Introduction
Descending necrotizing mediastinitis (DNM) is a rare but fatal type of acute mediastinitis resulting from the downward extension of infection via the fascial plane and causing necrosis [
1]. The precise incidence and prevalence of total mediastinitis cases, including DNM and fibrosing mediastinitis, remain undocumented. However, postoperative mediastinitis is relatively rare, with a frequency ranging from 0.3 to 5% and an average occurrence of 1–2% in most medical facilities [
2]. Most patients may have a history of an upper respiratory tract infection, recent dental infection. Although the most common symptoms are dysphagia, neck pain or edema, sore throat and pleuritic or retrosternal chest pain, some patients present with chills, fever, odynophagia, cough, and respiratory distress. Pathogens responsible for DNM are usually aerobic polymicrobial, mainly Gram positives and mixed anaerobic bacteria [
3].
The key components of treating DNM include prompt diagnostic imaging, airway management, administration of intravenous antibiotics, and surgical drainage. When it comes to diagnosing mediastinitis, a chest radiograph may provide some assistance if there are indications of mediastinal widening or pneumomediastinum. However, it may not always accurately convey the extent of the disease. On the other hand, computed tomography and magnetic resonance imaging are more effective diagnostic tools for evaluating mediastinitis [
4]. Multidisciplinary management is essential for treating DNM, and surgical debridement is a crucial aspect [
5]. However, the extent of surgical debridement, whether only transcervical or routine transthoracic thoracotomy, has been a matter of controversy. Surgical and broad-spectrum antibiotic therapies are considered the main treatment of the disease as many studies showed lower mortality rates in early combined and aggressive use of antibiotics and surgeries [
1,
6,
7]. While there is limited evidence of successful medication therapy for DNM, many current treatment strategies involve the use of immunosuppressants, corticosteroids, or antifungals due to the limited treatment options available for these patients [
8]. Patients with symptoms may benefit from surgical interventions, such as stents or bypasses of the affected structure, to alleviate compression, and these options should be considered [
9,
10].
The clinical presentation of DNM is usually mild and lacks specificity, which makes it challenging to diagnose early and often leads to a delayed diagnosis and eventually possible death. As the infection rapidly spreads, delayed diagnosis and treatment may result in a high mortality rate. The mortality rate for DNM used to be as high as 60–70%, but with active surgical management, it has significantly decreased to 30–40% [
11]. Nonetheless, a study conducted by Sarna et al. in 2012 discovered that the mortality rate for DNM patients with septic shock remained exceedingly high at 64% [
11]. A positive prognosis is typically associated with prompt recognition, early diagnosis, and timely treatment.
DNM is still regarded as a fatal disease despite improvements in technological methods and antibiotic therapies. This retrospective study aimed to determine the demographic, clinical, and paraclinical features of patients diagnosed with acute DNM at Namazi hospital in Southern Iran from 2002 to 2019.
Results
During the period of our study (2002–2019), a total of 67 cases of mediastinitis were operated, of which 23 (34.3%) had an esophageal rupture. Based on the mentioned diagnosis criteria for DNM, 25 (37.3%) patients among a total of 67 mediastinitis patients were diagnosed as acute DNM. The age of the participants ranged from 15 to 77 with an average of 37.2 ± 16.7 years, while 24% were among the age group of 19 to 25 years old. Also, the majority of our cases (n = 17; 68%) were male. A summary of the patients in our study is provided in Table
1.
