Arshi Naz1, Ghulam Rasheed2, Zahid Akhtar Rao3, Sana Urooj4, Humera Ismail1, Vijai Kumar1, Samita S. Khan1, Sidra Javed1
- Department of Anesthesiology, Shaheed Mohtarma Benazir Bhutto Institute of Trauma, Karachi, Pakistan.
- Dr. Ziauddin Hospital, Clifton Campus, 4/B Shahrah-e-Ghalib Road, Block 6 Clifton, 75600, Karachi, Pakistan.
- Department of Anesthesiology & Critical Care, Fazaia Ruth Pfau Medical College, Main Shahrah–e–Faisal, PAF Faisal Base, Karachi, Pakistan.
- Department of Anesthesiology & Surgical ICU, DUHS, Mission Rd, New Labour Colony Nanakwara, Karachi, Karachi City 74200, Pakistan.
Correspondence: Dr. Arshi Naz;
E–mail:
nazarshi33@gmail.com;
Phone: 03119944962;
Mobile: 0 3119944962
Abstract
Back ground & Objective: Tetanus is a preventable disease that is still prevalent in the developing countries due to inadequate vaccination practices. It has a prolonged disease course and requires an extended intensive care unit (ICU) stay, as supportive care is the mainstay for a better outcome. This study examines the clinical profile of adult tetanus patients and the impact of early tracheostomy on the final outcome in patients admitted to our ICU.
Methodology: In this retrospective observational study, patients with age of 18 y or above, diagnosed as a case of tetanus on the basis of the presence of at least two of the clinical features; trismus with or without risus sardonicus, and the rigidity of the abdominal wall and reflex spasm, were included. Neonates, pregnant and epileptic patients were excluded. The study was conducted at the ICU of our institute after approval from the Ethical Review Committee (ERC No.000003/SMBBIT/Approval/2019–2020). Medical records from August 2017 to February 2021 were collected in a pre–defined questionnaire. The primary outcome was the impact of early tracheostomy on survival and secondary outcomes were the risk factors of mortality.
Results: 48 patients were included in the study with 44 (91.7%) males and 4 (8.3%) females. The median age of patients was 25.5 (22–35) y. Lower limb was the primary site in 32 (66.7%) of the patients. Neck rigidity (39.6%) and trismus (35.4%) were the main presenting symptoms. The median incubation period was 14 (10–16) days. The median length of stay in the ICU was 28 (25–30) days. The most common complication was ventilator–associated pneumonia (VAP) acquired by 16 (33.3%) patients. Almost all patients showed a significantly higher level of creatine phosphokinase (CPK) 3908.85 ± 2974.91 IU/L, which gradually decreased on discharge to 430.48 ± 360.7 IU/L. 43 patients underwent tracheostomy. Early tracheostomy (within 7 days) was associated with a lower incidence of VAP (p = 0.000) and lesser need of mechanical ventilation (MV) (p = 0.000) with better survival rate (p = 0.000). The overall survival rate was 81.3%.
Conclusion: We conclude that the patients who underwent early tracheostomy, had better survival and lower risk of being mechanically ventilated and development of ventilator associated pneumonia. Periodic estimation of CPK level can be used as a valuable prognostic tool and predictor of mortality in tetanus patients. Age, any comorbid, mechanical ventilation and complications were the probable risk factors. Over all we had a good rate of survival.
Abbreviations: ICU – Intensive care unit; VAP – Ventilator–associated pneumonia; CPK – Creatine phosphokinase; EPI – Expanded Program of Immunization; TT – Tetanus toxoid
Key words: Tetanus; Outcome; Survival; Intensive Care Unit; Tracheostomy; Ventilator–associated pneumonia; VAP
Citation: Naz A, Rasheed G, Rao ZA, Urooj S, Ismail H, Kumar V, Khan SS, Javed S. Clinical profile of adult tetanus patients and the impact of early tracheostomy on the outcome; a retrospective observational study. Anaesth. pain intensive care 2021;25 (5):625-632;
DOI: 10.35975/apic.v25i5.1625
Introduction
Tetanus is potentially a preventable infectious disease which has been significantly decreased in the developed countries worldwide. It was labeled as one of the 6 targeted diseases for the Expanded Program of Immunization (EPI) by the World Health Organization (WHO) in 1974.
