Hiccups are normally waited out, as any fit of them will usually pass quickly. Folkloric 'cures' for hiccups are common and varied, but no effective standard for stopping hiccups has been documented. Hiccups are treated medically only in severe and persistent (termed "intractable") cases.

Numerous medical remedies exist but no particular treatment is known to be especially effective. Many drugs have been used, such as baclofen, chlorpromazine, metoclopramide, gabapentin, and various proton-pump inhibitors. Hiccups that are secondary to some other cause like gastroesophageal reflux disease or esophageal webs are dealt with by treating the underlying disorder. The phrenic nerve can be blocked temporarily with injection of 0.5% procaine, or permanently with bilateral phrenicotomy or other forms of surgical destruction. Even this rather drastic treatment does not cure some cases, however.

An anecdotal medical approach is to install lidocaine liniment 3% or gel 2% into the ear canal. Somehow this creates a vagus nerve-triggering reflex through its extensions to the external ear and tympanus (ear drum). The effect can be immediate, and also have lasting effect after the lidocaine effect expires after about two hours.

Haloperidol (Haldol, an anti-psychotic and sedative), metoclopramide (Reglan, a gastrointestinal stimulant), and chlorpromazine (Thorazine, an anti-psychotic with strong sedative effects) are used in cases of intractable hiccups. Effective treatment with sedatives often requires a dose that renders the person either unconscious or highly lethargic. Hence, medicating with sedatives is only appropriate short-term, as the affected individual cannot continue with normal life activities while under their effect.

Persistent digital rectal massage has also been proven effective in terminating intractable hiccups.

The administration of intranasal vinegar was found to ease the chronic and severe hiccups of a three-year-old Japanese girl. Vinegar may stimulate the dorsal wall of the nasopharynx, where the pharyngeal branch of the glossopharyngeal nerve (the afferent of the hiccup reflex arc) is located.

Bryan R. Payne, a neurosurgeon at the Louisiana State University Health Sciences Center in New Orleans, has had some success with an experimental procedure in which a vagus nerve stimulator is implanted in the upper chest of patients with an intractable case of hiccups. "It sends rhythmic bursts of electricity to the brain by way of the vagus nerve, which passes through the neck. The Food and Drug Administration approved the vagus nerve stimulator in 1997 as a way to control seizures in some patients with epilepsy."

Lockhart stated that hiccups can sometimes be cured by pinching the skin that covers the surface of the deltoid muscles, which is supplied by the axillary nerve which shares the c5 nerve root with the phrenic nerve.

Hiccups may be triggered by a number of common human conditions. In rare cases, they can be a sign of serious medical problems.

The effects of myoclonus in an individual can vary depending on the form and the overall health of the individual. In severe cases, particularly those indicating an underlying disorder in the brain or nerves, movement can be extremely distorted and limit ability to normally function, such as in eating, talking, and walking. In these cases, treatment that is usually effective, such as clonazepam and sodium valproate, may instead cause adverse reaction to the drug, including increased tolerance and a greater need for increase in dosage. However, the prognosis for more simple forms of myoclonus in otherwise healthy individuals may be neutral, as the disease may cause few to no difficulties. Other times the disease starts simply, in one region of the body, and then spreads.

It is difficult to determine whether a kitten that goes flat will survive or not. A good indicator is the weight of the kitten: those that continue to gain weight generally have a better chance of survival. Supplement feeding is therefore recommended in all cases, together with vitamin supplements, although many of these kittens will not accept hand feeding. Liquid Paraffin to alleviate colic seems to be significant in assisting normal feeding and weight-gain.

Another indicator to the severity of the case is the use of the stomach when breathing: normal kittens use only the ribcage, a flat-chested kitten may manage to breathe only using the ribcage, or may suck the gut upwards with every breath – if the latter is the case then the likelihood of survival seems to be lower, though still not sufficient to warrant immediate euthanasia. If the condition is stable (i.e. the flatness does not increase over time) or improving, the kitten is more likely to survive. If the condition worsens over several days, survival is less likely.

Kittens with FCKS may die (or have to be euthanased) very soon after onset. There are two points at which breeders report kittens that were otherwise doing well deteriorating and dying: at 10 days of age and at 3 weeks. Generally if the kitten is still flat, but survives the 3-week developmental stage, its prognosis is good. Many will have returned to a normal shape by this time. Those retaining some degree of flatness often grow out of the condition at any point in the ensuing 6 months, and the vast majority of survivors appear to lead normal lives with no side-effects, either physical or immunological.

