Everything you need to know about SAFE Sens


Your guide to a smarter way to monitor pH

Everything you need to know about SAFE Sens

The importance of measuring pH

The embryos are fragile little beings and have a limited ability to regulate their internal pH (Swain, 2010). Embryos cannot regulate pH until it becomes a blastocyst at Day 5. Thus, it is important to put careful attention to external factors that affect pH of the culture media in IVF. Improper parameter set-points in growth conditions are stressors to a developing embryo and might be detrimental to its growth. Another source of stressor is periodic fluctuation in environmental conditions, which could be due to unstable incubator parameters. Perturbations can result in abnormal morphological developments and arrest in embryo envelopment. Hence, it is important to ensure that the incubator you buy provides the optimal pH condition.

An acceptable pH may be set between 7.2 and 7.4. Raising above pH 7.4 or lowering at about pH 6.8 in mouse embryos for 3 hours have shown to disrupt localization of mitochondrial and actin microfilaments as compared with the controlled setup. It has been observed as well at alkaline condition (Swain, 2010).

 

Measuring pH versus Monitoring pH

It is important to note that pH is dynamic, and it can change rapidly. The pH is influenced by the association-dissociation of compounds in the media, which is brought about by factors such as temperature  (Swain, 2010). Measuring pH at certain time-points might not provide the overall status of the environment where the embryos are incubated. And any problematic fluctuations in environmental conditions that is unrecorded may be damaging to the embryos. The pH tracking over time discloses the quality, stability and safety of the biologic being measured.

Below is a graphical comparison between daily pH measurements versus SAFE Sens monitoring. On the weekend, it has been noticed that the pH went up to near borderline of 7.4, which was not recorded with spot pH measurement. The SAFE Sens pH monitoring was able to provide a historical trend data which allows embryologists to know immediately if their embryo culturing environment is changing and to what extent.

 

Here are some other pH profiles that are only possible with SAFE Sens monitoring.

 

Comparative Table to see the benefits of a pH Monitoring Technology

You can find below a comparison among different pH measurement tools with its pros and cons. Clearly the SAFE Sens provides the following benefits over the conventional pH tools: (a) a decrease in time spent on pH protocols, (b) data trending to optimize media pH equilibration time, (c) having out of range email alert system, and (d) being noninvasive due to non-usage of petri dish and constant opening of the incubator.

 

 

Conventional pH Tools

pH electrode probe

Conventional pH Tools

Blood Gas Analyzers

TrakStation®

Monitoring Tecnology

Calibration Required

Yes

Calibration required prior to every use

Yes

Calibration required prior to every use

No

30 second weekly fluorescent alignment

Labor Time Cost

10 – 15 minutes per calibration

5 – 10 minutes per calibration

Less than 5 minutes per 7 days

Temperature Dependent Accuracy

Yes

Automatic Temperature Compensation required

Yes

Body Temperature Sample

No

Fluorescent Technology not affected by temperature

Invasive Product

Yes

Yes

No

Data Storage Capabilities

Limited if Any

Limited if Any

Testing Data is Easy to Access

Out of Range Alert System

No

No

Yes

Email alert system

Culture System pH Trending

No

No

Yes

Uses Data Trend Graphing

*Source of Table: BCSI (manufacturer of SAFE Sens technology)

 

Why SAFE Sens?

SAFE Sens (Streile, Automated Fluroscopic Evaluation) offers fast, effective, and non-invasive continuous pH monitoring product for in vitro fertilization (IVF). The SAFE Sens Technology employs an optical fluorescent measurement technology, used in combination with disposable sensors, which accurately and reliably monitors the pH of small volumes of fluids such as the media used in the IVF.

Components and Parts

Components and Parts

Description

Photo

SV2 Sensor

The SV2 Sensor is a small surrogate vessel into which you put a sample of the media for pH tracking. It’s a single use sensor that can be used up to seven (7) days of pH readings.

Fiber Optic Fixture

The Fiber Optic Fixture is the part where the SV2 sensor fits into. The machine reads this result and calculates the pH of the media sample. You can set the timing  of this measurement to be once per minute or once every 30 minutes.

QC2 Alignment Tool

The QC2 Alignment Tool is a fluorescent standard used for System Alignment and Quality Control. The alignment requires no buffer solutions.

 

It is mandatory to have at least one QC2 alignment tool per lab.

 

SAFE Sens TrakStation

The SAFE Sens TrakStation provides real-time information of pH measurements. The TrakStation can be connected to eight (8) incubators by using a USB 3.0 Hub.

Notes:

1) One QC2 alignment tool can be used on all incubators. If incubators are located in separate rooms, you may have to order more than one QC2 tool.

(2) QC2 Alignment tool and SV2 sensors have an expiration date of one (1) year.

(3) The Miri with SAFE Sens automatically comes with free one (1) pack of SV2 sensor, which is to be used for Site Standardization. Please determine how many additional packs you need for routine pH testing . Put into consideration that the SV2 sensor has one year expiration date. See page 4 for stock-keeping matrix

(4) One TrakStation can connect up to eight (8) incubators by using a USB 3.0 Hub. Determine how many PC tablets you need. (To be Announced)

(5) The Esco datalogger should be installed separately on another Windows PC/ tablet. Please see page 4 for the minimum requirements.

 

Frequently Asked Questions

1. How often should I replace the QC2 alignment tool?

The alignment tool should be replaced every year.

2. I have 6 Miri® incubators. Do I need to have 6 QC2 alignment tool too?

One QC2 tool can be used for all incubators.

3. Is the preparation for the SAFE Sens setup the same for both Miri® and Mini Miri®?

The preparation for the culture media will be different for both Miri® and Mini Miri®.

Incubator

Incubator Type

Culture Media

Oil Overlay

Mini Miri®

Humidified (wet)

100μL

50μL

Miri®

Dry

100μL

150μL

4. How often does the SAFE Sens device measures pH?

By default, SAFE Sens will measure pH every 30 minutes for up to seven (7) days. Frequency of measurement can be changed in the settings to meet your requirement.

5. Are buffers needed to calibrate the SAFE Sens device?

No need for buffers. The QC2 alignment tool is designed for easy calibration.

6. How many incubators can I connect to one datalogger PC?

You can connect up to eight incubators to one SAFE Sens TrakStation using a USB 3.0 Hub.

7. Why do i need two separate computers for SAFE Sens and Esco Datalogger?

The SAFE Sens software operates on a different environment from the Esco datalogger and cannot be integrated together. The TrakStation is for pH monitoring while the Esco datalogger is for the other parameters such as temperature, gas concentration and overall incubator performance record.

8. What’s the minimum PC requirement for the Esco Datalogger?

*Windows 7 or Higher

*USB 2.0 port for each connected device

*Tablet PC or desktop PC

9. Can i provide my own tablet for the SAFE Sens pH monitoring?

We cannot guarantee continuous and full functionality of the device. Hence, we recommend you to buy the SAFE Sens TrakStation, which is already loaded with the software for pH monitoring.

 

SAFE Sens Ordering Guide

Want to know more details on how to order your Miri or Mini Miri Incubator with SAFE Sens? Download this flyer now.

 

References

Swain, J. E. (2010). Optimizing the culture environment in the IVF laboratory: impact of pH and buffer capacity on gamete and embryo quality. Reproductive BioMedicine Online, 21, 6-16.