BELOW KNEE AMPUTATION

Introduction

A below-knee amputation (“BKA”) is a transtibial amputation that involves removing the foot, ankle joint, and distal tibia and fibula with related soft tissue structures. In general, a BKA is preferred over an above-knee amputation (AKA), as the former has better rehabilitation and functional outcomes. The rates of lower extremity amputation have declined in recent years. This surgical operation carries significant morbidity, yet it remains a treatment modality with vital clinical and often life-saving significance given appropriate indications

Anatomy and Physiology

There are 4 fascial compartments in the lower leg, containing muscles to the leg and foot and important neuro vascular structures.

Bones:

tibia

fibula

The lower leg contains two major long bones, the tibia and the fibula, which are both very strong skeletal structures. The tibia (also called the shinbone) is located near the midline of the leg and is the thicker and stronger of the two bones. The fibula, also called the calf bone, is significantly smaller and is situated on the lateral (farther from the midline) side of the tibia

Muscles

Muscles in the Anterior Compartment of the Leg

There are four muscles in the anterior compartment of the leg: tibialis anterior, extensor digitorum longus, extensor hallucis longus and fibularis tertius.

Collectively, they act to dorsiflex and invert the foot at the ankle joint. The extensor digitorum longus and extensor hallucis longus also extend the toes. The muscles in this compartment are innervated by the deep fibular nerve (L4-S1), and blood is supplied via the anterior tibial artery.

Muscles in the Lateral Compartment of the Leg

There are two muscles in the lateral compartment of the leg; the fibularis longus and brevis (also known as peroneal longus and brevis).

The common function of the muscles is eversion – turning the sole of the foot outwards. They are both innervated by the superficial fibular nerve.

Muscles in the Posterior Compartment of the Leg

The posterior compartment of the leg contains seven muscles, organised into two layers – superficial and deep. The two layers are separated by a band of fascia.

The posterior leg is the largest of the three compartments. Collectively, the muscles in this area plantarflex and invert the foot. They are innervated by the tibial nerve, a terminal branch of the sciatic nerve.

Superficial Muscles

The superficial muscles form the characteristic ‘calf’ shape of the posterior leg. They all insert into the calcaneus of the foot (the heel bone), via the calcaneal tendon. The calcaneal reflex tests spinal roots S1-S2.

Gastrocnemius

The gastrocnemius is the most superficial of all the muscles in the posterior leg. It has two heads – medial and lateral, which converge to form a single muscle belly.

Soleus

The soleus is located deep to the gastrocnemius. It is large and flat, named soleus due to its resemblance of a sole – a flat fish.

Plantaris

The plantaris is a small muscle with a long tendon . It is absent in 10% of people

Deep Muscles

There are four muscles in the deep compartment of the posterior leg. One muscle, the popliteus, acts only on the knee joint. The remaining three muscles (tibialis posterior, flexor hallucis longus and flexor digitorum longus) act on the ankle and foot

Arteries:

anterior and posterior tibial arteries

Veins:

small/short saphenous, great/long saphenous, tibial and fibular veins

Nerves:

common fibular/peroneal, tibial and saphenous nerves, branches of the sciatic and femoral nerves

Indications

Peripheral vascular disease (PVD)

Trauma

Tumors

Infections

Congenital limb deficiency

non-healing diabetic wounds

LEVEL OF AMPUTATION Determined by :

Disease process
Viability of tissues and
Prosthesis available

Determination adequate blood flow

Clinical :

i) lowest palpable pulse

i) skin color and temperature

iii) bleeding at surgery

Contraindications

poor health that impairs the patient’s ability to tolerate anesthesia and surgery

Complications

Oedema
Wounds and infection
Pain
Muscle weakness and contractures
Joint instability
Autonomic dysfunction

Amputations Procedure:

An incision to outline a long posterior flap & a short anterior one — combined length 1 ½ times the diameter of the leg at the level of amputation.

Deepened to the bone, Periosteum raised.

Section tibia at level of incision, bevel anterior surface. Fibular 2-3cm proximally. Smoothen round sharp margins

Vessels isolated and double ligated, Nerves pulled. down & cut with a sharp knife & allowed to retract into the soft tissue

Irrigation with N/S, Removal of tourniquet to meticulously secure haemostasis.

Myoplasty or Myodesis done over a drain after trimming the Muscle to size.

Close skin with interrupted non absorbance sutures.

Wound dressing- soft or rigid.

COMPLICATIONS

Early

Haemorrhage

Haematoma

Infection

Late

depression

Stump ulceration

Flap necrosis

Painful scar

Phantom limb

Phantom pain

Joint stiffness

Osteomyelitis

Osteoporosis & tendency to fracture

Physiotherapy for Below-Knee Amputation (Transtibial Amputation)

Prior to Surgery

Before your surgery, your physical therapist may:

Prescribe exercises for preoperative conditioning, and to improve the strength and flexibility of the hip and knee
Teach you how to walk with a walker or crutches
Educate you about what to expect after the procedure

Immediately After Surgery

Hospital stay will be approximately 5 to 14 days after surgery. the wound will be bandaged, and it may also have a drain at the surgery site—a tube that is inserted into the area to help remove excess fluid. Pain will be managed with proper medication.

