Tick paralysis: Difference between revisions
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'''Tick paralysis''' is a type of [[paralysis]] caused by specific types of ticks. Unlike [[tick-borne disease]]s | '''Tick paralysis''' is a type of [[paralysis]] caused by specific types of ticks reported mostly from the Americas, Asia and Australia. Unlike other [[tick-borne disease]]s, the illness is caused by a [[neurotoxin]] produced in the [[tick]]'s [[salivary gland]]. After prolonged attachment, the engorged tick transmits the toxin to its host causing an [[ascending paralysis]] resembling [[Guillain-Barre syndrome]]. People can experience severe respiratory distress (similar to [[anaphylaxis]]). The incidence of tick paralysis is unknown. The diagnosis is entirely clinical and treatment after tick removal is supportive. | ||
==Signs and symptoms== | ==Signs and symptoms== | ||
Tick paralysis results from injection of a toxin from tick salivary glands during a blood meal after being attached for 3 to 7 days, causing [[fatigue]] within and weakness in both legs that progresses to [[paralysis]]. [[Deep tendon reflexes]] are usually [[Hyporeflexia|decreased]] or absent. The [[Ascending paralysis|paralysis ascends]] to the trunk, arms, and head and may lead to [[respiratory failure]] and death. The disease can present as acute [[ataxia]] without muscle weakness. People may have minor sensory symptoms, such as local numbness, but no fever or headache or change in mental status.<ref name="simon">{{Cite journal | | Tick paralysis results from injection of a toxin from tick salivary glands during a blood meal after being attached for 3 to 7 days, causing [[fatigue]] within and weakness in both legs that progresses to [[paralysis]]. [[Deep tendon reflexes]] are usually [[Hyporeflexia|decreased]] or absent. The [[Ascending paralysis|paralysis ascends]] to the trunk, arms, and head and may lead to [[respiratory failure]] and death. The disease can present as acute [[ataxia]] without muscle weakness. People may have minor sensory symptoms, such as local numbness, but no fever or headache or change in mental status.<ref name="simon">{{Cite journal |last1=Simon |first1=Leslie V. |last2=West |first2=Brian |last3=McKinney |first3=William P. |date=2025 |title=Tick Paralysis |url=https://www.ncbi.nlm.nih.gov/books/NBK470478/ |location=Treasure Island (FL) |publisher=StatPearls Publishing |pmid=29262244}}</ref> | ||
In a metanalysis of global cases, facial nerve palsy was more commonly reported (35 cases), than gait ataxia.<ref name="matthews"/> | |||
[[Ophthalmoplegia]] and [[bulbar palsy]] can occur.{{cn|date=January 2023}} | [[Ophthalmoplegia]] and [[bulbar palsy]] can occur.{{cn|date=January 2023}} | ||
==Pathogenesis== | ==Pathogenesis== | ||
Tick paralysis is | Tick paralysis is due to a [[neurotoxin]] found in the engorged female tick's salivary gland that enters the bloodstream of the host while the tick is feeding.<ref name= Gothe>{{cite journal |vauthors=Gothe R, Kunze K, Hoogstraal H | title=The mechanisms of pathogenicity in the tick paralyses | journal=J Med Entomol | year=1979 | volume=16 | pages=357–69 | pmid=232161 | issue=5 | doi=10.1093/jmedent/16.5.357}}</ref> | ||
In North America, the two ticks most commonly associated with tick paralysis are the Rocky Mountain wood tick (''[[Dermacentor andersoni]]'') and the American dog tick (''[[Dermacentor variabilis]]'').<ref name= Gothe/> Most North American cases of tick paralysis occur from April to June, when adult ''Dermacentor'' ticks emerge from hibernation and actively seek hosts.<ref>{{cite journal |vauthors=Dworkin MS, Shoemaker PC, Anderson D | title=Tick paralysis: 33 human cases in Washington state, 1946–1996 | journal=Clin Infect Dis | year=1999 | volume=29 | pages=1435–9 | doi=10.1086/313502 | pmid=10585792 | issue=6 | doi-access=free }}</ref> | |||
In Asia, Dermacentor, [[Amblyomma]], [[Rhipicephalus]], and [[Hyalomma]] tick species have been most commonly reported as the cause of tick paralysis, while in Australia, it is the tick ''[[Ixodes holocyclus]]''. <ref name=matthews/> | |||
Experiments have indicated that the greatest amount of toxin is produced between the fifth and seventh day of attachment (often initiating or increasing the severity of symptoms). However, the timing may vary depending on the species of tick.{{cn|date=January 2023}} | |||