Table 1
Features of descending necrotizing mediastinitis patients
1 | 47/M | Neck Exploration | Yes | No | Neck pain | Mandibular Abscess | IIA | Anterior mediastinum abscess especially on the left side (CT) |
2 | 15/F | Neck Exploration | No | No | | Neck Infections | I | |
3 | 25/F | Neck Exploration | Yes | No | Neck pain, Chest pain, Fever, Tachycardia, Tachypnea | Periodontal | I | Neck abscess extending to retrosternal space above the level of carina (CT) |
4 | 30/M | Combined | Yes | Yes | Neck pain, Fever, Dysphagia, Tachycardia, Tachypnea | Necrotizing Thyroiditis | IIB | Necrotizing of the parathyroid gland |
5 | 35/M | Combined | Yes | Yes | Neck pain, Dysphagia, Fever, Dyspnea | Neck Infections | IIB | Significant necrosis, developed post operative pleural effusion and sepsis |
6 | 34/M | Neck Exploration | No | No | Neck pain, Chest pain | Neck Infections | I | Ludwig abscess |
7 | 55/F | Combined | No | Yes | Neck pain, Fever, Dyspnea, Decreased LOC | Mandibular Abscess + Periodontal | IIA | Opaque area in the left anterior-inferior mediastinum (CT) |
8 | 17/F | Combined | Yes | Yes | Neck pain, Fever, Dysphagia | Neck Infections | IIA | Developed empyema + Two purulent collection in left thoracic cavity in periaortic and lower pleural cavity |
9 | 23/M | Combined | No | Yes | Chest pain, Fever, Dyspnea, Tachycardia, Tachypnea | Neck Infections | IIA | |
10 | 45/M | Combined | No | Yes | Chest pain, Fever, Dyspnea, Dysphagia | Neck Infections | IIB | Multiloculated right and left side pleural effusion (CT) + Mediastinal widening (CXR) |
11 | 25/M | Neck Exploration | Yes | No | | Neck Infections | I | |
12 | 45/M | Combined | No | Yes | Neck pain, Fever | Mandibular Abscess + Periodontal | I | |
13 | 40/M | Combined | No | No | Fever, Dyspnea | Mandibular Abscess + Periodontal | IIA | |
14 | 37/F | Thoracotomy | No | Yes | Neck pain | Neck Infections | I | Bilateral loculated empyema (CT) |
15 | 17/M | Combined | No | Yes | Neck pain, Fever, Tachycardia, Tachypnea | Periodontal | IIB | |
16 | 23/M | Neck Exploration | No | No | Neck pain, Dysphagia | Neck Infections | IIC | |
17 | 53/F | Neck Exploration | No | No | Neck pain, Chest pain | Periodontal | IIC | |
18 | 28/M | Combined | No | Yes | Neck pain | Neck Infections | IIA | |
19 | 41/M | Combined | Yes | Yes | Neck pain, Chest pain, Dyspnea | Neck Infections | IIA | |
20 | 56/M | Combined | No | Yes | Dysphagia | Neck Infections | IIA | |
21 | 22/M | Combined | No | Yes | Fever, Decreased LOC | Periodontal | I | |
22 | 69/F | Neck Exploration | Yes | No | Neck pain, Fever, Tachycardia | Periodontal | IIA | Multiple neck abscesses with involvement of upper anterior mediastinum (CT) |
23 | 19/M | Neck Exploration | Yes | No | Neck pain | Periodontal | I | |
24 | 51/F | Combined | No | Yes | Neck pain | Neck Infections | I | |
25 | 77/M | Combined | No | Yes | Neck pain, Chest pain | Neck Infections | IIC | Neck abscess extending to retrosternal space above the level of carina (CT); Ludwig angina |
There has been an increase in the number of cases throughout the years, from an annual rate of one case per year from 2002 to 2007, and also from 2008 to 2013, and finally a rate of 2.17 cases per year from 2014 to 2019.
Among the 25 patients, two underwent reoperation due to DNM complications (Case 5 and 8). One of our cases (Case 5) initially presented with type I DNM and was operated via neck exploration, in which during operation inflammation of neck and mediastinum and abscess formation in mediastinum (about 30 cc pus) was observed. Mediastinotomy and drainage of the mediastinal abscess, along with 100 cc turbid fluid in right chest tube and 300 cc turbid fluid in left chest tube was performed. The wound was left open along with proper dressing; however, the patient developed pleural effusion and sepsis, so bilateral thoracotomy and drainage of mediastinum was performed, which revealed necrotizing mediastinitis especially in left side and about 100 cc pus in posterior mediastinum in paraesophageal plane.
