News & Events
An Update on Intramuscular Fat Measurement for Live Sheep
26 November 2024
Following the completed proof-of-concept project with MLA, we believehave shown that with accurate positioning of the Marbl™ sensor, measurement of IMF in live sheep is possible. We are excited to embark on the next step of this journey. Successful commercialisation will provide confirmation of genomics around IMF, an eating quality trait.
Marbl™ for Live Cattle IMF Measurement - Proof of Concept
25 November 2024
We’ve now wrapped up our first trials of a Marbl™ sensor for % IMF measurement of live cattle. We integrated the sensor into a handling crush and assessed the system for useability. The sensor was designed to measure 180cm3 within the shortloin and on a limited data set, accuracy was estimated at <3%. Significantly, the trials demonstrated that measuring IMF across various cattle breeds and sizes is feasible, showing the potential for Marbl™ to be used to grade cattle for IMF.
Marbl™ for Live Cattle IMF Measurement - Proof of Concept
25 November 2024
Our guest on the podcast this week is Barbara Webster, co-founder of inMR. Barbara shares with Mark how inMR's Marbl™ technology uses nuclear magnetic resonance to measure intramuscular fat quickly, accurately and non-invasively, delivering a new standard to the industry.
In the last few years, the technology has been successfully implemented in lamb-carcass grading. inMR are in the process of adapting it to other applications, such as beef carcasses and live animals.
While MRI technology has been around for a while, Barbara shares the challenges of adapting this technology for industrial use in a meatworks environment. One such challenge is speed. Their current model measures around four to five carcasses a minute. One of their development projects is a twin-sensor system that will measure 10 to 12 carcasses a minute.
Fortunately, another common challenge frequently faced by the industry - labour shortages - has been less of an issue for inMR. They chose to pursue an automated process, with data feeding directly into the system, rather than relying on someone standing there to do the measuring. “The weight of our sensor took us down that path, but I think it's a key point of difference and adds a lot of value,” shares Barbara.
Barbara points out that funding from organisations such as MLA and SFF Futures, along with investment by Ovation New Zealand, have been instrumental in advancing these innovations. “We've been very lucky and we've had tremendous support from funding agencies that invest in new technology development,” explains Barbara.
With the continuous innovation in robotics, sensors and AI, the next decade is going to be very interesting when it comes to tech in agriculture. Current technologies such as x-ray scanning and robotic cutting - along with emerging applications for MRI - are already in use. Mark and Barbara both share the belief that AI opens up doorways for automation and innovation like never before. "I think we're going to see a huge leap forward because our ability to cope with naturally varying product for automation applications is going to only become easier now with those tools,” highlights Barbara.
Whether you are a meat industry professional, a technology enthusiast or simply curious about the future of food production, make sure to tune in to this episode to learn more about the cutting-edge technologies that are set to transform the meat industry!
Head Shepherd is brought to you by neXtgen Agri International Limited. We help livestock farmers get the most out of the genetics they farm with. Get in touch with us if you would like to hear more about how we can help you do what you do best: info@nextgenagri.com.
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Live Cattle %IMF results being presented at MRPM 2024
27 August 2024
Our Live Cattle IMF measurement work is being presented at an international NMR conference this week. The abstract for the work can be found here. In brief, the overview is as follows.
The Live Cattle bespoke Marbl™ sensor was fitted to a modified crush and was designed to measure within the highly-valued shortloin. As seen in the photo, the sensor is large. We needed the size to measure within the muscle – similar to an MRI. A volume of 140cm3, starting about 20mm beneath the skin, was being measured with this sensor design.
Being a prototype system, refinements were required to get to the first results. Beyond that, animal movement was a dominating factor. This wasn’t unexpected and although we had a setup to manage movement, animal throughput was set by other doing routine animal monitoring. So, on average 3 minutes to get the animal in, settled and measured. Not bad in itself.
There was sufficient decent data to demonstrate the potential when compared with parallel gold-standard chemical IMF measurements after slaughter. Chemical IMF ranged from 3-15%.