1 Despite overall reduction in mortality rate, the frequency of tetanus is still higher in developing countries due to poor healthcare infrastructure and lack of awareness. Cases of tetanus from South Asia and Sub–Saharan Africa account for 82% of all tetanus cases in the world.
2
Coverage of Tetanus Toxoid (TT) vaccination in Pakistan varies from 60% to 74% over the last decade.
3 Exact disease burden is unknown. Even though no population–based study is available from Pakistan, individual institutes have reported their cases in different time frames.
4,5 Tetanus outbreak was noted in 2005 during a major earthquake in the northern areas of Pakistan with 23 reported deaths.
4 Three years retrospective study was conducted in DHQ Hospital, Faisalabad that reported 198 patients with clinical signs and symptoms of tetanus.
5 Mortality from tetanus approaches close to fifty percent in low resource settings . Tetanus can affect people of all ages but newborns and young persons are mostly affected. Body stiffness, trismus and dysphagia are the three most common presenting features.
6
The incidence of tetanus has greatly declined in the developed world, whereas it continues to pose a significant risk of mortality in the underdeveloped nations. Therefore, there is an appalling need for improvement in immunization program and to raise awareness in the general population.
7
We studied the implications of early tracheostomy on tetanus patient survival along with its clinical manifestation and other associated complications observed during management.
Methodology
A retrospective observational study was conducted on clinically diagnosed adult tetanus patients who were admitted in Intensive Care Unit (ICU) of Shaheed Mohtarma Benazir Bhutto Institute of Trauma (SMBBIT), a tertiary care medical facility, after obtaining ethical approval (ERC No.000003/SMBBIT/Approval/ 2019–2020). Hospital records of patients admitted between August 2017 to Feb 2021, were reviewed. The hospital caters patients mainly from rural and urban Sindh and from neighboring provinces of Pakistan. All adult patients (aged 18 y or above) with one or more of the following clinical features were included; trismus, rigidity of the neck and or abdominal wall and reflex spasm.
8 Pregnant and epileptic patients were excluded. The institute ethical review committee waived the need for consent.
A non–randomized sampling technique was used to enroll participants in the study. The details of the demographic data, clinical presentation, management, complications and outcome were recorded.
Trismus was defined as reduced opening of the jaw caused by spasm of the muscles of mastication. Risus sardonicus was defined as an abnormal, sustained spasm of the facial muscles that appears to produce grinning. Opisthotonus was characterized by the spasm of the muscles causing backward arching of the head, neck, and spine.
9
Additionally severity of tetanus was recorded at time of admission according to the Albett classification of tetanus. Patients were divided into four grades; Grade 1 (mild) patients had mild trismus, general spasticity, and no respiratory compromise; Grade 2 (moderate) had moderate trismus, rigidity, short spasm, moderate respiratory involvement with a respiratory rate of more than 30 breaths/minutes; Grade 3 (severe) had severe trismus, generalized rigidity, prolonged spasm, apneic spell, respiratory rate of more than 30 breaths/min, and pulse rate of more than 120/min, and Grade 4 (very severe) patients had all features of Grade 3 as well as autonomic dysfunction.
10
All the patients were admitted in ICU from ER. Standard treatment was given that included tetanus toxoid (TT), immunoglobulin (IG) , magnesium sulfate (MgSO
4) and sedation primarily with diazepam, maintaining Ramsay sedation score 3 (Ramsay Score 0 = awake, 1 = anxious, 2 = awake cooperative, 3 = sleep cooperative, 4 = deep sedation, quick response to painful stimuli, 5= deep sedation, slow reaction to pain stimuli, 6 = deep sedation, no reaction to painful stimuli). For uncontrolled muscular spasm, intravenous propofol 0.1 to 0.15 mg/kg/min was added, if still not controlled, then we added atracurium in a dose of 0.005 to 0.01 mg/kg/min.