Among the performed operations and based on the Sergio classification, 9 (36.0%) were type I, 9 (36.0%) were type IIA, 4 (16.0%) were type IIB, and 3 (12.0%) were type IIC DNM. There was no significant association between the type of DNM and etiology (P = 0.85), age (P = 0.20). Table
2 demonstrated the demographical and clinical features of operations for DNM in our study.
Table 2
Demographical and clinical features of operations due to acute descending necrotizing mediastinitis from 2002 till 2019 (N = 28)
Year; n (%) | 2002–2007 | 6 (24.0) | 2 (33.3) | 2 (33/3) | 2 (33.3) | 0 (0) | 0.48 |
2008–2013 | 6 (24.0) | 2 (33.3) | 4 (66.7) | 0 (0) | 0 (0) |
2014–2019 | 13 (52.0) | 5 (38.5) | 3 (23.1) | 2 (15.4) | 3 (23.1) |
Gender; n (%) | Male | 17 (68.0) | 5 (29.4) | 6 (35.3) | 4 (23.5) | 2 (11.8) | 0.54 |
Female | 8 (32.0) | 4 (50.0) | 3 (37.5) | 0 (0) | 1 (12.5) |
Age (years); mean ± SD | 37.2 ± 16.7 | 30.3 ± 12.2 | 41.8 ± 17.0 | 31.8 ± 11.6 | 51.0 ± 27.1 | 0.20 |
Age Group (years); n (%) | ≤ 18 | 3 (12.0) | 1 (33.3) | 1 (33.3) | 1 (33.3) | 0 (0) | 0.69 |
19–25 | 6 (24.0) | 4 (66.7) | 1 (16.7) | 0 (0) | 1 (16.7) |
26–35 | 4 (16.0) | 1 (25.0) | 1 (25.0) | 2 (50.0) | 0 (0) |
36–45 | 5 (20.0) | 2 (40.0) | 2 (40.0) | 1 (20.0) | 0 (0) |
46–55 | 4 (16.0) | 1 (25.0) | 2 (50.0) | 0 (0) | 1 (25.0) |
> 55 | 3 (12.0) | 0 (0) | 2 (66.7) | 0 (0) | 1 (33.3) |
Necrotic Tissue; n (%) | 7 (28.0) | 2 (28.6) | 3 (42.9) | 2 (28.6) | 0 (0) | 0.70 |
Etiology; n (%) | Neck infection | 13 (52.0) | 4 (30.8) | 5 (38.5) | 2 (15.4) | 2 (15.4) | 1.00 |
Periodontal | 10 (40.0) | 4 (40.0) | 4 (40.0) | 1 (10.0) | 1 (10.0) | 1.00 |
Mandibular Abscess | 5 (20.0) | 2 (40.0) | 3 (60.0) | 0 (0) | 0 (0) | 0.68 |
Surgical Procedure; n (%) | Neck Exploration | 9 (36.0) | 5 (55.6) | 2 (22.2) | 0 (0) | 2 (22.2) | 0.08 |
Thoracotomy | 3 (12.0) | 1 (33.3) | 0 (0) | 2 (66.7) | 0 (0) |
Combined | 13 (52.0) | 3 (23.1) | 7 (53.8) | 2 (15.4) | 1 (7.7) |
Type of Operation; n (%) | Neck Exploration | 20 (80.0) | 8 (40.0) | 7 (35.0) | 2 (10.0) | 3 (15.0) | 0.37 |
| Thoracotomy | 16 (64.0) | 4 (25.0) | 7 (43.8) | 4 (25.0) | 1 (6.3) | 0.16 |
| Chest tube insertion | 15 (60.0) | 4 (26.7) | 6 (40.0) | 4 (26.7) | 1 (6.7) | 0.22 |
Drain Insertion | 9 (36.0) | 3 (33.3) | 4 (44.4) | 2 (22.2) | 0 (0) | 0.69 |
Mediastinum Exploration | 8 (32.0) | 3 (37.5) | 3 (37.5) | 2 (25.0) | 0 (0) | 0.72 |
