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The Journal of Advances in Parasitology
Case Report
Symmetrical Peripheral Gangrene and Falciparum Malaria: A Case Report and Review of all Cases
Veerabhadra Radhakrishna1*, Rajshekhar Patil2, Nitin d. Tengli2
*1Department of Paediatric Surgery, Indira Gandhi Institute of Child Health, Bangalore; 2Department of General Surgery, Basaveshwar Hospital, M.R. Medical College, Gulbarga, India.
Abstract | Introduction: Symmetrical Peripheral Gangrene (SPG) is defined as a symmetrical distal ischemic injury at two or more locations without any large vessels blockade. Malaria has been reported as one of the causes of SPG, although only 36 cases have been complicated with Symmetrical peripheral gangrene till date. Case Report: A 30-year male presented to us 15 days after the onset of malaria with gangrene of all four limbs with superadded infection. His wounds were debrided and amputated. Once the infection was controlled and gangrenous parts demarcated, amputations were done again for the lower limbs. Discussion: In P. falciparum infections, the processes of cytoadherence, rosetting, and agglutination are the factors responsible for the pathogenesis of SPG. It’s vital to identify this rare, quickly developing complication. Heparin is being tried; blood transfusion has also been explored in the management of some of the patients but not found to be effective. If allowed to advance, surgical intervention is unavoidable.
Keywords | Symmetrical peripheral gangrene; Severe falciparum malaria; Amputation; Anticoagulant therapy
Editor | Muhammad Imran Rashid, Department of Parasitology, University of Veterinary and Animal Sciences, Lahore, Pakistan.
Received | March 05, 2017; Accepted | April 26, 2017; Published | April 28, 2017
*Correspondence | Veerabhadra Radhakrishna, Department of Paediatric Surgery, Indira Gandhi Institute of Child Health, Bangalore; Email: vbrps2016@gmail.com
Citation | Radhakrishna V, Patil R, Tengli ND (2017). Symmetrical peripheral gangrene and falciparum malaria: A case report and review of all cases. J. Adv. Parasitol. 4(2): 28-32.
DOI | http://dx.doi.org/10.17582/journal.jap/2017/4.2.28.32
ISSN | 2311-4096
Copyright © 2017 Radhakrishna et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
INTRODUCTION
Symmetrical Peripheral Gangrene (SPG) is defined as a symmetrical distal ischemic injury at two or more locations without any large vessels blockade (Molos and Hall, 1985). Its pathogenesis is not well known, and it has been related to an extensive variety of infective and non-infective causative factors (Ghosh and Bandyopadhyay, 2011).
Malaria is one of the major parasitic infections occurring in humans, affecting 108 countries comprising more than three billion populations and causes approximately one million demises annually (White and Breman, 2012). It has been reported as one of the causes of SPG (Ghosh and Bandyopadhyay, 2011), although only 36 cases have been complicated with SPG till date. Here we report a case of Symmetrical Peripheral Gangrene in a patient with severe falciparum malaria presented to our institution. We have also reviewed all 37 cases, which hasn’t been done till date.
A 30-year male presented to emergency room with high-grade fever with chills and rigors for two days. Later he developed vomiting and became drowsy. A day later, he developed blackish discoloration of all four limbs (Figure 1 and 2). He was not a smoker, alcoholic or drug abuse; and had no history of diabetes, hypertension or any angiopathies. His cardiovascular, respiratory and abdominal examination was normal. He was diagnosed with severe falciparum malaria based on peripheral smear and treated with Artesunate as per CDC guideline (CDC guidelines 2013). As patient improved from severe illness, he got discharged against medical advice.
Fifteen days later the patient returned with gangrene of all four limbs with superadded infection. Vital and systemic examinations were found to be normal. His haemoglobin was 6.2g/dL, Total Count of 4600/mcL, platelet count of 428000/mcL; HIV, HBV, HCV, and VDRL on ELISA were negative. Blood sugar, Renal function tests, and clotting profile were normal. His wounds were debrided and amputated. After the infection was controlled, revision amputations were done for the lower limbs. He was referred to rehabilitation. Currently, he is performing his daily activities with minimal help from his family.