There is more work to do, but for context, it was only 3 years ago when we were in a similar position with our lamb carcase-grading Marbl™ sensor. That sensor is now proven in-line, in a processing facility. So, this feels familiar.
Finally, thanks to MLA for co-funding this work. Our final report will be on their website soon.
Marbl™ in action on a live cattle - looking back
Marbl™ in action on a live cattle - looking forward.
Exciting Update: Marbl™ Trials Show Promising Results for Measuring Marbling in Lambs
9 August 2024
Want to know an animal’s IMF levels before processing? Well, our recent on-farm measurements of lamb bring that one step closer.
Using our non-invasive Marbl sensor and two trial setups, we verified that when the sensor is well positioned, the results were good. Each animal was measured in 10-15 seconds once in position.
The shearer-setup delivered the best results on the day, but we're targeting the handler-style setup, with Marbl™ on the spring-balance, for further work as it should prove more reliable and consistent in the long run.
Check out our video showcasing both methods in action and stay tuned for more updates as we continue to refine and enhance Marbl™!
Hot grading of lamb using IMF – the learnings, 1 year on
10 July 2024
It’s approaching 1 year since we installed our first single Marbl™ sensor at Ovation’s Gisborne processing plant for hot-grading lamb carcases for Intra Muscular Fat (“IMF”), so what have we learnt?
First some results and context. Nearly one year on, we’ve found the average IMF varies by day. Now, close to the end of this NZ season, the daily average is typically from 3.5 to 4% IMF, and each day there are a portion of animals measuring in the 5 to 7% IMF range. For context, this compares with a scientific study in 2014/2015, where the mean in a NZ study was 2.7% IMF and the range 0.9 - 6.4%.
More on the data in future posts, but for now; what are the learnings for a start-up business in making this happen?. The top key learning is an experienced team, partnering and good design have ensured robustness and success.
To our knowledge, this is the first magnetic resonance system operating in such an ‘industrial’ application for routine measurement. We expected challenges as our risk-register was initially long. The top few risks were around not impacting plant production, meeting the required cycle time (4-5 carcases/minute), managing electromagnetic noise interference and ensuring durability and robustness for the volume of carcases and daily washdown. One year on, we’ve worked through and managed them all. But most significantly, the Marbl™ sensor, has worked a charm. Being a first of, we’re chuffed with the system and it’s performance. A credit to the career-long, applied NMR skills of Evan McCarney and Robin Dykstra (in our team), combined with a well-designed spectrometer from Resonint (another credit to Robin) and the engineering capability of Advanced Engineering Solutions.
Also, we could not have taken magnetic resonance to this application without the benefits of automation. Measuring by carcase, with thousands of carcases processed daily, automation ensures that the measurements are made without the need for any labour input.
Finally, we could not have achieved this without the support of Ovation New Zealand and Sustainable Food and Fibre Futures.
Marbl™ in action on a lamb carcase.
Our IMF Backstory – in brief
24 May 2024
To date we’ve specialised in non-invasive IMF measurement. From 1% to over 20%, lamb or beef, hot or cold, we’ve measured it with our Marbl™ sensors and referenced to a gold standard infrared laboratory method.
The lamb loin photos show the variation in IMF coming through a processing plant in a day of testing using our hot lamb grading system. We were selecting for IMF range to validate our system.
The beef striploin photos show a variation from 2% to 22%IMF. We’ve measured this range both in a lab and alongside the boning room conveyor belt. For the latter, we rolled our mobile Marbl™ unit into a boning room and selected and measured striploins from the belt. Measuring over 20% IMF, or above marble score 9, is also possible as we directly and quantitatively measure the fat.
So, we’ve got the range of IMF covered and in addition we measure hot (live animals or recently slaughtered animals) or cold (carcases from the chiller, or primals from the boning room). This gives us the option of using the same sensor along a value chain. It’s the ‘hot’ verification work that underpins Marbl™ live for cattle and sheep.
With the support of AMPC and MLA, we continue to work on key proof points and demonstrate the accuracy and versatility of magnetic resonance.
