Tokyo Boeki Biolis 30i or HumaStar 300SR - which clinical chemistry system to choose?

Choosing between the HumaStar 300SR and Tokyo Boeki Biolis 30i clinical chemistry analyzers depends on several factors and the specific needs of your laboratory. To determine which choice is more appropriate for your situation, it is important to consider the following critical aspects:

Company HUMAN

Tokyo Boeki Medisys Inc.

Model HumaStar 300SR Biolois 30i

Throughput max. tests/h

300 270
Reagent positions 40 36 (24 removable)
Reagent cooling 13°C below RT Yes
Sample positions 60 30
Sample barcode reader Internal Optional
Cuvettes 80 re-usable Bionex Wash station semi-disposable
Water consumption (l/h) < 3 3.8

* All information is correct as of December 2023

 

 

 

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Throughput efficiency

Efficiency is critical for clinical chemistry analyzers in laboratories that handle varying sample volumes. In high-volume environments, choosing a high-throughput analyzer is critical to meeting the specific needs of the laboratory without experiencing bottlenecks or underutilization. In high-throughput environments, the ability to process numerous tests in a given time frame is critical to overall efficiency and timely reporting of results.

  • HumaStar 300SR: Demonstrating a robust maximum throughput of 300 tests per hour, the HumaStar 300SR excels in high-volume testing environments.
  • Tokyo Boeki Biolois 30i: Offers a maximum throughput of 270 tests per hour, suitable for laboratories with moderate sample volumes.

Reagent Positions

The availability of reagent positions plays a critical role in supporting laboratories performing a wide variety of tests. An increased number of positions not only allows for greater testing flexibility, but also reduces the need for frequent reagent changes. This feature is particularly important for laboratories seeking efficiency and versatility in their testing processes. A higher number of reagent positions allows laboratories to run a wide range of tests without frequent reagent changes, improving workflow efficiency and minimizing errors associated with reagent changes.

  • HumaStar 300SR: With 40 reagent positions, the HumaStar 300SR provides versatility in conducting a diverse range of tests, minimizing the need for frequent reagent changes.
  • Tokyo Boeki Biolois 30i: Equipped with 36 reagent positions, including 24 removable positions, providing flexibility for various tests.

Reagent cooling

Reagent stability is fundamental to the accuracy of clinical tests, and the use of reagent cooling mechanisms is essential, especially for tests that are sensitive to temperature fluctuations. Maintaining reagents within specific temperature ranges ensures their integrity, contributing to accurate and reliable test results. Temperature-sensitive tests common in clinical chemistry require stable reagents for accurate and reliable results. Reagent cooling is a critical feature that ensures optimal temperatures are maintained, preserving reagent integrity throughout the testing process.

  • HumaStar 300SR: Ensures stable reagent temperatures at 13°C below room temperature, providing an optimal environment for preserving reagent integrity.
  • Tokyo Boeki Biolois 30i: Incorporates reagent cooling, contributing to stable reagent conditions for accurate and reliable test results.

Sample Positioning

Strategic sample positioning is essential for laboratories managing fluctuating sample volumes, and ensuring an adequate number of sample positions is critical to efficiently processing all patient samples, mitigating the risk of sample backlogs, and maintaining operational fluidity. Ensuring an adequate number of sample positions is critical to preventing bottlenecks in the testing process, especially for laboratories that handle fluctuating sample volumes. Efficient sample positioning not only reduces the risk of sample backlogs, but also improves the overall workflow for timely and accurate testing.

  • HumaStar 300SR: Boasting a sample capacity of 60 positions, the HumaStar 300SR is suitable for laboratories managing higher sample volumes.
  • Tokyo Boeki Biolois 30i: Provides 30 sample positions, catering to laboratories with moderate sample volumes.

Sample barcode readers

Increasing the integrity of the testing process is achieved through the integration of sample barcode readers. These readers reduce the risk of sample mix-ups and ensure that results are accurately linked to the appropriate patients. This feature is especially critical for high-volume clinical laboratories, as it increases overall testing accuracy and reliability. In high-throughput laboratories, integrating specimen bar code readers is a key strategy for minimizing the risk of errors. By accurately linking results to their corresponding patients, barcode readers contribute to the overall reliability and integrity of the testing process.

  • HumaStar 300SR: Equipped with an internal sample barcode reader, enhancing the accuracy of sample identification.
  • Tokyo Boeki Biolois 30i: Offers a sample barcode reader as an optional feature.

Cuvettes

The type and capacity of cuvettes used in clinical chemistry analyzers have a significant impact on consumable costs, the number of tests performed before cuvette replacement, and the overall environmental footprint. A nuanced understanding of cuvette configuration is critical to making informed decisions that balance cost effectiveness and operational efficiency. Cuvette selection has a direct impact on the operating costs and environmental impact of laboratory practices. Choosing reusable cuvettes over disposables not only reduces consumable costs, but also minimizes waste. A well-thought-out cuvette configuration contributes to a more sustainable and cost-effective laboratory operation.

  • HumaStar 300SR: Utilizes 80 re-usable Bionex cuvettes, contributing to a larger cuvette capacity and cost-effective operational practices.
  • Tokyo Boeki Biolois 30i: Utilizes a wash station for semi-disposable cuvettes, providing an alternative cuvette type with potential cost considerations.

Water Consumption

Monitoring water consumption is emerging as a key aspect of responsible laboratory management. Controlling operating costs and minimizing environmental impact are achieved through strategies that reduce water consumption. Implementing measures to reduce water consumption not only results in cost savings, but also aligns with the laboratory's sustainability efforts and contributes to a more environmentally conscious operation. Reducing water consumption is a proactive measure in laboratory sustainability that contributes to cost savings and environmental protection. It aligns with broader efforts to create greener laboratory practices and supports a responsible approach to resource management.

  • HumaStar 300SR: Boasts a lower water consumption rate of less than 3 liters per hour, contributing to cost efficiency and environmental sustainability.
  • Tokyo Boeki Biolois 30i: Demonstrates a water consumption rate of 3.8 liters per hour.

Considerations

  • HumaStar 300SR: Recognized for its remarkable sample capacity, cost-effective use of Bionex reusable cuvettes, and commitment to environmental sustainability.
  • Tokyo Boeki Biolois 30i: Offers slightly lower throughput, but offers flexibility with removable reagent positions and an optional sample barcode reader to accommodate specific laboratory preferences.

In summary, the decision between the HumaStar 300SR and the Tokyo Boeki Biolois 30i should be based on the specific priorities and needs of your laboratory. Factors to consider include test volume, the range of tests required, water consumption, the importance of a sample barcode reader, and cuvette preferences in your testing procedures. The additional information provides insight into the specific strengths of each analyzer, allowing you to make an informed decision based on your laboratory's unique needs.