Table 1: Demographics of 48 tetanus patients. |
Parameters |
n (%) |
Age (y) median[IQR]
Age groups (y)
|
18–25
26–35
36–45
46–55
> 55 |
25.5 [22–35]
24 (50)
14 (29.2)
3 (6.3)
3 (6.3)
4 (8.3) |
Gender
|
Male
Female |
44 (91.7)
4 (8.3) |
Residence
|
Urban
Rural |
24 (50)
24 (50) |
Co–morbids
|
Hypertension
Respiratory
IHD
Diabetes |
9 (18.8)
7 (14.6)
5 (10.4)
3 (6.3)
5 (10.4) |
Occupation
|
Farmer
Labor
Mechanics
Students
Other |
19 (39.6)
9 (18.8)
12 (25)
4 (8.3)
4 (8.3) |
Type of Injury |
Superficial
Deep |
41 (85.4)
7 (14.6) |
.
Our institutional criteria for tracheostomy were airway compromise, uncontrolled spasm, or need of prolonged (more than 7 days) intubation and ventilation.
10 Tracheostomies were delayed (late tracheostomy) more than 7 days only if there were some issues like deranged laboratory results, the non-availability of operating room or the ENT surgeon, as the facility for bedside percutaneous tracheostomy was not available.
Statistical analysis: The statistical analysis was performed using SPSS, version 22.0. Continuous variables were compared using student t–test. The percentages and frequencies were calculated for the various parameters that were under study and the chi–square test was applied to test the significance. A p ≤ 0.05 was considered statistically significant.
Results
The demographic data are presented in Table 1. Out of 48 patients, 7 (14.6%) patients were hypertensive and 5 (10.4%) were diabetic. Entry wounds were on lower limb 32 (66.7%) and were superficial 41 (85.4%) (Table 1). Main characteristics of disease are detailed in Table 2. Vaccination rate was 66.7%, out of which 12.5% received tetanus toxoid (TT) in the last 5 y. The median incubation period was 14 [IQR 10–16] days. On arrival
Table 2: Disease Characteristics |
Parameters |
n (%) |
Vaccinated
Unvaccinated
Booster in last 5 years
Not known |
32 (66.7)
5 (10.4)
6 (12.5)
5 (10.4) |
Incubation period (days) median [IQR] |
14[10–16] |
Site of injury
Upper Limb
Lower Limb
Cephalic
Not known |
10 (20.8)
32 (66.7)
3 (6.3)
3 (6.3) |
Presenting symptoms
Neck rigidity
Trismus
Dysphagia
Abdominal rigidity
Opisthotonus
Spasms
Autonomic dysfunction
Risus Sardonicus |
19 (39.6)
16 (33.3)
2 (4.2)
1 (2.1)
2 (4.2)
2 (4.2)
5 (10.4)
1 (2.1) |
Grades Of Tetanus
11
111
1V |
5 (10.4)
38 (79.2)
5 (10.4) |
CPK level (U/L) mean ± SD
On Arrival
On Discharge |
3908.85 ± 2974.91
430.48 ± 360.7 |
.
CPK level (creatinine phosphokinase) was 3908.85 ± 2974.91 µg/L (Normal value: 10 to 120 µg/L), which gradually tapered down and at discharge mean CPK level was 430.47 ± 360.7 µg/L (Table 2).
All the patients were managed with the tetanus toxoid (0.5ml I.M.), human tetanus immunoglobulin (5000 IU IM), and antibiotic therapy (metronidazole). Most of the patients 36 (75%) were intubated within 24 h of admission. Benzodiazepine (diazepam or midazolam) was infused in all patients and propofol infusion was needed in 12 (25%) with a muscle relaxant in 12 (25%) depending on the severity of rigidity and spasm. Intravenous magnesium (Mg) infusion was given to all patients with a median duration of 21[18–24] days tapered when rigidity subsided and spasm controlled. Around 43 (89.5%) patients underwent tracheostomy. Complications noted and the morbidity and mortality rate is given in Table 3.