Physiotherapy will begin soon after surgery when the condition is stable and the rehabilitation may started. A physical therapist will review patient medical and surgical history, and take and assement at bedside. First 2 to 3 days of treatment may include:

Gentle stretching and range-of-motion exercises
Learning to roll in bed, sit on the side of the bed, and move safely to a chair
Learning how to position your surgical limb to prevent contractures (the inability to straighten the knee joint fully, which results from keeping the limb bent too much)

If the patient is medically stable, the physical therapist teach to move about in a wheelchair, and stand and walk with an assistive device.

Rehabilitation

Physical therapist will work with patient, after heal following the amputation, help to fit for prosthesis, and guide to rehabilitation to ensure regain strength and movement in the safest way possible. Physiotherapy treatments may include:

Prevention of contractures.

A contracture is the development of soft-tissue tightness that limits joint motion. The condition occurs when muscles and soft tissues become stiff from lack of movement. The most common contracture following transtibial amputation occurs at the knee when it becomes flexed and unable to straighten. The hip also may become stiff.

It is important to prevent contractures early; they can become permanent if not addressed following surgery, throughout recovery, and after rehabilitation is completed. Contractures can make it difficult to wear your prosthesis and make walking more difficult, increasing the need for an assistive device like a walker.

Physical therapist will help to maintain normal posture and range of motion at your knee and hip. Physiotherapist will teach about how to position the limb to avoid development of a contracture, and demonstrate stretching and positioning exercises to maintain normal range of motion.

ROM exercises should be incorporated to avoid contractures, as well as prone lying to prevent hip flexion contractures, a sandbag could be placed next to the residuum to prevent a hip abduction contracture. A sandbag could also be placed on the lower part of a transtibial residuum when the patient is prone, to prevent hip flexion contractures.

Compression to reduce swelling.

It is normal to experience postoperative swelling. Your physical therapist will help you maintain compression on your residual limb to protect it, reduce and control swelling, and help it heal. Compression can be accomplished by:

Wrapping the limb with elastic bandages
Wearing an elastic shrinker sock

These methods also help shape the limb to prepare it for fitting the prosthetic leg.

In some cases a rigid dressing, or plaster cast, may be used instead of elastic bandages. An immediate postoperative prosthesis made with plaster or plastic also may be applied. The method chosen depends on each person’s situation. Your physical therapist will help monitor the fit of these devices and instruct you in their use. The main goal of your care during this time is to reduce swelling.

Pain management

Physical therapist will help with pain management in a variety of ways, including:

Manual therapy, which may include “hands-on” treatments performed by your physical therapist, including soft tissue (ie, muscle, tendon) mobilization, joint manipulation, or gentle range-of-motion exercises, in order to improve circulation and joint motion
Stump management, including skin care and stump sock use
Desensitization to help modify how sensitive an area is to clothing, pressure, or touch Desensitization involves stroking the skin with different types of touch to help reduce or eliminate sensitivity
Mirror therapy and/or graded motor imagery

Approximately 80% of people who undergo amputations experience a phenomenon called phantom limb pain, a condition in which some of their pain feels like it is actually coming from the amputated limb. Your physical therapist will work with you to lessen and eliminate the sensation

Prosthetic fitting and training.

Physical therapist will work with a prosthetist to prescribe the best prosthesis for life situation and activity goals. it will receive a temporary prosthesis at first while residual limb continues to heal and shrink/shape over the first 6 to 9 months of healing. The prosthesis will be modified to fit as needed over this time.

Most people with transtibial amputations learn to walk well with a prosthesis. Physicians use the following criteria to determine when patient is ready for a temporary prosthesis, or patient's first artificial limb.

incision should be almost healed or completely healed.
swelling should have decreased to an acceptable amount.
patient must have regained sufficient overall strength to be able to walk safely.

After the limb has reached a stable shape, and your physician approves your condition, you will be fitted for a permanent prosthesis.

Functional training.

After patient may move from acute care to rehabilitation, they will learn to function more independently. Physical therapist will help master wheelchair mobility and walking with an assistive device like crutches or a walker. Physical therapist also will teach the skills t need for successful use of patient new prosthetic limb. Patient will learn how to care for residual limb with skin checks and hygiene, and continue contracture prevention with exercise and positioning.

Physical therapist will teach how to put new prosthesis on and take it off, and how to manage a good fit with the socket type you receive. Physcial therapist will help to gradually build up tolerance for wearing prosthesis for increasingly longer times, while protecting the skin integrity of the residual limb. patient ma continue to use a wheelchair for getting around, even after get the permanent prosthesis.

Guided rehabilitation.

Prosthetic training is a process that can last up to a full year. patient will begin when surgeon clears it putting weight on the prosthesis. Physical therapist will help learn to stand, balance, and walk with the prosthetic limb. Most likely will begin walking in parallel bars, then progress to a walker, and later as get stronger, it may progress to using a cane before walking independently without any assistance. patient will also need to continue strengthening and stretching exercises to achieve fullest potential, as return to many of the activities performed before the amputation.

THOSE ABOVE ARE COLLECTED FROM SOME BOOKS AND WEBSITES..

THANK YOU,