Henry Molaison

Henry Gustav Molaison (February 26, 1926 – December 2, 2008), known widely as H.M., was an American epileptic man who in 1953 received a bilateral medial temporal lobectomy to surgically resect parts of his brain—the anterior two thirds of his hippocampi, parahippocampal cortices, entorhinal cortices, piriform cortices, and amygdalae—in an attempt to cure his epilepsy. Although the surgery was partially successful in controlling his epilepsy, a severe side effect was that he became unable to form new memories.

A childhood bicycle accident is often advanced as the likely cause of H.M.'s epilepsy. H.M. began to have minor seizures at age 10; from 16 years of age, the seizures became major. Despite high doses of anticonvulsant medication, H.M.'s seizures were incapacitating. When he was 27, H.M. was offered an experimental procedure by neurosurgeon William Beecher Scoville. Previously, Scoville had only ever performed the surgery on psychotic patients.

H.M. was extensively studied from late 1957 until his death in 2008. He resided in a care institute in Windsor Locks, Connecticut, where he was the subject of ongoing investigations. His case played an important role in the development of theories that explain the link between brain function and memory, and in the development of cognitive neuropsychology, a branch of psychology that aims to understand how the structure and function of the brain relates to specific psychological processes.

Molaison's brain was kept at University of California, San Diego, where it was sliced into histological sections on December 4, 2009. It was later moved to the MIND Institute at UC Davis. The brain atlas constructed from him was made publicly available in 2014. As a result of his memory loss and his lack of ability to remember, after the lobotomy surgery which severed his hippocampi, Henry Molaison was known as "the man who could not remember".

Researchers argue over the extent of this impairment. He also had moderate retrograde amnesia, and could not remember most events in the one- to two-year period before surgery, nor some events up to 11 years before, meaning that his amnesia was temporally graded.

His case was first reported by Scoville and Brenda Milner in 1957, who referred to him by "H.M." His full name was not revealed to the wider public until after his death. He was able to fill in answers to clues that referred to pre-1953 knowledge. As for post-1953 information, he was able to modify old memories with new informations. For instance, he could add a memory about Jonas Salk by modifying his memory of polio.

Contribution to science

The study of Molaison revolutionized the understanding of the organization of human memory. It has provided broad evidence for the rejection of old theories and the formation of new theories on human memory, in particular about its processes and the underlying neural structures. In the following, some of the major insights are outlined.

Molaison's brain was the subject of an anatomical study funded by the Dana Foundation and the National Science Foundation. The aim of the project, headed by Jacopo Annese, of The Brain Observatory at UC San Diego, was to provide a complete microscopic survey of the entire brain to reveal the neurological basis of Molaison's historical memory impairment at cellular resolution. On December 4, 2009, Annese's group acquired 2401 brain slices, with only two damaged slices and 16 potentially problematic slices. The digital 3D reconstruction of his brain was finished at the beginning of 2014.

The results of the study were published in Nature Communications for January 2014. The researchers found, to their surprise, that half of H.M.'s hippocampal tissue had survived the 1953 surgery, which has deep implications on past and future interpretations of H.M.'s neurobehavioral profile and of the previous literature describing H.M. as a "pure" hippocampus lesion patient. Additionally, a previously unexpected discrete lesion was discovered in the prefrontal cortex. These findings suggest revisiting raw data from behavioral testing. A three-dimensional virtual model of the brain allowed the dynamics of the surgery to be reconstructed; it was found that the brain damage above the left orbit could have been created by Dr. Scoville when he lifted the frontal lobe to reach into the medial temporal lobe.

The article also describes the general neuropathological state of the brain via multiple imaging modalities. As H.M. was 82 when he died, his brain had aged considerably. Several pathological features were discovered, some severe, which had contributed to his cognitive decline.

The digital atlas of HM's brain was made publicly available on the Internet free of charge.

