By Dr Anne Fawcett
This post was originally published on Small Animal Talk November 7th 2014.
|My desk on the day. Combine this with a good tutor and this is my idea of a productive day off.|
Last week I attended a workshop on suturing. Suturing, you ask? Isn’t that something you should know already? Yep, and I’ve done it pretty much most days for the last ten years. All the more reason to tweak and refine – a process which really shouldn’t end.
Dr Ilana Mendels, founder of VetPrac, thinks the same way. So she organised a half-day suture workshop. It was attended by new and recent graduates – veterinarians one or less years out of university – but also a range of experienced vets, with ten, twenty or more years of practice.
One thing many outsiders don’t realise is that while employers provide some expenses for veterinary continuing education, it’s often done on a vet’s day off, and at their own expense. I’m a big believer – where possible – in investing in one’s own education and training.
So our little group gathered under the tutelage of surgical specialist Andrew Marchevsky, from the Small Animal Specialist Hospital. His surgical caseload is incredible. He generally doesn’t find himself performing routine desexing procedures, but tends to take on things like spinal surgery, radical oncologic surgeries and skin reconstructions. And he’s not above obsessing about sutures. In fact, that’s what makes him a great surgeon.
During the workshop, we were provided with surgical instruments and an endless supply of different types of suture material.
What did I learn?
Complications occur in the best hands. Even with the best surgeons, the best instruments and the best facilities, intestinal resection and anastomoses break down in at least 10 per cent of cases – and that’s a statistic from the human medical field. Second surgeries are not uncommon and – even where we think it is unlikely – we should inform owners that this is a possibility.
In general, Australian veterinarians at least use suture that is too thick. According to Dr Marchevsky, we should be using finer suture – 3/0 in the gut, 4/0 for cats. He believes 2/0 is too thick for skin and ligatures in most cases.
The aim of skin sutures should be for gentle apposition ONLY. There should be no tension and they should be slightly lose when placed.
Suture materials are categorised by the length of time it takes for 50 per cent of the original strength to be lost. Bladder is the only tissue that returns to 100 per cent of its original strength following surgery (14 days, in fact). Skin takes around 365 days to get to 70 per cent of its original strength.
Dr Marchevsky feeds animals following intestinal surgery sooner rather than later. It was once argued that animals should be fasted for at least 48 hours to prevent leakage of the surgery site. That ignores the fact that around 1L of gastric juices are produced every day and have to go somewhere. “They don’t leak because you feed them,” he said.
When closing the linea alba, the less muscle you include in the sutures the better. The external fascia is the tension holding layer and this should be the focus.
Dr Marchevsky is a big fan of intradermal sutures and demonstrated his technique. He talked about the pros and cons of different suture patterns and did some troubleshooting.
For the nerds out there, I had also forgotten just how much physics and chemistry is involved in suture design and production. And it was also a nice opportunity to review the history of sutures. For example, absorbable sutures were introduced in the 1970s. These days sutures are sterilised with gamma radiation or ethylene oxide, depending on the material they’re made of.
Sutures are absorbed by hydrolysis, leading to gradual disappearance of the thread over a particular time.
We were taught to almost uniformly avoid braided sutures because they cause tissue drag and potentially a saw effect when they thread through tissue, but advances in coating such materials mean this is a reasonable choice in some cases. Capillarity of the suture is defined as the ease through which fluids can be wicked along the thread…its present to high in multifilaments due to “the loose intersticies of their fibres”, and monofilaments have no capillarity.
Braided suture is more flexible and has less memory than monofilaments, making it easier to use. (Memory is the capacity of the thread to return to its former shape. Thread memory has an impact on the way we USE suture, ie if it has more memory it likes to tie itself in knots spontaneously, which can frankly be a pain).
Knot security is determined by knot fixation which depends on: thread stiffness, coffecient of friction, elasticity and plasticity. According to the experts at B Braun, knots should have at least three loops with 3mm long ends. Cutting down those “ears” to make it neater isn’t helpful beyond the 3mm mark! What was interesting is that there remains a lack of consensus about knots. According to the B Braun literature, “it is commonly accepted that 4 knots are necessary for securing a braided suture and 6-8 knots are required in the case of a monofilament suture”.
Knot tensile strength is usually 30-50% less than the linear tensile strength of a suture – hence the need to get it right.
Thread gauge is standardised according to the European Pharmacopoeia decimal classification, although the packets us the United States Pharmacopoeia classification.
|USP||EP (Decimal)||Thread gauge in mm|
From “Suture Glossary” – B Braun
The diameter applies to both needle AND thread. Suture glide describes how well the suture passes through tissue, and, to throw some physics around “is a function of its coefficient of friction”. Monofilaments have better glide.
Definitely a course I would recommend!