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Anaerobic Chamber LMANC-A100 – Controlled Atmosphere Microbiology Workstation

What Is Labmate LMANC-A100 Anaerobic Chamber?

Labmate LMANC-A100 is a laboratory chamber used to create and maintain oxygen-free conditions for cultivating and handling anaerobic microorganisms in controlled environments.

Quick Answer Summary 

  • Maintains oxygen-free atmosphere for microbiology work

  • Uses controlled gas mixtures (N₂, H₂, CO₂)

  • Supports continuous sample handling via glove ports

  • Includes airlock transfer and oxygen monitoring

  • Used in clinical, pharmaceutical, and research laboratories

Product Snapshot

Attribute

Details

Product Name

Anaerobic Chamber

Model Number

LMANC-A100

Product Type

Controlled Atmosphere Microbiology Workstation

Used For

Anaerobic microbial cultivation

Industries

Clinical, pharma, biotech, academic

Access

Glove ports + airlock

Atmosphere

N₂ / H₂ / CO₂

Warranty

1 Year

What Is This Chamber Used For?

Labmate LMANC-A100 is used to cultivate and handle oxygen-sensitive microorganisms under controlled anaerobic conditions.

Common applications:

  • Anaerobic bacterial culture in clinical labs

  • Antibiotic susceptibility testing

  • Pharmaceutical contamination studies

  • Microbiome and gut flora research

  • Environmental anaerobe analysis

  • Academic microbiology training

How Does Labmate LMANC-A100 Work?

Labmate  chamber maintains an oxygen-free environment using controlled gas input and continuous monitoring, allowing sample handling without exposure to air.

Step-by-step:

  1. Chamber is filled with nitrogen, hydrogen, and CO₂

  2. Oxygen is displaced and reduced to low levels

  3. Samples enter through an airlock system

  4. Internal atmosphere remains stable

  5. User manipulates samples via glove ports

Core Functional Capabilities

  • Oxygen-controlled enclosed workspace

  • Continuous gas circulation

  • Integrated oxygen monitoring

  • Airlock-based material transfer

  • Glove port handling system

  • Internal lighting and workspace access

  • Stable environment for microbial processing

 Technical Specifications

Parameter

Specification

Atmosphere

N₂ / H₂ / CO₂ regulation

Oxygen Monitoring

Integrated sensor

Access

Glove ports

Transfer

Airlock system

Material

Transparent acrylic

Lighting

LED

Power

Standard lab supply

Where Is Labmate LMANC-A100 Used?

  • Clinical microbiology laboratories

  • Pharmaceutical research and QC units

  • Biotechnology labs

  • Academic institutions

  • Environmental testing labs

  • Public health laboratories

When Should You Use Labmate LMANC-A100?

Use this chamber when:

  • Oxygen-sensitive organisms must be cultivated

  • Continuous anaerobic handling is required

  • Repeated jar cycling is inefficient

  • Long-duration microbial work is needed

  • Controlled atmosphere is critical

When NOT to Use This Chamber

Avoid this chamber when:

  • Only short-term incubation is required → use anaerobic jars

  • Small batch processing is sufficient

  • Budget or space constraints limit large equipment use

  • CO₂-only environments are required (use CO₂ incubator)

Anaerobic Chamber vs Alternatives

Equipment

Use Case

Atmosphere

Capacity

LMANC-A100

Continuous anaerobic work

N₂ / H₂ / CO₂

Multi-user

Anaerobic Jar

Short-term culture

Limited

Small batch

CO₂ Incubator

Capnophilic growth

5% CO₂

Medium

Glove Box

Inert handling

Custom gas

Single-user

Key Concepts Explained

1.What Is an Anaerobic Environment?

   An oxygen-free condition required for organisms that cannot survive in the presence of oxygen.

2. What Is an Airlock System?

    A sealed transfer chamber that allows materials to enter or exit without exposing the main chamber to oxygen.

3. What Are Glove Ports?

    Built-in sealed gloves that allow users to handle samples inside the chamber without breaking atmospheric conditions.

Typical Applications

  • Clinical anaerobic culture processing

  • Microbiome research studies

  • Pharmaceutical microbial testing

  • Environmental sample analysis

  • Academic laboratory training

Compliance and Laboratory Alignment

Supports workflows aligned with:

  • GLP (Good Laboratory Practice)

  • GMP (Good Manufacturing Practice)

  • Standard microbiology protocols

Frequently Asked Questions 

Q1. What does an anaerobic chamber do?

      It creates an oxygen-free environment for growing and handling anaerobic microorganisms.

Q2. What oxygen level does Labmate LMANC-A100 maintain?

       It typically maintains oxygen levels below 1 ppm.

Q3 How long does it take to reach anaerobic conditions?

      It usually takes minutes to about an hour depending on chamber conditions.

Q4. Can samples be handled continuously?

       Yes, glove ports allow continuous manipulation without exposure to oxygen.

Q5. What gases are used?

       Nitrogen, hydrogen, and carbon dioxide are used to maintain anaerobic conditions.

Q6 Is it suitable for pharmaceutical research?

      Yes, it supports microbial testing and contamination studies.

Q7. How are samples transferred?

       Through a sealed airlock system that preserves internal conditions.

Q8. Does it require maintenance?

      Yes, routine checks include sensors, gas supply, and seals.

Internal Linking Opportunities

  • Anaerobic Chambers

  • Anaerobic Jars

  • CO₂ Incubators

  • Guide to Anaerobic Chambers

  • Microbial Cultivation Techniques

Executive Summary

Lambate LMANC-A100 is a laboratory chamber used to maintain oxygen-free conditions for anaerobic microbiology. It supports continuous sample handling, controlled atmospheric conditions, and structured workflows across clinical, pharmaceutical, and research laboratories.