Femoral neck fractures tend to occur in elderly patients with osteoporosis. With the advent of an aging society, the number of elderly people in the world is increasing, and the number of osteoporotic patients is increasing, and the incidence of femoral neck fractures is also increasing year by year. Elderly patients with femoral neck fractures often have medical diseases. Long-term bed rest are prone to serious complications such as urinary tract infections, bedsores, pulmonary infections, and lower extremity venous thrombosis. In severe cases, they can be life-threatening. Therefore, early surgical treatment should be performed if there is no contraindication to surgery. With the widespread development of total hip arthroplasty, its surgical indications have been gradually relaxed, and more and more elderly patients undergo artificial total hip replacement. This operation can restore the function of the affected limb, improve the quality of life of the patient, avoid complications such as fracture nonunion, femoral head necrosis, and get out of bed early to reduce the complications of bed rest [9]. Elderly patients with femoral neck fractures have the following pathophysiological characteristics before surgery: lung function degradation, different degrees of ventilation or ventilation dysfunction, respiratory mucosa atrophy, cilia dyskinesia, reduced airway clearance; increased goblet cells in the airway mucosa, The secretions are many and sticky; most of them are combined with various medical diseases, which require medical treatment before surgery. The bed time is relatively long, which may cause slow recovery of respiratory function during perioperative period, decrease of respiratory muscle strength, and significant increase of lung infection. Therefore, the prevention and treatment of perioperative lung infections in elderly patients with fractures is particularly important, and one of the methods to improve respiratory function is to conduct preoperative and postoperative respiratory function training.
The application of pulmonary function breathing training device can effectively increase the FEV1, FVC and PaO2 of elderly patients during perioperative period, and increase the effective alveolar ventilation. The principle is that the lung function trainer can improve the uneven distribution of inhaled gas and hypoxia through training. By actively and slowly inhaling and exhaling air, reducing the breathing frequency, increasing the internal pressure of the trachea, preventing premature pressure of the bronchi and small bronchi, effectively eliminating residual lung gas, improving the ventilation / blood flow imbalance, increasing tidal volume and increasing effective ventilation The amount of functional residual gas reduces the dilution of fresh air inhaled and increases the alveolar carbon dioxide partial pressure, thereby improving gas exchange and improving the patient's ventilation function; full expansion of the thoracic cavity and increased negative pressure in the pleural cavity are conducive to lung expansion and atrophy In order to further prevent atelectasis, atelectasis or atelectasis can effectively prevent atelectasis, maximize lung function, and increase alveolar oxygen uptake capacity, thereby reducing the occurrence of hypoxemia and effectively preventing atelectasis and Pulmonary infections [10–11].
Mills et al. [12] conducted an 8-week inspiratory muscle training for 65-75-year-old patients and found that the strength of the inspiratory muscle was significantly improved, and pointed out that inspiratory muscle training in the elderly with weak and poor respiratory function groups, inspiratory The improvement of muscle function is more obvious. Moreover, inspiratory muscle training can reduce the concentration of IL-1 and IL-6 by enhancing the function of respiratory muscles, thereby reducing the systemic inflammatory response [13]. Other scholars have also confirmed that inspiratory muscle training reduces lung infections while improving lung function, esophageal cancer, and respiratory dysfunction after abdominal surgery [14–16]. In this study, patients in the LG received routine rehabilitation training while adding pulmonary respiratory muscle function training, and it was found that respiratory function was significantly improved, and the incidence of pulmonary infection in the perioperative period was reduced. Compared with the CG, the difference was statistically significant (P < 0.05) (Table 5).The author believes that the reason may be that respiratory muscle training enhances the endurance of diaphragm and intercostal muscles, increases the alveolar oxygen carrying capacity and effective ventilation, improves respiratory function, and prevents and reduces the occurrence of lung infections.
On the basis of routine lung care, combined with respiratory muscle training can maximize the active contraction of respiratory muscles, re-mobilize the airway cilia clearance function, increase airway clearance and defense capabilities, and enhance airway mucosal function and secretion Reducing and eliminating functional enhancement is an effective way to prevent postoperative complications. Celli et al. [17] found that compared with the control group, the comprehensive training group had significantly lower hospital stay for postoperative pulmonary complications. The results of the study in the CG and the LG showed that FEV1, FVC and SPO2 in the LG were higher than those in the CG at 3 and 7 days after operation(P < 0.05),the difference was statistically significant. It shows that in the perioperative period, the use of lung function training equipment can effectively improve lung function and avoid pulmonary complications.
In summary, the combined use of lung function breathing exercisers on the basis of perioperative routine care for elderly patients not only quantifies the recovery of patients 'lung function, but also increases the patient's initiative and enthusiasm for lung function training, which leads to patients' Good psychological motivation, enhance patients' self-confidence and fun in respiratory function exercise, further improve lung function, shorten the waiting time for surgery and reduce postoperative respiratory complications, and effectively save medical resources.