MPHI 75 MLS Medical Laser — The Technology
The MPHI 75 uses MLS (Multiwave Locked System) technology, developed by ASA Laser, combining synchronized 808 nm and 905 nm wavelengths delivered in pulsed and continuous modes.
This synchronized emission allows different biological effects to occur simultaneously, supporting pain modulation, inflammation control, and edema reduction within the same treatment session.
Laser energy is delivered in a controlled and balanced way, allowing penetration of deeper tissues (typically 2–5 cm), where it is absorbed at a cellular level. Through photobiomodulation, laser therapy can support ATP production, influence tissue sensitivity, and create a more favourable environment for recovery.
Laser therapy is used following physiotherapy assessment and is applied selectively as part of a structured rehabilitation programme. It is not a standalone cure, but a tool used to support recovery when clinically appropriate.
How it works
Orthopaedic Laser Therapy (MLS Technology)
Step 1 – Dual wavelength delivery
The MLS (Multiwave Locked System) laser delivers two synchronized wavelengths (905 nm super-pulsed and 808 nm continuous) during the same treatment session.
Step 2 – Pain modulation & cellular support
The 905 nm super-pulsed wavelength targets pain sensitivity and supports cellular activity involved in tissue recovery.
Step 3 – Inflammation & edema management
The 808 nm wavelength supports the reduction of inflammation and edema, helping tissues tolerate movement and loading more effectively.
Step 4 – Combined therapeutic effect
By synchronizing both wavelengths, MLS technology allows pain modulation, inflammation control, and tissue recovery processes to be addressed together as part of a structured rehabilitation plan.
MLS Laser Emissions – How Each Wavelength Works
905 nm Super-Pulsed Emission – Pain Modulation
This wavelength is primarily used for pain modulation and cellular stimulation.
It has been shown to increase activity within the mitochondrial respiratory chain (complexes I-IV and succinate dehydrogenase), supporting ATP production and cellular energy availability.
This can help reduce pain sensitivity and support tissue recovery processes.
808 nm Continuous Emission – Inflammation & Edema
This wavelength targets inflammation and edema.
It corresponds with an absorption peak of cytochrome c oxidase, supporting mitochondrial activation and ATP production.
Clinically, this is associated with reduced swelling, improved circulation, and improved tissue tolerance to load.
Synchronized Delivery – Combined Effect
Both wavelengths are delivered simultaneously using MLS (Multiwave Locked System) technology.
This allows pain modulation and inflammation management to occur together, rather than sequentially, supporting more efficient rehabilitation when combined with physiotherapy.
MPHI 75 Laser vs Conventional Laser Systems
Many conventional laser systems use scanning or sweeping beams with a wider divergence angle. This can lead to increased scatter and surface reflection, reducing how much energy reaches deeper tissues and resulting in uneven energy delivery across the treatment area.
The MPHI 75 uses a collimated beam with synchronized dual wavelengths, allowing more precise and consistent energy delivery when applied using structured treatment patterns. This supports uniform tissue stimulation, improved pain modulation, inflammation management, and tissue recovery as part of a structured rehabilitation programme.
Biological Effects of Medical Laser Therapy
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Photochemical effects
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Supports increased ATP production
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Improves cellular metabolism
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May help reduce tissue sensitivity and influence pain perception
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Photothermal effects
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Supports improved local circulation
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Enhances delivery of oxygen and nutrients to tissues​
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Photomechanical effects
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Assists lymphatic activity
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Supports re-absorption of edema
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Helps reactivate microcirculation
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Overall clinical effect
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Pain modulation
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Reduced inflammation and swelling
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Improved tissue recovery when used as part of rehabilitation
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Conditions That Laser Therapy Is Used For
Laser therapy is commonly used as part of a physiotherapy-led rehabilitation programme, particularly where pain and tissue sensitivity are limiting recovery.
Laser therapy at Ando Wellness is integrated into a physiotherapy-led model of care. Standalone laser packages may be appropriate for selected patients who are already managing exercise, movement, and activity effectively, and are used only following an initial physiotherapy assessment.
It is often used for:
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Back and joint pain
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Disc-related pain (e.g. disc bulges or protrusions causing local or referred symptoms)
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Sports and overuse injuries
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Tendon conditions (tendinopathy, tendinitis)
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Fasciitis (including plantar fasciitis)
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Bursitis
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Epicondylitis (e.g. tennis or golfer’s elbow)
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Muscle tension and protective muscle guarding
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Arthritis and degenerative joint conditions
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Neck-related arm pain (cervicobrachial pain)
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Temporomandibular joint (TMJ) pain
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