Examples of lamb loin IMF. Left 3% and right 10%
Examples of beef striploin IMF. Left 2% and right 22%.
Marbl™ Live – some of the backstory
21 May 2024
You might be wondering how we’ll go measuring the range of beef marbling scores in live cattle. Our striploin boning room work is our guide. In this work we’ve calibrated against the industry gold standard infrared method to over 20% IMF (i.e. marble score 9 is 21% IMF). But we can go higher – our limit here was what was on the boning room belt on the day of testing.
Here’s the calibration for that work, where we rolled our mobile Marbl™ unit into a boning room and selected and measured striploins alongside the belt
Another key context is temperature. The boning room work was conducted cold, while our live measurements are at body temperature. We'll discuss that further in the future, but for now, we’ll keep it simple by noting that we’ve proven hot lamb carcase measurement.
We wish to thank AMPC for supporting these new applications of magnetic resonance, allowing us to achieve this proof point and demonstrate the method's accuracy and versatility.
Striploin boning room calibration results
Example of the IMF within a selected striploin
Live Cattle IMF Measurements - An update
1 May 2024
We’re doing it – measuring intramuscular fat of live cattle!
This is an exciting new application of Marbl™, but not too far from our hot carcass IMF grading and beef work. The photo shows our prototype Marbl™ Live sensor in use, making our MRI-like measurement. We directly measure the intramuscular fat; no image analysis is needed.
Going forward we will continue measuring more cattle and referencing against gold standard laboratory %IMF measurements. Our goal is to achieve objective IMF measurement for producer decision making.
Thanks to MLA and UNE for their support. Follow us to track our progress.
Prototype Marbl Live™ sensor in use, measuring cattle IMF
Automated IMF at 8-12 carcases per minute - our next step
26 March 2024
We are pleased to announce we’re underway with realising hot, automated IMF measurement for higher throughput lamb-processors. Our concept includes twin-Marbl™ sensors and pairs of carcasses being measured at the same time to accommodate chain speeds of 8-12 carcasses/minute.
AMPC & MLA are supporting a project to demonstrate this system, in use, on the main chain, in a processing facility in Australia.
If you’re a processor targeting MSA eating quality pathways and are keen to be involved, then please contact AMPC with an expression of interest.
Twin-Marbl™ Sensor Prototype
Hot-lamb %IMF grading: over 100,000 carcasses automatically measured
15 February 2024
Are you a lamb producer/processor who wants to differentiate product but has been constrained by equipment and staff to operate it? Our new automated system may be the solution.
Following our trial-project announcement in March 2023, we’ve proven our system and validated IMF measurements in-line, across two seasons. Over 6 months we’ve measured well over 100,000 carcases at the end of the slaughter-floor.
Our single sensor system is suited to processors operating at chain speeds of 4-6 carcases/minute. As the system is fully automated, if staff numbers are down, no compromising on value-adding data.
We’re doing a soft launch of our lamb system and wish to talk with interested processors and producers who want to position their top-end product above the rest.
A system for faster chain speeds and equipment accreditation is a work in progress so follow us for further updates!
Live Cattle IMF Measurements - On it’s way!
7 February 2024
It’s been a mission but we’re excited to soon be trialing our new, prototype gear to measure the IMF of cattle. Here’s a photo of the gear all packed down into the base of our modified crush.
And, before packing down, this is what the system looked like. Here, you can see “Marbl™ Live” in its rest position, fitted to a sensor mount and manipulation assembly. Anthony, our technician, stepped into the photo to provide some context of scale. With our prototype and our in-line lamb work, we’ve shown our Marbl™ sensor can accurately measure %IMF, and we’re looking forward to working with a wider team including Advanced Engineering Solutions and the University of New England to make our MRI-like measurements. Thanks to Meat & Livestock Australia for their support of this project.