Table 4 summarized the factors associated with tetanus mortality. 4 (44.4%) of 9 (18.8%) patients who were
Table 3:Management characteristics of Tetanus Patients |
Parameters |
n (%) |
Immunoglobulin |
48 (100) |
Tetanus Toxoid |
48 (100) |
Benzodiazepine |
48 (100) |
Propofol |
12 (25) |
Relaxants |
12 (25) |
Wound debridement |
7 (14.6) |
Duration of magnesium therapy (days)median [IQR] (min–max) |
21[18–24] (10–28) |
Intubation
≤ 24 h
> 24 h
Not intubated |
36 (75)
10 (20.8)
2 (4.2) |
Mechanical ventilation needed |
32 (66.7) |
Tracheostomy
≤7 days (Early)
>7 days (Late)
Not done |
24 (50)
19 (39.6)
5 (10.4) |
Tracheostomy wound infection |
17 (35.4) |
Bed sores |
16 (33.3) |
LOS (days)median[IQR] (min–max) |
28[25–30] (12–38) |
Outcome
Not survived
Survived |
9 (18.8)
39 (81.3) |
.
aged 40 years and above died compared to 5 (12.8%) out of 39 (81.3%) from the under forty years age group proving strong association of age with mortality (p = 0.028) . Patients with comorbid 9 (18.8%) had less survival rate (p = 0.007). Most common comorbidity was hypertension with 71.4% mortality (p = 0.001), while patents with ischemic heart disease and diabetes mellitus were associated with 100% mortality (p = 0.005 and 0.000 respectively). Complications developed during the stay in ICU, including VAP, AKI, ARDS were associated with poor outcome (p ≤ 0.05). Those who underwent mechanical ventilation had lesser survival rate (p = 0.017). Gender and site of injury did not show any significant relationship with the outcome.
The impact of the timing of tracheostomy on the outcome of tetanus patients is summarized in Table 5. Patients who had tracheostomy within 7 days of admission had significantly lower rate 10 (34.5%) than 19 (65%) to be on MV as compared to late tracheostomy group (p = 0.000) .Moreover, they were less prone to develop VAP, none of the patients from the early tracheostomy group–developed VAP [p = 0.000, OR 9 (3.09–26.16)]. Patients in which tracheostomy was delayed, there were more incidences of tube blockage and dislodgement as a result 12 (70.6%) patients needed reinsertion of endotracheal tube. Survival was also better in patients who underwent tracheostomy earlier. However, length of stay was more in the early tracheostomy group ie 28.5 (21–32) days compared to late tracheostomy group i.e. 26 (12–38) consequently most of the patients 24 (66.7%) with early tracheostomy had ICU stay more than 20 days (p = 0.006).
Discussion
Our study has provided a better understanding of baseline characteristics of our patients with tetanus and their clinical outcomes. We found that most of the patients admitted to the intensive care unit of our hospital were predominantly young males, which is similar to numerous other studies, including Pakistan and India.
8,9 ,12 Young men spend more time working outdoors and hence are more prone to injuries and exposed to the causative organism
Clostridium tetani, which is ever present in soil in a tropical country like Pakistan. Moreover, females have a chance to get boosters of tetanus vaccine during their antenatal periods that lead to partial protection in young females of fertile age.
Although persons who were vaccinated in early age–acquired tetanus due to decreasing immunity with increasing age. A serological study conducted in the USA reveals that decreasing titers of antibodies in old age make old persons more prone to acquire tetanus.
25 In our study sixteen 32 (66.7%) patients were vaccinated and 6 (12.5%) had received boosters in the last 5 years, which is unlike results of other studies conducted in neighboring countries in which vaccination coverage was very low.
8,9
Hot and humid climate and cultivated soil rich in organic matter is the place where tetanus is found. In SMBB Institute of Trauma, we received a patient from both the city as well as near and far rural areas. Most of the patients who came from rural areas were farmers by profession; they worked in fields barefooted so and have a higher risk of exposure, which is in strong agreement with other studies from neighboring countries with warm and wet climate like Pakistan.
26
The incubation period reported from other studies were similar to our study and same were with site and type of injury, which is mostly superficial 42 (85.4%) and in lower limb 32 (66.7%).