Neck Vessel Exploration | 4 (16.0) | 2 (50.0) | 0 (0) | 0 (0) | 2 (50.0) | 0.04 |
Pneumolysis | 2 (8.0) | 0 (0) | 0 (0) | 2 (50.0) | 0 (0) | 0.03 |
Sternotomy | 2 (8.0) | 1 (50.0) | 1 (50.0) | 0 (0) | 0 (0) | 1.00 |
Decortication | 2 (8.0) | 0 (0) | 0 (0) | 2 (100) | 0 (0) | 0.03 |
Pleurotomy | 1 (4.0) | 0 (0) | 0 (0) | 1 (100) | 0 (0) | 0.28 |
Symptom; n (%) | Neck pain | 18 (72.0) | 6 (33.3) | 6 (33.3) | 3 (16.7) | 3 (16.7) | 0.85 |
Chills/Fever | 12 (48.0) | 3 (25.0) | 5 (41.7) | 4 (33.3) | 0 (0) | 0.04 |
Chest pain | 7 (28.0) | 2 (28.6) | 2 (28.6) | 1 (14.3) | 2 (28.6) | 0.55 |
Dysphagia | 6 (24.0) | 0 (0) | 2 (33.3) | 3 (50.0) | 1 (16.7) | 0.03 |
Dyspnea | 6 (24.0) | 0 (0) | 4 (66.7) | 2 (33.3) | 0 (0) | 0.05 |
Tachycardia | 5 (20.0) | 1 (20.0) | 2 (40.0) | 2 (40.0) | 0 (0) | 0.37 |
Tachypnea | 4 (16.0) | 1 (25.0) | 1 (25.0) | 2 (50.0) | 0 (0) | 0.34 |
Decreases level of conciseness | 2 (8.0) | 1 (50.0) | 1 (50.0) | 0 (0) | 0 (0) | 1.00 |
Cough | 2 (8.0) | 1 (50) | 1 (50) | 0 (0) | 0 (0) | 1.00 |
Puss discharge; n (%) | 13 (52.0) | 1 (7.7) | 6 (46.2) | 3 (23.1) | 3 (23.1) | 0.01 |
Incision; n (%) | Cervical | 20 (80.0) | 7 (35.0) | 8 (40.0) | 2 (10.0) | 3 (15.0) | 0.37 |
Thoracotomy | 14 (56.0) | 2 (14.3) | 7 (50.0) | 4 (28.6) | 1 (7.1) | 0.02 |
Cervicothoracic | 13 (52.0) | 1 (7.7) | 7 (53.8) | 4 (30.8) | 1 (7.7) | 0.002 |
Superficial | 1 (3.6) | 0 (0) | 1 (100) | 0 (0) | 0 (0) | 1.00 |
Incision Position; n (%) | Classic cervical | 20 (80.0) | 7 (35.0) | 8 (40.0) | 2 (10.0) | 3 (15.0) | 0.37 |
Right posterolateral thoracotomy | 5 (20) | 0 (0) | 2 (40.0) | 2 (40.0) | 1 (20.0) | 0.13 |
Left posterolateral Thoracotomy | 1 (100) | 0 (0) | 0 (0) | 1 (100) | 0 (0) | 0.28 |
Right anterolateral thoracotomy | 5 (20) | 1 (20.0) | 2 (40.0) | 2 (40.0) | 0 (0) | 0.37 |
Left anterolateral thoracotomy | 3 (12.0) | 1 (33.3) | 1 (33.3) | 1 (33.3) | 0 (0) | 1.00 |
Oblique anterior and parallel to sternocleidomastoid muscle | 14 (56.0) | 4 (28.6) | 6 (42.9) | 1 (7.1) | 3 (21.4) | 0.25 |
Based on the presenting symptoms of our patients, the majority (72.0%) had a chief complaint of neck pain, followed by chills and fever (48%), chest pain (28%), and dysphagia (24%). Dysphagia was significantly lower among type I patients (P = 0.03). There were no reports of mortality during our short-term follow-up.