Amnesia

Molaison's general condition has been described as heavy anterograde amnesia, as well as temporally graded retrograde amnesia. Since Molaison did not show any memory impairment before the surgery, the removal of the medial temporal lobes can be held responsible for his memory disorder. Consequently, the medial temporal lobes can be assumed to be a major component involved in the formation of semantic and episodic long-term memories (cf. medial temporal lobes described as a convergence zone for episodic encoding in Smith & Kosslyn, 2007). Further evidence for this assumption has been gained by studies of other patients with lesions of their medial temporal lobe structures. (Corkin, 2002). In a study conducted by Milner in the early 1960s, Molaison acquired the new skill of drawing a figure by looking at its reflection in a mirror (Corkin, 2002). Specifically, H.M. was asked to trace a third star in the narrow space between two concentric stars while only looking at a reflection of his paper and pencil in a mirror. Like most people performing this task for the first time, he did not do well and went outside the lines about 30 times. Milner had him do this task 10 times on each day and saw that the number of errors he made went down for each trial after the first. H.M. made about 20 errors on the second trial, 12 errors on the third, and by the tenth trial on the first day he only made about 5–6 errors. Each time H.M. performed the task, he improved even though he had no memory of the previous attempts or of ever doing the task. On the second day, he made significantly fewer errors for each trial on average, and on the third day he made almost no errors for each trial. Milner concluded that the unconscious motor centers and parts of the brain responsible for procedural implicit memory such as the basal ganglia and cerebellum can remember things that the conscious mind has forgotten. These structures were intact in H.M.’s brain, and thus he was able to do well on this task after repeated trials.

Further evidence for intact motor learning was provided in a study carried out by Corkin (1968). In this study, Molaison was tested on three motor learning tasks and demonstrated full motor learning abilities in all of them.

Experiments involving repetition priming underscored Molaison's ability to acquire implicit (non-conscious) memories, in contrast to his inability to acquire new explicit semantic and episodic memories (Corkin, 2002). These findings provide evidence that memory of skills and repetition priming rely on different neural structures than memories of episodes and facts; whereas procedural memory and repetition priming do not rely on the medial temporal structures removed from Molaison, semantic and episodic memory do (cf. Corkin, 1984).

The dissociation of Molaison's implicit and explicit learning abilities along their underlying neural structures has served as an important contribution to our understanding of human memory: Long-term memories are not unitary and can be differentiated as being either declarative or non-declarative (Smith & Kosslyn, 2007).

Spatial memory

According to Corkin (2002), studies of Molaison's memory abilities have also provided insights regarding the neural structures responsible for spatial memory and processing of spatial information. Despite his general inability to form new episodic or factual long-term memories, as well as his heavy impairment on certain spatial memory tests, Molaison was able to draw a quite detailed map of the topographical layout of his residence. This finding is remarkable since Molaison had moved to the house five years after his surgery and hence, given his severe anterograde amnesia and insights from other cases, the common expectation was that the acquisition of topographical memories would have been impaired as well. Corkin (2002) hypothesized that Molaison "was able to construct a cognitive map of the spatial layout of his house as the result of daily locomotion from room to room" (p. 156).

Memory consolidation

Another contribution of Molaison to understanding of human memory regards the neural structures of the memory consolidation process, which is responsible for forming stable long-term memories (Eysenck & Keane, 2005). Molaison displayed a temporally graded retrograde amnesia in the way that he "could still recall childhood memories, but he had difficulty remembering events that happened during the years immediately preceding the surgery". His old memories were not impaired, whereas the ones relatively close to the surgery were. This is evidence that the older childhood memories do not rely on the medial temporal lobe, whereas the more recent long-term memories seem to do so. and MIT published a rebuttal of some of the allegations in Dittrich's article. This was in turn rebutted by Dittrich, who provided a recording of the interview with Corkin, where she said she had destroyed large amounts of data and files specifically related to H.M. A second rebuttal was issued on August 20, 2016 responding to the criticism leveled against Corkin, including the fact that in this same recorded interview Corkin says that when moving lab locations in the past, other files and data had been discarded, while temporarily "We kept the H.M. stuff".

Psychologist Stuart Vyse writes about this controversy and the action of the two hundred scientists who responded to criticism of Corkin. Vyse states that in their rush to defend Corkin they risked their credibility and authority "by weighing in on subjects outside their circle of knowledge". The "signers responded very quickly" only two days after the release of the NYT article, they were not aware of the "specific claims of bias" and very few of the signers "could have had relevant knowledge of the facts". Consensus of the science is important, but the consensus should be based on actual knowledge of the subject and not as a reaction to "come to the defense of a beloved colleague".

In popular culture

Baxendale (2004) cites Molaison's life as a partial inspiration for Christopher Nolan's 2000 film Memento, the influence of which led to its realistic portrayal of anterograde amnesia.