Figure 1: Gangrenous upper limbs
Figure 2: Gangrenous lower limbs
DISCUSSION
Symmetrical peripheral gangrene (SPG) was initially described in 1981 by Hutchinson. SPG commonly occurs with bacterial infections like Staphylococcal, Pneumococcal, Meningococcal, Streptococcal, E.coli, Pseudomonal septicemia, Viruses or Rickettsial infections (Ghosh nd Bandyopadhyay, 2011). Less commonly it follows after usage of drugs like ergot, vasopressin, noradrenaline, thiopentone or inadvertent intramuscular injection gone intra-arterially. Conditions like Polymyalgia rheumatica, Sickle cell disease, Raynaud’s phenomenon, diabetes mellitus, cryoglobulinemia and inherited coagulopathies like protein-C, S and Antithrombin-3 deficiency can also cause SPG (Ghosh and Bandyopadhyay, 2011).
World Health Organization defines complicated malaria as those accompanied by one or more of the following clinical or laboratory findings i.e. severe anemia, an impaired level of consciousness (Glasgow Coma Scale score 7), acidosis, hypoglycemia, hyperlactatemia, pulmonary edema, hyperparasitemia (of more than 5%), bleeding and renal impairment (White and Breman, 2012). This type of malaria has a mortality of more than 10% (White and Breman, 2012).
In P. falciparum infections, the erythrocytes develop membrane protuberanceson their surfaces 12–15 hours after the cell’s invasion by the parasite. These “knobs” produce a high-molecular-weight, strain-specific, antigenically variant erythrocyte membrane adhesive protein (PfEMP1) that facilitates attachment to receptors on the endothelium of venules and capillaries. This event is termed cytoadherence. The most important among these vascular receptors is intercellular adhesion molecule-1 (ICAM-1); others include thrombospondin (TSP), chondroitin sulfate B,endothelial leukocyte adhesion molecule-1 (ELAM-1), vascular cell adhesion molecule-1 (VCAM-1), his tidine rich protein (HRP) and CD36. Thus, the infected erythrocytes stick to the endothelium and eventually block capillaries and venules. Simultaneously, the P. falciparum–infected RBCs may also adhere to uninfected RBCs (to form rosettes) and to other parasitized erythrocytes (agglutination). The processes of cytoadherence, rosetting, and agglutination are the factors responsible for the pathogenesis of SPG (White 1996; White and Breman, 2012).
There are a total of 37 cases (including our patient) found to have malaria-induced symmetrical peripheral gangrene till date. Mean age of this population was 28.6 years. The smallest patient affected was eleven months old, and the eldest patient was 65 years. Males were most commonly affected (20 patients; 54%) than females probably because males are at more risk of getting exposed to the mosquito bite. Except for one patient (Sharma, 1987), all were found to have anemia. Fifteen patients were found to have thrombocytopenia.
The management of severe malaria is well standardized. But, the management of microvascular induced by malaria is not established. This includes the use of anti malarial therapy and occasional use of anticoagulants in the presence of ischaemic symptoms (Losert et al., 2000). Quinine was the most commonly used anti malarial in severe malaria. There was a suspicion of quinine as the reason for the development and progression of malaria-induced gangrene as in some cases; quinine was started before the onset of gangrene. But there’s no support in the literature.