10,11 A study conducted in Pakistan by Moazzam et al. reported trismus as most common presenting symptom in 94 (47.5%) of patients,
5
Table 4 : Risk factors for mortality |
Parameter |
Total (n=48) |
Died (n=9) |
Survived (n = 39) |
p –value |
Age (years)
18–25
26–35
36–45
46–55
>55 |
24 (50)
14 (29.2)
3 (6.3)
3 (6.3)
4 (8.3) |
0 (0)
4 (28.6)
1 (33.3)
0 (0)
4 (100) |
24 (100)
10 (71.4)
2 (66.7)
3 (100)
0 (0) |
0.000 |
Gender
Male
Female |
44 (91.7)
4 (8.3) |
9 (20.5)
0 (0) |
35 (79.5)
4 (100) |
.423 |
Co–morbids
Hypertension
Respiratory
Ischemic heart disease
Diabetes mellitus |
9 (18.8)
7 (14.6)
5 (10.4)
3 (6.3)
5 (10.4) |
5 (55.6)
5 (71.4)
1 (11.1)
3 (100)
5 (100) |
4 (44.4)
2 (28.6)
4 (80)
0 (0)
0 (0) |
.007
.001
.670
.005
.000 |
Site of injury
Upper Limb
Lower Limb
Scalp
Unspecified |
10 (20.8)
32 (66.7)
3 (6.3)
3 (6.3) |
2 (20)
6 (18.8)
0 (0)
1 (33.3) |
8 (80)
26 (81.3)
3 (100)
2 (66.7) |
.772 |
Tracheostomy
Early
Late |
24 (55.8)
19 (44.2) |
0 (0)
9 (47.4) |
24 (100)
10 (52.6) |
0.000
|
Mechanical ventilation |
32 (66.7) |
9 (28.1) |
23 (71.9) |
0.017 |
Complications
VAP
CLABSI
AKI
ARDS |
16 (33.3)
6 (12.5)
1 ()
11 (22.9) |
6 (37.5)
0 (0)
1 (11.1)
9 (81.8) |
10 (62.5)
6 (100)
0 (0)
2 (18.2) |
0.019
0.208
0.035
0.000 |
Data presented as n (%); VAP-ventilator associated pneumonia; CLABSI-central line associated blood stream infection; AKI-acute kidney injury; ARDS-adult respiratory distress syndrome |
.
Table 5: Comparison of outcomes between patients with early and late tracheostomy |
Parameters |
Total
(n=43) |
Early Tracheostomy (n=24) |
Late Tracheostomy
(n=19) |
p–value |
Mechanical Ventilation |
29 (67.4) |
10 (34.5) |
19 (65.5) |
0.000 |
VAP |
16 (37.2) |
0 (0) |
16 (100) |
0.000 |
Length of ICU stay (days) median (min–max)
≤ 20
> 20 |
28 (12–38)
7 (13.6)
36 (83.7) |
28.5 (21–32)
0 (0)
24 (66.7) |
26 (12–38)
7 (100)
12 (33.3) |
0.001 |
Outcome
Not survived
Survived |
9 (20.9)
34 (79.1) |
0 (0)
24 (70.6) |
9 (100)
10 (29.4) |
0.000
|
Data presented as n (%) unless specified; VAP,= ventilator associated pneumonia |
.
while we reported neck rigidity as most common presenting symptom in 19 (39.6%) of patients. Trismus was the second most common presenting feature 16 (33.3%).
On receiving most of the patients had generalized tetanus with raised level of CPK and over the period of 3 weeks when the patients were in recovery phase and spasm was subsided CPK level tapered down (Table 2).These findings are in agreement with the study published in IOSR journal of dental and medical sciences.
23 CPK can be used as a valuable tool to monitor the response to treatment in tetanus and a predictor of mortality, further analytical studies reach on definitive conclusion.
Mostly wounds that lead to tetanus are so trivial that they go unnoticed but if there is dirty and infected wound early debridement is recommended along with human tetanus immune globulin that binds the released toxins and shorten the course of illness.