Unlike [[Lyme disease]], [[ehrlichiosis]], and [[babesiosis]], which are caused by the systemic proliferation and expansion of microbes after the offending tick is gone, tick paralysis is chemically induced by the tick and therefore usually only continues in its presence. Once the tick is removed, symptoms usually diminish rapidly. However, in some cases, profound paralysis can develop and even become fatal before anyone becomes aware of a tick's presence.{{cn|date=October 2023}} | Unlike [[Lyme disease]], [[ehrlichiosis]], and [[babesiosis]], which are caused by the systemic proliferation and expansion of microbes after the offending tick is gone, tick paralysis is chemically induced by the tick and therefore usually only continues in its presence. Once the tick is removed, symptoms usually diminish rapidly. However, in some cases, profound paralysis can develop and even become fatal before anyone becomes aware of a tick's presence.{{cn|date=October 2023}} | ||
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Diagnosis is entirely based on symptoms and upon finding an embedded tick,<ref name="simon"/> usually on the scalp{{cn|date=January 2023}}. | Diagnosis is entirely based on symptoms and upon finding an embedded tick,<ref name="simon"/> usually on the scalp{{cn|date=January 2023}}. | ||
In the absence of a tick, the differential diagnosis includes | In the absence of a tick, the differential diagnosis includes [[poliomyelitis]], [[myasthenia gravis]], spinal cord lesions and [[Guillain–Barré syndrome]]. The latter progresses slower than tick paralysis, is treated with expensive therapies such as plasmapheresis or immune globulin, but this treatment is not effective in tick paraysis. [[Botulism]] may be in teh differential , but presents with a descending paralysis.<ref name="simon"/> Other differential diagnoses include [[organophosphate poisoning]], shellfish poisoning, pufferfish [[tetrodotoxin]], or buckthorn poisoning from eating the fruits of [[Karwinskia humboldtiana]]. | ||
Laboratory studies are normal.<ref name="simon"/> | Laboratory studies are normal.<ref name="simon"/> | ||
| Line 52: | Line 53: | ||
==Epidemiology== | ==Epidemiology== | ||
Tick paralysis was first described in Australia in the 19th century<ref name="simon"/> and has been reported mostly from the Americas, in the US from the Pacific Northwest, but also from the Southern US.<ref name="pont">{{Cite journal | | Tick paralysis was first described in Australia in the 19th century<ref name="simon"/> and has been reported mostly from the Americas, in the US from the Pacific Northwest, but also from the Southern US.<ref name="pont">{{Cite journal |last1=Pontiff |first1=Kristen |last2=Woodward |first2=Christopher |last3=McMahon |first3=Pamela |date=December 2021 |title=Tick Paralysis Case Series: An 11-Year Institutional Case Series |url=https://journals.lww.com/10.1097/PEC.0000000000002572 |journal=Pediatric Emergency Care |language=en |volume=37 |issue=12 |pages=589–592 |doi=10.1097/PEC.0000000000002572 |pmid=34908374 |issn=1535-1815|url-access=subscription }}</ref> | ||
A 2023 metaanalysis of 121 cases published until then found 71 cases from North America, 33 cases from Asia (including India and Sri Lanka.), 14 cases in Australia, two cases in South America, and one case in Africa.<ref name="matthews">{{Cite journal |last1=Matthews |first1=Sarah N |last2=Harfouch |first2=Chawki |date=2023-12-01 |title=628. A meta-analysis of Tick Paralysis in humans globally |url=https://doi.org/10.1093/ofid/ofad500.694 |journal=Open Forum Infectious Diseases |volume=10 |issue=Supplement_2 |pages=ofad500.694 |doi=10.1093/ofid/ofad500.694 |issn=2328-8957 |pmc=10678610}}</ref> | |||
The peak incidence of tick paralysis in North America in the spring and early summer. It is reported more commonly in females and in children.<ref name="simon"/> | The peak incidence of tick paralysis in North America in the spring and early summer. It is reported more commonly in females and in children.<ref name="simon"/> | ||
