CC BY-NC-ND 4.0 · International Journal of Epilepsy 2015; 02(01): 6-010
DOI: 10.1016/j.ijep.2015.03.003
Original Article
Thieme Medical and Scientific Publishers Private Ltd.

Knowledge about, attitudes towards, practices regarding Taenia solium cysticercosis among people attending an epilepsy clinic in India

Pratyaksha Sankhyan
1   Department of Neurology, Dayanand Medical College, Ludhiana 141001, Punjab, India
,
Sahil Gupta
1   Department of Neurology, Dayanand Medical College, Ludhiana 141001, Punjab, India
,
Gagandeep Singh
1   Department of Neurology, Dayanand Medical College, Ludhiana 141001, Punjab, India
› Author Affiliations
Further Information
*

Corresponding author

Department of Neurology
Dayanand Medical College, Ludhiana 141001, Punjab, Tel.: +91 161 24520243; fax: +91 161 208383.
India   

Publication History

Received: 21 January 2014

Accepted: 11 March 2015

Publication Date:
05 May 2018 (online)

 

Abstract

Background Taenia solium cysticercosis is one of the commonest, but potentially eradicable, causes of seizures in India. Eradication and appropriate control should incorporate educational interventions regarding the infestation and this requires an assessment of knowledge about, attitudes towards and practices (KAP) regarding the disorder.

Aim We undertook a KAP survey regarding T. solium cysticercosis in a hospital-based population with seizures in order to determine the existing knowledge and attitudes regarding the disorder and practices regarding its prevention and treatment.

Methods One hundred and eighty two people attending an epilepsy clinic were administered a validated 16-item KAP questionnaire, the responses of which were assessed against responses obtained from experienced neurologists.

Results Of the 182 respondents, 22 (12%) believed that a worm was responsible for their seizures, while 94 (52%) were aware of the link between worms and epilepsy in general. Despite this 150 (82%) were unsure about the name and nature of the worm. In fact 89 (49%) believed that the worm was acquired by eating cabbages rather than by consuming pork and by poor personal hygiene. Only 14 (8%) had ever consumed pork. Of note, 56 (31%) admitted visiting unqualified quacks who sucked out the worm through the nose.

Conclusions In conclusion although the population was highly sensitized to the association between worms and epilepsy they did not appreciate its mode of transmission. Moreover the practice of visiting quacks to remove worms was quite prevalent.


# 1

Introduction

The parasitic infestation of human brain, neurocysticercosis (NCC), caused by the larval stage of the pork tapeworm, Taenia solium, is endemic in most parts of India and much of South and Central America, and parts of sub-Saharan Africa.[1] Only recently, few community-based studies have documented transmission of the parasite and the high prevalence of its infestation in selected locations within India.[2] [3] [4]

The International Task Force for Disease Eradication has recognized T. solium cysticercosis as one of the six disorders that are potentially eradicable.[5] The control or eradication of any infectious disorder requires an assessment not only of the prevalence of infection in the community but also of knowledge about, attitudes towards and practices regarding (KAP) the disorder among members of the community. Control can be effectively implemented when the attitude of the community is scientifically appropriate and community members are supportive of the measures taken towards control or eradication. Hence, we undertook a knowledge, attitudes, and practices (KAP) survey that specifically addressed issues related to T. solium cysticercosis among people with epilepsy attending a specialized epilepsy clinic in a hospital in Northwest India in order to determine aspects of prevention that need to be stressed in health education campaigns.


# 2

Material and methods

2.1

Study sample

The study sample comprised 182 consecutive people with epilepsy attending the adult epilepsy clinic of Dayanand Medical College, Ludhiana, India between 1st January 2007 and 30th June 2007. Informed consent was obtained from all study subjects. The project was approved by the Institutional Ethics Committee.


# 2.2

Design and administration of questionnaire

Questions and their answers were formulated by two neurologists with experience in the care of patients with NCC. They provided 10 questions each, of which identical items were omitted, leaving behind 16 questions. The questions were oriented towards the awareness of the nature of epilepsy in the subjects, awareness about NCC and the mode of acquisition, transmission and prevention of cysticercosis, available treatment options, and risk practices and behaviors that might facilitate transmission of the parasite. All questions were provided with multiple response answers of which only one response was deemed to be correct. The questions were then administered to another neurologist in order to determine appropriate responses.