15 In this study we had seven patients (14.6%) who underwent debridement due to infected wound. Immunoglobulin (IG) and Tetanus Toxoid (TT) were given on admission to all patients, and most patients (75%) were intubated within 24 h of admission and 50% patients underwent tracheostomy within 7 days. Most other studies reported the similar line of treatment.
11,13
In our study, the main complication was VAP, 16 (33.3%) patients acquired it and most commonly isolated organism was
acinatobacter spp and
klebsiella from ETT culture, these results are similar to findings of a study conducted by Nilton et al. in brazil.
14,24
The prolonged duration of hospital stay impacts hospital resources and on increased cost of health care, loss of productivity and reduced quality of life. In this study median duration of ICU stay and the duration of magnesium infusion was 28 (12–38) days and 21 (10–28) days, respectively. However, other studies reported comparatively shorter duration of ICU stay i.e. 11.8 ± 6.5 days and 12.3 ± 9 days in a Chinese
10 and Pakistani
6 study, respectively. Due to the long stay in ICU and immobility due to sedated most of time, patients tend to develop bed sores. We reported 16 (33.3%) of cases who developed bedsores in sacral area. There is fear of eliciting spasms or tracheostomy tube dislodgement, which compromise positioning of tetanus patients in ICU.
The mortality in our center was comparatively lower (18.8% ) than those reported in the previous studies from other developing countries.
16,17,18,19 Risk factors for mortality were found to be age [p value 0.028, OR 5.4 (1.09–27.4)], comorbids [p value 0.007, OR 5.4 (1.8–16.2)], timings of tracheostomy (p–value 0.000), mechanical ventilation (p– value 0.017) , and VAP, which is in sound agreement with other studies.
26,27 In a study by Moazzaum et al., 40% of admitted tetanus patients were expired.
5 Altaf et al. revealed a mortality rate for tetanus to be 25.19%.
6 According to a South Asian study mortality was high reaching up to 45%.
12
However, if we look into the data of the developed countries, their mortality rates are remarkably lower than ours. A multi–centered study conducted in French ICUs report only 16% mortality
28. The reason for this difference be because in developing countries resources are limited and facilities of ICU care are sparse.
Proper timing to perform the tracheostomy in intubated patients remained controversial. Some international studies recommend the preferable timing of tracheostomy between 7 and 15 days postintubation.
30,31 many studies reported that early tracheostomy is associated with lower rates of VAP, shorter ICU stay and mortality. A study by Awan et al. and Saeed et al. reported the same in patients with tetanus.
20,21,22 An interesting finding of our study was that patients who had early tracheostomy within 7 days of admission did not develop VAP and none of them died in ICU but had longer ICU stay compared to those with late tracheostomy . The reason might be that those who had delayed tracheostomy were more severe and did not survive longer. Despite the advantages of early tracheostomy in ICU, there are some challenges related to tracheostomy itself. It needs proper wound care by trained staff. We reported a higher rate of tracheostomy wound site infection i.e. 35.4% compared to 7.69% in a study by Fasunla et al.
20, 21. Our hospital is a public sector set up with high patient flow and high bed occupancy rates, there is relative shortage of ICU trained staff and consequently it compromises nursing care.
Conclusion
The results of our study conclude that early tracheostomy offers a better survival, and is associated with a lower risk of being mechanically ventilated and subsequently developing ventilator–associated pneumonia in tetanus patients. Periodic estimation of CPK level can be used as a valuable prognostic tool and predictor of mortality in tetanus patients. Age, comorbid, mechanical ventilation and complications were the probable risk factors of mortality.
Limitation
There is a shortage of skilled nursing staff in our setup resulting in high rates of bed sores, tracheal site infections and VAP. We did not assess the long–term survival of discharged patients due to lack of follow up.
Recommendation
We emphasize the need to improve healthcare systems and ICU facilities especially in the peripheral areas.
Media and healthcare workers should play a role to remove the misconceptions about immunization in our society.
We recommend early tracheostomy in patients with severe tetanus for better outcome.
Conflict of interest
None declared by the authors.