Prior to 1989, 20 fatal cases were reported in Australia.<ref>{{cite journal|author1=Masina S |author2=Broady K. W. | title = Tick paralysis: development of a vaccine| journal = International Journal for Parasitology| volume = 29| issue = 4| pages = 535–541| year = 1999| doi = 10.1016/S0020-7519(99)00006-5| pmid = 10428629}} | |||
</ref> | |||
Tick paralysis is of concern in domestic animals and livestock in the United States as well.{{cn|date=January 2023}} | |||
==Prevention== | ==Prevention== | ||
| Line 61: | Line 68: | ||
==Treatment== | ==Treatment== | ||
Typically, removal of the entire tick results in rapid resolution of symptoms within minutes or hours, and treatment is supportive.<ref name="simon"/> | |||
If the tick is not removed, the toxin can be fatal. A 1969 study of children reported mortality rates of 10 – 12 percent,<ref>{{cite journal |vauthors=Schmitt N, Bowmer EJ, Gregson JD | title=Tick paralysis in British Columbia | journal=Can Med Assoc J | year=1969 | volume=100 | issue=9 | pages=417–21 | pmid=5767835 | pmc=1945728 }}</ref> mostly due to respiratory paralysis. The tick is best removed by grasping it as close to the skin as possible and pulling in a firm steady manner.<ref>{{cite journal | author=Needham GR | title=Evaluation of five popular methods for tick removal | journal=Pediatrics | year=1985 | volume=75 | pages=997–1002 | pmid=4000801 | issue=6| doi=10.1542/peds.75.6.997 | s2cid=23208238 }}</ref> Because the toxin lies in the tick's salivary glands, care must be taken to remove the entire tick (including the head). | If the tick is not removed, the toxin can be fatal. A 1969 study of children reported mortality rates of 10 – 12 percent,<ref>{{cite journal |vauthors=Schmitt N, Bowmer EJ, Gregson JD | title=Tick paralysis in British Columbia | journal=Can Med Assoc J | year=1969 | volume=100 | issue=9 | pages=417–21 | pmid=5767835 | pmc=1945728 }}</ref> mostly due to respiratory paralysis. The tick is best removed by grasping it as close to the skin as possible and pulling in a firm steady manner.<ref>{{cite journal | author=Needham GR | title=Evaluation of five popular methods for tick removal | journal=Pediatrics | year=1985 | volume=75 | pages=997–1002 | pmid=4000801 | issue=6| doi=10.1542/peds.75.6.997 | s2cid=23208238 }}</ref> Because the toxin lies in the tick's salivary glands, care must be taken to remove the entire tick (including the head). | ||
Unlike the toxin of other tick species, the toxin of ''[[Ixodes holocyclus]]'' (Australian paralysis tick) may still be fatal even if the tick is removed.{{cn|date=June 2025}} | |||
For affected animals, food and water intake can worsen the outcome, as the toxin can prevent the animal from swallowing properly. People who find a tick on their animal, are advised to remove it immediately and seek veterinary assistance if the animal shows any signs of illness. The tick can be placed in a tightly sealed plastic bag and taken to a veterinarian for identification.<ref>{{cite web | url=http://www.ava.com.au/sites/default/files/Envenomation_Tick%20Paralysis_MCannon.pdf | title=Envenomation: Tick Paralysis | last=Cannon | first=Michael | access-date=June 11, 2018}}</ref><ref>{{ | For affected animals, food and water intake can worsen the outcome, as the toxin can prevent the animal from swallowing properly. People who find a tick on their animal, are advised to remove it immediately and seek veterinary assistance if the animal shows any signs of illness. The tick can be placed in a tightly sealed plastic bag and taken to a veterinarian for identification.<ref>{{cite web | url=http://www.ava.com.au/sites/default/files/Envenomation_Tick%20Paralysis_MCannon.pdf | title=Envenomation: Tick Paralysis | last=Cannon | first=Michael | access-date=June 11, 2018}}</ref><ref>{{Cite web |last=O’Keefe |first=Dr Janette |title=Australian Paralysis Tick |url=http://www.greenhounds.com.au/Uploads/File/Paralysis%20Tick.pdf |access-date=June 9, 2018 |website=.greenhounds.com.}}</ref> | ||
== | ==Neurotoxins== | ||
===Dermatocentor=== | |||
The toxin of the Rocky mountain wood tick (''Dermatocentor andersoni'') is only produced by adult ticks and causes a mostly motor polyneuropathy, less of a sensory component. Recovery is rapid within hours.<ref name="Pienaar" /> | |||
===Ixodes holocyclus=== | |||