The dreaded complication of malaria, Symmetrical peripheral gangrene, necessitates the eradication of the parasite with simultaneous treatment of the gangrene. It’s a challenge to identify this rare, hastily developing complication,
Table 1: Review of all Falciparum Malaria cases with SPG
|
No |
Author |
Country |
Age/ sex |
Hb (g/dL) |
Plt (lakh / cu.mm) |
Parasite count (%) |
Clinical features |
Antimalarial therapy |
Anti-clotting therapy |
Result |
|
1 |
Edwards et al. |
Zimbabwe |
11/M |
11.6 |
0.21 |
NA |
DIC |
Quinine |
Heparin |
Resolved |
|
2 |
Edwards et al. |
Zimbabwe |
9/M |
12.9 |
0.1 |
NA |
DIC, Cerebral malaria |
Quinine |
Heparin, Streptokinase |
Resolved |
|
3 |
Chittichai et al. |
Thailand |
13/F |
7.6 |
0.52 |
75 |
Cerebral Malaria |
Quinine |
None |
Resolved |
|
4 |
Chittichai et al. |
Thailand |
10/F |
10.7 |
0.5 |
88 |
DIC, Cerebral malaria, jaundice |
Quinine |
None |
Resolved |
|
5 |
Kochar et al. |
India |
46/F |
5 |
1.6 |
6 |
Prolonged Q-Tc, Atrial & Ventricular fibrillation |
Quinine, Chloroquine |
None |
Amptuated |
|
6 |
Anuradha S. et al |
India |
21/M |
6.8 |
2.1 |
NA |
DIC, dry gangrene of fingers and toes |
Artesunate |
None |
Amptuated |
|
7 |
Anuradha S. et al |
India |
59/M |
5.5 |
1 |
NA |
DIC, dry gangrene of fingers and toes |
Quinine |
None |
Resolved |
|
8 |
Anuradha S. et al |
India |
35/F |
7.1 |
1.1 |
NA |
DIC, dry gangrene of both feet |
Quinine |
None |
Resolved |
|
9 |
Jain D. et al. |
India |
26/F |
10 |
NA |
NA |
Dry gangrene of fingers and toes |
Quinine |
None |
Amptuated |
|
10 |
Sharma SN et al. |
India |
22/M |
13 |
1.9 |
NA |
Dry gangrene of fingers and toes |
Quinine |
None |
Amptuated |
|
11 |
Liechti et al. |
Switzerland |
56/F |
10.9 |
0.13 |
10.3 |
DIC, Cerebral Malaria |
Quinine |
Heparin |
Amptuated |
|
12 |
Sharma BD et al. |
India |
65/F |
3.2 |
1.56 |
14 |
DIC, Cerebral malaria |
Quinine |
None |
Amptuated |
|
13 |
Tamhankar P. et al |
India |
3/F |
6 |
0.8 |
90 |
Dry gangrene of fingers, toes, earlobes, patches on arms and legs |
Quinine |
None |
Resolved |
|
14 |
Agarwal et al. |
India |
10/F |
4.4 |
0.92 |
>5 |
Dry gangrene of toes |
Quinine |
Heparin, Warfarin |
Amptuated |
|
15 |
Pramod S. et al. |
India |
1/F |
4 |
70 |
5 |
Dry gangrene of thigh, lower left abdominal wall and gluteal region |
Quinine |
None |
Resolved |
|
16 |
Vipa et al. |
Thailand |
40/M |
9.7 |
3.95 |
21 |
Dry gangrene over lower limbs |
Artesunate |
None |
Resolved |
|
17 |
Vipa et al. |
Thailand |
45/M |
12.3 |
2.3 |
20 |
Dry gangrene of toes |
Artesunate, Mefloquine |
None |
Amptuated |
|
18 |
Vipa et al. |
Thailand |
59/M |
10 |
3.4 |
11 |
Dry gangrene of toes |
Artesunate, Mefloquine |
None |
Resolved |
|
19 |
Kakati et al. |
India |
26/F |
9.75 |
2.3 |
NA |
Dry gangrene of toes |
Artesunate, Ceftriaxone |
None |
Not stated |
|
20 |
Raimund S. et al. |
Uganda |
61/M |
NA |
NA |
NA |
DIC, Dry gangrene of toes |
Quinine, Mefloquine |
None |
Amptuated |
|
21 |
Ghafoor SZ et al. |
Nigeria |
44/F |
11.8 |
0.48 |
24 |
DIC, dry gangrene of fingers and toes |
Artesunate, Doxycycline |
Heparin |
Resolved |
|
22 |
Rajoo T. et al |
India |
6/F |
5.6 |
0.84 |
>90 |
Dry gangrene of toes |
Artesunate, Mefloquine, Primaquine |
Heparin, Warfarin |
Amptuated |
|
23 |
Bhattacharya et |
India |
12/M |
7 |
1.66 |
21 |
Dry gangrene of lower limbs |
Quinine |
None |
Refused Amputation |
|
24 |
Alkizim et al |
Uganda |
54/M |
9.03 |
4.5 |
NA |
Dry gangrene of hands and feet |
Quinine |
Clopidogrel |
Amptuated |
|
25 |
Ibrahim et al |
Sudan |
36/F |
9.2 |
2.34 |
22 |
Cerebral Malaria, Renal failure |
Quinine |
None |
Resolved |
|
26 |
Ibrahim et al |
Sudan |
44/F |
8.2 |
2 |
17 |
Cerebral malaria, Dry gangrene of toes |
Quinine |
None |