Authors’ contribution
AN: Supervised, conceived and designed the study, data collection, manuscript writing, editing, analysis and interpretation of data
GR, SU, HI, VK, SK, SJ: Revising article critically for intellectual content
ZR: Final revision of manuscript, accountable for accuracy and integrity of article
References
- The Expanded Programme on Immunization. WHO Int; 2021. [cited 18 March 2021]. Available from: https://www.who.int/immunization/programmes_systems/supply_chain/benefits_of_immunization/en/
- Tetanus death rate. Our World in Data; 2021. [cited 18 March 2021]. Available from: https://ourworldindata.org/grapher/tetanus-death-rate
- Expanded Program on Immunization, Pakistan – The Expanded Program on Immunization; 2021. [cited 18 March 2021]. Available from: http://www.epi.gov.pk/
- Khurram M, Mahmood N. Tetanus in post 2005 Pakistan Earthquake scenario. J Coll Physicians Surg Pak. 2007 Sep 1;17:577-8. [PubMed]
- Muazzam M, Mansoor SA, Badar S, Nadeem A, Anwar B, Waseer MH, Ali S. Tetanus; still cannot be prevented, a three year retrospective study in DHQ hospital, Faisalabad. Professional Med J. 2013;20(6):1026-1034. DOI: 29309/TPMJ/2013.20.06.1740
- Talpur AA, Surahio AR, Memon AS, Junejo A, Jamal A. Tetanus situation in Pakistan. Professional Med J. 2016 Jun 10;23(06):634-40. DOI: 17957/TPMJ/16.3300
- Sun C, Zhao H, Lu Y, et al. Prognostic factors for generalized tetanus in adults: a retrospective study in a Chinese hospital. Am J Emerg Med. 2018;37(2) 254–259. [PubMed] DOI: 1016/j.ajem.2018.05.039
- Khaskheli MS, Khuhro BA, Jamali AH. Tetanus: still a killer in adults. Anaesth Pain Intensive Care. 2013 May 1;17(2):149-53. [Free Full Text]
- Fawibe AE. The pattern and outcome of adult tetanus at a sub-urban tertiary hospital in Nigeria. J Coll Physicians Surg Pak. 2010 Jan 1;20(1):68-70. [PubMed]
- Fan Z, Zhao Y, Wang S, Zhang F, Zhuang C. Clinical features and outcomes of tetanus: a retrospective study. Infect Drug Resist. 2019;12:1289-93. [PubMed] DOI: 2147/IDR.S204650
- Oladerian I, Meir DE, Ojelade AA, Olaolorn DA, Adeniran A, Tarpley JL. Tetanus: continuing problem in the developing world. World J Surg. 2002;26(10):1282–85. [PubMed] DOI: 1007/s00268-002-6497-z
- Marulappa VG, Manjunath R, Babu NM, Maligegowda L. A ten year retrospective study on adult tetanus at the Epidemic Disease (ED) Hospital, Mysore in southern India: a review of 512 cases. J Clin Diagn Res. 2012 Oct;6(8):1377-80. [PubMed] DOI: 7860/JCDR/2012/4137.2363
- Cook TM, Protheroe RT, Handel JM. Tetanus: a review of the literature. Br J Anaesth. 2001 Sep 1;87(3):477-87. [PubMed] DOI: 1093/bja/87.3.477
- Loan HT, Parry J, Nga NT, Yen LM, Binh NT, Thuy TT, at al. Semi-recumbent body position fails to prevent healthcare-associated pneumonia in Vietnamese patients with severe tetanus. Trans R Soc Trop Med Hyg. 2012 Feb 1;106(2):90-7. [PubMed] DOI: 1016/j.trstmh.2011.10.010
- Seegoolam MZ, Bahrin MH, Ling K, Palejwala A. The life-threatening risk of a dirty wound: a lesson from the past. Cureus. 2020 Aug;12(8):e9967. [PubMed] DOI: 7759/cureus.9967