</ref> | Several attempts had been made to isolate and identify the neurotoxin for the tick species [[Ixodes holocyclus]] since the first isolation in 1966.<ref>{{cite journal| author = Doube B. M.| title = Cattle and Paralysis Tick Ixodes Holocyclus| journal = Australian Veterinary Journal| volume = 51| issue = 11| pages = 511–515| year = 1975| doi = 10.1111/j.1751-0813.1975.tb06901.x| pmid = 1220655}}</ref> In 1989 it was discovered that the 40-80 kDa [[protein]] fraction contained the toxin.<ref>{{cite journal|author1=B. F. Stone |author2=K. C. Binnington |author3=M. Gauci |author4=J. H. Aylward | title = Tick/host interactions forIxodes holocyclus: Role, effects, biosynthesis and nature of its toxic and allergenic oral secretions| journal = Experimental and Applied Acarology| volume = 7| issue = 1| pages = 59–69| year = 1989| doi = 10.1007/BF01200453 | pmid = 2667920|s2cid=23861588 }}</ref> | ||
As of 2004, the neurotoxin structure and gene for Ixodes holocyclus has been identified; they are called holocyclotoxins (HT) after the species. At least three members (HT-1,<ref>{{Cite journal|url=https://www.ncbi.nlm.nih.gov/nuccore/AY766147|title=Ixodes holocyclus holocyclotoxin-1 (HT1) mRNA, complete cds - Nucleotide - NCBI|website=www.ncbi.nlm.nih.gov|date=27 October 2004|access-date=2018-07-29}}</ref> HT-3,<ref>{{Cite web|url=https://www.ncbi.nlm.nih.gov/nuccore/KP096303|title=Ixodes holocyclus holocyclotoxin 3 (HT3) mRNA, complete cds - Nucleotide - NCBI|website=www.ncbi.nlm.nih.gov|access-date=2018-07-29}}</ref> and HT-12<ref>{{Cite web|url=https://www.ncbi.nlm.nih.gov/nuccore/KP963967|title=Ixodes holocyclus holocyclotoxin 12 (HT12) mRNA, complete cds - Nucleotide - NCBI|website=www.ncbi.nlm.nih.gov|access-date=2018-07-29}}</ref>) trigger paralysis by [[presynaptic inhibition]] of neurotransmitter release via a calcium dependent mechanism resulting in a reduction of quantal content, and loss of effective neuromuscular synaptic transmission.<ref>{{Cite journal |last1=Chand |first1=Kirat K. |last2=Lee |first2=Kah Meng |last3=Lavidis |first3=Nickolas A. |last4=Rodriguez-Valle |first4=Manuel |last5=Ijaz |first5=Hina |last6=Koehbach |first6=Johannes |last7=Clark |first7=Richard J. |last8=Lew-Tabor |first8=Ala |last9=Noakes |first9=Peter G. |date=2016-07-08 |title=Tick holocyclotoxins trigger host paralysis by presynaptic inhibition |journal=Scientific Reports |language=En |volume=6 |issue=1 |pages=29446 |bibcode=2016NatSR...629446C |doi=10.1038/srep29446 |issn=2045-2322 |pmc=4937380 |pmid=27389875}}</ref> | |||
Holocyclotoxins are produced by both nymphs and adults. It is the only known toxin where recovery is prolonged, between days and weeks.<ref name="Pienaar">{{Cite journal |last1=Pienaar |first1=Ronel |last2=Neitz |first2=Albert |last3=Mans |first3=Ben |date=2018-05-14 |title=Tick Paralysis: Solving an Enigma |journal=Veterinary Sciences |language=en |volume=5 |issue=2 |pages=53 |doi=10.3390/vetsci5020053 |doi-access=free |issn=2306-7381|pmc=6024606 }}</ref> | |||
===Rhipicephalus === | |||
[[Rhipicephalus]] are hard ticks from tropical Africa. In the case of ''Rhipicephalus evertsi evertsi'', only adult ticks cause the paralysis. The toxin inhibits nerve conduction in peripheral nerves and recovery occurs within hours to two days.<ref name="Pienaar" /> | |||
The neurotoxin | ===Argasids=== | ||
The neurotoxin of the South African tick [[Argas walkerae]], in contrast to the other ticks is produced by its larvae and works by impairing acetycholine release and desensitizing its receptor. Recovery is rapid, within hours.<ref name="Pienaar" /> | |||
==Culture== | ==Culture== | ||
Latest revision as of 13:10, 26 June 2025
Template:Infobox medical condition (new) Tick paralysis is a type of paralysis caused by specific types of ticks reported mostly from the Americas, Asia and Australia. Unlike other tick-borne diseases, the illness is caused by a neurotoxin produced in the tick's salivary gland. After prolonged attachment, the engorged tick transmits the toxin to its host causing an ascending paralysis resembling Guillain-Barre syndrome. People can experience severe respiratory distress (similar to anaphylaxis). The incidence of tick paralysis is unknown. The diagnosis is entirely clinical and treatment after tick removal is supportive.