Resolved |
|
27 |
Masse et al |
Belgium |
63/F |
NA |
0.21 |
1 |
All four limbs digits gangrene, Bacteraemia, Candidemia |
Quinine |
None |
Amputated |
|
28 |
Martins DB et al |
USA |
11m /M |
NA |
NA |
NA |
All four limbs digits gangrene |
NA |
NA |
Auto amputation |
|
29 |
Martins DB et al |
USA |
3/M |
NA |
NA |
NA |
Bilateral foot gangrene |
NA |
NA |
Lost follow up |
|
30 |
Martins DB et al |
USA |
6/M |
NA |
NA |
NA |
Bilateral foot gangrene |
NA |
NA |
Amputated |
|
31 |
Martins DB et al |
USA |
7/F |
NA |
NA |
NA |
Gangrene of left upper limb digits up to wrist, cerebral malaria |
NA |
NA |
Amputated |
|
32 |
Arora N et al |
India |
22/M |
8 |
0.22 |
NA |
Gangrene of hands & feet, DIC. |
Artesunate |
Heparin |
Amputated |
|
33 |
Raghunandan J |
India |
1.5/ M |
7 |
1.5 |
NA |
Gangrene of both hands |
Artesunate |
NA |
Resolved |
|
34 |
Abdali N et al |
India |
45/M |
NA |
NA |
NA |
Gangrene of all four limb digits |
Artemisinin |
Heparin |
NA |
|
35 |
Gupta A et al |
India |
50/M |
NA |
NA |
NA |
Gangrene of toes of both lower limbs |
Quinine |
None |
Amputated |
|
36 |
Rana A et al |
India |
17/M |
1.1 |
0.1 |
NA |
Gangrene of feet |
Quinine |
None |
Resolved |
|
37 |
Current Case |
India |
30/M |
6.2 |
4.28 |
NA |
Cerebral malaria, Gangrene of all 4 limbs |
Artesunate |
None |
Amptuated |
before ischemia sets in, as anticoagulants are not conventionally included in the management regime of common malaria. Heparin was tried in a few cases to combat thrombosis and gangrene formation, but no absolute protection has been found. Moreover, the high risk of haemorrhage in severe thrombocytopenia contraindicates the use of heparin.
As per the Table 1, anti-clotting therapy was given in nine cases; pre-gangrenous changes got resolved in three of them while five underwent amputation, result unknown for a patient. Anti-clotting therapy was not used in 28 cases and 11 of them got their pre-gangrenous changes resolved. It concludes that anti-clotting therapy has got no advantage in the treatment of SPG (Fischer’s exact test, p= 0.7).
Blood transfusion has also been tried in the management of some of the patients. But its advantage is still controversial (Riddle et al., 2002).
The extremely short period of Malaria-induced SPG from onset to rapid progression of tissue necrosis practically gives no time to intervene. But with the correct and timely intervention, the ischemia may resolve before developing into gangrene. If the disease progresses, surgical techniques would be unavoidable, which depend on the extent and severity of gangrene ranging from debridement to amputation (Table 1). Our patient presented with gangrene with superadded infection, requiring amputation.
CONCLUSION
Falciparum Malaria is one of the commonest diseases worldwide. One should anticipate SPG as a complication of severe falciparum malaria. Timely and prompt management of the disease is a must. SPG, when occurs, rapidly progresses to irreversible gangrene, thereby demanding amputation. Concerned doctors should, therefore, be attentive and on the look-out for SPG to intervene quickly and halt its progression.
CONFLICT OF INTEREST
There is no conflict of interest.
AUTHORS COntribution
Dr Veerabhadra Radhakrishna conceptualized and designed the study, conducted the analyses, drafted the initial manuscript, and made final revisions based on critical feedback received from Drs Rajshekhar Patil and Nitin Tengli. Dr Rajshekhar and Nitin conceptualized the study in collaboration with Dr Veerabhadra, reviewed the results, and provided critical feedback for the manuscript; and all authors approved the final manuscript as submitted and agree to be accountable for all aspects of the work.
REFERENCES