- Kyu HH, Mumford JE, Stanaway JD, Barber RM, Hancock JR, Vos T, et al. Mortality from tetanus between 1990 and 2015: findings from the global burden of disease study 2015. BMC Public Health. 2017 Dec;17(1):179. [PubMed] DOI: 1186/s12889-017-4111-4
- Chukwubike OA, Asekomeh EG. A 10-year review of outcome of management of tetanus in adults at a Nigerian tertiary hospital. Ann Afr Med. 2009;8(3):168-72. [PubMed] DOI: 4103/1596-3519.57239
- Lisboa T, Ho YL, Henriques Filho GT, Brauner JS, Valiatti JL, Verdeal JC, et al. Guidelines for the management of accidental tetanus in adult patients. Rev Bras Ter Intensiva. 2011 Dec;23(4):394-409. [PubMed]
- Chalya PL, Joseph BM, Ramesh MD, Nkinda M, Stephen EM, Japhet MG. A 10-year experience with Tetanus at a tertiary hospital in north western Tanzania: A retrospective review of 102 cases. World J Emerg Surg. 2011;6:20. [PubMed] DOI: 1186/1749-7922-6-20
- Fasunla AJ. Challenges of tracheostomy in patients managed for severe tetanus in a developing country. Int J Prev Med. 2010;1(3):176-81. [PubMed]
- Saeed AB, Muazzam M, Mansoor SA, Iqbal J. Impact of Early Tracheostomy on Outcome in Tetanus Patients. 2014;5(2):597-600. [Free Full Text]
- Awan NU, Sohail M, Sarwar Z, Bashir MM, Khokhar MA, Chatha AA. Outcome of early tracheostomy in the management of grade II (moderate) tetanus patient. Ann King Edward Med Uni. 2017 Oct 1;23(4):519-23. DOI: 21649/akemu.v23i4.2232
- Madhav Iqbal, Meera. A prospective study on CPK levels in tetanus. IOSR J Med Dental Sci. 2016 May;15(5):26-28. DOI: 9790/0853-1505062628
- Cavalcante NJ, Sandeville ML, Medeiros EA. Incidence of and risk factors for nosocomial pneumonia in patients with tetanus. Clin Infect Dis. 2001 Dec 1;33(11):1842-6. [PubMed] DOI: 1086/324160
- Bleck TP. Clostridium Tetani. In: Mandell GL, Bennett JE, Dolin R, editors. Principles and Practices of Infectious Diseases.6th edition. vol 2. Philadelphia: Churchill Livingstone; 2005. p.2817–22.
- Riccò M, Razio B, Panato C, Poletti L, Signorelli C. Knowledge, attitudes and practices of agricultural workers towards tetanus vaccine: a field report. Ann Ig. 2017 Jan 1;29(4):239-55. [PubMed] DOI: 7416/ai.2017.2156
- Miranda-Filho DB, Ximenes RA, Bernardino SN, Escariao AG. Identification of risk factors for death from tetanus in Pernambuco, Brazil: a case-control study. Rev Inst Med Trop Sao Paulo. 2000 Dec;42(6):333-9. [PubMed] DOI: 1590/s0036-46652000000600006
- Mahieu R, Reydel T, Maamar A, Tadié JM, Jamet A, Thille AW, et al. Admission of tetanus patients to the ICU: a retrospective multicentre study. Ann Intensive Care. 2017 Nov 7;7(1):112. [PubMed] DOI: 1186/s13613-017-0333-y
- Khammas AH, Dawood MR. Timing of tracheostomy in intensive care unit patients. Int Arch Otorhinolaryngol.. 2018 Dec;22(4):437-42. [PubMed] DOI: 1055/s-0038-1654710
- Veenith T, Ganeshamoorthy S, Standley T, Carter J, Young P. Intensive care unit tracheostomy: a snapshot of UK practice. Int Arch Med. 2008 Dec;1(1):1-6. [PubMed] DOI: 1186/1755-7682-1-21
- Vargas M, Sutherasan Y, Antonelli M, Brunetti I, Corcione A, Laffey JG, et al. Tracheostomy procedures in the intensive care unit: an international survey. Crit Care. 2015 Dec;19(1):291. [PubMed] DOI: 1186/s13054-015-1013-7