Marbl™ Live packed down into the base of a modified crush
Anthony standing within the Marbl™ Live
inMR's sharing with the International Science Community
5 October 2023
Were you aware that our automated, non-invasive intramuscular fat (IMF) lamb grading system is taking magnetic resonance into new territory? We're leveraging its maturity and accuracy as a proven method, it's speed and robustness to tailor it's use in the meat industry.
Over the last month, we've proudly shared our new application of magnetic resonance internationally. Our CTO, Evan McCarney presented our work on the hot lamb grading at the International Conference on Magnetic Resonance Microscopy Materials, Molecular Processes and Engineering in Singapore, and our Technical Director, Robin Dykstra responded to an invitation to publish a peer-reviewed paper titled Automated Eating Quality Measurements on Lamb Carcases in a Processing Plant Using Unilateral NMR (published in Applied Magnetic Resonance).
In a scientific domain where much is known, it's exciting to be pushing the boundaries and that's the feedback we've received. With time, we'll be taking the technique further, from IMF measurement of carcases to IMF measurement of live animals and then, to other meat-eating quality traits - there's a lot of additional information in a magnetic resonance signal and we're only getting started.
We've just opened our LinkedIn account, so click below to stay up to date and follow our progress.
Marbl™ for Live Cattle
4 September 2023
inMR is broadening the potential of the Marbl™ non-destructive IMF sensor, from use for hot lamb carcase-grading to live cattle. This work has the support of MLA and was a successful response to a call for tender to develop solutions for objective measurement of live animals.
Six months in, we’re well advanced with the build. We now have a Marbl™ sensor for beef, and this will be integrated into a modified crush. Testing to prove the use on live cattle is planned for November 2023 – February 2024. We’ll be cross-referencing our live measurements with IMF at slaughter across different cattle breeds following 100 days and 300 days on feed.
This project highlights the versatility of our Magnetic Resonance technology. It can be used for lamb and beef, and it can be used for hot or cold non-destructive grading. Lamb carcases are graded hot at the end of the slaughterfloor in our automated equipment – the ‘hot’ measurement gives processors grading information at the start of manufacturing and opens the door to sorting and manufacturing by grade. Taking the same technology further back in the value-chain, onto the farm/feedlot, to inform producer decisions gives a significant point of difference as an IMF measurement technology that can both grade hot carcases and measure live animals.
inMR is delighted to be able to bring a mature and proven technology to new applications. We do so thanks to our deep understanding of Magnetic Resonance and materials handling equipment.
We’ll be sharing results from our Live Cattle trials next year, but please contact us sooner if you’re interested in learning more.
Ovation NZ partners in ground-breaking research of IMF measurement programme
3 March 2023
Ovation New Zealand Ltd (Ovation) is partnering with inMR Measure Ltd (inMR) to test the development of an Intramuscular Fat (IMF) lamb grading technology, with support and co-funding from the Ministry for Primary Industries’ Sustainable Food and Fibre Futures (SFF Futures) fund.
New sensor tool helps to measure eating quality in sheep meat
21 April 2023
Developed by inMR Measure, the Marbl™ technology tool uses a single-sided nuclear magnetic resonance sensor alongside the longissimus muscle to capture IMF measurements. The sensor tool can be installed into existing carcase handling equipment to measure hot carcases.
Ovine IMF measurement production prototype
3 March 2023
AMPC worked with inMR Measure to design and build a prototype system for non-invasive, automated, percentage intramuscular fat (IMF) measurement of lamb and to prove application in processing plants.
Prototype Single-sided NMR for non-destructive IMF measurement
29 June 2022
This project developed, tested and delivered positive proof-of-concept that an NMR configuration suitable to use on uncut lamb carcases has shown potential to provide this measurement.
IMF of primals – end of processing line measurement using NMR - stage 2
29 June 2022
AMPC partnered with inMR Measure to trial a magnetic resonance sensor to conduct intramuscular fat measurements (IMF) of sub-primal cuts in a beef boning room.
Bovine IMF measurement production prototype stage 1
25 June 2021
This project funded the investigation of how Nuclear Magnetic Resonance (NMR) technology can be extended and implemented to measure beef carcases in a meat processing plant