The questionnaire was administered by a student investigator in the study team in strict confidentiality in a private room away from the epilepsy clinic in either English language or Punjabi, which is the vernacular language in the state of Punjab. Responses were also recorded by the student investigator.


#
# 3

Results

3.1

Demographic characteristics of sample population

The KAP questionnaire was administered to 182 patients [125 (69%) males] [mean (±SD) age: 24 (±14 years)]. The cohort included 44 (24%) students, although, most had completed their studies with 158 (87%) being matriculate or under-matriculate ([Table 1]). Four of the respondents were medics or paramedics.

Table 1

Demographic characteristics of the study sample.

Demographic Characteristics

Responses

Gender

Male

125 (69%)

Female

57 (31%)

Age (in years) (Mean ± SD)

24 ± 14

Educational qualification

Under-matriculate

73 (40%)

Matriculate

85 (47%)

Graduate

17 (9%)

Post graduate

3 (2%)

Higher

3 (2%)

Profession

Medical/paramedical

4 (2%)

Teacher

1 (1%)

Business

31 (17%)

Student

44 (24%)

Professional

6 (3%)

Farmer

15 (8%)

House wife

28 (15%)

Others

53 (29%)


# 3.2

Epilepsy characteristics

Of the 182 respondents, 35 (19%) presented with new-onset seizures, and 147 (81%) had chronic epilepsy. Imaging (either CT or MRI) was undertaken in all patients and 31 (17%) had evidence of NCC on their imaging studies.


# 3.3

Knowledge about relationship between helminths and epilepsy and transmission of cysticercosis

Regardless of presumed etiology of their epilepsy, 22 (12.1%) respondents believed that a worm was responsible for their epilepsy ([Table 2]). However, 88 (48%) were unsure regarding the cause of their epilepsy and considered hereditary factors (n = 10; 6%), accidents (n = 25; 14%) and stress (n = 37; 20%) to be causally linked to their infirmity. Ninety four (52%) respondents were aware that worms might be responsible for epilepsy. The majority (150; 82%) were however unsure about the name or nature of the worm (i.e. tapeworm). Eighty nine (49%) believed that the worm was found in cabbages and therefore could be acquired by eating raw cabbages. Only 14 respondents (8%) held the view that the tapeworm could be acquired by consuming pork and 28 respondents (15%) believed that infestation was associated with poor personal hygiene. According to 57 (31.2%) respondents, the infestation could be diagnosed using a computerised tomographic scan ([Tables 3], [4]).

Table 2

Epilepsy characteristics.

Responses

Epilepsy code

New-onset epilepsy

35 (19%)

Prevalent epilepsy

147 (81%)

Duration of seizures (in months) (mean ± SD)

70 ± 74

Seizure frequency

Single

25 (14%)

Sporadic

47 (26%)

Annual

17 (9%)

Biannual

26 (14%)

Monthly

39 (22%)

Weekly

11 (6%)

Daily

17 (9%)

Aetiology

Neurocysticercosis

31 (17%)

Other

151 (83%)

Table 3

KAP items and response.

Responses

Relationship between helminths and epilepsy

What do you think has caused your epilepsy?

Hereditary factors

10 (6%)

Worms

22 (12%)

Accidents

25 (14%)

Stress

37 (20%)

Not sure

88 (48%)

Can worms cause epilepsy?

Yes

94 (52%)

No

30 (16%)

Not sure

58 (32%)

If worms can cause epilepsy, do you know the name of the worm that can cause epilepsy?

Roundworm

0 (–)

Boll worm

1 (1%)

Tapeworm

1 (1%)

Hookworm

0 (–)

Not sure

150 (82%)

Not applicable

30 (16%)

Table 4

Knowledge about transmission of cysticercosis.

Responses

How does one get infected with this worm?

By eating raw cabbages

71 (39%)

By eating chicken

3 (2%)

By contact with dogs

3 (2%)

By poor hygiene

28 (15%)

Not sure

47 (26%)

Not applicable

30 (16%)

Where is this worm normally located?

Cabbages

89 (49%)

Pigs

14 (8%)

Buffaloes

0 (–)

Eggs

3 (2%)

Not sure

46 (25%)

Not applicable

30 (16%)

If one person in the family has worms, can this be passed on to other persons in the family?

