, oocyte and embryo observation, and vitrification-warming. Brightfield, oblique, and darkfield observation methods are used according to the laboratory procedures. Olympus' stereo microscope enables you to quickly switch all observation areas from 0.7X to 11.5 X magnification in focus, which improves work efficiency. Since optimal contrast can be selected from three fine-adjustable contrast levels, the observation of oocytes and embryos has become much easier.

We use a 0.8X objective lens and combine an ergonomic trinocular barrel (SZX-LTTR) with an intermediate magnification of 1.25x to ensure a large working space under the objective lens. As a result, work efficiency for oocyte and embryo observation and manipulation has improved. In addition, since the light source uses LEDs, it is less likely to deteriorate and is maintenance-free, which is also highly valued.

* For research use only.

이 애플리케이션에 사용되는 제품



IX3-ICSI 시스템은 체외 수정(IFV) 프로세스의 일부로서 세포질 내 정자 주입(ICSI)의 사용을 용이하게 하도록 설계되었습니다. Olympus의 릴리프 콘트라스트 방식은 플라스틱 접시에서 3D 난모세포를 관찰하여 투명대 상태를 확인할 수 있도록 지원합니다. IX3 반전동 시스템에는 버튼 터치만으로 관찰 방법과 배율을 즉시 변경할 수 있는 ICSI 전용 핸드 스위치가 있습니다. 편광 방법을 사용하여 스핀들 및 스핀들 위치를 관찰함으로써 난모세포 성숙도를 확인하고 주입 시 손상을 방지하며 미분 간섭 대비(DIC)를 통해 형태를 기준으로 선택된 정자의 세포질 내 주입(IMSI)을 수행할 수 있습니다.

  • 보다 원활한 ICSI 워크플로에 최적화
  • 스핀들 시각화를 통해 난자 상태를 쉽게 확인
  • 전동식 작동을 통해 ICSI 단계 간소화
체외수정(IVF)를 위한 도립 현미경


  • 체외수정기술(IVF)의 원활한 ICSI 워크플로에 최적화
  • 스핀들 시각화를 통한 간편한 난모 세포 상태 확인
  • 전동 작업을 통해 간소화된 ICSI 단계
반자동 형광현미경


  • 손쉬운 multi-color 형광(Fluorescence) 영상 획득
  • 모듈 컨셉은 개별 구성 요소들의 전동화를 가능하게 함.
반전동식 형광 현미경


  • 고광도 트루 컬러 LED 조명
  • 모듈식 개념을 통한 개별 부품의 전동화
  • 멀티 컬러 형광 이미지를 간편하게 획득
생물 현미경


  • 인체공학적 설계
  • 다재다능한 응용에 이상적
  • 장수명 LED 조명
연구용 실체 현미경 시스템


SZX16 연구 입체 현미경을 사용하여 전체 유기체의 이미지를 거시적으로 관찰할 뿐 아니라 개별 세포 구조를 미시적으로 관찰할 수 있습니다. 폭넓은 줌 비율(16.4:1)은 1X 대물렌즈의 경우 7x~115x의 배율을, 2X 대물렌즈의 경우 최대 230x 배율 범위를 제공합니다. 아포크로마틱 광학 장치 덕분에 미세한 세부 사항을 명확하게 관찰하고, 전체 배율 범위에서 수차로 인한 흐림을 줄이며, 0.3개구수(NA)로 mm당 900개라는 높은 라인 쌍해상도를 제공합니다.

  • 암시야, 명시야 편광, 경사 및 고급 형광 관찰을 제공하는 고급 모델
  • 인체 공학적 설계와 수동 및 자동 조작, 주입 도구를 위한 충분한 공간 제공
  • 에너지 효율적이고 수명이 긴 LED 투과광 조명 베이스 옵션 2개

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