Signs and symptoms
Tick paralysis results from injection of a toxin from tick salivary glands during a blood meal after being attached for 3 to 7 days, causing fatigue within and weakness in both legs that progresses to paralysis. Deep tendon reflexes are usually decreased or absent. The paralysis ascends to the trunk, arms, and head and may lead to respiratory failure and death. The disease can present as acute ataxia without muscle weakness. People may have minor sensory symptoms, such as local numbness, but no fever or headache or change in mental status.[1] In a metanalysis of global cases, facial nerve palsy was more commonly reported (35 cases), than gait ataxia.[2] Ophthalmoplegia and bulbar palsy can occur.Script error: No such module "Unsubst".
Pathogenesis
Tick paralysis is due to a neurotoxin found in the engorged female tick's salivary gland that enters the bloodstream of the host while the tick is feeding.[3]
In North America, the two ticks most commonly associated with tick paralysis are the Rocky Mountain wood tick (Dermacentor andersoni) and the American dog tick (Dermacentor variabilis).[3] Most North American cases of tick paralysis occur from April to June, when adult Dermacentor ticks emerge from hibernation and actively seek hosts.[4]
In Asia, Dermacentor, Amblyomma, Rhipicephalus, and Hyalomma tick species have been most commonly reported as the cause of tick paralysis, while in Australia, it is the tick Ixodes holocyclus. [2]
Experiments have indicated that the greatest amount of toxin is produced between the fifth and seventh day of attachment (often initiating or increasing the severity of symptoms). However, the timing may vary depending on the species of tick.Script error: No such module "Unsubst".
Unlike Lyme disease, ehrlichiosis, and babesiosis, which are caused by the systemic proliferation and expansion of microbes after the offending tick is gone, tick paralysis is chemically induced by the tick and therefore usually only continues in its presence. Once the tick is removed, symptoms usually diminish rapidly. However, in some cases, profound paralysis can develop and even become fatal before anyone becomes aware of a tick's presence.Script error: No such module "Unsubst".
Diagnosis
Diagnosis is entirely based on symptoms and upon finding an embedded tick,[1] usually on the scalpScript error: No such module "Unsubst"..
In the absence of a tick, the differential diagnosis includes poliomyelitis, myasthenia gravis, spinal cord lesions and Guillain–Barré syndrome. The latter progresses slower than tick paralysis, is treated with expensive therapies such as plasmapheresis or immune globulin, but this treatment is not effective in tick paraysis. Botulism may be in teh differential , but presents with a descending paralysis.[1] Other differential diagnoses include organophosphate poisoning, shellfish poisoning, pufferfish tetrodotoxin, or buckthorn poisoning from eating the fruits of Karwinskia humboldtiana.
Laboratory studies are normal.[1] Electromyographic (EMG) studies usually show a variable reduction in the amplitude of compound muscle action potentials, but no abnormalities of repetitive nerve stimulations.[1]
In animals, early signs of tick paralysis could be a change of an animals' ‘voice’ and weakness in the back legs.Script error: No such module "Unsubst".
Epidemiology
Tick paralysis was first described in Australia in the 19th century[1] and has been reported mostly from the Americas, in the US from the Pacific Northwest, but also from the Southern US.[5]
A 2023 metaanalysis of 121 cases published until then found 71 cases from North America, 33 cases from Asia (including India and Sri Lanka.), 14 cases in Australia, two cases in South America, and one case in Africa.[2] The peak incidence of tick paralysis in North America in the spring and early summer. It is reported more commonly in females and in children.[1]
Prior to 1989, 20 fatal cases were reported in Australia.[6] Tick paralysis is of concern in domestic animals and livestock in the United States as well.Script error: No such module "Unsubst".