Yes

26 (14%)

No

79 (44%)

Not sure

77 (42%)


# 3.4

Attitudes towards and knowledge about prevention of cysticercosis ([Table 5])

Table 5

Knowledge about and attitude towards preventing cysticercosis.

Responses

What methods best prevent from developing cysticercosis?

Avoid eating cabbages and salads

42 (23%)

Maintain good personal hygiene

68 (37%)

Do not eat any type of meat

10 (6%)

Avoid eating pork

9 (5%)

Not sure

53 (29%)

If there were a mass screening program for cysticercosis that involved giving stool and blood sample, would you participate?

Yes

143 (79%)

No

39 (21%)

If there were a community based intervention program that required certain medicines to be taken for 12 days as a mass program to eliminate worm infestation, would you participate in such a program?

Yes

122 (67.0%)

No

60 (33.0%)

At the community level, what can be done to prevent transmission of cysticercosis?

Ensuring meat inspection

38 (21%)

Banning the use of all meats

23 (13%)

Banning the cultivation of salads in the fields

13 (7%)

Disallowing pig farming

7 (4%)

Not sure

101 (55%)

What else can be done at community level to prevent transmission of cysticercosis?

Improving public awareness about the transmission of the disorder

76 (43%)

Police checking of pork vendors

17 (9%)

Microscopic screening of food material

54 (29%)

Not sure

35 (19%)

In all, 122 (67%) respondents were willing to participate in a community program for screening or controlling T. solium infestation. In the views of 68 respondents (37%), good personal hygiene could prevent transmission, though 42 (23%) were of the impression that transmission could be prevented by avoiding consumption of cabbages and salad. The majority (101; 55%) were unsure of the community-level measures required to prevent transmission of T. solium.


# 3.5

Risk behaviors

Although 89 (49%) respondents consumed animal products and meats, only 14 (8%) admitted to pork consumption ever. Many (82; 45%) believed that free-ranging pigs were the source of pork for human consumption and 57 (31.3%) practiced open defecation albeit only occasionally. Personal hygiene was claimed to be good by 171 (94%) respondents ([Table 6]).

Table 6

Personal habits and hygiene.

Responses

What is the usual source of pork that is used for human consumption?

Free ranging pigs

82 (45%)

Pigs from pig farms

61 (33%)

Both

21 (12%)

Not sure

18 (10%)

Have you ever consumed non vegetarian foods apart from eggs?

Yes

89 (49%)

No

93 (51%)

Do you/did you ever eat pork?

Yes

14 (8%)

No

165 (91%)

Not sure

3 (1%)

Do you ever defecate in the open?

Yes

57 (31%)

No

125 (69%)

Are you aware of free ranging pigs in your locality?

Yes

59 (32%)

No

123 (68%)

Do you wash hands with soap before having your meals?

Always

81 (45%)

Mostly

68 (37%)

Sometimes

27 (15%)

Never

6 (3%)

Do you wash hands with soap after defecating?

Always

171 (94.0%)

Mostly

4 (2%)

Sometimes

6 (3%)

Never

1 (1%)


# 3.6

Myths associated with treatment of NCC

Fifty six (31%) respondents (including both, those diagnosed with NCC as well as others) admitted to visiting an unqualified individual (quack) who claimed to be able to suck out the worm with the help of a thin suction tube applied to the nose of the subject ([Table 7]). However, the majority (103; 57%) were of the view that medications were nevertheless required in order to treat the disorder and only 7 (4%) held the belief that removal through the nose was the only method of removing the worm from the brain.

Table 7

Knowledge about treatment of cysticercosis and associated myths.

Responses

How would one treat this worm?

Removal through the nose by persons specializing in this job

7 (4%)

Medications

103 (57%)

Surgery

6 (3%)

It resolves spontaneously

2 (1%)

Not sure

34 (19%)

Not applicable

30 (16%)

Have you been to a person or heard about a person who removes worms through the nose?

Yes

56 (31%)

No

126 (69%)


#
# 4

Discussion

Taenia solium cysticercosis is one of the preventable causes of seizures and epilepsy. In order to reduce the burden of epilepsy attributable to cysticercosis, the transmission of T. solium needs to be controlled.[6] A number of control interventions have been suggested to interrupt transmission of the parasite, but these are unlikely to be successful without positive change in knowledge about, attitudes towards, and practices regarding the parasite and the disorder it causes.

Very few studies have evaluated the status of knowledge about, attitudes towards and practices concerning transmission of T. solium.[7] [8] [9] [10] One community-based survey in rural Mexico examined this aspect before and after an educational intervention oriented towards improving knowledge about and practices regarding T. solium. Before the intervention, 26% of the population sampled was aware about human cysticercosis but immediately following the educational intervention, the proportion rose to 57%.[9] The socio-cultural setting of the Mexican survey was different from the population in our study. The majority of the households in rural Mexico reared pigs as a source of pork. Nearly 97% of the respondents in the Mexican survey were able to recognize pork infested by cysticerci. In comparison, only 7.7% of the respondents in our study remembered consuming pork ever.

Over half the respondents in our study were aware of the association between worms and epilepsy. This shows that the sample population was sensitized to the association between worms and epilepsy. One reason for this familiarity could be that the sample was drawn from a specialized epilepsy clinic and individuals with epilepsy attending the clinic often seek and are offered information about the link between helminths and epilepsy as a part of usual care.

A previous KAP survey in people with NCC also found that respondents were aware of the association between worms and epilepsy.[11] In a different population comprising school teachers, the awareness of the association was only 26%.[8]

In association with two previous surveys in selected populations from India,[11] [8] this study uncovered gaps in knowledge about the parasite and the disorder. A unique finding in the present survey however, was that nearly half of the respondents (89; 49%) held the belief that the worm responsible for epilepsy was found in cabbages and that the consumption of raw cabbages, other vegetables and salads could lead to worm infestation of the brain. As if to reinforce this belief, a number of subjects visited quacks in the countryside, who specialized in removal of worms using a mouth-held small, suction tube applied to the nose of people affected by epilepsy. The quacks then presented a cabbage bollworm to the subjects giving them the false impression that the cabbage bollworm was responsible for brain infestation. Some of the respondents visited these quacks despite having been provided counsel about the pointlessness of the exercise as part of usual care. The practice is not only unethical and scientifically baseless but also an unnecessary burden on the time and money of the people who visit these quack clinics. There is dire need for mobilizing public opinion and political and legal measures against this practice.

One limitation of this study was that it was undertaken in a highly-specialized population and hence its results may not accurately reflect community beliefs and practices. Furthermore, the benefits of recording community knowledge and practices should be reviewed in light of the failure to demonstrate sustainability and relevance of health and safe practices educational intervention in settings, where T. solium cysticercosis is endemic.[9] For instance, in the Mexican study, the immediate benefits of the health education intervention were evident, a survey of knowledge, attitudes and practices six months later revealed that the benefits were not sustained.[11] Similarly, a survey in Peru demonstrated that the practice of allowing pigs to stray away from enclosures freely for feeding on human faeces is difficult to change because this practice saves pig-rearing peasants the expenditure incurred on procuring food material for the pigs.[12] The farmers optimize their profits by keeping investments to a minimum. Thus the driving force behind peasant's practices and attitudes to T. solium is economic benefit with total indifference to health, hygiene and safe practices.

In conclusion, this descriptive study demonstrates the prevailing state of knowledge about, attitudes towards and practices regarding the transmission and treatment of T. solium cysticercosis. Although, there is a high level of awareness of the relationship between helminths and epilepsy, there are misconceptions regarding the transmission and treatment of the disorder, which need to be corrected.


#

Conflicts of interest

All authors have none to declare.


#
#

No conflict of interest has been declared by the author(s).