Among the etiologies of DNM, the majority were due to neck infection (52.0%), followed by periodontal infection (40.0%) and mandibular abscess (20.0%). Three cases (cases 7,12, and 13) had both mandibular abscess and periodontal infection. There was no statistical difference among the etiological groups in terms of age (P = 0.58), or gender (P = 0.61).
Based on the technique of surgery, 52% of the patients underwent combined method, which was mostly among type I and IIA DNM, while thoracotomy was mostly performed on type IIB DNM (P = 0.08). Based on the incision, type IIA and IIB had the highest frequency of thoracotomy and cervicothoracic incisions (P = 0.02 and 0.002). Puss discharge was significantly lower in type I DNM (P = 0.01). There was no significant association between the method of surgery and the patients age (P = 73), gender (P = 0.71), patients’ symptoms and etiologies.
Discussion
We report results of a retrospective study in a referral center during an 18-year period, in which a total of 25 patients with DNM were operated. Our study is among the largest reports of DNM cases among available literature. The age of the participants ranged from 15 to 77 with an average of 37.2 ± 16.7 years, while the majority (24%) were among the age group of 19 to 25 years old. Our data were contrary to previous reports, which demonstrated that patients in their 60s were the age group with the highest number of DNM patients (28%), while 29.8% of the patients were in their 40 and 50 s, and 5.8% were under the age of 40. [
16‐
20] Congedo et al. also reported that the median age of DNM patients was 43 among males and 63 among females [
21]. However, all reports relatively demonstrate a male dominance in this entity [
22]. Nevertheless, due to the relative rarity of this entity, data in this regard are scattered, making the diagnosis and management of the disease a challenge for physicians and surgeons worldwide.
Based on the presenting symptoms of our patients, the majority (71.4%) had a chief complaint of neck pain, followed by chills and fever (50%), dysphagia (28.6%), and chest pain (25%). Also, all cases of dysphagia were among neck infection patients. Similar to our study, all participants in a study by Wei et al. [
23] had cervical discomfort. Some had soft tissue edema and inflammation in the lower cervical and upper thoracic regions. In their study, fever, increasing chest discomfort, jugular vein distension, and shortness of breath were common symptoms in DNM patients. [
23] DNM, however, is difficult to distinguish from deep neck infection based only on clinical manifestations, which may explain the gap between diagnosis and treatment. DNM following deep neck infection is usually caused by the spreading of cellulitis or abscesses in the fascial planes and potential spaces of the neck to the chest [
20]. In our study, the most frequent etiology was neck infection (57%), followed by periodontal infection (32.1%) and mandibular abscess (14.3%). We observed no significant association between the etiologies and the type of DNM. A study by Ho et al. in Taiwan reported that 71.6% of patients with deep neck infection were type I DNM, while in our study only 30.8% of type I DNM were due to neck infection [
22,
24]. In Western countries, acute mediastinitis caused by primary oropharyngeal or odontogenic infection is now uncommon. At the same time, this disease is more common in developing countries due to poor economic conditions and a lack of medical resources for dental and oropharyngeal disease prevention and treatment. According to a report from Taiwan, this lethal complication will develop in about 2.6% of patients who have a deep neck infection. [
25,
26] In an 18-year period, our institution treated 25 patients, indicating that the occurrence is not uncommon. However, the increase in the number of cases throughout the years might be due to the improvement of detection methods and prompt diagnosis and management. Nevertheless, DNM is among diseases with high morbidity and mortality rates. [
27]
Efforts to reduce the mortality rate associated with DNM have only been moderately successful over the last 50 years. Because DNM frequently has a fulminant course, the high fatality rate is due to a delay in diagnosis [
14,
28‐
38]. Pearse [
39] reported that 49% of patients with DNM died during treatment in the first modern series published in 1938. In our study, we observed no cases of mortality, which could be due to the fact that our province has multiple referral centers with excellent medical services which could aid in early identification. However, despite the subsequent introduction of intravenous antibiotics, vast improvements in anesthesia and critical care, and the development of CT imaging, the death rate for patients with DNM reported in the literature over the last three decades has remained high [
15,
28,
38].