FCKS kittens that survive but who have not been given any drug treatment or support other than supplementary feeding, generally recover over a period of 4–10 weeks, and are usually normal by 12 weeks of age, though some take as long as 6 months to normalise. In the very small number of kittens reported so far treated with steroids, antibiotics and liquid paraffin (to address colic) recovery is usually seen within a matter of days. Given the number of different types of FCKS these kittens (all with the minor form of the condition) may not be representative of all cases. More data is required for statistical analysis.

A small proportion of severe FCKS kittens are left with long-term respiratory problems, kyphosis, and in some cases cardiac issues caused by the compression of the thorax during the early developmental stages (particularly where the condition has been coupled with Pectus Excavatum). Cardiac issues are generally audible on physical examination; further indications include the kitten becoming breathless after play, less active than siblings, and failure to grow and develop normally.

Treatment is difficult to define given the number of different causes and the wealth of anecdotal information collected by and from cat breeders. Treatments have hitherto been based on the assumption that FCKS is caused by a muscular spasm, and their effectiveness is impossible to assess because some kittens will recover spontaneously without intervention.

Diaphragmatic spasm is easily tested for and treated by short term interruption of the Phrenic nerve. The nerve runs down the outside of the neck where the neck joins to the shoulder, within a bundle of muscles and tendons at this junction. The cluster can be pinched gently and held for a few seconds each time. Kittens with spasmodic FCKS will show almost immediate improvement, but the treatment may need to be repeated several times over a few days as the spasm may have a tendency to recur. [Um für diapragmatisch Sparmus zu prüfen, Sie müssen der Phrenikus finden (es heisst auch der Zwerchfellnerv), der lauft am aussen des Hals, wo der Hals trifft die Schulter. Da gibt es mehrere Muskeln und Sehnen–da es unmoeglich ist die Nerv allein zu finden bzw. kneifen, müssen Sie die ganze Menge zusammen ruhig kneifen für ein paar Sekunden. Wenn es doch diapragmatisch Spasmus ist und Sie das Phrenikus gut kneifest (manchmal aber nicht immer werde die Katze mit den hinteren Beinen kicken), sollen Sie sofort eine Verbesserung anschauen. Es kann sein, dass die Spasmus wieder kommt nachher im kommenden Tage—in dem Fall müssen Sie es nochmal machen. Wenn Sie aber keine Verbesserung siehst, ist der Problem dann leider etwas anders.]

Continuous positive air pressure (CPAP) is used in human babies with lung collapse, but this is impossible with kittens. It is possible that the success of some breeders in curing kittens by splinting the body, thus putting pressure on the ribcage, was successful as it has created the effect of positive air pressure, thus gradually re-inflating the lungs by pulling them open rather than pushing them open as is the case with CPAP.

Research on myoclonus is supported through the National Institute of Neurological Disorders and Stroke (NINDS). The primary focus of research is on the role of neurotransmitters and receptors involved in the disease. Identifying whether or not abnormalities in these pathways cause myoclonus may help in efforts to develop drug treatments and diagnostic tests. Determining the extent that genetics play in these abnormalities may lead to potential treatments for their reversal, potentially correcting the loss of inhibition while enhancing mechanisms in the body that would compensate for their effects.

Predicts mortality risk in pancreatitis with fewer variables than Ranson's criteria. Data should be taken from the first 24 hours of the patient's evaluation.

- BUN >25 mg/dL (8.9 mmol/L)

- Abnormal mental status with a Glasgow coma score <15

- Evidence of SIRS (systemic inflammatory response syndrome)

- Patient age >60 years old

- Imaging study reveals pleural effusion

Patients with a score of zero had a mortality of less than one percent, whereas patients with a score of five had a mortality rate of 22 percent. In the validation cohort, the BISAP score had similar test performance characteristics for predicting mortality as the APACHE II score. As is a problem with many of the other scoring systems, the BISAP has not been validated for predicting outcomes such as length of hospital stay, need for ICU care, or need for intervention.

In predicting the prognosis, there are several scoring indices that have been used as predictors of survival. Two such scoring systems are the Ranson criteria and APACHE II (Acute Physiology and Chronic Health Evaluation) indices. Most, but not all studies report that the Apache score may be more accurate. In the negative study of the APACHE-II, the APACHE-II 24-hour score was used rather than the 48-hour score. In addition, all patients in the study received an ultrasound twice which may have influenced allocation of co-interventions. Regardless, only the APACHE-II can be fully calculated upon admission. As the APACHE-II is more cumbersome to calculate, presumably patients whose only laboratory abnormality is an elevated lipase or amylase do not need assessment with the APACHE-II; however, this approach is not studied. The APACHE-II score can be calculated at www.sfar.org.

Practice guidelines state: