A 41-year-old Albanian man presented to the emergency department of the
hospital had chest deformity, tachycardia, severe upper thoracic pain, hematoma,
subcutaneous emphysema and dyspnea. Five days back, the patient had a road
accident. Chest radiography detected a slight pleural effusion and
hypoventilated lung fields. Hyperdensity regions from bone fragments, pulmonary
contusion and displaced fractures of right lateral ribs 5-11 were observed in
the CT scans. The appropriate treatment was given, and significant improvement
in the patient’s clinical condition was noted. The patient was returned to his
daily life schedule after six weeks.
What will be the most effective treatment for multiple rib
fractures?
The blunt thoracic injuries caused during road accidents may result in
the fracture of one or more ribs. Rib fractures constitute almost 20– 40% of
trauma cases in the emergency departments, persuading numerous researchers to
evaluate the best practice guidelines. Rib fracture management has come a long
way from the conservative treatments based on external stabilisation,
analgesia, and respiratory support to the internal surgical rib fixation. The
recent evidence point towards the added clinical benefit of surgical fixation
along with a multidisciplinary bundled care in patients with six or more rib
fractures. In the present case, highly proficient team of trauma surgeons,
physiotherapists, anesthesiologists and intensivists were utilized for advanced
treatment.
Patient with multiple rib fractures showed significant improvement after
surgical fixation of ribs 7–10 using titanium reconstruction plates and
cortical locking screws.
The patient reported no history of narcotic addiction. His family
reported his habit of smoking and alcohol consumption on a regular basis.
On careful physical examination, chest deformity, hematoma, elevated
blood pressure of 150/90 mmHg, subcutaneous emphysema and mild tachycardia
(95–105 beats/min) was observed. The pain score of 5 was found on the visual
analogue scale (VAS).
Laboratory evaluations: Laboratory evaluations revealed increased
alanine aminotransferase (ALT)- 122 U/L and aspartate aminotransferase (AST)-
89 U/L, which could indicate liver trauma. Renal function of the patient was
found to be normal with urea level 6.9 mmol/L and creatinine level 64.4 μmol/L.
Body temperature and WBC count of the patient was found to be normal. Neurological
examination revealed no abnormal findings.
Chest radiography depicted a slight pleural effusion, hypoventilated
lung areas and several fractures of right lateral ribs. Transthoracic
echocardiography showed normal pathology. Hyperdensity regions from bone
fragments, pulmonary contusion and displaced fractures of right lateral ribs
5-11 were observed in the CT scans.
Anterolateral thoracotomy was performed on the patient using general endotracheal anaesthesia. The areas where transection was executed include area under the chest, top of the costal margins, through cauterisation of the serratus, intercostal and pectoralis muscles. Four displaced ribs (7th to 10th) were stabilized using the titanium reconstruction plates (3.5 mm X 8 mm) and cortical locking screws. The surgery was terminated by adopting the standard procedure, after thoracic drainage, 32 Fr. The patient was shifted to the ICU after the surgery, where he stayed for 48 hours. Patient did not experience any severe complication after surgery.
Rehabilitative physical therapy program was started based on the patient’s feedback of low VAS score (<2) which was achieved within the first 12 hours. Again on mobilization, there was a significant increase in pain. The patient was earlier not comfortable with epidural analgesia but was now ready to get it placed. Sustained infusion of bupivacaine (0.25%; 3–5 ml/h) was given to the patient with an epidural catheter placed between the 4th and 5th lumbar vertebrae. The VAS pain score dropped to 2 with the use of epidural analgesia.
After 48 hours following the surgery, the assessment of a patient’s
respiratory function revealed a gradual recovery and no use of the respiratory
support system at all. The correct placement of the plates was confirmed by the
chest X-ray analysis on day 4. Significant relief in pain (VAS =1) was depicted
in the postoperative pain analysis on day 5. Total hospitalisation lasted for
six days. Follow up was made at 3, 6, 12 and 23 weeks and 11 months. The
patient reported complete physical and mental recovery at follow-up. The
patient resumed working after six weeks, and also quit smoking ever
since.
The tremendous increase in multiple rib fractures is significantly related to increased pulmonary mortality and morbidity. Patients with six or more rib fractures are at higher risk of death due to reasons other than rib fractures. There is a need for an ideal clinical approach as per the severity of the rib fractures. These days, surgical fixation can be considered as an optimal treatment option for multiple rib fractures due to its considerable efficacy in providing better pulmonary function after surgery, a higher quality of life and quicker mobilization and verticalization.
In the present case, reconstruction plates were used to treat the rib
fractures. Small notch titanium reconstruction plates were preferred due to
their considerable versatility, cost-benefit and applicability to a broader
patient population. Individuals with fractures of the radius, ulna, fibula,
acetabulum, and metatarsals and cervical spine can be effectively treated with
these titanium plates.
Surgical fixation of ribs using titanium reconstruction
plates and cortical locking screws represents an effective treatment therapy to
stabilize patient’s ribs and improve his overall condition.
Journal of Medical Case Reports
Surgical plate fixation of multiple rib fractures: a case report
Konstantin Mitev et al.
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