  • References

  • 1 Garcia HH, Del Brutto OH. cysticercosis working group in Peru. Lancet Neurol 4 2005; 653-661
  • 2 Singh G, Singh P, Singh I, Rani A, Kaushal S, Avasthi G. Epidemiologic classification of seizures associated with neurocysticercosis: observations from a sample of seizure disorders in neurologic care in India. Acta Neurol Scand 113 2006; 233-240
  • 3 Prasad KN, Prasad A, Gupta RK. et al. Neurocysticercosis in patients with active epilepsy from the pig farming community of Lucknow district, north India. Trans R Soc Trop Med Hyg 103 2009; 144-150
  • 4 Rajshekhar V, Raghava MV, Prabhakaran V, Oommen A, Muliyil J. Active epilepsy as an index of burden of neurocysticercosis in Vellore district, India. Neurology 67 2006; 2135-2139
  • 5 Roman G, Sotelo J, Brutto Del. et al. Bull World Health Organ 78 2000; 399-406
  • 6 Garcia HH, Gonzalez AE, Gilman RH. Diagnosis, treatment and control of Taenia solium cysticercosis. Curr Opin Infect Dis 16 2003; 411-419
  • 7 Garcia-Noval J, Allan JC, Fletes C. et al. Epidemiology of Taenia solium taeniasis and cysticercosis in two rural Guatemalan communities. Am J Trop Med Hyg 55 1996; 282-289
  • 8 Mishra D, Kalra V, Aggarwal K. Awareness about taeniasis and neurocysticercosis among municipal schoolteachers in Delhi. J Commun Dis 39 2007; 225-228
  • 9 Sarti E, Flisser A, Schantz PM. et al. Development and evaluation of a health education intervention against Taenia solium in a rural community in Mexico. Am J Trop Med Hyg 56 1997; 127-132
  • 10 Kalage RE, Nyamongo IsaacK. Lay People's Knowledge, Perceptions and Practices Regarding the Transmission and Management of Human and Porcine Cysticercosis in Mbeya Rural District of Tanzania. 2009. Institute of Anthropology, Gender & African Studies; http://africanstudies.uonbi.ac.ke
  • 11 Girotra M, Gera C, Abraham RR. et al. Awareness of Neurocysticercosis: a study from northwest India. Ann Indian Acad Neurol. 14 Jan 2011 27-30
  • 12 Montano SM, Villaran MV, Ylquimiche L. et al. Neurocysticercosis: association between seizures, serology, and brain CT in rural Peru. Neurology 65 2005; 229-233

*

Corresponding author

Department of Neurology
Dayanand Medical College, Ludhiana 141001, Punjab, Tel.: +91 161 24520243; fax: +91 161 208383.
India   

  • References

  • 1 Garcia HH, Del Brutto OH. cysticercosis working group in Peru. Lancet Neurol 4 2005; 653-661
  • 2 Singh G, Singh P, Singh I, Rani A, Kaushal S, Avasthi G. Epidemiologic classification of seizures associated with neurocysticercosis: observations from a sample of seizure disorders in neurologic care in India. Acta Neurol Scand 113 2006; 233-240
  • 3 Prasad KN, Prasad A, Gupta RK. et al. Neurocysticercosis in patients with active epilepsy from the pig farming community of Lucknow district, north India. Trans R Soc Trop Med Hyg 103 2009; 144-150
  • 4 Rajshekhar V, Raghava MV, Prabhakaran V, Oommen A, Muliyil J. Active epilepsy as an index of burden of neurocysticercosis in Vellore district, India. Neurology 67 2006; 2135-2139
  • 5 Roman G, Sotelo J, Brutto Del. et al. Bull World Health Organ 78 2000; 399-406
  • 6 Garcia HH, Gonzalez AE, Gilman RH. Diagnosis, treatment and control of Taenia solium cysticercosis. Curr Opin Infect Dis 16 2003; 411-419
  • 7 Garcia-Noval J, Allan JC, Fletes C. et al. Epidemiology of Taenia solium taeniasis and cysticercosis in two rural Guatemalan communities. Am J Trop Med Hyg 55 1996; 282-289
  • 8 Mishra D, Kalra V, Aggarwal K. Awareness about taeniasis and neurocysticercosis among municipal schoolteachers in Delhi. J Commun Dis 39 2007; 225-228
  • 9 Sarti E, Flisser A, Schantz PM. et al. Development and evaluation of a health education intervention against Taenia solium in a rural community in Mexico. Am J Trop Med Hyg 56 1997; 127-132
  • 10 Kalage RE, Nyamongo IsaacK. Lay People's Knowledge, Perceptions and Practices Regarding the Transmission and Management of Human and Porcine Cysticercosis in Mbeya Rural District of Tanzania. 2009. Institute of Anthropology, Gender & African Studies; http://africanstudies.uonbi.ac.ke
  • 11 Girotra M, Gera C, Abraham RR. et al. Awareness of Neurocysticercosis: a study from northwest India. Ann Indian Acad Neurol. 14 Jan 2011 27-30
  • 12 Montano SM, Villaran MV, Ylquimiche L. et al. Neurocysticercosis: association between seizures, serology, and brain CT in rural Peru. Neurology 65 2005; 229-233