Prevention
No human vaccine is currently available for any tick-borne disease, except for tick-borne encephalitis. Individuals should therefore take precautions when entering tick-infested areas, particularly in the spring and summer months. Preventive measures include avoiding trails that are overgrown with bushy vegetation, wearing light-coloured clothes that allow one to see the ticks more easily, and wearing long pants and closed-toe shoes. Tick repellents containing DEET (N,N, diethyl-m-toluamide) are only marginally effective and can be applied to skin or clothing. Rarely, severe reactions can occur in some people who use DEET-containing products. Young children may be especially vulnerable to these adverse effects. Permethrin, which can only be applied to clothing, is much more effective in preventing tick bites. Permethrin is not a repellent but rather an insecticide; it causes ticks to curl up and fall off the protected clothing.Script error: No such module "Unsubst".
Treatment
Typically, removal of the entire tick results in rapid resolution of symptoms within minutes or hours, and treatment is supportive.[1] If the tick is not removed, the toxin can be fatal. A 1969 study of children reported mortality rates of 10 – 12 percent,[7] mostly due to respiratory paralysis. The tick is best removed by grasping it as close to the skin as possible and pulling in a firm steady manner.[8] Because the toxin lies in the tick's salivary glands, care must be taken to remove the entire tick (including the head).
Unlike the toxin of other tick species, the toxin of Ixodes holocyclus (Australian paralysis tick) may still be fatal even if the tick is removed.Script error: No such module "Unsubst".
For affected animals, food and water intake can worsen the outcome, as the toxin can prevent the animal from swallowing properly. People who find a tick on their animal, are advised to remove it immediately and seek veterinary assistance if the animal shows any signs of illness. The tick can be placed in a tightly sealed plastic bag and taken to a veterinarian for identification.[9][10]
Neurotoxins
Dermatocentor
The toxin of the Rocky mountain wood tick (Dermatocentor andersoni) is only produced by adult ticks and causes a mostly motor polyneuropathy, less of a sensory component. Recovery is rapid within hours.[11]
Ixodes holocyclus
Several attempts had been made to isolate and identify the neurotoxin for the tick species Ixodes holocyclus since the first isolation in 1966.[12] In 1989 it was discovered that the 40-80 kDa protein fraction contained the toxin.[13]
As of 2004, the neurotoxin structure and gene for Ixodes holocyclus has been identified; they are called holocyclotoxins (HT) after the species. At least three members (HT-1,[14] HT-3,[15] and HT-12[16]) trigger paralysis by presynaptic inhibition of neurotransmitter release via a calcium dependent mechanism resulting in a reduction of quantal content, and loss of effective neuromuscular synaptic transmission.[17]
Holocyclotoxins are produced by both nymphs and adults. It is the only known toxin where recovery is prolonged, between days and weeks.[11]
Rhipicephalus
Rhipicephalus are hard ticks from tropical Africa. In the case of Rhipicephalus evertsi evertsi, only adult ticks cause the paralysis. The toxin inhibits nerve conduction in peripheral nerves and recovery occurs within hours to two days.[11]
Argasids
The neurotoxin of the South African tick Argas walkerae, in contrast to the other ticks is produced by its larvae and works by impairing acetycholine release and desensitizing its receptor. Recovery is rapid, within hours.[11]
Culture
In the TV show, Hart of Dixie, Season 1, Episode 2, a patient is diagnosed with tick paralysis who has been deer hunting.
In the TV show, Emergency!, Season 5, Episode 4, "Equipment" (first aired Oct. 4, 1975), Dr. Joe Early diagnoses a young boy who has fallen from a tree with tick paralysis, after eliminating polio as a cause.[18]
In the TV show, House, Season 2, Episode 16, "Safe", Dr House diagnoses a patient (played by Michelle Trachtenberg) with tick paralysis.[19]
In the TV show, Remedy, Season 1 Episode 7, "Tomorrow, the Green Grass", Rebecca is diagnosed with tick paralysis.
In the TV show, Royal Pains, Season 1 Episode 3, "Strategic Planning", a US Senator's teenage son is diagnosed with and overcomes tick paralysis.
In the TV show, Chicago Med, Season 3, Episode 5, "Mountains and Molehills", a young girl returning from Australia with increasing paralysis is diagnosed with tick paralysis.
See also
- Polyneuropathy in dogs and cats for tick paralysis in dogs
- Tick-borne disease
References
External links
Template:Poisoning and toxicity Template:Tick-borne diseases
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