Prior to the 21st century, the main methods for surgery were the trans-thoracic (37%) or transcervical (54%), while the combined method was only performed in 2% of the cases. These techniques were accompanied by high mortality (32%), especially in cases with progressed disease; however, a decrease in mortality rate to 18% was achieved through early combined thoracic-cervical drainage [
1,
40‐
42]. Also, some authors preferred sternotomy or clamshell incision based on the good access to both thoracic cavities and the anterior mediastinum [
17,
43,
44]. This technique was only used in two of our patients in our study. Even when done in single-lung ventilation, this method seems less suitable for draining the infero-posterior mediastinum collections, aside from the potential for osteomyelitis and sternal dehiscence [
21].
The stage and degree of DNM, as well as the clinical status of the patients, should be carefully considered when operational approaches are chosen. Based on a systematic review of 26 reports of DNM worldwide, among 480 cases, 189 (39.4%) were type I while 249 (51.9%) were type II [
1]. These results are in line with our study, in which 36% were type I while 64% were type II DNM. Neck exploration with transcervical mediastinal drainage may be sufficient when type I DNM is present. [
37] Congeto et al. stated that in managing patients with infection confined in the antero-superior mediastinum region, transcervical mediastinal drainage in sufficient, however, DNM types I and II instead require a thoracic approach, such as Video-Assisted Thoracic surgery or open surgery. They also stated that patients with both anterior and posterior involvement, were treated with bilateral or unilateral thoracic surgery and reported a mortality rate of 27.6%, higher than other groups [
21]. Based on our study and Sergio et al. classification, these patients are categorized in the IIB group, which similar to previous studies, underwent either thoracotomy or a combined method of treatment. Based on previous reports, early transcervical mediastinal approach and cervicotomy is the suitable treatment method for limited DNM, especially the upper mediastinum, while thoracotomy was reserved for patients in which the infection extended to below the plane of the tracheal bifurcation [
19,
21]. A transcervical drainage may even be sufficient when a thoracic surgeon is not available [
41]. The transthoracic method is more invasive compared to the transcervical approach and should be considered in complicated patients with uncontrolled infection [
45]. Our study was also in line with previous therapeutic approaches, in which the majority of type I DNM patients underwent neck exploration. Furthermore, De Palma et al. and Congedo et al. advised that in patients with initially limited mediastinitis, a lateral thoracotomy be performed alongside cervicotomy to achieve mediastinal debridement and a toilette of pleural collections [
21,
46].
Among the main limitations of our study is the retrospective nature, which included missing data among the patient’s hospital records. Another limitation is the lack of long-term patient follow-up and infecting pathogen evaluation. Further studies are needed to assess the spectrum of clinical presentations and compare the efficiency of various surgical procedures in managing DNM patients. Also, the lack of specific outcome and small number in each classification prevents us from performing statistical analysis and providing risk factors or significant correlations. Therefore, further randomized controlled trials and multicentric studies should be performed to evaluate the most optimum therapeutic approach in managing this rare but lethal entity.
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